6 F 2 S 0 8 8 2
INSTRUCTION MANUAL
BUSBAR PROTECTION RELAY
GRB100 - ∗∗∗∗D
(1 Channel/1 BU)
© TOSHIBA Corporation 2009
All Rights Reserved.
( Ver. 2.1)
6 F 2 S 0 8 8 2
Safety Precautions
Before using this product, be sure to read this chapter carefully.
This chapter describes safety precautions recommended when using the GRB100. Before
installing and using the equipment, this chapter must be thoroughly read and understood.
Explanation of symbols used
Signal words such as DANGER, WARNING, and two kinds of CAUTION, will be followed by
important safety information that must be carefully reviewed.
DANGER
Indicates an imminently hazardous situation which will result in death or
serious injury if you do not follow instructions.
WARNING
Indicates a potentially hazardous situation which could result in death or
serious injury if you do not follow instructions.
CAUTION
CAUTION
Indicates a potentially hazardous situation which if not avoided, may result in
minor injury or moderate injury.
Indicates a potentially hazardous situation which if not avoided, may result in
property damage.
⎯ 1 ⎯
6 F 2 S 0 8 8 2
DANGER
• Current transformer circuit
Never allow the current transformer (CT) secondary circuit connected to this equipment to be
opened while the primary system is live. Opening the CT circuit will produce a dangerously high
voltage.
WARNING
• Exposed terminals
Do not touch the terminals of this equipment while the power is on, as the high voltage generated
is dangerous.
• Residual voltage
Hazardous voltage can be present in the DC circuit just after switching off the DC power supply.
It takes approximately 30 seconds for the voltage to discharge.
• Fibre optic
Do not look directly at the optical beam when connecting this equipment via an optical fibre, as
this could injure the eyes.
CAUTION
• Earth
The earthing terminal of the equipment must be securely earthed.
CAUTION
• Operating environment
The equipment must only used within the range of ambient temperature, humidity and dust as
detailed in the specification and in an environment free of abnormal vibration.
• Ratings
Before applying AC voltage and current or the DC power supply to the equipment, check that
they conform to the equipment ratings.
• Printed circuit board
Do not attach and remove printed circuit boards when the DC power to the equipment is on, as
this may cause the equipment to malfunction.
• External circuit
When connecting the output contacts of the equipment to an external circuit, carefully check the
supply voltage used in order to prevent the connected circuit from overheating.
• Connection cable
Carefully handle the connection cable without applying excessive force.
• Modification
Do not modify this equipment, as this may cause the equipment to malfunction.
⎯ 2 ⎯
6 F 2 S 0 8 8 2
• Short-link
Do not remove a short-link which is mounted at the terminal block on the rear of the relay before
shipment, as this may cause the performance of this equipment such as withstand voltage, etc., to
reduce.
• Disposal
This product does not contain expendable supplies nor parts that can be recycled. When disposing
of this product, do so in a safe manner according to local regulations.
This product contains a lithium-ion battery, which should be removed at the end-of-life of the
product. The battery must be recycled or disposed of in accordance with local regulations. The
battery can be removed by withdrawing the Signal Processing module (SPM) from the relay case,
and cutting the connecting leads and plastic strap which hold the battery.
• Plastics material
This product contains the following plastics material.
- ABS, Polycarbonate, Acrylic resins
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Contents
Safety Precautions
1
1.
Introduction
8
2.
Application Notes
10
2.1
2.2
2.3
10
11
13
13
14
16
19
21
22
25
25
25
27
28
34
35
35
35
36
38
40
41
41
42
42
42
43
2.4
2.5
2.6
2.7
2.8
2.9
3.
Application
System Configuration
Current Differential Protection
2.3.1 Operation of Current Differential Protection
2.3.2 Discriminating Zone and Check Zone Protection
2.3.3 Scheme Logic
2.3.4 Stabilizing for CT Saturation in Through-fault Current
2.3.5 Current Transformer Requirements
2.3.6 Setting
Busbar System Replicas and Disconnector Signals
2.4.1 Busbar Replicas Covered by GRB100
2.4.2 Disconnector Signals
Breaker Failure Protection
2.5.1 CBF Scheme logic
2.5.2 Setting
Miscellaneous Protection
2.6.1 Protection during Busbar Bridging
2.6.2 Command tripping
2.6.3 Blind Zone Protection
2.6.4 End Zone Fault Protection
Fault Detector
Characteristics of Measuring Elements
2.8.1 Current Differential Elements DIFCH, DIFZ and DIFSV
2.8.2 Overcurrent element OCBF
2.8.3 Overcurrent element ΣIZ
2.8.4 Fault Detector Elements
Tripping Output
Technical Description
44
3.1
44
44
54
62
62
64
65
66
66
3.2
3.3
Hardware Description
3.1.1 Central Unit
3.1.2 Bay Unit
Input and Output Signals
3.2.1 Input Signals
3.2.2 Binary Output Signals
3.2.3 PLC (Programmable Logic Controller) Function
Automatic Supervision
3.3.1 Basic Concept of Supervision
⎯ 4 ⎯
6 F 2 S 0 8 8 2
3.4
3.5
4.
User Interface
4.1
4.2
4.3
4.4
4.5
4.6
5.
6.
3.3.2 Relay Monitoring
3.3.3 CT Circuit Failure Detection
3.3.4 Differential Current Monitoring
3.3.5 Disconnector and Circuit Breaker Monitoring
3.3.6 Communication Monitoring
3.3.7 BU Address Monitoring
3.3.8 PLC Data and IEC61850 Mapping Data Monitoring
3.3.9 IEC61850 Communication Monitoring
3.3.10 Failure Alarms
3.3.11 Bridge Alarm
3.3.12 Trip Blocking
Recording Function
3.4.1 Fault Recording
3.4.2 Event Recording
3.4.3 Disturbance Recording
Metering Function
66
68
69
69
70
70
70
70
71
72
72
73
73
74
75
77
78
Outline of User Interface
4.1.1 Front Panel
4.1.2 Communication Ports
Operation of the User Interface
4.2.1 LCD and LED Displays
4.2.2 Relay Menu
4.2.3 Displaying Records
4.2.4 Displaying the Status
4.2.5 Viewing the Settings
4.2.6 Changing the Settings
4.2.7 Testing
Personal Computer Interface
Communication Interface
4.4.1 Relay Setting and Monitoring System
IEC 61850 Communication
Clock Function
78
78
80
81
81
84
87
91
96
97
116
121
121
121
122
123
Installation
124
5.1
5.2
5.3
5.4
5.5
124
124
125
125
125
125
126
Receipt of Relays
Relay Mounting
Electrostatic Discharge
Handling Precautions
External Connections
5.5.1 Connection between CU and BUs
5.5.2 Setting of BU
Commissioning and Maintenance
128
6.1
128
Outline of Commissioning Tests
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6.2
6.3
6.4
6.5
6.6
6.7
7.
Cautions
6.2.1 Safety Precautions
6.2.2 Cautions on Tests
Preparations
Hardware Tests
6.4.1 User Interfaces (CU)
6.4.2 Binary Input Circuit
6.4.3 Binary Output Circuit
6.4.4 AC Input Circuits
Function Tests
6.5.1 Measuring Element
6.5.2 Timer Test
6.5.3 Protection Scheme
6.5.4 Metering and Recording
Conjunctive Tests
6.6.1 On Load Test
6.6.2 Tripping Circuit Test
6.6.3 Primary injection test
Maintenance
6.7.1 Regular Testing
6.7.2 Failure Tracing and Repair
6.7.3 Replacing Failed Modules
6.7.4 Resumption of Service
6.7.5 Storage
Putting Relay into Service
129
129
129
130
131
131
132
133
135
137
137
144
146
146
147
147
148
149
150
150
150
154
156
156
157
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Appendix A Busbar Replicas
159
Appendix B Block Diagram
163
Appendix C Signal List
165
Appendix D Variable Timer List
287
Appendix E Binary Output Default Setting List
291
Appendix F Disturbance Record Signal List
311
Appendix G Details of Relay Menu
315
Appendix H Case Outline and Rack Mounting
325
Appendix I
339
Typical External Connections
Appendix J Relay Setting Sheet
347
Appendix K Commissioning Test Sheet (sample)
407
Appendix L Return Repair Form
413
Appendix M Technical Data
431
Appendix N Symbols Used in Scheme Logic
435
Appendix O Sample of Setting Calculation
439
Appendix P IEC60870-5-103: Interoperability
447
Appendix Q IEC61850: MICS & PICS Setting
459
Appendix R Failed Module Tracing and Replacement
495
Appendix S Ordering
505
„ The data given in this manual are subject to change without notice. (Ver.2.1)
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1. Introduction
The GRB100 is a numerical low-impedance busbar differential relay whose main principle is
percentage differential characteristics. It is widely applicable to various busbar configurations
such as single, double and one-and-a-half busbar and also solidly earthed networks.
The GRB100 is a member of the G-series family of numerical relays which utilizes common
hardware modules with the following common features:
The GRB100 provides the following metering and recording functions.
-
Metering
Fault record
Event record
Fault location
Disturbance record
The GRB100 provides the following menu-driven human interfaces for relay setting or viewing
of stored data.
- Relay front panel; 4 × 40 character LCD, LED display and keypad
- Local PC
- Remote PC
Password protection is provided for change settings and test. Eight active setting groups are
provided. This allows the user to set one group for normal operating conditions while other
groups may be set to cover alternative operating conditions.
GRB100 can provide the following serial interface ports:
-
RS232C for a local PC and Relay Setting and Monitoring System (RSM100)
-
RS485 for a remote PC, and Relay Setting and Monitoring System (RSM100) or Substation
control and Automation System (SAS) with IEC60870-5-103 protocol
-
Fibre Optic (FO, option) for a remote PC, and Relay Setting and Monitoring System
(RSM100) or Substation control and Automation System (SAS) with IEC60870-5-103
protocol
-
100BASE-TX, or -FX (option) for Substation control and Automation System (SAS) with
IEC61850 protocol and RSM100
Another interface IRIG-B port is provided for an external clock connection.
The RS232C port is located on the front panel of the relay. Other ports (RS485, FO,
100BASE-TX, -FX and IRIG-B) are located on the rear of the relay.
Further, the GRB100 provides the following functions.
-
Configurable binary inputs and outputs
Programmable logic for I/O configuration, alarms, indications, recording, etc.
Automatic supervision
The GRB100 provides Central Unit (CU) and Bay Unit (BU) so as to use for de-centralized
configuration busbar protection systems.
The GRB100 is composed of one Central Unit (CU) and numbers of Bay Unit (BU) depending on
the required number of channels for the busbar configuration. The CU and BU have the following
model series:
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Relay Type and Model
CU Model:
- GRB100
• Model C310; Applicable to max. 8 channels, 4 zones
• Model C320; Applicable to max. 16 channels, 4 zones
• Model C330; Applicable to max. 24 channels, 4 zones
• Model C340; Applicable to max. 32 channels, 4 zones
• Model C360; Applicable to max. 48 channels, 4 zones
• Model C380; Applicable to max. 64 channels, 4 zones
• Model C410; Applicable to max. 8 channels, 4 zones / With fault detector
• Model C420; Applicable to max. 16 channels, 4 zones / With fault detector
• Model C430; Applicable to max. 24 channels, 4 zones / With fault detector
• Model C440; Applicable to max. 32 channels, 4 zones / With fault detector
• Model C460; Applicable to max. 48 channels, 4 zones / With fault detector
• Model C480; Applicable to max. 64 channels, 4 zones / With fault detector
BU Model:
- GRB100
• Model B301B; 1 channel provided. (2 high-speed contacts)
• Model B311B; 1 channel provided. (6 high-speed contacts)
• Model B411L; 1 channel provided. (6 high-speed contacts) / With LED indication
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2. Application Notes
2.1
Application
The GRB100 provides high-speed, selective and reliable busbar protection for MV, HV and EHV
busbars and is used for the following busbar systems to handle various busbar replicas as shown
in Appendix A:
• Single busbars with/without transfer busbar
• Double busbars with/without transfer busbar
• Ring busbars with/without transfer busbar
• One-and-a-half breaker busbars
The protection detects phase and earth faults on the busbar by employing a phase segregated
current differential scheme. The current differential scheme employed can distinguish correctly
between internal and external faults in the event of CT saturation.
The GRB100 can input a maximum of 64 three-phase currents from feeders, bus-sections and
bus-couplers.
The GRB100 also provides circuit breaker failure protection and end zone fault protection.
Circuit breaker failure protection can be applied to all the breakers of feeders, bus-sections and
bus-couplers.
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6 F 2 S 0 8 8 2
2.2
System Configuration
The GRB100 incorporates a single central unit (CU) and bay-based local units (BUs). The CU
performs current differential protection and breaker failure protection with the currents acquired
by the BUs. The CU also performs metering and recording functions and controls local and
remote human interfaces. The CU can link with up to 64 BUs.
GRB100
CU
Local/Remote
HMI
Fibre Optic cable
VT
BU
BU
CH1
(Channel 1)
CH2
(Channel 2)
CT
BI/BO
CT
…
BU
BU
CH63
(Channel 63)
CH64
(Channel 64)
CT
BI/BO
CT: Current transformer
BI/BO: Binary input and output
BI/BO
CT
BI/BO
VT: Voltage transformer
HMI: Human machine interface
Figure 2.2.1 System Configuration
GRB100 Model C400 series has independent undervoltage elements for fault detectors. The
busbar voltage of each zone is supplied directly to the central unit.
The BUs interface with the primary power system. They input the currents of feeders,
bus-sections and bus-couplers and binary signals such as disconnector open/close status signals,
and they output the trip signal of busbar protection and breaker failure protection to the breaker of
each bay. The local current is sampled at every 7.5 electrical degrees and converted into a 16-bit
digital signal. The sampling timing is synchronized at all BUs based on the sampling signal sent
from the CU.
The high-frequency component and DC component in the input current are removed with an
analogue filter in the BU and a digital filter in the CU respectively.
One BU has one data channel and each channel can acquire three-phase currents and binary
signals from each bay.
The CU identifies the BUs by the address which is set in each BU and transmitted to the CU along
with other data.
Data Link between CU and BUs
The CU and BUs are linked via fibre optic cables with 2.5Mbps data transmission speed.
The per-channel data transmitted from BU to CU are as follows:
Three-phase currents (Ia, Ib, Ic)
Binary input signals (Disconnector N/O and N/C contacts, Breaker contact, Breaker
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6 F 2 S 0 8 8 2
failure protection initiation signal)
BU address
The per-channel data transmitted from CU to BU are as follows:
Synchronizing signal
Trip command of busbar protection
Trip command of breaker failure protection
Programmable signals, e.g. transfer trip command of breaker failure protection
BU out-of-service function
The GRB100 provides the BU out-of-service function for maintenance such as replacement of a
BU if failed. This function is available by LCD setting or PLC setting.
• For the LCD setting, see Section 4.2.7.5.
• For the PLC setting, the BU is out-of-service condition when the PLC output command
BU∗-OUT (No.4960 – No.5023) is established.
Caution: After restoration, remember to reset above to the original setting.
When a BU is out-of-service condition, the relay response is as follows:
• CBF initiation from the BU is blocked.
• Failure related to the BU is not detected.
• The power system quantities related to the BU are displayed as “0” at fault recording and
at metering.
• The BU-OUT signal (No. 3107) is “ON” while any BU is out-of-service.
• The assigned BO can be forcibly operated though the BU is out-of-service.
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6 F 2 S 0 8 8 2
2.3
Current Differential Protection
2.3.1
Operation of Current Differential Protection
Current differential protection calculates the differential current Id and restraining current Ir
employing the incoming and outgoing currents of the protected zone. The calculation is
performed on a per-phase basis.
Id is a vector sum of incoming and outgoing currents and Ir is obtained by summing the absolute
value of incoming and outgoing currents.
Id = I1 + I2 + … + In
Ir = |I1|+ |I2|+ … + |In|
I1
I2
I3
…
In
Figure 2.3.1 Current Differential Protection
Id takes zero in case of the no-fault or through-fault condition and represents the fault current in
case of internal faults. This applies strictly to the primary circuit; it does not apply to the
secondary circuit mainly due to CT measurement error.
In case of internal faults, Id is equal to Ir if all the currents are in-phase, and is smaller than Ir if the
phases are different.
The GRB100 adopts a percentage restraining differential protection which has a non-restraint
characteristic for the small current region and a restraint characteristic in the large current region
to cope with erroneous differential current caused by a through-fault current.
The characteristics are shown in Figure 2.3.2. The minimum operating current is set by DIF and
the restraining factor k can be set 0.30 to 0.90.
Id=Ir
Id
Operate
Id=k×Ir
DIF
Ir
Figure 2.3.2 Percentage Restraining Characteristic
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2.3.2
Discriminating Zone and Check Zone Protection
The GRB100 applies the current differential protection to each individual busbar zone which is
sectioned by the bus-section and bus-coupler switches (described hereafter as discriminating
zone protection) as well as to the overall busbar system (described hereafter as check zone
protection).
Figure 2.3.3 shows the protection application in case of a double-busbar system. The
discriminating zone protections for Zone A and Zone B are overlapped across the bus-coupler
breaker.
Discriminating zone protection
The discriminating zone protection inputs currents and disconnector position signals from
feeders, transformer banks, bus-sections and bus-couplers which are connected to the protected
zone and outputs trip signals to all the circuit breakers of the zone.
The zone covered by the discriminating zone protection depends on the busbar configuration and
varies with the open/close status of the disconnectors. The GRB100 introduces a replica setting
which identifies which circuit is connected to which zone and follows changes in busbar
operation. Up to four zone protections are enabled by employing relevant input currents and
disconnector signals and outputting trip signals to the relevant channels.
Zone A
Discriminating
Zone Protection
Discriminating
Zone Protection
Zone B
Check Zone Protection
Figure 2.3.3 Check Zone and Discriminating Zone Protection
Figure 2.3.4 shows the flow of input signals to the discriminating zone protection elements
DIFZA to DIFZD.
The current and binary input (BI) signals of each channel are normally transmitted to one of the
zone protections (Zone A to Zone D) through the replica setting, but when the bus zones are
bridged, they are transmitted to more than two zone protections. For the zone bridge, see Section
2.3.3.
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Current
CH 1
DIFZA
BI
Current
BI
Replica
Setting
CH 2
DIFZB
・
・
・
Current
DIFZC
DIFZD
CH 64
BI
Figure 2.3.4 Input Signal Flow in Discriminating Zone Protection
Switching disconnectors under normal busbar operation may turn a load current into a false
differential current transiently and the discriminating zone protection may operate if the operating
or resetting time of the disconnector is not coordinated between the main and auxiliary contacts.
The GRB100 provides very selective discriminating zone protection in combination with the
check zone protection described below, hence the time coordination of the main and auxiliary
disconnector contacts need not be considered.
Note: Time coordination of disconnector main and auxiliary contacts is difficult in practice. The
zone discriminating protection is not used independently.
Check zone protection
The check zone protection inputs currents from all feeder bays and transformer bays, performs
the overall differential protection for the entire busbar system and outputs trip signals to all the
circuit breakers of the feeders and transformers. As the protection does not use the disconnector
position signals, the check zone protection is very secure against such false operation in the
no-fault and through-fault conditions.
The characteristic of check zone protection can be changed to the non-restraint characteristic
shown in Figure 2.3.5 by PLC(*) input (Signal No. 4629: DIFCH_CHARA) to ensure the
operation of the check zone protection in case of busbar configuration with a large outgoing
current.
Note (*) PLC: Programmable Logic Controller. See Section 3.2.3 in detail function.
Id=Ir
Id
Operate
Id=0.15×Ir (*)
(*): depends on the equation (1)
in Section 2.3.4.
DIF
Ir
Figure 2.3.5
DIFCH Characteristic after PLC Input
For example, the check zone protection with restraint characteristic will not operate under a
unique condition such as a fault at Zone B in the busbar configuration shown in Figure 2.3.6,
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6 F 2 S 0 8 8 2
because the outgoing current is over half of the incoming current according to the load and fault
current condition. In this case, therefore, the characteristic is changed to non-restraint
characteristic when two out of four disconnectors, which are two bus-sections and two
bus-couplers, are opened. The check zone protection can operate surely.
Zone C
Bus
Section 1
(DS3)
“Close”
Zone A
Load
No.1 Bus
Bus
Coupler 1
(DS1)
“Open”
Bus
Coupler 2
(DS2)
“Close”
No.2 Bus
Fault
Zone B
Bus
Section 2
(DS4)
“Open”
DS3
Load
Zone D
Differential element of Check zone protection
Status of
Disconnector
(BI input)
DS1
DS2
Check Zone Protection
Id=Ir
Id=Ir
Id
Id
2 out of 4
logic
Output
DS4
Operate
Operate
To PLC input
Signal No. 4629
DIF
DIF
Configured by PLC.
Restraint characteristic
Ir
Ir
Non-restraint characteristic
The Restraint characteristic is changed to Non-restraint
characteristic by PLC input signal No.4629.
Figure 2.3.6
2.3.3
Check Zone Protection under Unique Busbar Configuration
Scheme Logic
The GRB100 provides one of the following three protection schemes by the replica setting.
Note: The replica setting will be performed by the panel builder before shipping to the end user.
- ‘Check zone protection’: The tripping command is transmitted to all bays except bus-section
and bus-coupler bays when the check zone protection element operates.
- ‘Discriminating zone protection’: The tripping command is transmitted to all bays in the
faulty zone when the discriminating zone protection element operates.
- ‘Discriminating zone and check zone protection’: The tripping command is transmitted to all
bays in the faulty zone only when both of the discriminating zone protection and check
zone protection operate.
Note: ‘Discriminating zone protection’ is applied only to protect a busbar that has duplicated
GRB100s (for example, to protect a very important busbar system): one of the GRB100s is set
for ‘Discriminating zone protection’ and the other for ‘Check zone protection’.
In the ‘Check zone protection’, overall protecting current differential element DIFCH outputs trip
signals to all the feeder bays and transformer bays. The trip signals can be blocked with the binary
input signals (busbar protection block: BP_BLOCK-A and BP_BLOCK-B). If there is any
discrepancy between both input signals, the previous value is hold as shown in Figure 2.3.7.
⎯ 16 ⎯
6 F 2 S 0 8 8 2
DIFCH
+
BI2
BI4
1041
4609 BP_BLOCK-A
1043
Previous value is hold
if any discrepancy
between both inputs
4611 BP_BLOCK-B
1
1536
43BP
&
Trip All Feeders
DIFCH Non CTF
Configured by PLC. (Default setting)
(From Figure 3.3.1)
Figure 2.3.7 Check Zone Protection
In the ‘Discriminating zone protection’, up to four zone protecting current differential elements
DIFZA to DIFZD are provided. Each channel outputs the trip signal by checking which zone the
channel is connected to.
For example, if CH1 is connected to Zone A, then CH1-ZA=1 and CH1-ZB=CH1-ZC
=CH1-ZD=0. The CH1 outputs the trip signal only when DIFZA operates.
Thus the zone elements DIFZA to DIFZD output trip signals to the feeder, bus-section and
bus-coupler channels which are connected to Zone A to Zone D respectively. The trip signals are
blocked with the binary input signals BP_BLOCK-A and -B.
In the ‘Discriminating zone and check zone protection’, the trip signals are transmitted to the
feeder, bus-section and bus-coupler channels connected to the faulty zone when both of the
discriminating zone and check zone protection elements operate. The channel is selected in the
discriminating zone protection. The trip signals are blocked with the BP_BLOCK-A and -B.
1075-1077
1586 60ms by PLC
&
1081-1083
DIFZC
4673 0
1587
&
1084-1086
DIFZD
t
60ms by PLC
4674 0
t
1588 60ms by PLC
4609 BP_BLOCK-A
4611 BP_BLOCK-B
Previous value is hold
if any discrepancy
between both inputs
&
1
1536
43BP
4675 0
t
≥1
≥1
UVGZA
OVGZA
1347-1349
1344 -1346 1384
≥1
60ms by PLC
(From Figure 3.3.1)
≥1
≥1
&
&
CH1-ZD
&
Replica Setting
UVGZB
OVGZB
≥1
CH64TRIP
4624 DIFFS-ZA
&
1353
CH64-ZA
DIFZB Non CTF
UVSZB
CH1TRIP
CH1-ZC
DIFZA Non CTF
1385
CH1-ZB
≥1
(Default setting)
UVSZA
&
CH1-ZA
・・・・・
t
・・・・・
DIFZB
4672 0
・・・・・
1585
&
1078-1080
・・・・・
DIFZA
1357-1359
1388
1354 -1356
1387
(From Figure 3.3.1)
CH64-ZB
≥1
&
4625 DIFFS-ZB
&
1363
CH64-ZC
DIFZC Non CTF
UVSZC
UVGZC
OVGZC
UVSZD
UVGZD
OVGZD
1367-1369
1391
1364 -1366
1390
(From Figure 3.3.1)
≥1
CH64-ZD
&
Replica Setting
4626 DIFFS-ZC
1600
1373
&
1377-1379
DIFZD Non CTF
1394
1374 -1376 1393
1601
(From Figure 3.3.1)
≥1
&
1602
4627 DIFFS-ZD
&
1383
Fault Detector (*)
1603
Configured by PLC. (Default setting)
BP-TRIP
Note (*): Fault detector is provided in Model C400 series and composed by PLC. See Section 2.7.
Figure 2.3.8
Discriminating Zone Protection
⎯ 17 ⎯
&
DIF-ZA_TRIP
DIF-ZB_TRIP
DIF-ZC_TRIP
DIF-ZD_TRIP
6 F 2 S 0 8 8 2
DIFCH
1584
1072 -1074
&
≥1
4676 0 t
4628 DIFFS
(Default: Constant “1”)
60ms by PLC
Discriminating Zone Protection
&
2272
CH1-BPTP
CH1 TRIP
&
CH2 TRIP
&
CH64 TRIP
2273
CH2-BPTP
2335
CH64 -BPTP
1594
≥1
BP-TRIP
Figure 2.3.9 Discriminating Zone and Check Zone Protection
In the following busbar replica and disconnector contact status, two zones are treated as bridged
and all the feeder currents are sent to both discriminating zone protections and all feeders in both
zones are tripped for a fault in either zone.
- The bus-section has no breaker and the disconnector in the bus-section is closed.
Zone A
DS
Figure 2.3.10
Zone B
Bus-section without Breaker
- The bus-section has a breaker but it is by-passed by a disconnector in a closed status.
DS
Zone B
Zone A
Figure 2.3.11
Busbar with By-pass Disconnector
⎯ 18 ⎯
6 F 2 S 0 8 8 2
2.3.4
Stabilizing for CT Saturation in Through-fault Current
For current differential protection of busbars, a counter measure against CT saturation is
essential. If any CTs saturate due to a large through-fault current, an apparent differential current
is generated in the differential circuit and causes false operation of the differential protection.
Operation Principle
Even when any CTs saturate under very large primary currents, the waveform of the saturated CT
secondary current has two periods in each cycle: a non-saturation period and a saturation period.
The GRB100 utilizes this phenomenon and provides very secure operation for external faults
with a large through-fault current.
Figure 2.3.15 shows a block diagram of a CT saturation countermeasure (CTSC). CTSC has a
waveform discriminating element (WDE) and starting element (SE). WDE operates if a change in
the instantaneous value of the differential current is less than a specified percentage of a change in
the instantaneous value of the restraining current. In the CT non-saturation period, the differential
current is theoretically zero for through-fault currents. This element operates in this period.
The evolving fault detection element (EVD) detects that the no-change period of differential
current does not exist, and resets CTSC function in the case of an evolving fault from an external
fault to an internal fault.
Current
Input
Differential Element
(DIFCH, DIFZ)
Tripping
Output
&
Waveform Discriminating
Element (WDE)
0
&
t
&
3 cycles
Starting Element (SE)
CTSC
Starter
Evolving fault
detection
t
0
element (EVD)
1 cycle
Figure 2.3.15
EVD
Differential Element with CT Saturation Countermeasure
The algorithm of this element is given by equations (1) to (3):
ΔId < 0.15×(ΔIp + ΔIn)
(1)
ΔId = |Idm – Idm-1| + |Idm-1 – Idm-2|
(2)
ΔIp + ΔIn = |Ipm – Ipm-1| + |Ipm-1 – Ipm-2|
+ |Inm – Inm-1| + |Inm-1 – Inm-2|
where,
ΔId : Change in the differential current Id
⎯ 19 ⎯
(3)
6 F 2 S 0 8 8 2
(ΔIp + ΔIn) : Change in the restraining current in the positive and negative cycles
Id : Differential current
Ip : Sum of positive input currents
In : Sum of negative input currents
m, m-1, m-2 : Sampling timing
SE operates when the sum of absolute values of difference between instantaneous values of
current data at each channel part from one cycle is greater than a specified percentage of a
minimum operating current setting DIF.
n
∑|ijm – ij(m-24)| > 0.5×DIF
j=1
where,
Ij : Current from # j channel
DIF : DIFCH and DIFZ setting in check zone and discriminating zone protection
n : Number of channels
SE discriminates the power system in the faulty state from that in the normal service state and
blocks the output of WDE which may operate in the normal service condition.
Figure 2.3.16 shows CT secondary current waveforms of the incoming terminal and the outgoing
terminal current and the differential current at the time of an external fault with outgoing terminal
CT saturation.
Incoming terminal
current
Outgoing terminal
current
Differential
current
No change period
Figure 2.3.16
CT Secondary Current Waveforms and Differential Current for an External
Fault with CT Saturation
From the inception of a fault until the CT secondary current at the outgoing terminal saturates, the
differential current Id is zero and the change in the differential current ΔId obtained from
equation (2) is also zero. However, the change in the restraining current given by equation (3) is a
sufficiently large positive value, so equation (1) is met and WDE operates.
SE detects changes in the terminal currents and rapidly operates, producing an AND output with
WDE. After this, since there is a period during which equation (1) is not satisfied, a certain time
delay is inserted to reliably block the operation of the differential element.
If, during an internal fault, there is a period during which the change in the instantaneous value of
the differential current is small due to CT saturation, WDE will not operate because the change in
⎯ 20 ⎯
6 F 2 S 0 8 8 2
the restraining current is also small during that period. Thus, during an internal fault, operation of
the differential element is not blocked falsely.
In the case of an evolving fault from an external fault to an internal fault, CTSC is reset by the
evolving fault detection element (EVD) if a change in the instantaneous value of the differential
current is more than a specified value. GRB100 operates tripping without delay under such faults.
2.3.5
Current Transformer Requirements
The GRB100 does not require the use of dedicated CTs nor the use of CTs with an identical ratio.
The GRB100 can share the CTs with other protections and the different ratios are adjusted by
setting.
The general CT requirements are set for the through-fault stability which comes up when any CTs
saturate under very large through-fault currents. To ensure correct operation of the GRB100 for
such through-fault currents, the factor Ks of each CT is required to satisfy the following
conditions:
Ks ≧ 1 when Tc ≦ 200ms
or
Ks ≧ 2 when Tc ≦ 250ms
where,
Ks = ratio of CT knee point voltage to CT secondary probable voltage under the maximum
through-fault current
= Vk / {(RCT + RL + RB + RO )(IFmax / CT ratio)}
Tc = d.c. time constant of primary circuit
Vk = knee point voltage of CT
RCT = resistance of CT secondary winding
RL = loop resistance of cable between CT and relay
RB = ohmic load of GRB100 bay unit (i.e. 0.1 ohm for 1A rating and 0.012 ohm for 5A rating)
RO = ohmic load of other series-connected relays (if any)
IFmax = maximum through-fault current
For example, if the following parameters are given:
Vk = 800 V, CT ratio = 1,200/1, RCT = 5.0 ohm, RL = 3.0 ohm, RB = 0.1 ohm,
RO = 0 ohm (i.e. no series-connected relays) and IFmax = 40kA
then the factor Ks is calculated as:
Ks = 800/{(5.0 + 3.0 + 0.1)×(40,000/1,200) }
= 800/270
= 3.0
This shows that the GRB100 operates correctly for all the faults under the condition that the d.c.
time constant of the primary circuit is less than 250ms.
⎯ 21 ⎯
6 F 2 S 0 8 8 2
2.3.6
Setting
The following shows the setting elements necessary for the current differential protection and
their setting ranges.
Element
Range
Step
Default
Remarks
DIFCH
500 − 3,000A
1A
2000A
Minimum operating current of check zone protection
in primary circuit value
DIFZ
500 − 3,000A
1A
2000A
Minimum operating current of discriminating zone
protection in primary circuit value
SLPCH
0.30 – 0.90
0.01
0.30
Restraining factor of check zone protection
SLPZ
0.30 – 0.90
0.01
0.30
Restraining factor of discriminating zone protection
1CT to 64CT
100 − 10,000A
1A
2000A
Set with CT primary rating of up to 64 CTs
C.TP
BLK / Trip
BLK
Coupler CB tripped or not under bridge condition
DIF setting
The discriminating zone protection has up to four zones but the minimum operating current
setting is common to each zone with DIFZ setting.
The setting of DIF (DIFCH and DIFZ) is determined from the minimum fault IFmin current that
can occur on the busbar fault. For example;
DIF setting < 0.8 × IFmin
The setting is based on the primary circuit value, so IFmin is a primary value. The CT ratios or the
difference of the CT ratios between the channels can be disregarded in the setting.
If the minimum operating current is set too low when the CT primary rating is high, the operation
error of the differential element is increased as shown in Figure 2.3.17. (Figure 2.3.17 shows the
theoretical maximum error.) If it is required to keep the accuracy of minimum operating current
less than 5%, the following condition must be checked for the DIFCH and DIFZ setting obtained
above depending on the total number of channels.
0.64 × CT primary rating < DIF setting for 49 - 64 channels
0.50 × CT primary rating < DIF setting for 33 - 48 channels
0.40 × CT primary rating < DIF setting for 25 - 32 channels
0.34 × CT primary rating < DIF setting for 17- 24 channels
0.28 × CT primary rating < DIF setting for 9 - 16 channels
0.23 × CT primary rating < DIF setting for 1 - 8 channels
⎯ 22 ⎯
6 F 2 S 0 8 8 2
10
9
64 Channels
48 Channels
32 Channels
24 Channels
16 Channels
8 Channels
8
Error (%)
7
6
5
4
3
2
1
0
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
DIF Setting/CT Primary Rating
Figure 2.3.17
0.8
0.9
1
Accuracy Check
CT setting
CT settings are set for each channel with a primary rating.
BU address setting
BU address setting is to define the channel number. The channel number can be set the range of
CH 1 to CH64 with the rotary switch and jumper pins of BU. For details, see the section 5.5.2.
Jumper pin (JP5,JP6)
4
2 3 56
1
7
8
0
9
F
A
E
DC B
Rotary switch
BUM1
⎯ 23 ⎯
6 F 2 S 0 8 8 2
In case of mixed 1A and 5A CT rating
When the CT secondary rating is different between feeders, the matching can be done as follows:
(Configuration)
As shown in Figure 2.3.18, a 1A rating BU is connected to a CT with secondary rating 1A and a
5A rating BU is connected to a CT with secondary rating 5A.
Busbar
CT ratio:
1000/1A
CH“n”
BU
1A rating
CT ratio:
1200/1A
CH“n+1”
BU
1A rating
CT ratio:
2000/5A
CH“n+2”
BU
5A rating
CU
1A rating
Figure 2.3.18
Example of CT Ratio Matching
(Setting)
In Figure 2.3.18,
(1) CT primary setting (1CT – 64CT) is as follows:
nCT = 1000A
n+1CT = 1200A
n+2CT = 2000A
(2) OCBF overcurrent setting (1OCB – 64OCB) is as follows:
For example, when setting OCBF to 800A at CT primary current,
nOCB = 800A / (1000 / 1) = 0.8
n+1OCB = 800A / (1200 / 1) = 0.6
n+2OCB = 800A / (2000 / 5) = 2.0
For OCBF setting, see the section 2.5.2.
(Note)
In the metering menu, the CT primary current indication or the CT secondary current indication
can be selected by the setting switch. (See the section 4.2.6.6.) If the CT secondary indication is
selected, note that the CT secondary current of CH“n+2” (5A rating) is indicated as (1/5) × (actual
value). The CT primary current is correctly indicated.
⎯ 24 ⎯
6 F 2 S 0 8 8 2
2.4
Busbar System Replicas and Disconnector Signals
2.4.1
Busbar Replicas Covered by GRB100
The GRB100 can be applied to single-, double- and ring-busbar systems with or without a
transfer busbar. Application to the one-and-a-half breaker busbar system takes the same format as
application to the single-busbar system.
The busbar system replicas which the GRB100 covers are shown in Appendix A. (Feeders and
transformer banks connected to the busbars are abbreviated in the figures.)
The busbar can be sectioned into up to four zones, Zone A to Zone D with bus-section switches
S1 to S4 and bus-coupler switches C1 to C4.
E1 to E4 show the end of busbars and are used to expand the busbar system and protection
system.
Single-busbar
The replicas can be with or without a transfer busbar and have up to three bus-sections S1 to S3
and four bus-couplers C1 to C4 for a transfer busbar.
When the replica has a transfer busbar, the transfer busbar is connected to any of the busbar zones
through one of the bus-couplers.
Double-busbar
The replicas can be with or without a transfer busbar and have up to two bus-sections S1 and S2
and three bus-couplers C1 to C3.
When the replica has no transfer busbar, either of the busbars can double as a transfer busbar.
When the replica has an independent transfer busbar, the transfer busbar is connected to any of
the busbar zones through one of the bus-couplers.
Ring-busbar
The replicas can be with or without a transfer busbar and have up to four bus-sections S1 to S4
and four bus-couplers C1 to C4 for a transfer busbar connection.
When the replica has no transfer busbar, the busbar can be sectioned into two to four zones with
bus-sections S1 to S4.
When the replica has a transfer busbar, the transfer busbar is connected to any of the busbar zones
through one of the bus-couplers.
2.4.2
Disconnector Signals
Disconnector open/closed position signals are required to determine the busbar replica.
One normally open (N/O) and one normally closed (N/C) auxiliary contacts are required to
evaluate the disconnector position. Figure 2.4.1 and Table 2.4.1 show the disconnector position
evaluation. In Figure 2.4.1, the logic levels of N/O contact signal DS-NO, N/C contact signal
DS-NC and evaluated disconnector position signal DS are “1” for the closed position and “0” for
the open position.
⎯ 25 ⎯
6 F 2 S 0 8 8 2
DS-NO
≧1
DS
DS-NC
Figure 2.4.1
Disconnector Evaluation Logic
Table 2.4.1
DS-NO (N/O Contact)
DS Position Evaluation
DS-NC (N/C Contact)
DS Position Evaluation
Open
Closed
Open
Closed
Open
Closed
Open
Open
Closed and Failure Alarm
Closed
Closed
Closed and Failure Alarm
When both of the N/O and N/C contacts are simultaneously in the open or closed position, the
disconnector is evaluated to be in the closed position and a failure alarm is issued by the
monitoring function. (See Section 3.3.5.)
If the disconnector fails, the evaluation above operates as follows:
If the N/O contact is in the closed position or the N/C contact is in the open position incorrectly
when the main contact is open, the main contact is evaluated to be in the closed position, differing
with the actual position.
In single- and ring-busbars, the zone protection introduces the current of the failed disconnector,
but incorrect operation is not caused because the main contact is open and the current is zero. In
double-busbars, the zone protection regards the busbars as bridged. If busbar faults occur in this
period, both zone protections operate and trip all the feeders. The zone protections do not operate
for the load current or external faults.
If the N/O contact is in the open position or the N/C contact is in the closed position incorrectly
when the main contact is closed, the main contact evaluation accords with the actual position, so
incorrect operation is not caused.
Note: If only one of the N/O and N/C auxiliary contacts is transmitted, the main contact
evaluation and monitoring is invalid. The main contact position is evaluated with the input
N/O or N/C signal. Failure of an auxiliary contact may cause an incorrect operation of the
discriminating zone protection.
The N/O and N/C auxiliary contact signals are sent to the BU and evaluated in the CU. For the
disconnector signal input, refer to Section 3.2.1 and Appendix I.
⎯ 26 ⎯
6 F 2 S 0 8 8 2
2.5
Breaker Failure Protection
When a fault remains uncleared due to a breaker failure, the breaker failure protection (CBF)
clears the fault by tripping the local adjacent breakers or a breaker at a remote line end.
If the current continues to flow following the output of a trip command, the CBF judges it as a
breaker failure. The existence of the current is detected by an overcurrent element OCBF
provided for each phase and each primary circuit. For high-speed operation of the CBF, a
high-speed reset overcurrent element is used.
The GRB100 covers three patterns:
-
When a feeder breaker fails to trip for a busbar fault, the CBF sends a transfer trip signal to a
breaker at the remote end of the line, after retripping the original breaker.
Remote end
Feeder1
Zone A
Zone B
Correct trip
Failed to trip
Transfer trip
Figure 2.5.1 Busbar Fault with Feeder Breaker Failure
-
When a feeder breaker fails to trip for a line fault, the CBF is initiated by a trip signal from the
external line protection equipment and trips adjacent breakers connected to the zone to which
the faulty breaker is connected, after retripping the original breaker.
Remote end
Feeder1
Zone A
Zone B
Correct trip
Failed to trip
Trip by CBF
Figure 2.5.2 Feeder Fault with Feeder Breaker Failure
-
When a bus-section or bus-coupler breaker fails to trip for a busbar fault, the CBF trips feeder
breakers, bus-section breaker and bus-coupler breaker in the adjacent zone.
Zone A
Remote end
Zone B
Correct trip
Failed to trip
Trip by CBF
Figure 2.5.3
Busbar Fault with Bus-selection Breaker Failure
⎯ 27 ⎯
6 F 2 S 0 8 8 2
2.5.1
CBF Scheme logic
GRB100 provides the following two CBF scheme logics:
• Parallel initiation of the retrip timer (TnB1) and backtrip timer (TnB2)
• Series initiation of the retrip timer (TnB1) and backtrip timer (TnB2)
The parallel initiation (BF1) or the series initiation (BF2) can be selected by the scheme switch
[BFLOGIC] setting.
Parallel initiation (BF1)
The CBF scheme logic is provided for each channel. Figure 2.5.4 shows the scheme logic for one
channel. The BF1 scheme is available when the [BFLOGIC]=BF1 setting.
The CBF is performed on an individual phase basis and initiated by a trip signal CHn-EXTTP-A
(B, C) from an external protection or an internal trip signal BP TRIP. Starting with an external trip
signal can be disabled by the scheme switch [nBFEXT]. These trip signals must be present as long
as the fault persists.
The signal nCBF-TRIP to trip the adjacent breakers is initiated if the overcurrent element nOCBF
operates continuously for the setting time of the delayed pick-up timer TnB2 after the start-up.
Tripping of the adjacent breakers can be blocked with the scheme switch [nBF2].
The signal CBF-TRIP in a feeder channel is valid when the CBF is initiated with an external trip
signal.
There are two kinds of mode of the retrip signal to the original breaker RETRIP: the mode in
which RETRIP is controlled by the overcurrent element nOCBF, and the direct trip mode in
which RETRIP is not controlled. The retrip mode together with the trip block can be selected with
the scheme switch [nBF1].
The remote terminal transfer trip signal CHn-CBF.TR is provided in feeder channels and
bus-coupler channels. The signal in a bus-coupler channel is available only when the transfer
busbar is in service.
Note: “n” shows the channel number which is 1 to 64.
The remote circuit breaker can be tripped after the stage-1 timer TnB1 not waiting the stage-2
timer by the scheme switch [BFTRIO].
The concerned bus zone tripping and the remote CB tripping are carried out without a time delay
by the binary input signal CHn-CBFIO (e.g. under pressure relays of SF6 etc.).
The trip signals are blocked with the binary input signals (CBF protection block:
CBF_BLOCK-A and CBF_BLOCK-B).
⎯ 28 ⎯
6 F 2 S 0 8 8 2
4610 CBF_BLOCK-A
Previous value is hold
if any discrepancy
between both inputs
4612 CBF_BLOCK-B
1537
1
43CBF
TnB2
Ａ
nOCBF Ｂ
Ｃ
1152
≥1
＆
≥1
＆
≥1
＆
≥1
1153
nCBF-TRIP
≥1
t 0
1154
nBF2
2208
t 0
t 0
ON
≥1
4896 CHn-CBFCB
＆
CBF-TRIP
(Feeder channel)
＆
TnB1
2144
t 0
CBF initiation command
＆
≥1
＆
≥1
＆
≥1
≥1
nCBF-RETRIP
≥1
t 0
t 0
nBF1
TOC
≥1
＆
≥1
CHn-EXTTP-A
CHn-EXTTP-B
CHn-EXTTP-C
nBFEXT
BFTRIO
1952
＆
≥1
＆
≥1
＆
≥1
＆
2464
≥1
&
CHn-CBF.TR
&
1953
＆
1954
≥1
＆
nBF1
ON
T
n :1 - 64
BP TRIP
The signal Nos. indicated
are for CH1.
≥1
4688 CHn-EXT-BPTP
4752 CHn-CBFIO (ex. Gas press low)
UVSZA
UVGZA
UVDZA
OVGZA
UVSZB
UVGZB
UVDZB
OVGZB
UVSZC
UVGZC
UVDZC
OVGZC
UVSZD
UVGZD
UVDZD
OVGZD
1347-1349
1344 -1346
1385
1384
1353
≥1
4657 CBFTRFS-ZB
Zone Selection
(Select the zone which
CHn is connected to.)
≥1
1388
1387
1354 -1356
1360 -1362 0 t
1363
2.1 s
1367-1369
1364 -1366
1389
1391
1390
1370 -1372 0 t
4600 CBFTRFS-NOUSE
≥1
4658 CBFTRFS-ZC
≥1
4659 CBFTRFS-ZD
1392
2.1 s
1377-1379
1374 -1376
1394
1393
1380 -1382 0 t
1383
4656 CBFTRFS-ZA
2.1 s
1357-1359
1373
≥1
1386
1350 -1352 0 t
1395
2.1 s
Fault Detector (*)
Configured by PLC.
Figure 2.5.4
Note (*): Fault detector is provided in Model C400 series and composed by PLC.
See Section 2.7.
Scheme Logic of Breaker Failure Protection BF1
⎯ 29 ⎯
6 F 2 S 0 8 8 2
Figure 2.5.5 shows a sequence diagram of the CBF when a retrip and backtrip are used. If the
breaker trips normally, the nOCBF is reset before timer TnB1 or TnB2 is picked up and the CBF
is reset.
If the nOCBF continues operating, a retrip command is given to the original breaker after the
setting time of TB1. Unless the breaker fails, the nOCBF is reset by the retrip. The TnB2 is not
picked up and the CBF is reset. This may happen when the CBF is started by mistake and
unnecessary tripping of the original breaker is unavoidable.
If the original breaker fails, retrip has no effect and the nOCBF continues operating and the TnB2
is picked up finally. A trip command nCBF-TRIP is issued to the adjacent breakers and the CBF
is completed.
Fault
Start CBF
Trip
Adjacent
breakers Closed
Open
TRIP
Retrip
Normal trip
Original
breaker Closed
Open
Open
Tcb
Tcb
nOCBF
Toc
Toc
TB1
TnB1
RETRIP
TB2
TnB2
nCBFTRIP
Tcb: operating time of the original breaker
Toc: reset time of the overcurrent element nOCBF
Figure 2.5.5
Sequence Diagram of BF1
Series initiation (BF2)
The BF2 scheme is available when the [BFLOGIC]=BF2 setting.
In the series initiation BF2 logic, the retrip timer (TnB1) and backtrip timer (TnB2) are initiated
in series from a trip signal as shown in Figure 2.5.6.
When the CBF is initiated by feeder protection trip (external trip signal), the TnB1 and TnB2 are
energized in series. The TnB2 starts after the set time of TnB1 has elapsed, and the nCBF-TRIP is
output.
When the CBF is initiated by busbar protection trip, only the TnB2 is energised and the
nCBF-TRIP is output after the set time of the TnB2.
When the BF2 scheme is used, the [BFTRIO] setting should be “OFF”.
⎯ 30 ⎯
6 F 2 S 0 8 8 2
4610 CBF_BLOCK-A
Previous value is hold
if any discrepancy
between both inputs
4612 CBF_BLOCK-B
1537
1
43CBF
TnB2
Ａ
nOCBF Ｂ
Ｃ
1152
＆
≥1
≥1
＆
≥1
≥1
＆
≥1
1153
nCBF-TRIP
≥1
≥1
t 0
1154
nBF2
2208
t 0
≥1
t 0
ON
＆
CBF-TRIP
(Feeder channel)
≥1
4896 CHn-CBFCB
＆
TnB1
CBF initiation command
nBF1
2144
t 0
＆
≥1
＆
≥1
＆
≥1
≥1
nCBF-RETRIP
≥1
t 0
t 0
TOC
＆
≥1
≥1
CHn-EXTTP-A
CHn-EXTTP-B
CHn-EXTTP-C
nBFEXT
BFTRIO
1952
＆
＆
ON
1953
＆
＆
1954
&
2464
≥1
&
CHn-CBF.TR
≥1
＆
＆
nBF1
ON
T
n :1 - 64
BP TRIP
The signal Nos. indicated
are for CH1.
≥1
4688 CHn-EXT-BPTP
4752 CHn-CBFIO (ex. Gas press low)
UVSZA
UVGZA
UVDZA
OVGZA
UVSZB
UVGZB
UVDZB
OVGZB
UVSZC
UVGZC
UVDZC
OVGZC
UVSZD
UVGZD
UVDZD
OVGZD
1347-1349
1344-1346
1385
1384
1353
≥1
4657 CBFTRFS-ZB
Zone Selection
(Select the zone which
CHn is connected to.)
≥1
1388
1387
1354 -1356
1360 -1362 0 t
1363
2.1 s
1367-1369
1364 -1366
1389
1391
1390
1370 -1372 0 t
4660 CBFTRFS-NOUSE
≥1
4658 CBFTRFS-ZC
≥1
4659 CBFTRFS-ZD
1392
2.1 s
1377-1379
1374 -1376
1394
1393
1380 -1382 0 t
1383
4656 CBFTRFS-ZA
2.1 s
1357-1359
1373
≥1
1386
1350-1352 0 t
1395
2.1 s
Fault Detector (*)
Configured by PLC.
Figure 2.5.6
Note (*): Fault detector is provided in Model C400 series and composed by PLC.
See Section 2.7.
Scheme Logic of Breaker Failure Protection BF2
⎯ 31 ⎯
6 F 2 S 0 8 8 2
Figure 2.5.7 shows a sequence diagram of the BF2 scheme.
Fault
Start CBF
Trip (∗)
Adjacent
breakers Closed
Trip
Open
TRIP
Retrip
Normal trip
Original
breaker Closed
Open
Open
Tcb
Tcb
nOCBF
Toc
Toc
TB1
TnB1
RETRIP
TB2 (∗)
TB2
TnB2
nCBFTRIP
Tcb: operating time of the original breaker
Toc: reset time of the overcurrent element nOCBF
Note(∗): “
” shows the sequence in case of busbar protection trip.
Figure 2.5.7
Sequence Diagram of BF2
The CBF-TRIP signal is output not only to all the channels of the original zone but also to
adjacent zones if the original zone and adjacent zone(s) are bridged as follows:
- Bus-section is connected with a disconnector and has no circuit breaker.
- Bus-section has a breaker but it is by-passed by a disconnector.
- Busbars are bridged with disconnectors in the double-busbar system.
Figure 2.5.8 shows the CBF-TRIP signal distribution logic. The CBF of each channel outputs a
trip signal nCBF-TRIP (n=1 to 64) to the original zone according to the replica setting. Thus the
tripping zone(s) is fixed.
For example, if Zone A is connected to channel 1 and Zone A and Zone B are bridged, then
ZA-CH1=1 and ZB-CH1=1. The CBF of channel 1 generates Zone A and Zone B trip signals
ZA-TRIP and ZB-TRIP.
Each channel outputs the trip signal by checking which zone the channel is connected to.
For example, if channel 1 is connected Zone A, then CH1-ZA=1 and CH1-ZB=CH1-ZC
=CH1-ZD=0. Channel 1 outputs the trip signal only when the signal ZA-TRIP is generated.
Fault detectors (undervoltage elements UVSZ∗, UVGZ∗ and UVDZ∗) as fail-safe can be
connected the signals CBFFS-Z∗ by PLC function.
⎯ 32 ⎯
6 F 2 S 0 8 8 2
TBFDO
2336
0 t
1CBF-RETRIP
&
0.00-10.00s
2528
TBFDO
&
ZA-CH1
1590
≥1
…
1CBF-TRIP
&
0 t
0.00-10.00s
&
CH1-ZA
…
ZB-CH1
≥1
&
≥1
CH1-CBF/RE
(CH1 TRIP)
≥1
TBFDO
&
2400
1591 0 t
&
0.00-10.00s
CH1-ZB
ZC-CH1
…
TBFDO
&
≥1
&
1592 0 t
&
0.00-10.00s
CH1-ZC
…
TBFDO
&
ZD-CH1
≥1
&
1593 0 t
0.00-10.00s
・・・・・
・・・・・
・・・・・
・・・・・
・・・・・
・・・・・
Replica Setting
・・・・・
・・・・・
Replica Setting
&
CH1-ZD
TBFDO
0
64CBF-RETRIP
&
2399
t
2591
0.00-10.00s
64CBF-TRIP
2463
&
CH64-ZA
&
ZA-CH64
≥1 CH64-CBF/RE
(CH64 TRIP)
≥1
&
ZB-CH64
&
CH64-ZB
&
CH64-ZC
&
CH64-ZD
&
ZC-CH64
ZD-CH64
&
Replica Setting
Replica Setting
Constant 1 (*2)
UVSZA
UVGZA
UVDZA
OVGZA
UVSZB
UVGZB
UVDZB
OVGZB
1
1347 -1349
1385
1384
1344 -1346
1350 -1352 0 t
1353
2.1 s
OVGZC
UVSZD
UVGZD
UVDZD
OVGZD
≥1
Constant 1 (*2)
1388
1354 -1356
1387
1360 -1362 0 t
1364 -1366
4644 CBFFS-NOUSE
Constant 1 (*2)
1391
1390
1370 -1372 0 t
1373
2.1 s
4641 CBFFS-ZB
≥1
1389
2.1 s
1367 -1369
UVSZC
UVGZC
UVDZC
Zone Selection
(Select the zone which
CHn is connected to.)
1386
1
1357 -1359
1363
4640 CBFFS-ZA
≥1
1
4642 CBFFS-ZC
≥1
1392
Constant 1 (*2)
1
1377- 1379
1394
1393
1374 -1376
1380 -1382 0 t
1383
≥1
4643 CBFFS-ZD
Note (*1): Fault detector is provided in Model 400 series and composed by PLC.
See Section 2.7.
(*2): If Fault detector is not used in Model C400 series, assign the signal No. 1
(Constant 1).
1395
2.1 s
Fault Detector (*1)
Configured by PLC.
Figure 2.5.8
CBF Trip Signal Distribution
⎯ 33 ⎯
6 F 2 S 0 8 8 2
Inter trip scheme at busbar fault
If the busbar protection fails to trip the circuit breaker, the remote circuit breaker is tripped after
the stage-1 timer TnB1 not waiting the stage-2 timer. This function can be available by the setting
of [BFTRIO].
Command tripping (Gas pressure low inter tripping)
The lockout function of the respective circuit breaker (e.g. under pressure relays of SF6 etc.) is
introduced in GRB100 relay and sets to zero both stage-1 (TnB1) and stage-2 (TnB2) timers. The
concerned bus zone tripping and the remote CB tripping are carried out without a time delay by
the binary input signal CHn-CBFIO. The actual tripping logic of command tripping is shown in
Figure 2.5.4.
2.5.2
Setting
The setting elements necessary for the breaker failure protection and their setting ranges are as
follows. The setting is required for each channel excluding the TBFDO and [BFTRIO].
Element
Range
Step
Default
Remarks
nOCB
0.1 − 2.0
0.1
0.8
OCBF overcurrent setting (multiples of
secondary rated current)
TnB1
0 − 500ms
1ms
150ms
Retrip (stage-1) timer
TnB2
0 − 500ms
1ms
200ms
Backtrip (stage-2) timer
TBFDO
0.00 – 10.00s
0.01s
0.10s
CBF operation drop-off timer
[BFLOGIC]
BF1/BF2
BF1
CBF logic option
[nBFEXT]
ON/OFF
OFF
External start
[nBF1]
T/TOC/OFF
OFF
Retrip mode
[nBF2]
ON/OFF
OFF
Adjacent breaker trip
[BFTRIO]
ON/OFF
OFF
Remote trip operating time control
n: 1 – 64 (depends on the model)
The overcurrent element nOCBF checks that the breaker has opened and the current has
disappeared. Therefore, since it is allowed to respond to the load current, it can be set from 10 to
200% of the rated current.
The settings of TnB1 and TnB2 are determined by the opening time of the original breaker (Tcb
in Figure 2.5.5) and the reset time of the overcurrent element (Toc in Figure 2.5.5). The timer
setting example can be obtained as follows.
Setting of TnB1 = Breaker opening time + nOCBF reset time + Margin
= 40ms + 15ms + 20ms
= 75ms
Setting of TnB2 = Output relay operating time + Breaker opening time
+ nOCBF reset time + Margin
= 10ms + 40ms + 15ms + 10ms
= 75ms
⎯ 34 ⎯
6 F 2 S 0 8 8 2
2.6
Miscellaneous Protection
2.6.1
Protection during Busbar Bridging
- Two busbars are bridged during switching a feeder in the double-busbar system.
The bridge is detected with the N/O and N/C contacts of the two disconnectors.
Zone A
Zone B
DS-A
DS-B
DS-A
BRIDGE
DS-NO
≧1
&
DS-NC
CB
DS-B
DS-NO
DS-F
≧1
DS-NC
Figure 2.6.1
Bridging in Double-busbar System
During this bridging, tripping of the bus-coupler breaker is enabled or disabled by setting the
switch [C.TP]. The switch [C.TP] is applied to both busbar protection and CBF protection.
2.6.1.1
Discriminating zone protection during bridging
In case of zones during bridging, the zones are treated as one zone and the discriminating zone
protection range is expanded to be able to continue the protection. In Figure 2.6.2, for example,
the discriminating zone protection expands the protective range. Zone A is expanded to cover
Zone B while Zone A and Zone B are bridged. Zone B is also expanded to cover Zone A.
Zone A
Zone B
Zone C
Zone C
Zone A
Zone D
Zone B
Zone D
Check Zone
Check Zone
No-Bridging
Figure 2.6.2
2.6.2
During Bridging
Discriminating Zone Protection during Bridging
Command tripping
GRB100 provides the command tripping function which executes a tripping by a trip signal from
an external protection panel, etc. If applied, the trip signal is assigned to the trip command
initiation signal CHn-COM.TP by PLC function. The command trip function can be disabled by
the scheme switch [COMTP].
Note: “n” shows the channel number which is 1 to 64.
⎯ 35 ⎯
6 F 2 S 0 8 8 2
2592
CHn-ZA
CHn-ZB
CHn-COMTP
≥1
＆
＆
CHn-ZC
＆
CHn-ZD
＆
Replica setting
4816 CHn-COM.TP
COMTP
n :1 - 64
＆
The signal Nos. indicated
are for CH1.
ON
Figure 2.6.3
2.6.3
Command Tripping
Blind Zone Protection
In the bus-section and bus-coupler, it is normal to arrange two CTs, one on either side of the
breaker so as two discriminating zone protections to overlap across the breaker.
CB
Zone A
Zone B
CHk
Figure 2.6.4
CHj
Normal CT Arrangement in Bus-section or Bus-coupler
If CTs are arranged on one side of the breaker or one CT is used for both zones, the protection
zones do not overlap across the breaker and so the zone between the CTs and the breaker remains
as a blind zone. One of the discriminating zone protections (Zone A in the example shown below)
operates for the fault in the blind zone but the other (Zone B protection) does not and the fault is
not cleared.
Zone A
CB
Fault
Zone B
CHk
Figure 2.6.5
CHj
CT Arrangement Leaving Blind Zone
The GRB100 provides a backup protection for blind zone faults. It controls the current of the
bus-section or bus-coupler where the blind zone exists to zero in the discriminating zone
protection after the breaker is tripped by one of the discriminating zone protections and makes the
protection of the other zone operate.
Zero ampere control for the bus-section and bus-coupler current continues one second after the
breaker is opened.
One normally open auxiliary contact of the breaker is required for this protection and the
auxiliary contact operation is assumed not to be more than 25ms earlier than the main contact
operation. If the auxiliary contact operation is earlier than the main contact operation by more
than 25 ms, the zero ampere control may function before the main contact opens and the
discriminating zone protection may operate incorrectly to faults in the adjacent zone.
If the contact signal is not initiated, the function is disabled.
⎯ 36 ⎯
6 F 2 S 0 8 8 2
Note: The setting for this function will be performed by the panel builder.
Protection in Operating Busbar with Bus-section Open
If the busbar is operated with a bus-section open as shown in Figure 2.6.6, Zone A protection
operates unnecessarily for a fault between the breaker and the CT. To avoid this unnecessary
operation, the GRB100 provides a function to control the bus-section current to zero in the
discriminating zone protection and to enable only the faulted zone protection to operate.
Zone B
Zone A
CHk
CHj
Operated normally
open status
Figure 2.6.6
Operation with Bus-section Open
Figure 2.6.7 shows the bus-section current control logic and its time-chart. The zero ampere
control is continuous. Therefore to keep security, the function requires both of the normally open
(N/O) and normally closed (N/C) auxiliary contacts of the breaker. The main contact is evaluated
to be open only when the N/O contact is open in three phases as well as when the N/C contact is
closed in three phases. When both of the N/O and N/C contacts are simultaneously in the open or
closed position, a failure alarm is issued.
The zero ampere control must be reset before the breaker main contact closes and establishes after
the main contact opens. To fulfill this requirement, the N/O and N/C contacts must have the
following time characteristics for the main contact:
- Normally open contact closes or normally closed contact opens before the main contact
closes.(*)
Note (*): The "CB close command" is useful for an improvement in requirements of high-speed
normally open contact or normally closed contact. See Figure 2.6.8.
- Normally open contact opens or normally closed contact closes after the main contact opens.
This function is valid for the blind zone protection too.
Note: The setting for this function will be performed by the panel builder.
GRB100
CB-A
①
CB-B
PC
≥1
CB-C
CB-A
CB-B
CB-C
PC
1
Zero Ampere Control
1
Closed
Open
Main contact
N/O contact
N/C contact
①
Zero ampere
control
Figure 2.6.7
Zero Ampere Control Logic and Time Chart
⎯ 37 ⎯
6 F 2 S 0 8 8 2
CB close command
GRB100
CB-A
①
CB-B
PC
CB-C
CB-A
CB-B
CB-C
PC
1
≥1
Zero Ampere Control
1
Closed
Open
Main contact
N/O contact
N/C contact
CB close
command
①
Zero ampere
control
Figure 2.6.8
2.6.4
Zero Ampere Control Logic and Time-chart by Using CB Close Command
End Zone Fault Protection
GRB100 provides the function of the end zone fault protection to protect the zone between the CT
(Current Transformer) and the CB (Circuit Breaker) when the CB is open.
If a fault occurs between CB-A and CT in the CT location of the busbar protection as shown in
Figure 2.6.9, the busbar differential relay cannot operate normally. In this case, the fault can be
cleared by the end zone fault protection. The end zone fault protection clears the fault by
controlling this CHn bay current ICHn to zero under CB-A open to enable the busbar differential
relay to operate and by tripping the circuit breaker CB-B. The condition of CB-A must be input
by the binary input signal (PLC signal).
Opposite
terminal
Busbar
CB-L
ICHn
Line
DS-L
CB-A open
CT DS-B closed
Fault
Figure 2.6.9
CB-C
CHn
CB-B
End Zone Fault Protection (1)
If a fault occurs between CB-A and CT in the CT location of the busbar protection as shown in
Figure 2.6.10, the end zone fault protection prevents the busbar differential relay from operating
by controlling this CHn bay current ICHn to zero under CB-A open, and issues a transfer trip
command to the circuit breaker CB-L at the opposite end and clears the fault.
⎯ 38 ⎯
6 F 2 S 0 8 8 2
Opposite
terminal
Busbar
ICHn
CB-A open
Line
DS-L closed
CB-L
CT
CHn
Figure 2.6.10
CB-C
DS-B
Fault
CB-B
End Zone Fault Protection (2)
Figure 2.6.11 shows the scheme logic. When 1OCBF element operates under open of CH1 CB,
the relay issues a transfer trip command CH1-EFP.TR and trips the opposite end CB. The timer
TCBO is used to make sure the CB open and its default setting is 1.00s. To enable the function of
end zone fault protection, the signal CH1-EFPTR ON is assigned by PLC function. The function
of other channels CH2 to CH64 are same as CH1.
OCBF elements are shared with the breaker failure protection (CBF).
The end zone fault protection for all channels is disabled by the scheme switch EFPTR.
18
A
≥1
&
CH1-EFP.TR
(CH1 transfer trip command)
1OCBF B
C
TCBO
CH1 CB_CLOSE
t
1
0
0.00 – 10.00s
5088 CH1-EFPTR ON
1026
A
≥1
&
CH64-EFP.TR
(CH64 transfer trip command)
64OCBF B
C
TCBO
CH64 CB_CLOSE
t
1
0
0.00 – 10.00s
5151 CH64-EFPTR ON
EFPTR
ON
Figure 2.6.11
Scheme logic of End Zone Fault Protection (2)
Setting
The setting elements necessary for the end zone fault protection and their setting ranges are as
follows.
Element
Range
Step
Default
Remarks
nOCB
0.1 − 2.0
0.1
0.8
OCBF overcurrent setting (multiples of secondary rated current)
TCBO
0.00 − 10.00s
0.01s
1.00s
EFPTR
OFF / ON
OFF
⎯ 39 ⎯
6 F 2 S 0 8 8 2
2.7
Fault Detector
GRB100 Model C400 series is provided with a fault detector (FD) which functions as a check
relay for tripping and enhances security against non-power system fault tripping.
Zone A
Zone C
∗V∗FC
∗V∗FA
Zone B
Zone D
∗V∗FB
Figure 2.7.1
∗V∗FD
FD Available Busbar Replicas
The FD incorporates the phase fault and earth fault detecting undervoltage elements UVSF
(UVSZA - UVSZD) and UVGF (UVGZA – UVGZD) and undervoltage change detection
elements UVDF (UVDZA – UVDZD) and earth fault overvoltage elements OVGF. The elements
are allocated to each busbar zone shown in Figure 2.7.1. UVSF, UVGF and OVGF are used for
the differential protection and UVDF for the breaker failure protection.
Tripping output circuit
Figure 2.3.8 shows the tripping logic circuit of discriminating zone protection when the FD is in
service. Figure 2.5.6 shows the tripping logic of CBF protection when the FD is in service.
Setting
The FD element setting ranges are shown in the table below.
Element
Range
Step
Default
UVSF
60 - 100V
1V
80V
UVGF
20 - 60V
1V
46V
OVGF
0.1 - 10.0V
0.1V
10.0V
VTA to VTD
1 - 20000
1
2000
⎯ 40 ⎯
Remarks
VT ratio
6 F 2 S 0 8 8 2
2.8
Characteristics of Measuring Elements
2.8.1
Current Differential Elements DIFCH, DIFZ and DIFSV
The segregated-phase current differential elements used for discriminating zone (DIFZ) and
check zone protections (DIFCH) have the non-restraint characteristic for the small current region
and the percentage restraint characteristic for the large current region. The non-restraint
characteristic defines the minimum sensitivity (operating current).
Figure 2.8.1 shows the characteristics on the differential current (Id) and restraining current (Ir)
plane. Id and Ir are the vector and scalar summations of all input currents, respectively.
The non-restraint characteristic of the DIF (DIFCH or DIFZ) element is expressed by the
following equation:
Id ≥ DIF
where DIF is a setting and defines the minimum operating current.
The percentage restraint characteristic is expressed by the following equation:
Id ≥ k × Ir (k = 0.30 to 0.90)
The latter characteristic has stronger restraint and prevents the element from operating falsely in
response to the erroneous differential current that is caused by saturation or transient errors of the
CT during an external fault.
The characteristic of DIFCH can be changed to the characteristic shown in Figure 2.8.2 by PLC
input (Signal No. 4629: DIFCH_CHARA) to ensure the operation of the check zone protection in
case of the busbar configuration with a large outgoing current. (See Section 2.3.1.)
Id=Ir
Id
Operate
Id= k×Ir
DIF
Ir
Figure 2.8.1
Current Differential Element (Ir-Id Plane)
Id=Ir
Id
Operate
Id=0.15×Ir (*)
DIF
(*): depends on the equation (1)
in Section 2.3.4.
Ir
Figure 2.8.2
DIFCH Characteristic after PLC Input
⎯ 41 ⎯
6 F 2 S 0 8 8 2
The same characteristic can be represented on the outgoing current (Iout) and incoming current
(Iin) plane as shown in Figure 2.8.3. This representation is useful when testing the percentage
restraint characteristic by inputting the outgoing and incoming simulating currents.
Iout=Iin
Iout
Operate
Iin
DIF
Figure 2.8.3 Current Differential Element (Iin-Iout Plane)
The non-restraint characteristic is expressed by
Iout ≤ Iin – DIFI
The percentage restraint characteristic is expressed by
Iout ≤ {(1−k)/(1+k)}Iin
The supervisory element DIFSV used for differential current monitoring has a non-restraint
characteristic.
2.8.2
Overcurrent element OCBF
The OCBF measures three-phase currents. This element is used for the breaker failure protection.
2.8.3
Overcurrent element ΣIZ
The ΣIZ measures the restraining current Ir of each zone.
This element is prepared for each zone, and its operating sensitivity is fixed to 20% of DIFZ
setting.
2.8.4
Fault Detector Elements
The fault detector incorporates the following three fault detection elements.
Undervoltage change detection element UVDF
The UVDF operates if a voltage drops by 7% compared to that of two cycles before. Therefore,
the operating sensitivity of this element is related not to the rated voltage but to the running
voltage. The UVDF can detect the voltage drop in the system condition SIR≥0.1 as a fault
detector for CBF initiation. (SIR: Source Impedance Ratio, see Appendix O.)
Undervoltage element UVSF and UVGF
The UVSF measures a phase-to-phase voltage while the UVGF measures a phase-to-earth
voltage.
Overvoltage element OVGF
The OVGF measures zero-sequence voltage for detecting an earth fault.
⎯ 42 ⎯
6 F 2 S 0 8 8 2
2.9
Tripping Output
Figure 2.9.1 shows the tripping output circuit. The trip signal generated in the central unit is
delivered to up to 64 BUs (channels), though only CH1 is expressed in the figure. The figure
shows the case when ‘Discriminating zone and check zone protection’ is selected.
BU(Bay Unit)
CU(Central Unit)
CH1
Check Zone
Protection
(Figure 2.3.7)
CH1 TRIP
&
CH2 TRIP
&
・・・
Discriminating
Zone Protection
(Figure 2.3.8)
Tripping Output
Relay
t
60ms
(settable by PLC)
To channel 2 to 64
CH64 TRIP
Breaker Failure
Protection
(Figure 2.5.4 &
Figure 2.5.6)
0
&
0
CH1 TRIP
t
100ms (settable by PLC)
CH1 TRANSFER TRIP (User Programmable)
・・・
CH2 TRIP
CH2 TRANSFER TRIP
To channel 2 to 64
CH64 TRIP
CH64 TRANSFER TRIP
Figure 2.9.1
Tripping Output Circuit for CH1
The trip signal of busbar protection drives high-speed tripping output relays. The tripping output
relays reset 60ms after the trip signal disappears by clearing the fault. The tripping circuit must be
opened with the auxiliary contact of the breaker prior to reset of the tripping relay to prevent the
tripping relay from directly interrupting the tripping current of the breaker.
The trip signal of breaker failure protection drives tripping output relays. The output relay resets
100ms after the trip signal disappears by clearing the fault.
⎯ 43 ⎯
6 F 2 S 0 8 8 2
3. Technical Description
3.1
Hardware Description
The GRB100 is composed of one Central Unit (CU) and numbers of Bay Unit (BU) depending on
the required channels. The CU and BU are housed in individual cases.
3.1.1
Central Unit
3.1.1.1
Outline of Hardware Modules
Case outline of the Central Unit (CU) is shown in Appendix H.
The hardware structure of the CU is shown in Figure 3.1.1. The front view shows the equipment
without the human machine interface module.
The CU consists of the following hardware modules. The human machine interface module is
provided with the front panel.
• Transformer module (VCT)
• Signal processing module (SPM7)
• Front-end processing module (FEP3) and extension optical module (XOP1)
• Binary input and output module (IO)
• Human machine interface module (HMI)
Front view without front panel
VCT
SPM7 FEP3-1 XOP1-1 XOP1-2 XOP1-3 FEP3-2 XOP1-1 XOP1-2 XOP1-3 IO8
IO2A
Figure 3.1.1 Hardware Structure
FEP3 and XOP1 modules incorporated in CU depend on relay model as follows:
⎯ 44 ⎯
6 F 2 S 0 8 8 2
Module
CU
Model C∗1∗
Model C∗2∗
Model C∗3∗
Model C∗4∗
Model C∗6∗
Model C∗8∗
VCT
x
x
x
x
x
x
SPM7
x
x
x
x
x
x
FEP3-1
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
FEP3-2
x
x
XOP1-1
x
x
XOP1-1
XOP1-2
XOP1-3
XOP1-2
x
XOP1-3
x
IO8
x
x
x
x
x
x
IO2A
x
x
x
x
x
x
⎯ 45 ⎯
6 F 2 S 0 8 8 2
The hardware block diagrams of the CU using these modules are shown in Figure 3.1.2.
From/to bay units
via optical fibres
From/to BU1
From/to BU8
Front-end Processing Module1 (FEP3-1)
+ Extension Optical
O/E S/P
Module1 (XOP1)
E/O P/S
O/E S/P
E/O P/S
Signal Processing Module (SPM7)
DC/DC
Converter
DC
power
supply
MPU
Analog
filter
From/to BU 32
Binary I/O Module (IO8)
A/D
Converter
MPU
O/E S/P
E/O P/S
Binary input
×12
Binary
input
signals
From/to BU33
FEP3-2+XOP1: same as FEP3-1+XOP1
Binary output
×3
From/to BU64
Opt. I/F
or
Ethernet
LAN I/F
Transformer Module (VCT)
AC input
voltage
VT×12
Remote
PC
Binary I/O Module (IO2A)
Binary input
×3
External
clock
IRIG-B
port
Binary output
×14
RS485
Liquid crystal display
40characters×4lines
Local
personal
computer
RS232C
I/F
Binary
input
signals
Binary
output
signals
Alarm
Human Machine Interface (HMI)
LEDs
Binary
output
signals
Transceiver
Operation keys
Monitoring jacks
Figure 3.1.2 Hardware Block Diagram of CU
⎯ 46 ⎯
Remote
PC
6 F 2 S 0 8 8 2
3.1.1.2
Transformer Module
The transformer module (VT module) insulates between the internal and external circuits through
an auxiliary transformer and transforms the magnitude of AC input signals to suit the electronic
circuits for the relay model with FD elements.
There are 12 auxiliary VTs mounted in the transformer module. (For the correspondence between
the relay model and number of AC input signals, see Table 3.2.1.)
The transformer module is also provided with an IRIG-B port. This port collects the serial IRIG-B
format data from the external clock for synchronization of the relay calendar clock. The IRIG-B
port is insulated from the external circuit by a photo-coupler. A BNC connector is used as the
input connector.
VAa
VAb
VAc
VBa
VBb
V
Bc
VCa
VCb
Signal
processing
module
VCc
VDa
VDb
VDc
IRIG-B port
External
clock
BNC connector
Figure 3.1.3 Transformer Module of CU
⎯ 47 ⎯
6 F 2 S 0 8 8 2
3.1.1.3
Signal Processing Module
The signal processing and communication module (SPM7) incorporates a signal processing
circuit and a communication control circuit. Figure 3.1.4 shows the block diagram.
The signal processing circuit consists of main processing unit (MPU) and memories (RAM and
ROM), etc. The MPU carries out operations for the measuring elements and scheme logic
operations for protection, recording, displaying and signal transmission control.
The SPM7 contains a lithium-ion battery, which should be removed at the end-of-life of the
product. The nominal backup time of a lithium-ion battery is one year after the shipment from the
factory.
The SPM7 can be provided with Optical interface or Ethernet LAN interface for serial
communication system.
FEP3
modules
MPU1
BUS
I/F
RAM
ROM
BUS
I/F
IO
modules
Optical I/F
(Option)
Ethernet LAN
I/F (Option)
Figure 3.1.4 Signal Processing Module
⎯ 48 ⎯
Link with Serial
communication
system
6 F 2 S 0 8 8 2
3.1.1.4
Front-End Processing Module and Extension Optical Module
The front-end processing module (FEP3) incorporates front-end processing and communication
control circuits.
The FEP3 consists of an MPU executing control processing of received data, memories (RAM
and ROM), parallel-to-serial (P/S) and serial-to-parallel (S/P) data converter, and electricalto-optical (E/O) and optical-to-electrical (O/E) converter for 8 channels.
External Optical Module (XOP1) consists of E/O and O/E converter for 8 channels. XOP1 is
added according to the necessary number of channels.
From/to bay units via
optical fibres
From/to BU1
FEP3
O/E
S/P
E/O
P/S
I/F
ROM
RAM
From/to BU 8
O/E
S/P
E/O
P/S
XOP1-1
From/to BU 9
From/to BU 16
O/E
S/P
E/O
P/S
O/E
S/P
E/O
P/S
MPU
XOP1-2
From/to BU 17
From/to BU 24
O/E
S/P
E/O
P/S
O/E
S/P
E/O
P/S
XOP1-3
From/to BU 25
From/to BU 32
O/E
S/P
E/O
P/S
O/E
S/P
E/O
P/S
Figure 3.1.5 FEP3 and XOP1 Module
⎯ 49 ⎯
SPM7
module
6 F 2 S 0 8 8 2
3.1.1.5
Binary Input and Output Module of CU
There are two types of binary input and output module (IO module):IO#1(IO8) and IO#2(IO2A).
IO#1(IO8) Module
The IO8 module incorporates a DC/DC converter, 12 photo-coupler circuits (BI1-BI12) for
binary input signals and 3 auxiliary relays (BO1 – BO3) for binary output signals.
The input voltage rating of the DC/DC converter is 48/60V, 110V/125V or 220V/250V. The
normal range of input voltage is −20% to +20%.
Photo-coupler
Binary
input
signals
Auxiliary relay
BI1
BO1
BI2
BO2
BI3
BO3
BI4
BI12
(P)
DC
power
supply (N)
Line
filter
DC/DC
converter
+5V
FG
Figure 3.1.6 IO#1(IO8) Module
⎯ 50 ⎯
Binary
output
signals
6 F 2 S 0 8 8 2
IO#2(IO2A) Module
The IO2A module incorporates 3 photo-coupler circuits (BI13-BI15) for binary input signals, 14
auxiliary relays (BO1-BO13 and FAIL) for binary output signals and two RS485 transceivers.
The auxiliary relay FAIL has one normally closed contact, and operates when a relay failure or
abnormality in the DC circuit is detected. BO1 to BO13 each have one normally open contact.
The RS485 transceivers are used for the link with the relay setting and monitoring (RSM) system,
and substation control and monitoring system by communication protocol IEC 60870-5-103. The
external signal is insulated from the relay internal signal.
Auxiliary relay
BO1
Photo-coupler
BI13
BO2
Binary
input
signals
BI14
BO3
(× 3)
BI15
BO4
Binary
output
signals
BO13
FAIL
Insulation
Circuit
RS-485
Trans ceiver
Figure 3.1.7 IO#2(IO2A) Module
⎯ 51 ⎯
Link with
RSM system
or Substation control
& monitoring system
(IEC60870-5-103)
6 F 2 S 0 8 8 2
3.1.1.6
Human Machine Interface (HMI) Module
The operator can access the GRB100 via the human machine interface (HMI) module of the
central unit (CU). As shown in Figure 3.1.8, the HMI module has a liquid crystal display (LCD),
light emitting diodes (LED), view and reset keys, operation keys, testing jacks and an RS232C
connector on the front panel.
The LCD consists of 40 columns by 4 rows with a backlight and displays record, status and
setting data.
There are a total of 8 LED indicators and their signal labels and LED colors are defined as
follows:
Label
Color
Remarks
IN SERVICE
Green
Lit when relay is in service.
TRIP
Red
Lit when trip command is issued.
ALARM
Red
Lit when failure is detected.
TESTING
Red
Lit when test condition is set.
(LED1)
Red
(LED2)
Red
(LED3)
Red
(LED4)
Red
LED1 to LED4 are user-configurable and no label is sealed there.
Once it has started operating, the TRIP LED continues to operate even after the trip command
disappears. Pressing the RESET key resets it. Other LEDs operate as long as a signal is present.
The RESET key is ineffective for these LEDs.
The VIEW key starts the LCD indication and switches between windows. The RESET key
clears the LCD indication and turns off the LCD backlight.
The operation keys are used to display the record, status and setting data on the LCD, input the
settings or change the settings.
The monitoring jacks and two pairs of LEDs, A and B, on top of the jacks can be used while the
test mode is selected in the LCD window. Signals can be displayed on LED A or LED B by
selecting the signal to be observed from the "Signal List" or "Variable Timer List" and setting it in
the window and the signals can be transmitted to an oscilloscope via the monitoring jacks. (For
the "Signal List" or "Variable Timer List", see Appendix C or D.)
The RS232C connector is a 9-way D-type connector for serial RS232C connection. This
connector is used for connection with a local personal computer.
⎯ 52 ⎯
6 F 2 S 0 8 8 2
BUSBAR PROTECTION
Liquid
crystal
display
Light
emitting
diode
GRB100
C4 20D-22-10
1A
100 /110 /115 /120 V
50Hz
Operation
keys
•
Figure 3.1.8 HMI of CU (Front Panel)
⎯ 53 ⎯
6 F 2 S 0 8 8 2
3.1.2
Bay Unit
3.1.2.1
Outline of Hardware Modules
The hardware structure of the BU is shown in Figure 3.1.9. The front view shows the equipment
without the front panel.
The BU consists of the following hardware modules.
• Transformer module (CT)
• Bay unit module 1 (BUM1)
• Bay unit module 2 (BUM5)
• Front panel
Front view without front panel
CT
BUM1 BUM5
Standard Model
CT
BUM1 BUM5-1 BUM5-2
Model with LED indication (option)
Figure 3.1.9 Hardware Structure of BU
Case outline of the Bay Unit (BU) is shown in Appendix H.
⎯ 54 ⎯
6 F 2 S 0 8 8 2
The hardware block diagrams of the BU using these modules are shown in Figure 3.1.10.
Transformer
Module (CT)
Bay Unit Module 1 (BUM1)
DC/DC
DC
power
supply
Converter
AC input
Analogue
Current
Of Bay
CT×3
f ilter
Multiplexer
and
A/D
Converter
P/S
S/P
E/O
O/E
Binary input
×3
Binary output
×2
From/To
central unit
Binary input
signals
(programmable)
Programable
Binary output
signals
Bay Unit Module 2 (BUM5)
Binary input
×7
DS/CB
status input
(programmable)
Binary output
(High speed)
×2 or ×6
DIF trip
command
Binary output
×8
Binary output
signals
(programmable)
Figure 3.1.10 Hardware Block Diagram of BU
⎯ 55 ⎯
6 F 2 S 0 8 8 2
3.1.2.2
Transformer Module CT
The transformer module (CT module) insulates between the internal and external circuits through
an auxiliary transformer and transforms the magnitude of AC input signals to suit the electronic
circuits.
Figure 3.1.11 shows a block diagram of the transformer module. There are 3 auxiliary CTs
mounted in the transformer module.
Transformer module
Ia
Ib
BUM1
Ic
Figure 3.1.11 Transformer Module of BU
⎯ 56 ⎯
6 F 2 S 0 8 8 2
3.1.2.3
Bay Unit Module
There are two types of module: BUM1 and BUM5.
BUM1 Module
The bay unit module 1 (BUM1) consists of an analogue filter, multiplexer, analogue to digital
(A/D) converter, DC/DC converter, photo-coupler circuits (BI11 to BI13) for binary input signals
and 2 auxiliary relays.
The analogue filter performs low-pass filtering for the corresponding current and voltage signals.
The A/D converter has a resolution of 16 bits and samples input signals at sampling frequencies
of 2400 Hz (at 50 Hz) and 2880 Hz (at 60 Hz).
The input voltage rating of the DC/DC converter is 48V/60V, 110V/125V or 220V/250V. The
normal range of input voltage is −20% to +20%.
The auxiliary relays BO1 and BO2 have one normally open contact.
From
VCT
module
Analogue filter
Analogue filter
A/D
converter
Multiplexer
From/to CU unit
P/S
E/O
S/P
BUM5
module
Analogue filter
Photo-coupler
Auxiliary relay
BI11
BO1
BI12
Binary
input
signals
BO2
BI13
(P)
DC
power (N)
supply
Line
filter
Optical fibre
O/E
DC/DC
converter
Binary
output
signals
+5V
FG
Figure 3.1.12 BUM1 Module
BUM5 Module
In the GRB100-B311B and -B301B, the bay unit module BUM5 incorporates 7 photo-coupler
circuits (BI1-BI7) for binary input signals, 4 auxiliary relays and 2 or 6 high-speed auxiliary
relays for tripping command.
In the GRB100-B411L, two modules (BUM5-1 and BUM5-2) are used and total 14
photo-coupler circuits, 4 auxiliary relays and 2 or 6 high-speed auxiliary relays for tripping
command. Further, 18 LEDs (LED1 to LED18) are provided. Each LED is linked with a BI or a
BO and drove by the output of BI or BO. (Refer to Section 3.1.2.4.)
The tripping command auxiliary relays are the high-speed operation type and have one normally
open output contact.
⎯ 57 ⎯
6 F 2 S 0 8 8 2
Photo-coupler
BI1
Auxiliary relay
(high speed)
Auxiliary relay
(high speed)
TP1-1
BI5
TP1-2
BI2
Binary
input
signals
TP1
TRIP-1
TP2
TRIP-2
TRIP-1
TP1-3
BI6
TP2-1
BI3
Auxiliary relay
TRIP-2
TP2-2
BI7
BO3
TP2-3
BI4
BO4
Auxiliary relay
BO3
Binary outputs
(configurable)
X4
BO4
Binary outputs
(configurable)
X4
BO5
BO5
BO6
BO6
Model B301B
Note: Binary input signals are same
as Model B311B.
Model B311B
Auxiliary relay
(high speed)
Photo-coupler
Binary
input
signals
TB3
BI1
LED1
BI5
LED2
TP1-2
BI2
LED3
TP1-3
BI6
LED4
TP1-1
LED13
LED14
TP2-1
BI3
LED9
TP2-2
BI7
LED10
TP2-3
BI4
LED11
TB4
BI1
LED5
BI5
LED6
BI2
LED7
BI6
LED8
BI3
LED12
BI7
TRIP-1
TRIP-2
Auxiliary relay
LED15
BO3
LED1 6
BO4
Binary outputs
(configurable)
X4
LED17
BO5
LED18
BO6
BI4
Model B411L (BUM5-1, BUM5-2)
Figure 3.1.13 BUM5 Module
⎯ 58 ⎯
6 F 2 S 0 8 8 2
3.1.2.4
Front Panel of Bay Unit
The front panel provides a green LED. The LED is lit when DC power is supplied.
BUSBAR PROTECTION
BAY UNIT
POWER
Type GRB100
Model B311B-22-10
In
1A
fn
50Hz
Vdc 110/125Vdc
Made in Japan
Figure 3.1.14 Front Panel of BU (GRB100-B301B, -B311B)
The bay unit can provide LEDs for indication of binary input and output status as option.
BUSBAR PROTECTION
BAY UNIT
POWER
LED1
No label is
sealed.
LED18
Type
Model
In
fn
Vdc
GRB100
B411L-22-10
1A
50Hz
110/125Vdc
Made in Japan
Figure 3.1.15 Front Panel of BU with LED Indication (GRB100-B411L:option)
18 LEDs (LED1 to LED18) are provided. Each LED is linked with a BI or a BO and drove by the
output of BI or BO as shown in Table 3.1.1. LED1 to 12 are for BI, LED13, 14 for trip BO, and
LED15 to 18 for configurable BO assigned by PLC. However, no name label is sealed there. User
should seal name labels there. For connections, see Appendix I. As shown in Appendix I, LED12
to 18 can be reset by the binary input “LED RESET”(TB4:BI7). Lamp test for all LEDs can be
tested by the binary input “LED TEST”(TB4:BI4) under “LED∗A=Enabled” setting.
⎯ 59 ⎯
6 F 2 S 0 8 8 2
Table 3.1.1
Specification of LEDs
LED No.
BI / BO
TB No.
LED color
Latch operation
Enable/Disable function
LED1
BI1 (TB3)
TB3-A3, B3
Red
No
--
LED2
BI5 (TB3)
TB3-A4, B4
Green
No
--
LED3
BI2 (TB3)
TB3-A5, B5
Red
No
--
LED4
BI6 (TB3)
TB3-A6, B6
Green
No
--
LED5
BI1 (TB4)
TB4-A3, B3
Red
No
--
LED6
BI5 (TB4)
TB4-A4, B4
Red/Green
No
--
LED7
BI2 (TB4)
TB4-A5, B5
Red
No
--
LED8
BI6 (TB4)
TB4-A6, B6
Red/Green
No
--
LED9
BI3 (TB3)
TB3-A14, B14
Red
No
--
LED10
BI7 (TB3)
TB3-A15, B15
Red/Green
No
Yes
LED11
BI4 (TB3)
TB3-A16, B16
Red
No
Yes
LED12
BI3 (TB4)
TB4-A14, B14
Red
No/Yes
Yes
LED13
TP1 (TB3)
TB3-A1,B1,A2, B2
Red
Yes
--
LED14
TP2 (TB3)
TB3-A17,B17,A18, B18
Red
Yes
Yes
LED15
BO3 (TB3)
TB3-A7, B7
Red
No/Yes
Yes
LED16
BO4 (TB3)
TB3-A8,B8,A9, B9
Red
No/Yes
Yes
LED17
BO5 (TB3)
TB3-A10, B10, -A11, B11
Red
No/Yes
Yes
LED18
BO6 (TB3)
TB3-A12, B12, -A13, B13
Red
No/Yes
Yes
The color of LED6, LED8 and LED10 can be set to red or green. LED12 to LED18 are provided
with latched operation function, LED12 and LED15 to LED18 can be set to the latched operation
or not. LED10 to LED12 and LED13 to LED18 can be set to Enabled or Disabled.
Above setting is performed by connector pins located on the rear of the front panel as follows:
Latch Setting
Color Setting
LED18-L
LED17-L
LED16-L
LED15-L
LED12-L
LED10-C
LED8-C
LED6-C
Enable Setting
LED10-A
LED11-A
LED12-A
LED14-A
LED15-A
LED16-A
LED17-A
LED18-A
Rear of Front Panel
Figure 3.1.16
Connector Pin Location
⎯ 60 ⎯
6 F 2 S 0 8 8 2
Color setting
LED No.
Connector pin
Setting
Color
LED6
LED6-C
Insert
Red
Pull out
Green
Insert
Red
Pull out
Green
Insert
Red
Pull out
Green
LED8
LED10
LED8-C
LED10-C
Latched operation setting
LED No.
Connector pin
Setting
Latched or Non-latched
LED12
LED12-L
Insert
Non-latched
Pull out
Latched
Insert
Non-latched
Pull out
Latched
Insert
Non-latched
Pull out
Latched
Insert
Non-latched
Pull out
Latched
Insert
Non-latched
Pull out
Latched
LED15
LED16
LED17
LED18
LED15-L
LED16-L
LED17-L
LED18-L
LED Enabled/Disabled setting
LED No.
Connector pin
Setting
LED Function
LED10
LED10-A
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
Insert
Enabled
Pull out
Disabled
LED11
LED12
LED14
LED15
LED16
LED17
LED18
LED11-A
LED12-A
LED14-A
LED15-A
LED16-A
LED17-A
LED18-A
⎯ 61 ⎯
6 F 2 S 0 8 8 2
3.2
Input and Output Signals
3.2.1
Input Signals
AC input signals
Table 3.2.1 shows the AC input signals applied to the CU and BU of the GRB100 and their
respective input terminal numbers. AC voltage input signals are provided only for the models
with FD elements. The Model C400 series provides four zones, Zone A to Zone D. See Appendix
I for external connections.
Table 3.2.1 (a) AC Input Signals of CU (Models with FD elements)
Terminal
No. of TB3
Signals
Terminal
No. of TB3
Zone A
Signals
Zone C
1
A phase voltage
9
A phase voltage
2
B phase voltage
10
B phase voltage
3
C phase voltage
11
C phase voltage
4
Neutral
12
Neutral
5
A phase voltage
13
A phase voltage
6
B phase voltage
14
B phase voltage
7
C phase voltage
15
C phase voltage
8
Neutral
16
Neutral
18
(earth)
Zone B
Zone D
Table 3.2.1 (b) AC Input Signals of BU
Terminal No.
of TB1
Signals
1-2
A-phase current
3-4
B-phase current
5-6
C-phase current
14
(earth)
Binary input signals
Table 3.2.2 shows the binary input signals available in the GRB100. See Appendix I for external
connections.
The binary input circuit of the CU is provided with a logic level inversion function as shown in
Figure 3.2.1. Each input circuit has a binary switch BISW which can be used to select either
normal or inverted operation. (Refer to Section 4.2.6.8.)
Further, all binary input functions are programmable by PLC (Programmable Logic Circuit)
function.
If a signal is not input, the function concerned is disabled.
The operating voltage of binary input signal is typical 74V DC at 110V/125V DC rating and
⎯ 62 ⎯
6 F 2 S 0 8 8 2
138V DC at 220/250V DC. The minimum operating voltage is 70V DC at 110/125V DC rating
and 125V DC at 220/250V DC.
Table 3.2.2 (a) Binary Input Signals in CU
Signal Name
Contents
Default Setting BI No.
Indication reset
Reset TRIP LED indication externally.
BI1
Bus protection block-A(*)
Block bus protection externally.
BI2
CBF protection block-A(*)
Block breaker failure protection.
BI3
Bus protection block-B(*)
Block bus protection externally.
BI4
CBF protection block-B(*)
Block breaker failure protection.
BI5
BI6
BI7
BI8
BI9
BI10
BI11
BI12
BI13
BI14
BI15
(*): These signals are duplicated with two BIs.
- BUS protection block: BI2 & BI4
- CBF protection block: BI3 & BI5
See Appendix I.
Table 3.2.2 (b) Binary Input Signals in BU of GRB100-B301B, -B311B (each channel CH)
Signal Name
Contents
DS1 contact (N/O)
Detect disconnector condition. (Closed when disconnector closed.)
Default Setting BI No.
BI1
DS1 contact (N/C)
Detect disconnector condition. (Open when disconnector closed.)
BI5
DS2 contact (N/O)
Detect disconnector condition. (Closed when disconnector closed.)
BI2
DS2 contact (N/C)
Detect disconnector condition. (Open when disconnector closed.)
BI6
BI3
BI7
Command trip
Initiate command tripping. (Gas press low)
BI4
External trip signal
Initiate CBF protection. (A-phase)
BI11
External trip signal
Initiate CBF protection. (B-phase)
BI12
External trip signal
Initiate CBF protection. (C-phase)
BI13
⎯ 63 ⎯
6 F 2 S 0 8 8 2
Table 3.2.2 (C) Binary Input Signals in BU of GRB100-B411L (each channel CH)
Signal Name
Contents
Default Setting BI No.
DS1 contact (N/O)
Detect disconnector condition. (Closed when disconnector closed.)
BI1(TB3)
DS1 contact (N/C)
Detect disconnector condition. (Open when disconnector closed.)
BI5(TB3)
DS2 contact (N/O)
Detect disconnector condition. (Closed when disconnector closed.)
BI2(TB3)
DS2 contact (N/C)
Detect disconnector condition. (Open when disconnector closed.)
BI6(TB3)
BI3(TB3)
BI7(TB3)
Command trip
Initiate command tripping. (Gas press low)
BI4(TB3)
External trip signal
Initiate CBF protection. (A-phase)
BI11(TB2)
External trip signal
Initiate CBF protection. (B-phase)
BI12(TB2)
External trip signal
Initiate CBF protection. (C-phase)
BI13(TB2)
BI1(TB4)
BI5(TB4)
BI2(TB4)
BI6(TB4)
BI3(TB4)
LED reset
Reset LED12 to LED18
BI7(TB4)
LED test
Test all LEDs
BI4(TB4)
Signal No.
GRB100
(+) (−)
Indication reset
CU-BI1
BISW1 (Norm)
BI1
PLC function
1
Protection
schemes
(Inv)
Bus protection block
BISW2 (Norm)
BI2
CU-BI2
Programmable
1
logic
(Inv)
CBF protection block
CU-BI3
BISW3 (Norm)
BI3
1
(Inv)
BISW4 (Norm)
BI4
CU-BI4
1
(Inv)
BISW5 (Norm)
BI5
CU-BI5
1
(Inv)
1
0V
Figure 3.2.1 Logic Level Inversion
3.2.2
Binary Output Signals
The number of binary output signals and their output terminals vary depending on the relay
models. See Appendix I for details. For all models, all outputs except the relay failure signal can
be configured.
The signals shown in the signal list in Appendix C can be assigned to the output relay individually
⎯ 64 ⎯
6 F 2 S 0 8 8 2
or in arbitrary combinations. Signals can be combined using either an AND circuit or OR circuit
with 6 gates each as shown in Figure 3.2.2. The output circuit can be configured according to the
setting menu. Appendix E shows the factory default settings.
A 0.2s delayed drop-off timer can be attached to these assigned signals. The delayed drop-off
time is disabled by the scheme switch [BOTD].
The relay failure contact closes when a relay defect or abnormality in the DC power supply circuit
is detected.
Signal List
+(ON)
BOTD
−(OFF)
&
Appendix C
0
6 GATES
OR
t
0.2s
Auxiliary relay
&
≧1
≧1
6 GATES
Figure 3.2.2 Configurable Output
The binary outputs TP1, TP2, BO3 to BO6 for each BU (CH1 – CH64) are programmed by PLC
function.
3.2.3
PLC (Programmable Logic Controller) Function
GRB100 is provided with a PLC function allowing user-configurable sequence logics on binary
signals. The sequence logics with timers, flip-flops, AND, OR, NOT logics, etc. can be produced
by using the PC software “PLC tool” and linked to signals corresponding to relay elements or
binary circuits.
Configurable binary inputs, binary outputs and LEDs, and the initiation trigger of disturbance
record are programmed by the PLC function. Temporary signals are provided for complicated
logics or for using a user-configured signal in many logic sequences.
PLC logic is assigned to protection signals by using the PLC tool. For PLC tool, refer to PLC tool
instruction manual.
Figure 3.2.3
Sample Screen of PLC Tool
⎯ 65 ⎯
6 F 2 S 0 8 8 2
3.3
Automatic Supervision
3.3.1
Basic Concept of Supervision
Though the protection system is in the non-operating state under normal conditions, it is waiting
for a power system fault to occur at any time and must operate for the fault without fail.
Therefore, the automatic supervision function, which checks the health of the protection system
during normal operation by itself, plays an important role. Numerical relays based on the
microprocessor operations are suitable for implementing this automatic supervision function of
the protection system. The GRB100 implements the automatic supervision function by taking
advantage of this feature under the following principles:
• The supervision function should not affect protection performance.
• Supervision must be performed with no omissions wherever possible.
• When a failure occurs, the failure location should be easy to identify.
Note: The automatic supervision function includes an automatic monitor function and automatic test
function.
3.3.2
Relay Monitoring
The relay is supervised with the following items.
AC input imbalance monitoring
The AC current input is monitored and if the following equation is satisfied the health of the AC
input circuit is checked.
• CT circuit current monitoring
Max(|Ia|, |Ib|, |Ic|) − 4 × Min(|Ia|, |Ib|, |Ic|) ≥ k0
where,
Max(|Ia|, |Ib|, |Ic|) = Maximum amplitude among Ia, Ib and Ic
Min(|Ia|, |Ib|, |Ic|) = Minimum amplitude among Ia, Ib and Ic
k0 = 20% of rated current
The CT circuit current monitoring (AISV) allows high sensitivity detection of failures that have
occurred in the AC input circuit.
If the AISV detects an AC input imbalance, it blocks all protection functions by blocking the
binary outputs and issues an alarm when the [AISV]="ALM&BLK" setting. It issues only alarm
when the [AISV]="ALM" setting.
When configuring a tripping block logic by PLC, set the [AISV]="BBP" (Blocked By PLC)
setting. The protection function configured by PLC is blocked when the [AISV]="BBP" setting.
The AISV is blocked by setting the scheme switch [AISV] to OFF.
Furthermore, for models with FD elements, the AC voltage input is monitored and if the
following equations are satisfied the health of the AC input circuit is checked.
• Zero sequence voltage monitoring
|Va + Vb + Vc| / 3 ≥ 6.35 (V)
⎯ 66 ⎯
6 F 2 S 0 8 8 2
• Negative sequence voltage monitoring
|Va + a2Vb + aVc| / 3 ≥ 6.35 (V)
where,
a = Phase shifter of 120°
These zero sequence monitoring and negative sequence monitoring allow high-sensitivity
detection of failures that have occurred in the AC input circuits.
The negative sequence voltage monitoring allows high sensitivity detection of failures in the
voltage input circuit, and it is effective for detection particularly when cables have been
connected with the incorrect phase sequence.
In the AC voltage input monitoring (AIFDSV), the "ALM&BLK", "ALM", or "BBP"(Blocked
By PLC) is also selected by setting the scheme switch [AIFDSV] the same as the AISV. When
configuring a tripping block logic by PLC, set the [AISV]="BBP" setting. The protection
function configured by PLC is blocked when the [AIDSV]="BBP" setting. The AIDSV is
blocked by setting the scheme switch [AIDSV] to OFF.
Setting
Element
[AISV]
[AIFDSV]
Range
Step
Off / ALM&BLK / ALM / BBP
Off / ALM&BLK / ALM / BBP
Default
ALM&BLK
ALM
Remarks
Alarm and/or blocking
Alarm and/or blocking
A/D accuracy checking
An analogue reference voltage is input to a prescribed channel in the analogue-to-digital (A/D)
converter, and the system checks that the data after A/D conversion is within a prescribed range
and that the A/D conversion characteristics are correct.
Memory monitoring
The memories are monitored as follows depending on the type of memory, and the system also
checks that the memory circuits are healthy:
• Random access memory monitoring:
Writes/reads prescribed data and checks the storage function.
• Program memory monitoring: Checks the checksum value of the written data.
• Setting value monitoring:
Checks for any discrepancy between the setting values stored
in duplicate.
Watchdog timer
A hardware timer which is cleared periodically by software is provided, and used to check that the
software is running normally.
DC supply monitoring
The secondary voltage level of the built-in DC/DC converter is monitored, and the system checks
that the DC voltage is within a prescribed range.
The DC supply failure of BU is detected by the communication monitoring. See Section 3.3.6.
Binary input circuit monitoring
The binary input signals for the CU ("Breaker failure protection initiation", "Busbar protection
block") and BU ("CBF protection block" ) are monitored. The monitoring checks the discrepancy
⎯ 67 ⎯
6 F 2 S 0 8 8 2
between the signals of the input circuits provided in duplicate.
3.3.3
CT Circuit Failure Detection
If a failure occurs in a CT circuit, the differential elements may operate incorrectly. GRB100
Model C400 series incorporates a CT failure detection function (CTF) against such incorrect
operation. The CTF is provided with each Zone (Check zone and Zone A to D). When the CTF
detects a CT failure, it can block the DIF trip.
The CTF is enabled or disabled by the scheme switch [CTFEN] as follows:
-
“Off”: Disabled.
-
“On”: Enabled. If once CTF is detected, the CTF function cannot be reset until CTFID is
reset.
-
“OPT-On”: Enabled. After CTF is detected, the CTF function is reset if CTFUV,
CTFDV or OVGF operates.
The DIF trip is blocked or not by the scheme switch [CTFCNT].
-
“NA”: No block the DIF trip
-
“BLK”: Block the DIF trip of the detected zone
This function is available for Model C400 series.
Detection logic
Figure 3.3.1 shows the CTF detection logic for Check zone and Zone A. The logic for Zone B, C
and D is same as that for Zone A.
CTFID-CH
1408:CTFID-CH-A
1409:CTFID-CH-B
1410:CTFID-CH-C
t
1
CTFID-ZA
Check zone CTF detection
10s
≥1
1396:CTFID-ZA-A
1397:CTFID-ZA-B
1398:CTFID-ZA-C
&
t
1
0
Zone A CTF detection
10s
1419:CTFUVD-ZA
1
[CTFCNT] +
≥1
1419:CTFUV-ZA
CTFOVG-ZA
DIFCH Non CTF
2863:CTF-ZA
&
CTFUVD-ZA
CTFUV-ZA
2867:CTF-CH
0
&
&
"BLK"
1
DIFZA Non CTF
CTFID(CFID): Differential current element for CTF
CTFUVD(CFDV): Change of undervoltage element for CTF
CTFUV(CFUV): Undervoltage element for CTF
CTFOVG(CFOVG): Zero-sequence overvoltage element for CTF
1411:CTFOVG-ZA
Figure 3.3.1
CTF Detection Logic
Setting
The setting elements necessary for the CTF and their setting ranges are as follows:
Element
CFID
CFUV
CFDV
CFOVG
[CTFEN]
[CTFCNT]
Range
50 - 3000 A
20 - 60 V
1 - 10 %
0.1 - 10.0 V
Off/On/OPT-On
NA / BLK
Step
1A
1V
1%
0.1 V
⎯ 68 ⎯
Default
200 A
20 V
7%
1.0 V
Off
NA
Remarks
Id current level
% of rated voltage
Zero-sequence voltage
CTF enabled or not
Control by CTF detection
6 F 2 S 0 8 8 2
3.3.4
Differential Current Monitoring
The supervisory element DIFSV is provided to check the health of the CT circuit. The DIFSV
element detects the erroneous differential current that appears in the case of a CT circuit failure.
The DIFSV is provided with each Zone (Check zone and Zone A to D). The DIFSV has a
non-restraint current differential characteristic.
Detection logic
Figure 3.3.2 shows the erroneous differential current detection (DIFSV) logic for Check zone and
Zone A. The logic for Zone B, C and D is same as that for Zone A.
If the DIFSV detects an erroneous differential current, it blocks all protection functions by
blocking the binary outputs and issues an alarm when the [IDSV]="ALM&BLK" setting. It issues
only alarm when the [IDSV]="ALM" setting. When configuring a tripping block logic by PLC,
set the [AISV]="BBP" (Blocked By PLC) setting. The protection function configured by PLC is
blocked when the [AISV]="BBP" setting. The monitoring is blocked by setting the [IDSV] to
OFF.
Setting
Element
DIFSV
TIDSV
[IDSV]
Range
Step
20 – 3000A
1A
0 – 60s
1s
Off / ALM&BLK / ALM / BBP
DIFCHSV
1102:DIFCHSV-A
1103:DIFCHSV-B
1104:DIFCHSV-C
DIFZASV
1105:DIFZASV-A
1106:DIFZASV-B
1107:DIFZASV-C
Default
200A
10s
ALM
Remarks
Min. operating current
Timer for DIFSV
Control by IDSV monitoring
TIDSV
t
0
2849
≥1
2832
IDSV
0 - 60s
t
0
2845
0 - 60s
Figure 3.3.2
DIFSV Logic
The DIFSV setting is determined from the erroneous differential current which is generated
during normal service condition due to errors between CTs.
Maximum erroneous differential current < DIFSV < DIFCH and DIFZ settings
3.3.5
Disconnector and Circuit Breaker Monitoring
The disconnector and circuit breaker are monitored to prevent unwanted operation in case of their
failure. The scheme logics are shown in Figures 3.3.3 and 3.3.4.
To monitor the disconnector (DS) and circuit breaker (CB), a normally open contact and a
normally closed contact are introduced. The failure is detected when the normally open contact
and normally closed contact are simultaneously in the open or closed state for the prescribed
period. If the DSSV or CBSV detects a DS fail or CB fail, it can block both the busbar protection
and the CBF protection and issues an alarm when the [DSSV] or [CBSV]="ALM&BLK" setting.
It issues only alarm when the [DSSV] or [CBSV]="ALM" setting. It blocks only the busbar
protection when the the [DSSV] or [CBSV]="BBP" setting. In the case of DS fail, the
discriminating zone protection including the DS failed is blocked. The monitoring is blocked by
setting the switch [DSSV] and [CBSV] to OFF. The default settings of these switches are OFF to
prevent false failure detection when their contacts are not introduced.
⎯ 69 ⎯
6 F 2 S 0 8 8 2
Setting
Element
TDSSV
TCBSV
[DSSV]
[CBSV]
Range
0 – 60s
0 – 60s
Off / ALM&BLK / ALM / BBP
Off / ALM&BLK / ALM / BBP
DS-NO
(N/O)
=1
Step
1s
1s
Default
60s
10s
ALM
ALM
Remarks
Timer for DSSV
Timer for CBSV
Control by DSSV monitoring
Alarm and/or blocking
t
1
0
2829
DSSV
0 - 60s
DS-NC
(N/C)
Figure 3.3.3
CB-NO
(N/O)
=1
DSSV Logic
t
1
0
2830
CBSV
0 - 60s
CB-NC
(N/C)
Figure 3.3.4
3.3.6
CBSV Logic
Communication Monitoring
The communication signal between CU and BU is monitored per channel at both the CU and BU
by employing a cyclic redundancy check of the received data.
If a data failure or interruption is detected, an alarm is displayed on the LCD of the CU.
3.3.7
BU Address Monitoring
The BU address is set with the rotary switch. If the setting is changed, it is possible that the data
could be communicated to the wrong BU. To avoid this, the BU address is monitored at the CU.
If a failure is detected, the failure alarm "BU∗∗: Address err" is displayed on the LCD of the CU.
Note: BU∗∗ means the BU number.
3.3.8
PLC Data and IEC61850 Mapping Data Monitoring
If there is a failure in PLC data and IEC61850 mapping data, the function may be stopped.
Therefore, the PLC data and IEC61850 mapping data are monitored and an alarm of "PLC stop"
or "MAP stop" is issued if any failure detected.
3.3.9
IEC61850 Communication Monitoring
The sending and receiving functions in the Ethernet LAN communication are monitored. The
receiving function is executed by checking GOOSE message receiving status, and the sending
function is executed by checking Ping response to the other party. If a failure is detected, an alarm
of "GOOSE stop" or "Ping err" is issued.
These functions are disabled by setting the scheme switches [GSECHK] and [PINGCHK].
⎯ 70 ⎯
6 F 2 S 0 8 8 2
3.3.10 Failure Alarms
When a failure is detected by the automatic supervision, it is followed with the LCD display, LED
indication, external alarm issuance and event recording. Table 3.3.1 summarizes the supervision
items and alarms.
The LCD messages are shown on the "Auto-supervision" screen which is displayed automatically
when a failure is detected by pressing the VIEW key. The event record messages are shown on
the "Event record" screen by opening the "Record" sub-menu.
Those alarms are retained until the failure is recovered.
Those alarms can be disabled collectively by setting the scheme switch [AMF] to OFF. The
setting is used to block unnecessary alarm issuance during commissioning testing or
maintenance.
When the Watchdog Timer detects that the software is not running normally, the LCD display
and event recording of the failure may not function.
Table 3.3.1 Supervision Items and Alarms
Supervision Item
LCD Message
LED
"IN SERVICE"
AC input
imbalance monitoring
(1)
On/Off (2)
On
Operate/
No operate (5)
CT err,
V0 err, V2 err
A/D accuracy check
(1)
Off
On
(4)
Relay fail
Watchdog Timer
----
Off
On
(4)
----
DC supply monitoring
----
Off
(3)
(4)
Relay fail
CU
DIDIS err
Off
On
(4)
Relay fail
BU
BU∗: DIO err
Off
On
(4)
Relay fail
LED
"ALARM"
Ext. alarm
Event record
Message
Memory monitoring
Binary input circuit
monitoring
Differential current monitoring
Id-Z∗ err
Id err
On/Off (2)
On
Operate/
No operate (5)
Id err
DS and CB monitoring
DS∗ err
DS-Z∗ err
CB∗ err
On/Off (2)
On
Operate/
No operate (5)
DS fail,
Communication monitoring
CB fail
(1)
Off
On
(4)
Relay fail
BU address monitoring
BU∗∗:
Address err
Off
On
(4)
Relay fail
CTF monitoring
CT fail,
CT-ZA fail to
CT-ZD fail
On
On
No operate (6)
CTF,
CTF-ZA to
CTF-ZD
PLC data or IEC61850
mapping data monitoring
PLC stop or
MAP stop
On
On
(4)
Relay fail-A
GOOSE message check
GOOSE stop
On
On
(4)
Relay fail-A
Ping err
On
On
(4)
Relay fail-A
Ping response check
DS: disconnector, CB: circuit breaker
(1): Various messages are provided as expressed with "---fail" or "---err" in the Table in Section
6.7.2.
(2): The LED is on when the related scheme switch [AISV], [AIFDSV], [IDSV], [DSSV] or [CBSV]
is set to "ALM" or "BBP" and off when set to "ALM & BLK" (refer to Section 3.3.12).
⎯ 71 ⎯
6 F 2 S 0 8 8 2
(3): Whether the LED is lit or not depends on the degree of the voltage drops.
(4): The binary output relay "FAIL" operates.
(5): When the setting is "ALM & BLK", the relay "FAIL" operates. When "ALM" or "BBP" setting
is used, the relay "FAIL" does not operate, but an Ext. alarm is possible by assigning the
programmable BO (signal No. 2833).
(6): The user-configurable binary output relays operate if the signal assigned.
3.3.11 Bridge Alarm
When a bridge condition is retained for the TBRDG setting, the BRIDGE ALARM is issued.
Setting
Element
TBRDG
Range
0 – 60s
Step
1s
Default
60s
Remarks
Busbar bridge time
3.3.12 Trip Blocking
When a failure is detected by the following supervision items, the trip function is blocked for as
long as the failure exists and is restored when the failure is removed:
• A/D accuracy check
• Memory monitoring
• Watchdog Timer
• DC supply monitoring
When a failure is detected by AC input imbalance monitoring, differential current monitoring,
disconnector monitoring or circuit breaker monitoring, the scheme switch [AISV], [AIFDSV],
[IDSV], [DSSV] or [CBSV] setting can be used to determine if both tripping is blocked and an
alarm is output, or, if only an alarm is output.
⎯ 72 ⎯
6 F 2 S 0 8 8 2
3.4
Recording Function
The GRB100 is provided with the following recording functions:
Fault recording
Event recording
Disturbance recording
These records are displayed on the LCD of the relay front panel or on the local or remote PC.
3.4.1
Fault Recording
Fault recording is started by a tripping command of the GRB100 or PLC command by user setting
(max.4) and the following items are recorded for one fault:
Date and time of fault occurrence
Faulted phase
Tripping channel
Tripping mode
Power system quantities
Up to the 8 most-recent faults are stored as fault records. If a new fault occurs when 8 faults have
been stored, the record of the oldest fault is deleted and the record of the latest fault is then stored.
Date and time of fault occurrence
The time resolution is 1 ms using the relay internal clock.
To be precise, this is the time at which a tripping command has been initiated, and thus it is
approximately 10 ms after the occurrence of the fault.
Faulted phase
The faulted phase is indicated by a differential element operating phase.
Tripping mode
This shows the protection scheme that initiated the tripping command.
DIF, DIF-ZA, DIF-ZB, DIF-ZC, DIF-ZD: DIF protection trip
(Note) DIF: check zone protection trip only,
DIF-ZA to DIF-ZD: check zone protection trip and discriminating zone protection trip, or
discriminating zone protection trip only
CBF-trip: Breaker failure protection backup trip
CBF-retrip: Breaker failure protection retrip
8 user-configurable tripping modes, CON_TPMD1 to CON_TPMD8 (signal number
6192-6199), are also provided. The sequence logic is configured by the PLC function. (Refer to
Section 3.2.3).
Tripped channel
The tripped channel is expressed with the status "1". (See Section 4.2.1)
⎯ 73 ⎯
6 F 2 S 0 8 8 2
Power system quantities
The following power system quantities in pre-faults and faults are recorded.
(However, the power system quantities are not recorded for evolving faults.)
-
Magnitude of phase differential current of check zone and discriminating zone protection (Ida,
Idb, Idc, IdaA, IdbA, IdcA up to IdaD, IdbD, IdcD)
-
Magnitude and phase angle of phase voltage of discriminating zone protection (VaA, VbA,
VcA up to VaD, VbD, VcD)
-
Magnitude and phase angle of symmetrical component voltage of check zone and
discriminating zone protection (V1A, V2A, V0A up to V1D, V2D, V0D)
-
Magnitude and phase angle of phase current of each channel (Ia, Ib, Ic)
-
Magnitude and phase angle of symmetrical component current of each channel (I1, I2, I0)
The differential currents of check zone and discriminating zone protection are displayed in
percent of DIFCH and DIFZ setting respectively. The voltages are recorded in Model C400
series. Phase angles above are expressed taking that of positive sequence voltage as a reference
phase angle. The leading phase angles are expressed plus.
If no voltage input, the positive sequence current of CH1 is taken as a reference phase angle.
Therefore, it is recommended that the CH1 should be assigned for a feeder. If the current of CH1
is small, the current of the next channel is used as a reference phase angle.
3.4.2
Event Recording
Up to 1024 event records can be stored. If an additional event occurs when 1024 records have
been stored, the oldest event record is deleted and the latest event record is then stored.
The events shown are recorded with a 1 ms resolution time-tag when the status changes. The
event records include 128 settable signals and 10 fixed signals for each CH.
In the 128 settable signals, the event items can be assigned to a signal number in the signal list.
The status change mode is set to “On” (only recording On transitions) or “On/Off”(recording both
On and Off transitions) mode by setting. The “On/Off” mode events are specified by “Bi-trigger
events” setting. If the “Bi-trigger events” is set to “100”, No.1 to 100 events are “On/Off” mode
and No.101 to 128 events are “On” mode.
The name of an event cannot be set on LCD. It can set only by RSM100. Maximum 22 characters
can be set and can be viewed on both of the LCD and RSM Setting(view) screen. But the LCD
screen of event record displays only 11 characters. Therefore, it is recommended the maximum
11 characters are set.
The elements necessary for event recording and their setting ranges are shown in the table below.
The default setting of event record is shown in Appendix J.
Element
Range
Step
Default
Remarks
BITRN
0 - 128
1
100
Number of bi-trigger(on/off) events
EV1 – EV128
0 - 7167
Assign the signal number
The 10 fixed signals for each CH are as follows:
- BI1, BI5, BI2, BI6, BI3, BI7, BI4, Ext. tripA, Ext. tripB, Ext. tripC
These status change mode is set by each CH.
⎯ 74 ⎯
6 F 2 S 0 8 8 2
Element
Range
Default
CH1 BI
None - Operate - Reset – Both
Both
None - Operate - Reset – Both
Both
Remarks
:
:
CH64 BI
3.4.3
Disturbance Recording
The disturbance records include 204 analogue signals, which are phase currents of each channel
and phase voltages of zones A to D, and 32 settable binary signals and 192 fixed binary signals,
and the dates and times at which recording started.
For 32 settable binary signals, the name of an event cannot be set on LCD. It can be set by
RSM100. Maximum 22 characters can be set, but LCD displays up to 11 characters of them.
Therefore, it is recommended the maximum characters are set. The set name can be viewed on the
Setting (view) screen. For 192 fixed binary signals, see Appendix F.
The LCD display only shows the dates and times of disturbance records stored. Details can be
displayed on the PC. For how to obtain disturbance records on the PC, see the PC software
instruction manual.
The pre-fault recording time is fixed at 0.3s and post-fault recording time can be set between 0.1
and 1.0s or 2.0s depending on the relay model.
The number of records stored depends on the post-fault recording time. The approximate
relationship between the post-fault recording time and the number of records stored is shown in
Table 3.4.1.
Note: If the recording time setting is changed, all previously recorded data is deleted.
Table 3.4.1
CU Model
C310, C410
C320, C420
C330, C430
C340, C440
C360, C460
C380, C480
Frequency
(Hz)
Number of Records
Post fault recording time
0.1s
0.5s
1.0s
1.5s
2.0s
50
19
9
6
4
3
60
16
8
5
3
2
50
13
6
4
2
2
60
11
5
3
2
1
50
10
5
3
2
1
60
8
4
2
1
1
50
8
4
2
1
1
60
6
3
2
1
1
50
5
2
1
60
4
2
1
50
4
2
1
60
3
1
1
⎯ 75 ⎯
6 F 2 S 0 8 8 2
Settings
The elements necessary for starting disturbance recording and their setting ranges are shown in
the table below.
Element
Range
Step
Default
Remarks
Timer
0.1-2.0s
0.1 s
1.0 s
Post-fault recording time for Model C*10, C*20, C*30, C*40
0.1-1.0s
0.1s
1.0s
Post-fault recording time for Model C*60, C*80
1OCG
0.1 - 10.0(*)
0.1
1.0
Residual overcurrent element
1OCS
0.1 - 10.0(*)
0.1
2.0
Phase overcurrent element
2OCG
0.1 - 10.0(*)
0.1
1.0
Residual overcurrent element
2OCS
0.1 - 10.0(*)
0.1
2.0
Phase overcurrent element
64OCG
0.1 - 10.0(*)
0.1
1.0
Residual overcurrent element
64OCS
0.1 - 10.0(*)
0.1
2.0
Phase overcurrent element
:
:
(*) : Multiplier of CT rated current
Starting the disturbance recording by a tripping command or the starter elements listed above is
enabled or disabled by setting the following scheme switches with identical names with the starter
elements except the switch [TRIP].
Element
Range
[TRIP]
Step
Default
Remarks
Off / On
On
Start by tripping command
[OCG]
Off / On
Off
Start by OCG operation
[OCS]
Off / On
Off
Start by OCS operation
⎯ 76 ⎯
6 F 2 S 0 8 8 2
3.5
Metering Function
The GRB100 performs continuous measurement of the analogue input quantities. The
measurement data shown below is displayed on the LCD of the relay front panel or on the local or
remote PC.
-
Magnitude of phase differential current of check zone and discriminating zone protection (Ida,
Idb, Idc, IdaA, IdbA, IdcA up to IdaD, IdbD, IdcD)
-
Magnitude of restraint current of check zone and discriminating zone protection (Ira, Irb, Irc,
IraA, IrbA, IrcA up to IraD, IrbD, IrcD)
-
Magnitude and phase angle of phase voltage of discriminating zone protection (VaA, VbA,
VcA up to VaD, VbD, VcD)
-
Magnitude and phase angle of symmetrical component voltage of check zone and
discriminating zone protection (V1A, V2A, V0A up to V1D, V2D, V0D)
-
Magnitude and phase angle of phase current of each channel (Ia, Ib, Ic)
-
Magnitude and phase angle of symmetrical component current of each channel (I1, I2, I0)
-
Frequency (only for Model C400 series)
The differential currents of check zone and discriminating zone protection are displayed in
current (A) and percent (%) of DIFCH and DIFZ setting respectively. The voltages and frequency
are recorded in Model C400 series. The differential currents of check zone and discriminating
zone protection are displayed in percent of DIFCH and DIFZ setting respectively. Phase angles
above are expressed taking that of positive sequence voltage as a reference phase angle. The
leading phase angles are expressed plus.
If no voltage input, the positive sequence current of CH1 is taken as a reference phase angle.
Therefore, it is recommended that the CH1 should be assigned for a feeder. If the current of CH1
is small, the current of the next channel is used as a reference phase angle.
The above system quantities except the phase differential currents are displayed in values on the
primary side or on the secondary side of the CT and VT by the setting. (See Section 4.2.6.6.) To
display accurate values, it is necessary to set the each VT ratio too. For the setting method, see
"Setting the busbar parameters" in 4.2.6.7. The phase differential currents show the percentage to
DIFCH and DIFZ setting values.
⎯ 77 ⎯
6 F 2 S 0 8 8 2
4. User Interface
4.1
Outline of User Interface
The user can access the relay from the front panel of the CU.
Local communication with the relay is also possible using a personal computer (PC) with the
RSM (Relay Setting and Monitoring) software via an RS232C port. Furthermore, remote
communication is also possible using a PC with the RSM via an RS485 and the protocol
converter G1PR2.
This section describes the front panel configuration and the basic configuration of the menu tree
of the local human machine communication ports and HMI (Human Machine Interface).
4.1.1
Front Panel
As shown in Figure 3.1.8, the front panel of the central unit is provided with a liquid crystal
display (LCD), light emitting diode (LED), operation keys, VIEW and RESET keys,
monitoring jack and RS232C connector.
LCD
The LCD screen, provided with a 4-line, 40-character back-light, displays detailed information of
the relay interior such as records, status and setting. The LCD screen is normally unlit, but
pressing the VIEW key will display the digest screen and pressing any key other than VIEW
and RESET will display the menu screen.
These screens are turned off by pressing the RESET key or END key. If any display is left for
5 minutes or longer without operation, the back-light will go off.
LED
There are 8 LED displays. The signal labels and LED colors are defined as follows:
Label
Color
Remarks
IN SERVICE
TRIP
ALARM
TESTING
(LED1)
(LED2)
(LED3)
(LED4)
Green
Red
Red
Red
Red
Red
Red
Red
Lit when the relay is in service.
Lit when a trip command is issued.
Lit when a failure is detected.
Lit when test condition is set.
LED1 to LED4 are configurable and no label is sealed there.
The TRIP LED lights up once the relay is operating and remains lit even after the trip command
goes off. The TRIP LED can be turned off by pressing the RESET key. Other LEDs are lit as
long as a signal is present and the RESET key is invalid while the signal is maintained.
⎯ 78 ⎯
6 F 2 S 0 8 8 2
Operation keys
The operation keys are used to display records, status, and set values on the LCD, as well as to
input or change set values. The function of each key is as follows:
c 0-9, −:
d
,
Used to enter a selected number, numerical values and text strings.
:
Used to move between lines displayed on a screen
Keys 2, 4, 6 and 8 marked with
strings.
,
,
and
are also used to enter text
e CANCEL : Used to cancel entries and return to the upper screen.
f END :
Used to end entry operation, return to the upper screen or turn off the display.
g ENTER :
Used to store or establish entries.
VIEW and RESET keys
Pressing VIEW key displays digest screens such as "Metering", "Latest fault" and "Autosupervision".
Pressing RESET key turns off the display.
Monitoring jacks
The two monitoring jacks A and B and their respective LEDs can be used when the test mode is
selected on the LCD screen. By selecting the signal to be observed from the "Signal List" and
setting it on the screen, the signal can be displayed on LED A or LED B, or sent to an oscilloscope
via a monitoring jack.
RS232C connector
The RS232C connector is a 9-way D-type connector for serial RS232C connection with a local
personal computer.
⎯ 79 ⎯
6 F 2 S 0 8 8 2
4.1.2
Communication Ports
The following three interfaces are provided with the central unit as communication ports:
•
RS232C port
•
SeriaSerial communication port
•
IRIG-B port
RS232C port
This connector is a standard 9-way D-type connector (straight type) for serial port RS232C
transmission and is mounted on the front panel of central unit. By connecting a personal computer
to this connector, setting and display functions can be performed from the personal computer.
Serial communication port
Two serial communication ports can be provided. In one port, it is connected to the RSM (Relay
Setting and Monitoring system) via the protocol converter G1PR2 or IEC60870-5-103
communication via BCU/RTU (Bay Control Unit / Remote Terminal Unit) to connect between
relays and to construct a network communication system. (See Figure 4.4.1 in Section 4.4.)
In another port, it is connected to the substation automation system via Ethernet communication
networks using IEC 61850 protocol.
Screw terminal for RS485, ST connector for fibre optic, or 100Base-TX (RJ-45 connector) or
100Base-FX (SC connector) for Ethernet LAN is provided on the back of the relay as shown in
Figure 4.1.1.
IRIG-B port
The IRIG-B port is mounted on the transformer module, and collects serial IRIG-B format data
from the external clock to synchronize the relay calendar clock. The IRIG-B port is isolated from
the external circuit by a photo-coupler. A BNC connector is used as the input connector.
This port is on the back of the central unit, as shown in Figure 4.1.1.
100Bas e-TX
(RJ45, option)
IRIG BNC
connector
O pt. I/F for IEC103
(ST , option)
RS485 connection
terminals
100Base-FX
(SC, option)
CU rear view
Figure 4.1.1 Locations of RS485 Port and IRIG Port
⎯ 80 ⎯
6 F 2 S 0 8 8 2
4.2
Operation of the User Interface
The user can access such functions as recording, measurement, relay setting and testing with the
LCD display and operation keys.
Note: LCD screens depend on the relay model and the scheme switch setting. Therefore, LCD
screens described in this section are samples of typical model.
4.2.1
LCD and LED Displays
Displays during normal operation
When the GRB100 is operating normally, the green "IN SERVICE" LED is lit and the LCD is off.
Press the VIEW key when the LCD is off to display the "Metering 1", "Metering 2", "Metering
3", "Metering 4", "Latest fault" and "Auto-supervision" screens in turn. The "Latest fault" and
"Auto-supervision" screens are displayed only when there is some data. The following are the
digest screens and can be displayed without entering the menu screens.
Metering 1
Ida
*****
%
Idb
*****
%
Idc
*****
%
Note: Ida, Idb and Idc are the phase differential current of the check zone protection and
show the percentage to DIFCH setting value.
Ida
Ida
Ida
Ida
A
B
C
D
*****
*****
*****
*****
%
%
%
%
Idb
Idb
Idb
Idb
A
B
C
D
**
**
**
**
*
*
*
*
**
**
**
**
%
%
%
%
Id
Id
Id
Id
c
c
c
c
A
B
C
D
*****
*****
*****
*****
%
%
%
%
Note: Idax, Idbx and Idcx are the phase differential current of the discriminating zone and
show the percentage to DIFZ setting value. (“x”= A, B, C, D)
IdyA to IdyD are displayed depend on applied zones. (“y” = a, b, c)
When the discriminating zone protection provides up to three zone protections, two screens above
are displayed in one screen as follows:
Metering 2
Ida
IdaA
IdaB
IdaC
*****
*****
*****
*****
VaA
VaB
VaC
VaD
**
**
**
**
%
%
%
%
*.*kV
*.*kV
*.*kV
*.*kV
Idb
IdbA
IdbB
IdbC
**
**
**
**
*
*
*
*
**
**
**
**
%
%
%
%
VbA
VbB
VbC
VbD
**
**
**
**
*.*
*.*
*.*
*.*
kV
kV
kV
kV
Id
Id
Id
Id
c
cA
cB
cC
VcA
VcB
VcC
VcD
*****
*****
*****
*****
**
**
**
**
*.*kV
*.*kV
*.*kV
*.*kV
Note: Vax, Vbx and Vcx for the phase voltage of the discriminating zone.
(“x”= A, B, C, D)
VyA to VyD are displayed depend on applied zones. (“y” = a, b, c)
"Metering 2" is displayed for Model C400 series.
⎯ 81 ⎯
%
%
%
%
6 F 2 S 0 8 8 2
Metering 3
CH1
Ia
CH2
Ia
**********************
Ib
**.**kA
Ic
**.**kA
**********************
**.**kA
Ib
**.**kA
Ic
**.**kA
**.**kA
"Metering 3" is displayed repeatedly as many as the number of channels.
Metering 4
Metering
08/Dec/1997
18:13
**.*Hz
"Metering 4" is displayed for Model C400 series.
Latest fault
L
P
D
B
atest fault
16/Oct/1997
18:13:45.160
hase
ABC
IF- ZA
P [111 11100 00 000000 00 00000 0 000 0000 0]
Status of tripping command for CH1 to CH32
Latest fault
L
P
D
B
atest fault
16/Oct/1997
18:13:45.160
hase
ABC
IF-ZA
P2[1 1 1 111 0 0 0 0 0 00 0 0 0 00 0 0 0 00 0 0 0 0 00 0 0 0]
Status of tripping command for CH33 to CH64
Note: Tripped channel is expressed with the status "1".
Auto-supervision A u t o - s u p e r v i s i o n
08/Dec/1997
22:56
DIO err
Press the RESET key to turn off the LCD.
For any display, the back-light is automatically turned off after five minutes.
Displays in tripping
If a fault occurs and a tripping command is initiated when the LCD is off, the "Latest fault" screen
is displayed on the LCD automatically and the red "TRIP" LED and, if signals assigned to trigger
by tripping, other configurable LEDs light.
Press the VIEW key to display the digest screens in turn including the "Metering" and
"Auto-supervision" screens.
Press the RESET key to turn off the LEDs and LCD display.
Notes:
1) When configurable LEDs (LED1 through LED4) are assigned to latch signals by trigger of
tripping, press the RESET key more than 3s until the LCD screens relight. Confirm turning
⎯ 82 ⎯
6 F 2 S 0 8 8 2
off the configurable LEDs. Refer to Table 4.2.1 Step 1.
2) Then, press the RESET key again on the "Latest fault" screen in short period, confirm turning
off the "TRIP" LED. Refer to Table 4.2.1 Step 2.
3) When only the "TRIP" LED goes off by pressing the RESET key in short period, press the
RESET key again to reset remained LEDs in the manner 1) on the "Latest fault" screen or
other digest screens. LED1 through LED4 will remain lit in case the assigned signals are still
active state.
Table 4.2.1 Turning off latch LED operation
LED lighting status
Operation
Step 1
"TRIP" LED
Press the RESET key more than 3s on
the "Latest fault" screen
continue to lit
Step 2
Configurable LED
(LED1 - LED4)
turn off
Then, press the RESET key in short
period on the "Latest fault" screen
turn off
If the tripping command is initiated when any of the screens is displayed, the current screen
remains displayed and the red "TRIP" LED lights.
When any of the menu screens is displayed, the VIEW and RESET keys do not function. To
return to the digest screen, do the following:
• Return to the top screen of the menu by repeatedly pressing the END key.
• Press the END key to turn off the LCD.
• Press the VIEW key to display the "Latest fault" screen.
• Press the RESET key to turn off the "TRIP" LED and LCD.
Displays in automatic supervision operation
If the automatic supervision function detects a failure while the LCD is off, the
"Auto-supervision" screen is displayed automatically, showing the location of the failure and the
"ALARM" LED lights.
Press the VIEW key to display other digest screens in turn including the "Metering" and "Latest
fault" screens.
Press the RESET key to turn off the LCD display. However, if the failure continues, the
"ALARM" LED remains lit.
After recovery from a failure, the "ALARM" LED and "Auto-supervision" display turn off
automatically.
⎯ 83 ⎯
6 F 2 S 0 8 8 2
If a failure is detected while any of the screens is displayed, the current screen remains displayed
and the "ALARM" LED lights.
While any of the menu screens is displayed, the VIEW and RESET keys do not function. To
return to the digest "Auto-supervision" screen, do the following:
• Return to the top screen of the menu by repeatedly pressing the END key.
• Press the END key to turn off the LCD.
• Press the VIEW key to display the digest screen.
• Press the RESET key to turn off the LCD.
4.2.2
Relay Menu
Figure 4.2.1 shows the menu hierarchy in the GRB100. The main menu has five sub-menus,
"Record", "Status", "Setting (view)", "Setting (change)", and "Test". For details of the menu
hierarchy, see Appendix G.
⎯ 84 ⎯
6 F 2 S 0 8 8 2
Menu
Record
Fault record
Event record
Disturbance record
Status
Metering
Binary input & output
Relay element
Time synchronization source
Clock adjustment
Setting (view)
Relay version
Description
Communication
Record
Status
Protection
Binary input
Binary output
LED
Setting (change)
Password
Description
Communication
Record
Status
Protection
Binary input
Binary output
LED
Test
Switch
Binary output
Timer
Logic circuit
BU out
Figure 4.2.1 Relay Menu
⎯ 85 ⎯
6 F 2 S 0 8 8 2
Record
In the "Record" menu, the fault records, event records and disturbance records are displayed or
erased.
Status
The "Status" menu displays the power system quantities, binary input and output status, relay
measuring element status, signal source for time synchronization (IRIG-B, RSM,IEC, or SNTP)
and adjusts the clock.
Setting (view)
The "Setting (view)" menu displays the relay version, plant name and the current settings of relay
address and RS232C or IEC60870-5-103 baud rate in communication, record, status, protection,
configurable binary inputs and outputs, and configurable LEDs.
Setting (change)
The "Setting (change)" menu is used to set or change the settings of password, plant name, relay
address and RS232C or IEC60870-5-103 baud rate in communication, record, status, protection,
configurable binary inputs and outputs, and configurable LEDs.
Since this is an important menu and is used to set or change settings related to relay tripping, it has
password security protection.
Test
The "Test" menu is used to set testing switches, to forcibly operate binary output relays, to
measure variable timer time and to observe the binary signals in the logic circuit.
This menu also has password security protection.
When the LCD is off, press any key other than the VIEW and RESET keys to display the top
"MENU" screen and then proceed to the relay menus.
M
1=Re
3=Se
5=Te
ENU
cord
tting(view)
st
2=Status
4=Setting(change)
To display the "MENU" screen when the digest screen is displayed, press the RESET key to
turn off the LCD, then press any key other than the VIEW and RESET keys.
Press the END key when the top screen is displayed to turn off the LCD.
An example of the sub-menu screen is shown below. The top line shows the hierarchical layer of
the screen, screen title and total number of lines of the screen. The last item is not displayed for all
the screens. "/2" displayed on the far left means that the screen is in the second hierarchical layer,
while 1/5 displayed on the far right means that the screen has five lines excluding the top line and
that the cursor is on the first line.
To move the cursor downward or upward for setting or for viewing other lines not displayed on
the window, use the
and
keys.
⎯ 86 ⎯
6 F 2 S 0 8 8 2
/2
12/Feb/1998 22:56:19
[l o c a l ]
Mi n u t e (
059):
41
Ho u r
(
023):
22
a
y
(
1
3
1
)
:
1
2
D
Mo n t h (
112):
2
Ye a r
( 19 9 0 - 2 0 8 9 ) :
1998
1/
5
To move to the lower screen or move from the left-side screen to the right-side screen in
Appendix G, select the appropriate number on the screen. To return to the higher screen or move
from the right-side screen to the left-side screen, press the END key.
The CANCEL key can also be used to return to the higher screen but it must be used carefully
because it may cancel entries made so far.
To move between screens of the same hierarchical depth, first return to the higher screen and then
move to the lower screen.
4.2.3
Displaying Records
The sub-menu of "Record" is used to display fault records, event records and disturbance records.
4.2.3.1
Displaying Fault Records
To display fault records, do the following:
• Open the top "MENU" screen by pressing any keys other than the VIEW and RESET
keys.
• Select 1 (= Record) to display the "Record" sub-menu.
/1 Record
1=Fault record
3=Disturbance record
2=Event
record
• Select 1 (= Fault record) to display the "Fault record" screen.
/2 Fault Record
2=Clear
1=Display
• Select 1 (= Display) to display the dates and times of fault records stored in the relay from the
top in new-to-old sequence.
/3
#1
#2
#3
Fau
16
20
04
l
/
/
/
t
Oc
Se
Ju
re
t/
p/
l/
co
19
19
19
rd
97
97
97
1/ 4
18:13:57.031
15:29 :22 .463
11:54:53.977
• Move the cursor to the fault record line to be displayed using the
ENTER key to display the details of the fault record.
and
keys and press the
+
⎯ 87 ⎯
6 F 2 S 0 8 8 2
Date and Time
Fault phase
Tripping mode
Tripping signal
output channels
Power system
quantities
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＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ２Ａ
＊＊＊．＊ｋＶ
ＶｃＡ
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ０Ａ
＊＊＊．＊ｋＶ
＊＊＊．＊°
＊＊＊．
＊＊＊．
ＣＨ1
Ｉａ
Ｉｂ
Ｉｃ
＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ１
＊＊．＊＊ｋＡ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
＊＊＊．＊°
＊＊＊．
＊＊＊．
＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ１
＊＊．＊＊ｋＡ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
＊＊＊．＊°
＊＊＊．
＊＊＊．
ＣＨ６４
Ｉａ
Ｉｂ
Ｉｃ
⎯ 88 ⎯
＊＊＊．＊°
＊＊＊．
＊＊＊．
6 F 2 S 0 8 8 2
Note: The phase differential currents show the percentage to DIFCH and DIFZ setting values.
IdyA to IdyD and VyA to VyD are displayed depend on applied zones. (“y”= a, b, c, 1, 2, 0)
The voltages are displayed in Model C400 series. In the phase angle indication, the reference
phase angle is indicated as “0.0°” at V1A. Phase angles above are expressed taking that of
positive sequence voltage as a reference phase angle. The leading phase angles are expressed
plus. If no voltage input, the positive sequence current of CH1 is taken as a reference phase
angle. If the current of CH1 is small, the current of the next channel is used as a reference
phase angle. Therefore, the channel current as a reference phase angle may change to a
different channel current after fault.
The lines which are not displayed in the window can be displayed by pressing the
keys.
and
The display format of tripping signal output channels is shown below.
[„
„
„
„
„
„
-- ---- --
„
„
„
„
„
„]
BP
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
BP2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
RE
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
RE2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
CBF
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
CB2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
TR
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
TR2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
COM
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
CO2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
ETR
CH1 CH2 CH3 CH4 CH5 CH6
-- ---- --
CH27 CH28 CH29 CH30 CH31 CH32
ET2
CH33 CH34 CH35 CH36 CH37 CH38
-- ---- --
CH59 CH60 CH61 CH62 CH63 CH64
Lines "BP" and "BP2" show the tripping signal output channels of the discriminating zone or
check zone protection. Lines "RE" and "RE2" show the re-tripping tripping signal output
channels of the breaker failure protection. Lines "CBF" and "CB2" show the backup signal output
channels of the breaker failure protection. Lines "TR" and "TR2" show the transfer tripping signal
output channels of the breaker failure protection. Lines "COM" and "CO2" show the command
trip signal output channels. Lines "ETR" and "ET2" show the transfer tripping signal output
channels of the end zone fault protection. The tripping signal output channel is displayed with the
status "1".
To clear all the fault records, do the following:
• Open the "Record" sub-menu.
• Select 1 (= Fault record) to display the "Fault record" screen.
• Select 2 (= Clear) to display the following confirmation screen.
/2 Fault record
Clear all fault records?
ENTER=Yes
CANCEL=No
⎯ 89 ⎯
6 F 2 S 0 8 8 2
• Press the ENTER (= Yes) key to clear all the fault records stored in non-volatile memory.
If all fault records have been cleared, the "Latest fault" screen of the digest screens is not
displayed.
4.2.3.2
Displaying Event Records
To display events records, do the following:
• Open the top "MENU" screen by pressing any keys other than the VIEW and RESET keys.
• Select 1 (= Record) to display the "Record" sub-menu.
• Select 2 (= Event record) to display the "Event record" screen.
/2 Event Record
2=Clear
1=Display
• Select 1 (= Display) to display the events with date and time from the top in new-to-old
sequence.
/3 Eve
16/Oct
16/Oct
12/Feb
nt record
/1998 23:18:04.294
/1998 23:18:03.9 13
/1998 03:51:37.622
2/48
Trip
Off
On
Trip
Rly.set change
The lines which are not displayed in the window can be displayed by pressing the
and
keys.
To clear all the event records, do the following:
• Open the "Record" sub-menu.
• Select 2 (= Event record) to display the "Event record" screen.
• Select 2 (= Clear) to display the following confirmation screen.
/2 Event record
Clear all event records?
ENTER=Yes
CANCEL=No
• Press the ENTER (= Yes) key to clear all the event records stored in non-volatile memory.
4.2.3.3
Displaying Disturbance Records
Details of the disturbance records can be displayed on the PC screen only (*); the LCD displays
only the recorded date and time for all disturbances stored in the relay. To display them, do the
following:
(*) For the display on the PC screen, refer to RSM100 manual.
• Open the top "MENU" screen by pressing any keys other than the VIEW and RESET keys.
• Select 1 (= Record) to display the "Record" sub-menu.
• Select 3 (= Disturbance record) to display the "Disturbance record" screen.
⎯ 90 ⎯
6 F 2 S 0 8 8 2
/ 2 Dis t u rba n c e reco rd
2=Clear
1 = D i s p l ay
• Select 1 (= Display) to display the date and time of the disturbance records from the top in
new-to-old sequence.
/3
#1
#2
#3
Dis
16
20
04
t
/
/
/
ur
Oc
Se
Ju
ba
t/
p/
l/
nc
19
19
19
e reco
97 18:
97 15:
97 11:
rd
13:57.031
29 :22 .463
54:53.977
3 /12
The lines which are not displayed in the window can be displayed by pressing the
and
keys.
To clear all the disturbance records, do the following:
• Open the "Record" sub-menu.
• Select 3 (= Disturbance record) to display the "Disturbance record" screen.
• Select 2 (= Clear) to display the following confirmation screen.
/2 Disturbance record
Clear all disturbance records?
ENTER=Yes
CANCEL=No
• Press the ENTER (= Yes) key to clear all the disturbance records stored in non-volatile
memory.
4.2.4
Displaying the Status
From the sub-menu of "Status", the following statuses can be displayed on the LCD:
Metering data of the protected busbar
Status of binary inputs and outputs
Status of measuring elements output
Status of time synchronization source
The data is renewed every second.
This sub-menu is also used to adjust the time of the internal clock.
4.2.4.1
Displaying Metering Data
To display metering data on the LCD, do the following.
• Select 2 (= Status) on the top "MENU" screen to display the "Status" screen.
/1 Sta
1=Mete
3=Rela
5=Cloc
tus
ring
y element
k a d j u s t m ent
2=Binary I/O
4=Time sync source
• Select 1 (= Metering) to display the "Metering" screen.
⎯ 91 ⎯
6 F 2 S 0 8 8 2
／２ Ｍｅｔｅｒｉｎｇ
１６／Ｏｃｔ／１９９７
Ｉｄａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
Ｉｒａ
Ｉｄｂ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
Ｉｒｂ
Ｉｄｃ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
Ｉｒｃ
ＩｄａＡ
ＩｄｂＡ
ＩｄｃＡ
ＩｄａＢ
ＩｄｂＢ
ＩｄｃＢ
ＩｄａＣ
ＩｄｂＣ
ＩｄｃＣ
ＩｄａＤ
ＩｄｂＤ
ＩｄｃＤ
ＶａＡ
ＶｂＡ
ＶｃＡ
ＶａＢ
ＶｂＢ
ＶｃＢ
ＶａＣ
ＶｂＣ
ＶｃＣ
ＶａＤ
ＶｂＤ
ＶｃＤ
ＣＨ１
Ｉａ
Ｉｂ
Ｉｃ
ＣＨ２
Ｉａ
Ｉｂ
Ｉｃ
１８ ：１３ ３／＊＊＊
＊＊＊＊＊＊＊Ａ
＊＊＊＊＊＊＊Ａ
＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒａＡ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｂＡ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｃＡ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒａＢ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｂＢ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｃＢ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒａＣ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｂＣ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｃＣ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒａＤ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｂＤ ＊＊＊＊＊＊＊Ａ
＊＊＊＊＊ ％ ＊＊＊＊＊＊＊Ａ
ＩｒｃＤ ＊＊＊＊＊＊＊Ａ
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ１Ａ
＊＊＊．＊ｋＶ
＊＊＊．＊°
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ２Ａ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ０Ａ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ１Ｂ
＊＊＊．＊ｋＶ
＊＊＊．＊°
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ２Ｂ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ０Ｂ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ１Ｃ
＊＊＊．＊ｋＶ
＊＊＊．＊°
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ２Ｃ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ０Ｃ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ１Ｄ
＊＊＊．＊ｋＶ
＊＊＊．＊°
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ２Ｄ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊．＊ｋＶ ＊＊＊．＊°
Ｖ０Ｄ
＊＊＊．＊ｋＶ
＊＊＊．
＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ１
＊＊．＊＊ｋＡ
＊＊＊．＊°
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
＊＊＊．
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
＊＊＊．
＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ１
＊＊．＊＊ｋＡ
＊＊＊．＊°
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
＊＊＊．
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
＊＊＊．
ＣＨ６４ ＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊＊
Ｉａ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ１
＊＊．＊＊ｋＡ
Ｉｂ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
Ｉｃ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
Ｆｒｅｑｕｅｎｃｙ
＊＊．＊Ｈｚ
＊＊＊．＊°
＊＊＊．
＊＊＊．
Note: The phase differential currents Idy∗ show the current and the percentage to DIFCH and DIFZ
setting values. Iry∗ show the restraining current. IdyA to IdyD and VyA to VyD are displayed
depend on applied zones. (“y”= a, b, c, 1, 2, 0)
In the phase angle indication, the reference phase angle is indicated as “0.0°” at V1A. Phase
angles above are expressed taking that of positive sequence voltage as a reference phase
angle. The leading phase angles are expressed plus. If no voltage input, the positive sequence
current of CH1 is taken as a reference phase angle. If the current of CH1 is small, the current
of the next channel is used as a reference phase angle. The voltages and frequency are
displayed in Model C400 series.
Metering data except for the phase differential currents is expressed as primary values or
secondary values depending on the setting. For setting, see Section 4.2.6.6.
⎯ 92 ⎯
6 F 2 S 0 8 8 2
4.2.4.2
Displaying the Status of Binary Inputs and Outputs
To display the binary input and output status, do the following:
• Select 2 (= Status) on the top "MENU" screen to display the "Status" screen.
• Select 2 (= Binary I/O) to display the binary input and output status.
/ 2 B in
Input
Input
Input
Input
ary input &
(CU-IO#1)
(CU-IO#2)
(BU-CH1)
(BU-CH2)
o u t pu t
[0 0 0 00 0 0 0 0
[0 0 0
[000 000 000
[000 000 000
Input (BU-CH64)
O u t p u t ( C U- I O # 1 )
O u t p u t ( C U- I O # 2 )
O u t p u t ( B U- C H 1 )
O u t p u t ( B U- C H 2 )
[0 0 0
[0 00
[0 00
[0 00
[0 00
000 000
000 00
000 00
O u t p u t ( B U - C H 6 4)
[0 00
000 00
000
000
000
0
0
3/ 1 3 2
]
]
]
]
0
000
00
]
]
]
]
]
]
The display format is shown below.
[„
„
„
„
„
„
„
„
„
„
„
„
„
„
„]
Input (CU-IO#1)
BI1
BI2
BI3
BI4
BI5
BI6
BI7
BI8
BI9
BI10
BI11
BI12
—
—
—
Input (CU-IO#2)
BI1
BI2
BI3
Input (BU-CH1)
BI1
BI5
BI2
BI6
BI3
BI7
BI4
BI11
BI12
BI13
—
—
—
—
—
Input (BU-CH2)
BI1
BI5
BI2
BI6
BI3
BI7
BI4
BI11
BI12
BI13
—
—
—
—
—
BI6
BI3
BI7
BI4
BI11
BI12
BI13
—
—
—
—
—
:
:
:
:
Input (BU-CH64)
BI1
BI5
BI2
Output (CU-IO#1)
BO1
BO2
BO3
Output (CU-IO#2)
BO1
BO2
BO3
BO4
BO5
BO6
BO7
BO8
BO9
BO10 BO11 BO12 FAIL BO13 —
Output (BU-CH1)
TP1
TP2
BO1
BO2
BO3
BO4
BO5
BO6
—
—
—
—
—
—
—
Output (BU-CH2)
TP1
TP2
BO1
BO2
BO3
BO4
BO5
BO6
—
—
—
—
—
—
—
BO3
BO4
BO5
BO6
—
—
—
—
—
—
—
:
:
:
:
Output (BU-CH64) TP1
TP2
BO1
BO2
Line 1 and 2 show the binary input status of the central unit. BI1 to BI12 correspond to each
binary input signal. For details of the binary input signals, see Appendix I. The status is expressed
with logical level "1" or "0" at the photo-coupler output circuit.
Lines "Input (BU-CH1)" to "Input (BU-CH64)" show the binary input status of the bay units.
BI1, BI5 BI2, BI6, BI3, BI7, BI4, BI11, BI12, BI13 of each channel correspond to each binary
input signal. The status is expressed with logical level "1" or "0" at the photo-coupler output
circuit. CU-IO#1, CU-IO#2 and BU-CH1 to BU-CH64 in the table indicate the name of the
module containing the binary input circuits.
Line "Output (CU-IO#2)" shows the binary output status of the central unit. FAIL of "Output
⎯ 93 ⎯
6 F 2 S 0 8 8 2
(CU-IO#2)" corresponds to the relay failure output. Other outputs expressed with BO1 to BO13
of CU-IO#2 are configurable.
Lines "Output (BU-CH1)" to "Output (BU-CH64)" show the binary output status of a bay unit.
TP1 and TP2 correspond to the tripping command outputs. Other outputs expressed with BO1 to
BO6 are configurable.
The status of these outputs is expressed with logical level "1" or "0" at the input circuit of the
output relay driver. That is, the output relay is energized when the status is "1".
CU-IO#1, CU-IO#2 and BU-CH1 to BU-CH64 in the table indicate the names of the module
containing the binary output relays.
To display all the lines, press the
4.2.4.3
and
keys.
Displaying the Status of Measuring Elements
To display the status of measuring elements on the LCD, do the following:
• Select 2 (= Status) on the top "MENU" screen to display the "Status" screen.
• Select 3 (= Relay element) to display the status of the relay elements.
/2 Relay element
DIFCH
DIFZA
DIFZB
[0 00
[0 00
[0 00
000
000
000
3 /21
]
]
]
D I F ZC
DIFZD
OC1
OC 2
[00 0
[0 0 0
[0 00
[0 00
000
000
000
000
000 000
000 000
]
]
]
]
OC 1 6
[0 00
000
000 000
]
The display format is as shown below.
[„
„
„
„
A
B
DIFCH
C
A
B
DIFZA
DIFZB
A
B
DIFZC
A
DIFZB
B
DIFZC
DIFZD
A
OC1
A
OC2
:
:
DIFCH
DIFZA
OC16
„
„
„
„
„
„
A
B
C
DIFCHSV
—
—
—
—
—
C
A
B
C
DIFZASV
—
—
—
—
C
A
C
—
—
—
C
DIFZBSV
A
B
C
DIFZCSV
—
—
B
DIFZD
C
A
—
C
A
A
C
A
B
2OCBF
B
C
A
B
1OCBF
B
C
A
5OCBF
:
B
A
6OCBF
:
B
61CBF
C
„
B
B
C
DIFZDSV
C
„
„
„]
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
C
A
—
—
—
C
A
B
4OCBF
B
C
A
B
3OCBF
B
—
—
A
8OCBF
:
B
—
A
7OCBF
:
B
—
—
—
62CBF
63OCBF
⎯ 94 ⎯
C
64CBF
„
C
C
6 F 2 S 0 8 8 2
Lines 1 to 5 show the operation status of current differential elements DIF∗∗and their supervisory
elements DIF∗∗SV. Lines below 6 show the status of overcurrent elements nOCBF for breaker
failure protection. The number of these overcurrent elements is the same as that of the applied
channels (circuits).
The status of each element is expressed with logical level "1" or "0". Status "1" means the element
is in operation.
To display all the lines on the LCD, press the
4.2.4.4
and
keys.
Displaying the Status of the Time Synchronization Source
The internal clock of the GRB100 can be synchronized with external clocks such as the IRIG-B
time standard signal clock, RSM (relay setting and monitoring system) clock, IEC60870-5-103,
or SNTP server. To display on the LCD whether these clocks are active or inactive and which
clock the relay is synchronized with, do the following:
• Select 2 (= Status) on the top "MENU" screen to display the "Status" screen.
• Select 4 (= Time sync source) to display the status of time synchronization sources.
/2 T i m e s y n ch r o n i z a t i o n s o u r c e
*IR I G : I n a c t i v e
RS M :
Inactive
IE C :
Inactive
SN T P :
Active
(S e r v e r
4/
4
∗)
The asterisk on the far left shows that the internal clock is synchronized with the marked source
clock. If the marked source clock is inactive, the internal clock runs locally.
For details of the setting time synchronization, see Section 4.2.6.6.
4.2.4.5
Adjusting the Time
To adjust the clock when the internal clock is running locally, do the following:
• Select 2 (= Status) on the top "MENU" screen to display the "Status" screen.
• Select 5 (= Clock adjustment) to display the setting screen.
/2
1
Minute
Hour
Day
2/Feb
(
(
(
Month
Year
(
(
/1998 22
059)
023)
131)
11990-
:56:19
[local]
:
41
:
22
:
12
12):
2089):
1/
5
2
1998
Line 1 shows the current date, time and time synchronization source with which the internal clock
is synchronized. The time can be adjusted only when [local] is indicated on the top line, showing
that the clock is running locally. When [IRIG] or [RSM] or [IEC] or [SNTP] is indicated, the
following adjustment is invalid.
• Enter a numerical value within the specified range for each item and press the ENTER key.
• Press the END key to adjust the internal clock to the set hours without fractions and return to
the previous screen.
⎯ 95 ⎯
6 F 2 S 0 8 8 2
If a date which does not exist in the calendar is set and END is pressed, "Error: Out of
range"(meaning incorrect date) is displayed on the top line and the adjustment is discarded.
Adjust again.
4.2.5
Viewing the Settings
The sub-menu "Setting (view)" is used to view the settings made using the sub-menu "Setting
(change)" except for the relay version.
The following items are displayed:
Relay version
Description
Communication (Relay address and baud rate in the RSM or IEC60870-5-103)
Recording setting
Status setting
Protection setting
Binary input setting
Binary output setting
LED setting
Enter a number on the LCD to display each item as described in the previous sections.
4.2.5.1
Relay Version
To view the relay version, do the following.
• Press 3 (= Setting (view)) on the main "MENU" screen to display the "Setting (view)" screen.
/1 Setting(view)
1=Version
2=Description
3=Comm.
6=Protection
4=Record
5=Status
9=LED
7=Binary input
8=Binary output
• Press 1 (= Version) on the "Setting (view)" screen and the "Relay version" screen appears.
/2 R e l a y v e rs io n
R el a y t y p e :
Se r i a l n o . :
M a i n s o f t w a re :
3 / 10
* * * * * * * * * * * ** * * * * * * * **
* * * * * * * * * * * ** * * * * * * * **
* * * * * * * * * * * ** * * * * * * * **
FEP1 software :
FEP2 software :
IEC61850 eng.:
PLC data:
IEC103 data:
I EC 6 18 5 0 dat a:
G O O S E s u b s c r i pt:
* ** * ** * * ** *** * * ** * * ***
* ** * ** * * ** *** * * ** * * ***
* * * * * * * ** * * * * * * ** * * * * *
* * ** * * * ** * * * ( * * * ** * * * )
* * * * * * * * * * * *( * * * * * * * *)
* * * * * ** * * * * *( * * * * * * * * )
* * * * * * * * * * * *( * * * * * * * * )
Note: The FEP2 is displayed for Models C∗60 and C∗80.
⎯ 96 ⎯
6 F 2 S 0 8 8 2
4.2.5.2
Settings
The "Description", "Comm.", "Record", "Status", "Protection", "Binary input", "Binary output"
and "LED" screens display the current settings entered using the "Setting (change)" sub-menu.
4.2.6
Changing the Settings
The "Setting (change)" sub-menu is used to make or change settings for the following items:
Password
Description
Communication (Relay address and baud rate in the RSM or IEC60870-5-103)
Recording
Status
Protection
Binary input
Binary output
LED
All of the above settings except the password can be seen using the "Setting (view)" sub-menu.
4.2.6.1
Setting Method
There are three setting methods as follows.
- To enter a selective number
- To enter numerical values
- To enter a text string
To enter a selected number
If a screen as shown below is displayed, perform the setting as follows:
The number to the left of the cursor shows the current setting or default setting set at shipment.
and
The cursor can be moved to the upper or lower lines within the screen by pressing the
keys. If a setting (change) is not required, skip the line with the
and
keys.
⎯ 97 ⎯
6 F 2 S 0 8 8 2
/6
Scheme
s wit ch
1 / 204
C
I
A
A
.
D
I
I
T
S
S
F
P
V
V
D S V
0=
0=
0=
0=
B
O
O
O
L
f
f
f
K
f
f
f
1
1
1
1
=
=
=
=
T
A
A
A
2=A L M
2=A L M
2=A L M
3= B BP
3= B BP
3= B BP
D
C
B
1
S
B
F
B
S
S
L
F
V
V
O G I C
1
0
0
0
0
O
O
B
O
f
f
F
f
f
f
1
f
1
1
1
1
=
=
=
=
A L M & B L K 2=A L M
A L M & B L K 2=A L M
B F 2
T
2 =T O C
3= B BP
3= B BP
=
=
=
=
r
L
L
L
i
M
M
M
p
& B L K
& B L K
& B L K
0 _
2
1
0
0
1
0
0
1 B F 2
1 B F E X T
2 B F 1
0= O ff
0= O ff
0= O ff
1= O n
1= O n
1=T
2 =T O C
0
1
0
6 4 B F 1
0= O ff
1=T
2 =T O C
0
6
6
B
C
E
C
C
0=
0=
0=
0=
0=
0=
0=
1
1
1
1
1
1
1
4
4
F
O
F
T
T
B
B
T
M
P
F
F
F
F
R
T
T
E
C
2
E X T
I O
P
R
N
N T
O
O
O
O
O
O
N
f
f
f
f
f
f
A
f
f
f
f
f
f
= O n
= O n
= O n
= O n
= O n
=O n 2 = O P T - O n
=BL K
0
1
0
0
0
0
0
• Move the cursor to a setting line.
• Enter the selected number. (Numbers other than those displayed cannot be entered.)
• Press the ENTER key to confirm the entry and the cursor will move to the next line below.
(On the lowest line, the entered number blinks.)
• After completing the setting on the screen, press the END key to return to the upper menu.
To correct the entered number, do the followings.
• If it is before pressing the ENTER key, press the CANCEL key and enter the new number.
• If it is after pressing the ENTER key, move the cursor to the correcting line by pressing the
and
keys and enter the new number.
Note: If the CANCEL key is pressed after any of the entry is confirmed by pressing the ENTER
key, all the entries performed so far on the screen concerned are canceled and the screen
returns to the upper one.
When the screen shown below is displayed, perform the settings as follows:
The number to the right of "Current No. = " shows the current setting.
/3 C h a n g e
1=Group1
5 =G r o up 5
Current
active group(Active group= *)
2= G ro u p 2
3= G ro u p 3
4=Group4
6=Group6
7 = G ro u p 7
8= G ro u p 8
No.= *
S e lec t N o .
=
• Enter a number to the right of "Select No. = ". (Numbers other than those displayed cannot be
entered.)
• Press the ENTER key to confirm the entry and the entered number blinks.
• After completing the setting on the screen, press the END key to return to the upper screen.
⎯ 98 ⎯
6 F 2 S 0 8 8 2
To correct the entered number, do the following.
• If it is before pressing the ENTER key, press the CANCEL key and enter the new number.
• If it is after pressing the ENTER key, enter the new number.
To enter numerical values
When the screen shown below is displayed, perform the setting as follows:
The number to the left of the cursor shows the current setting or default setting set at shipment.
and
The cursor can be moved to upper or lower lines within the screen by pressing the
keys. If a setting (change) is not required, skip the line with the
and
keys.
/7 DIF
DIFCH(
DIFZ (
SLPCH(
50 050 00.3 0 -
SLPZ (
DI FS V (
TID S V(
TB R D G (
TD D S V (
TC B S V (
(
1CT
2CT
(
0.3 0 0 .9 0 )：
203 00 0 ) ：
06 0 )：
060)：
060)：
060)：
10 0 - 1 0 00 0 )：
10 0 - 1 0 00 0 )：
64CT (
CFID (
CF U V (
CF D V (
CF OV G (
10 0502010.1 -
3 00 0 )：
3 00 0 )：
0 .9 0 )：
1 0 00 0 )：
3 00 0 )：
6 0 )：
10)：
1 0. 0 ) ：
1 /7 5
A
A
3 000
3 000
0 .30
0 .30
100 0
20
60
60
10
1 000
1 000
A
s
s
s
s
A
A
1 000
50
20
7
1. 0
A
A
V
%
V
• Move the cursor to a setting line.
• Enter the numerical value.
• Press the ENTER key to confirm the entry and the cursor will move to the next line below.
(If a numerical value outside the displayed range is entered, "Error: Out of range" appears on
the top line and the cursor remains on the line. Press the CANCEL key to clear the entry.)
• After completing the setting on the screen, press the END key to return to the upper screen.
To correct the entered numerical value, do the following.
• If it is before pressing the ENTER key, press the CANCEL key and enter the new
numerical value.
• If it is after pressing the ENTER key, move the cursor to the correct line by pressing the
and
keys and enter the new numerical value.
Note: If the CANCEL key is pressed after any entry is confirmed by pressing the ENTER
key, all the entries made so far on the screen concerned are canceled and the screen
returns to the upper one.
To enter a text string
Text strings are entered in the bracket under the "Plant name" or "Description" screen.
⎯ 99 ⎯
6 F 2 S 0 8 8 2
To select a character, use keys 2, 4, 6 and 8 to move the blinking cursor down, left, right and up.
"→" and "←" on each of lines 2 to 4 indicate a space and backspace, respectively. A maximum of
22 characters can be entered within the brackets.
/3 Plant name
[
_
ABCDEFGHIJKLMNOPQRSTUVWXYZ
]
←→
()[]@_
abcdefghijklmnopqrstuvwxyz
0 1 2 3 4 5 6 7 8 9 ! ”# $ % & ’：；，．^ `
{ } * / + - < = > ←→
←→
• Set the cursor position in the bracket by selecting "→" or "←" and pressing the ENTER key.
• Move the blinking cursor to select a character.
• Press the ENTER to enter the blinking character at the cursor position in the brackets.
• Press the END key to confirm the entry and return to the upper screen.
To correct the entered character, do either of the following.
• Discard the character by selecting "←" and pressing the ENTER key and enter the new
character.
• Discard the whole entry by pressing the CANCEL key and restart the entry from the first.
To complete the setting
Enter after making entries on each setting screen by pressing the ENTER key, the new settings
are not yet used for operation, though stored in the memory. To validate the new settings, take the
following steps.
• Press the END key to the upper screen. Repeat this until the confirmation screen shown
below is displayed. The confirmation screen is displayed just before returning to the "Setting
(change)" sub-menu.
/2 **************
Change settings?
ENTER=Yes
CANCEL=No
• When the screen is displayed, press the ENTER key to start operation using the new
settings, or press the CANCEL key to correct or cancel entries. In the latter case, the screen
turns back to the setting screen to enable reentries. Press the CANCEL key to cancel entries
made so far and to turn to the "Setting (change)" sub-menu.
4.2.6.2
Password
For the sake of security of changing the settings and testing the relay, password protection can be
set as follows;
• Press 4 (= Setting (change)) on the main "MENU" screen to display the "Setting (change)"
screen.
/1 Setting(change )
2=Description
3=Comm.
1=Password
6=Protection
4=Record
5=Status
9=LED
7=Binary input
8=Binary output
⎯ 100 ⎯
6 F 2 S 0 8 8 2
• Press 1 (= Password) to display the "Password" screen.
/2 Password
1=Setting
2=Test
• Press 1 (= Setting) to set the password for the setting change.
/3
Setting
Input
Retype
new
new
password
password
[
[
]
]
• Enter a 4-digit number within the brackets after "Input new password" and press the ENTER
key.
• For confirmation, enter the same 4-digit number in the brackets after "Retype new password"
and press the ENTER key.
• Press the END key to display the confirmation screen. If the retyped number is different
from that first entered, the following message is displayed on the bottom of the "Setting"
screen before returning to the upper screen.
"Mismatch-password unchanged."
Reentry is then requested.
• Press 2 (= Test) on the "Password" screen to set the password for the test.
/3
Test
Input
Retype
new
new
password
password
[
[
]
]
Set the password the same manner as that of the "Setting" above.
Password trap
After the password has been set, the password must be entered in order to enter the setting change
and the test screens.
If 4 (= Setting (change)) or 5 (= Test) is entered on the top "MENU" screen, the password trap
screen "Password" is displayed. If the password is not entered correctly, it is not possible to move
to the "Setting (change)" or "Test" sub-menu screens.
Password
Input
password
[
]
Canceling or changing the password
To cancel the password protection, enter "0000" in the two brackets on the "Password" screen.
The "Setting (change)" screen or the "Test" screen is then displayed without having to enter a
password.
The password can be changed by entering a new 4-digit number on the "Password" screen in the
⎯ 101 ⎯
6 F 2 S 0 8 8 2
same way as the first password setting.
If you forget the password
Press CANCEL and RESET together for one second on the top "MENU" screen. The screen
disappears, and the password protection of the GRB100 is canceled. Set the password again.
4.2.6.3
Description
To enter the plant name and other data, do the following. These data are attached to records.
• Press 4 (= Setting (change)) on the main "MENU" screen to display the "Setting (change)"
screen.
• Press 2 (= Description) to display the "Description" screen.
/2 Description
1 =P lant na me
2=Des cri ption
• To enter the plant name, select 1 (= Plant name) on the "Description" screen.
/3 Plant name
[
_
ABCDEFGHIJKLMNOPQRSTUVWXYZ
]
←→
()[]@ _
abcdefghijklmnopqrstuvwxyz
0 1 2 3 4 5 6 7 8 9 ! ” # $ % & ’ ：；，．^ `
{ } * / + - < = > ←→
←→
• To enter special items, select 2 (= Description) on the "Description" screen.
/3 Description [
_
ABCDEFGHIJKLMNOPQRSTUVWXYZ
abcdefghijklmnopqrstuvwxyz
0 1 2 3 4 5 6 7 8 9 ! ” # $ % & ’ ：；，．^ `
]
←→
()[]@ _
{ } * / + - < = > ←→
←→
• Enter the text string.
4.2.6.4
Communication
If the relay is linked with RSM (relay setting and monitoring system) or IEC60870-5-103 or
Ethernet LAN, the relay address must be set. Do this as follows:
• Press 4 (= Setting (change)) on the main "MENU" screen to display the "Setting (change)"
screen.
• Press 3 (= Comm.) to display the "Communication" screen.
/2 C o m m u n ic a t i on
1 = A d d r e s s / P a ra m e t e ｒ
2 = S w i tc h
• Press 1 (= Address) to enter the relay address number.
/ 3 A dd re s s / P a r a m e te r
132):
HDLC (
2 54 ) :
I EC
(
09 9 99 ) :
S Y A D J ( - 999 9 -
1 _
2
0
IP1-1(
IP1-2(
IP1-3(
IP1-4(
0
0
0
0
0
0
0
0
-
2 54 ) :
2 5 4⎯
) :102 ⎯
2 54 ) :
2 54 ) :
1/
ms
**
6 F 2 S 0 8 8 2
•
Enter the address number on "HDLC" column for RSM and/or "IEC" column for
IEC60870-5-103 and the compensation value on "SYADJ" column for adjustment of time
synchronization of protocol used (−: lags the time, +: leads the time).
Enter IP address for IP1-1 to IP1-4, Subnet mask for SM1-1 to SM1-4, Default gateway for
GW1-1 to GW1-4, and SNTP server address for SI1-1 to SI4-4. Four SNTP servers are
available.
Enter "0" or "1" on "SMODE" column to set the standard time synchronized mode for SNTP
server. Using low accuracy level of time server, synchronized compensation to maintain
⎯ 103 ⎯
6 F 2 S 0 8 8 2
synchronization accuracy may not be done automatically. Therefore enter "1", and
synchronized compensation is done forcibly. The default setting is "0".
Enter the time on "GOINT" to set the maximum GOOSE message publishing term if GOOSE
message receive checked.Enter the time on "DEADT" to set the Keep Alive time.
Enter the IP address of the device for PG1-1 to PG1-4 if Ping response is checked.
IP address: ∗∗∗, ∗∗∗, ∗∗∗, ∗∗∗
IP1-1 IP1-2 IP1-3 IP1-4
SM1-1 to SM1-4, GW1-1 to GW1-4, SI1-1 to SI4-4, PG1-1 to PG1-4: same as above.
• Press the ENTER key.
CAUTION: Do not overlap the relay address number.
• Press 2 (= Switch) on the "Communication" screen to select the protocol and transmission
speed (baud rate), etc., of the RSM or IEC60870-5-103 or IEC61850.
/3 Switch
1 = HD
PR TC L1
23 2C
1 = 9.
IE CB R
1 = 9.
IE CB LK
1 = No
85 0B LK
1 = No
0 = Of
85 0A UT
TS TM OD
0 = Of
GS EC HK
0 = Of
0 = Of
PI NG CH K
L C 2 = I EC 103
6 2 = 19 . 2 3 = 38 . 4
6 2 = 19 . 2
r mal 2 =B loc ke d
r mal 2 =B loc ke d
f 1= On
f 1= On
f 1= On
f 1= On
1/
2
4 = 57 . 6 4
2
1
1
1
0
0
0
9
• Select the number corresponding to the system and press the ENTER key.
<PRTCL1>
PRTCL1 is used to select the protocol for channel 1 (COM1 or OP1) of the serial communication
port RS485 or FO (fibre optic).
•
When the remote RSM system applied, select 1 (=HDLC). When the IEC60870-5-103
applied, select 2 (=IEC103).
<232C>
This line is to select the RS-232C baud rate when the RSM system applied.
Note: default setting of the 232C is 9.6kbps. The 57.6kbps setting, if possible, is recommended to
serve user for comfortable operation. The setting of RSM100 is also set to the same baud rate.
<IECBR>
This line is to select the baud rate when the IEC60870-5-103 system applied.
<IECBLK>
Select 2 (=Blocked) to block the monitor direction in the IEC60870-5-103 communication.
<850BLK>
Select 2 (=Blocked) to block the monitor direction in the IEC61850 communication.
<850AUT>
In the IEC61850 communication, GRB100 provides the access restriction which permits a client
to access only if an authentication parameter matches with a valid parameter (password).
⎯ 104 ⎯
6 F 2 S 0 8 8 2
Password is 4-digit number and shared with RSM100.
Select 1 (=On) to use the authentication function.
<TSTMOD>
Select 1 (=On) to set the test mode in the IEC61850 communication.
<GSECHK>
This function is to alarm if any one of GOOSE messages written in GOOSE subscribe file cannot
be received.
Select 1 (=On) to execute GOOSE receive check in the IEC61850 communication.
<PINGCHK>
This function is to check the health of network by regularly sending Ping to IP address which is
set on PG∗-∗.
Select 1 (=On) to execute Ping response check.
4.2.6.5
Setting the Recording
To set the recording function as described in Section 4.2.3, do the following:
• Press 4 (= Setting (change)) on the main "MENU" screen to display the "Setting (change)"
screen.
• Press 4 (= Record) to display the "Record" screen.
/2 Record
1=Event record
2=Disturbance record
• Press 1 (= Event record) to display the "Event record" screen.
/ 3 E v e n t R e c o rd
1 = S ign a l n o.
2=CH
BI
Setting the signal number
• Press 1 (= Signal no.) to display the "Signal no." screen.
/4 Singnal
BITRN (
EV1
(
EV2
(
no.
000-
1/129
128):
7167):
7167):
128
0
1
EV3
EV4
(
(
00-
7167):
7167):
1
1
EV128
(
0-
7167):
3071
_
<BITRN>
• Enter the number of event to record the status change both to "On" and "Off". If 20 is entered,
⎯ 105 ⎯
6 F 2 S 0 8 8 2
both status change is recorded for EV1 to EV20 events and only the status change to "On" is
recorded for EV21 to EV128 events.
<EV∗>
•
Enter the signal number in Appendix C to record as the event. It is recommended that this
setting can be performed by RSM100 because the signal name cannot be entered by LCD
screen. (Refer to Section 3.4.2.)
Setting the status change mode of Binary Input
• Press 2 (= CH BI) to display the "CH BI" screen.
/4 CH BI
CH1 BI
CH2 BI
0=None
1=Operate
1=Operate
3= Both
2=Reset
2=Reset
1/64
3_
3
CH3
CH4
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH8
CH9
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH16
CH17
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH24
CH25
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH32
CH33
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH48
CH49
BI
BI
1=Operate
1=Operate
2=Reset
2=Reset
3
3
CH64
BI
1=Operate
2=Reset
3
• Enter 0 or 1 or 2 or 3 and press the ENTER key. Repeat this for all events.
Enter 0 (= None) not to record the event.
Enter 1 (= Operate) to record the event when the status changes to "operate".
Enter 2 (= Reset) to record the event when the status changes to "reset".
Enter 3 (= Both) to record the event when the status changes both to "operate" and "reset".
Setting the disturbance recording
• Press 2 (= Disturbance record) on the "Record" screen to display the "Disturbance record"
screen.
⎯ 106 ⎯
6 F 2 S 0 8 8 2
/3 Di
1=Rec
2 =Sch
3=Bin
s t u rbance r e co rd
o rd t i m e & s t a r t e r
e me switch
ar y signal
• Press 1 (= Record time & starter) to display the "Record time & starter" screen.
/4 Record
Time (
1OCG (
1OCS (
time & starter
0.12.0):
2.0 _
0.110.0):
10.0
0.110.0):
10.0
2OCG
2OCS
(
(
0.10.1-
10.0):
10.0):
10.0
10.0
64OCG(
64OCS(
0.10.1-
10.0):
10.0):
10.0
10.0
1/129
s
• Enter the recording time and starter element settings.
To set the starters, do the following:
• Press 2 (= Scheme switch) on the "Disturbance record" screen to display the "Scheme switch"
screen.
/4 S c h e m e sw i t
TR I P
0 = O ff
OC G
0 = O ff
OC S
0 = O ff
ch
1 =O n
1=On
1=On
1/ 3
1
1
1
• Enter 1 to use as a starter or enter 0 if not to use. Repeat this for all items.
• Press 3 (=Binary signal) on the "Disturbance record" screen to display the "Binary signal"
screen.
/４ Binary signal
1/32
SIG1
SIG2
SIG3
(
(
(
000-
7167):
7167):
7167):
1 _
2
3
SIG4
(
0-
7167):
4
SIG32(
0-
7167):
0
• Enter the signal number in Appendix C to record binary signals. It is recommended that this
setting can be performed by RSM100 because the signal name cannot be entered by LCD
screen. (Refer to Section 3.4.3.)
4.2.6.6
Status
To set the status display described in Section 4.2.4, do the following.
Press 5 (= Status) on the "Setting (change)" sub-menu to display the "Status" screen.
⎯ 107 ⎯
6 F 2 S 0 8 8 2
/2
Status
1=Metering
2=Time synchronization
3=Time zone
Setting the metering
• Press 1 (= Metering) to display the "Metering" screen.
/3 Metering
Display value
1=Primary
2=Secondary
1/ 1
1 _
• Enter the selected number and press the ENTER key.
Setting the time synchronization
The calendar clock can run locally or be synchronized with the external IRIG-B time standard
signal, RSM, IEC clock or SNTP. This is selected by setting as follows.
• Press 2 (= Time synchronization) to display the "Time synchronization" screen.
/3
Time
0=Off
synchronization
1=IRIG
Current
2=RSM
3=IEC
No.=0
1/1
4=SNTP
Select
No.=_
• Enter the selected number and press the ENTER key.
Note: When to select IRIG-B, RSM, IEC, or SNTP, check that they are active on the "Time
synchronization source" screen in "Status" sub-menu. If it is set to an inactive IRIG-B, RSM,
IEC or SNTP, the calendar clock runs locally.
Setting the time zone
When the calendar clock is synchronized with the IRIG-B time standard signal, it is possible to
transfer GMT to the local time.
• Press 3 (= Time zone) to display the "Time zone" screen.
/3 Time
GMT
(
GMTm
(
zone
-12-
+12):
+9
-59-
+59):
+0
_
1/2
hrs
min
• Enter the difference between GMT and local time. Enter numerical values to GMT (hrs) and
GMTm (min), and press the ENTER key.
4.2.6.7
Protection
The GRB100 can have eight setting groups for protection according to the change of power
system operation, one of which is assigned to be active. To set protection, do the following:
• Press 6 (= Protection) on the "Setting (change)" screen to display the "Protection" screen.
⎯ 108 ⎯
6 F 2 S 0 8 8 2
/2 Protec
1=Change
2=Change
3=Copy gr
ti
ac
se
ou
on
tive group
tting
p
Changing the active group
• Press 1 (= Change active group) to display the "Change active group" screen.
/3 C h a n g e
1=Group1
5 =G r o up 5
Current
active group(Active group= *)
2= G ro u p 2
3= G ro u p 3
4=Group4
8= G ro u p 8
6=Group6
7=Group7
S e l ec t N o .
No.= *
=
• Enter the selected number and press the ENTER key.
Changing the settings
Almost all the setting items have default values that are set when the product GRB100 was
shipped. For the default values, see Appendix E and J. To change the settings, do the following:
• Press 2 (= Change setting) to display the "Change setting" screen.
/3 C h a n g e
1=Group1
5 =G r o up 5
setting
2= G ro u p 2
6=Group6
(Active group= *)
3= G ro u p 3
4=Group4
8= G ro u p 8
7=Group7
• Press the group number to change the settings and display the "Protection" screen.
/4 Protection
1=Busbar parameter
2=Trip
(Group
*)
Settings are required for transformer parameter and protection functions.
Setting the busbar parameters
Enter the CH name and VT ratio as follows:
<CH name>
If the CH name is set, the set name is displayed on the digest screen (electric quantity), the fault
record screen and the metering screen.
• Press 1 (= Busbar parameter) on the "Protection" screen to display the "Busbar parameter"
screen.
/5 Busb ar parameter
1=CH name
2=VT ratio
Note: "2 = VT ratio" is displayed for Model C400 series.
• Press 1 (CH name) to display the "CH name" screen.
⎯ 109 ⎯
(Group
*)
6 F 2 S 0 8 8 2
/6 C H n a m e
S el e c t C H
(
1-
64)
S el e c t
N o .=
• Enter the CH number and press the ENTER key.
/7 CH1 name
[
_
ABCDEFGHIJKLMNOPQRSTUVWXYZ
abcdefghijklmnopqrstuvwxyz
0 1 2 3 4 5 6 7 8 9 ! ” # $ % & ’ ：；，．^ `
()[]@_
{}*/+-<=>
]
←→
←→
←→
• Enter the text string.
<VT ratio>
This setting is applied for Model C400 series.
• Press 2 (VT ratio) on the "Busbar parameter" screen to display the "VT ratio" screen.
/6 VT r ati o
VTA
(
1 - 2 0 00 0 )：
VTB
(
1 - 2 0 00 0 )：
VT C
(
1 - 20 000 )：
VTD
(
1 - 20 000 )：
1 /4
2 000
2 000
2000
2000
• Enter the VT ratio and press the ENTER key.
• Press the END key to return the display to the "Busbar parameter" screen.
Setting the protection function
To set the protection schemes, scheme switches and protection elements, do the following.
Protection elements are measuring elements and timers.
Note: Depending on the selected protection scheme and scheme switch setting, some of the scheme
switches and protection elements are not used and so need not be set. The protection function
setting menu of the GRB100 does not display unnecessary setting items. Therefore, start by
setting the protection scheme, then set the scheme switch, then the protection elements.
As a result of the above, note that some of the setting items described below may not appear in
the actual setting.
• Press 2 (= Trip) on the "Protection" screen to display the "Trip" screen.
/5 Trip
1=Scheme switch
2=Protection element
(Group
Setting the scheme switch
• Press 1 (= Scheme switch) to display the "Scheme switch" screen.
⎯ 110 ⎯
*)
6 F 2 S 0 8 8 2
/6
Scheme
s wit ch
1 / 204
C
I
A
A
.
D
I
I
T
S
S
F
P
V
V
D S V
0=
0=
0=
0=
B
O
O
O
L
f
f
f
K
f
f
f
1
1
1
1
=
=
=
=
T
A
A
A
D
C
B
1
S
B
F
B
S
S
L
F
V
V
O G I C
1
0
0
0
0
O
O
B
O
f
f
F
f
f
f
1
f
1
1
1
1
=
=
=
=
A L M & B L K 2=A L M
A L M & B L K 2=A L M
B F 2
T
2 =T O C
=
=
=
=
r
L
L
L
i
M
M
M
p
& B L K
& B L K
& B L K
2=A L M
2=A L M
2=A L M
0
_
3= B BP 2
3= B BP 1
3= B BP 0
3= B BP
3= B BP
0
1
0
0
1 B F 2
1 B F E X T
2 B F 1
0= O ff
0= O ff
0= O ff
1= O n
1= O n
1=T
2 =T O C
0
1
0
6 4 B F 1
0= O ff
1=T
2 =T O C
0
6
6
B
C
E
C
C
0=
0=
0=
0=
0=
0=
0=
1
1
1
1
1
1
1
4
4
F
O
F
T
T
B
B
T
M
P
F
F
F
F
R
T
T
E
C
2
E X T
I O
P
R
N
N T
O
O
O
O
O
O
N
f
f
f
f
f
f
A
f
f
f
f
f
f
= O n
= O n
= O n
= O n
= O n
=O n 2 = O P T - O n
=BL K
0
1
0
0
0
0
0
• Enter the number corresponding to the switch status to be set and press the ENTER key for
each switch.
• After setting all switches, press the END key to return to the "Trip" screen.
Setting the protection elements
• Press 2 (= Protection element) to display the "Protection element" screen.
/6 Protec tion element
1=DIF
2=OC
(Group=
*)
3=FD
Note: " 3 = FD" is displayed for Model C400 series.
<DIF>
• Press 1 (= DIF) to display the "DIF" screen. The measuring elements used in the current
differential protection are set using this screen.
• Enter the numerical value and press the ENTER key for each element.
Note: Set DIFCH, DIFZ and DIFSV with CT primary circuit value and 1CT to 64CT with CT
primary rating.
• After setting all elements, press the END key to return to the "Protection element" menu.
⎯ 111 ⎯
6 F 2 S 0 8 8 2
/7 DI F
DI FCH(
DI FZ (
SL PCH(
5005000.3 0 -
SL
DI
TI
TB
TD
TC
1C
2C
PZ
FS
DS
RD
DS
BS
T
T
(
(
(
(
(
(
(
(
0.3 0 200000100100-
64
CF
CF
CF
CF
CT
ID
UV
DV
OVG
(
(
(
(
(
100502010.1-
V
V
G
V
V
3 00 0 ) ：
3 00 0 ) ：
0 .9 0 ) ：
1/75
A
A
0
0
0
0
0
0
0
0
)：
)：
)：
)：
)：
)：
)：
)：
300
300
0.3
0.3
100
2
6
6
1
100
100
0
0
0
0
0
0
0
0
A
s
s
s
s
A
A
1 0 00 0
3 000
60
10
1 0. 0
)：
)：
)：
)：
)：
1000
50
20
7
1.0
A
A
V
%
V
0 .9
3 00
6
6
6
6
1 0 00
1 0 00
0
0
0
<OC>
• Press 2 (= OC) to display the "OC" screen. The overcurrent elements and timers are set using
this screen.
• Enter the numerical value and press the ENTER key for each element.
Note: Set OCB with multiples of CT secondary rating value.
• After setting all elements, press the END key to return to the "Protection element" menu.
/7
10
T1
T1
OC
CB
B1
B2
20CB
T2B1
T2B2
6
T
T
T
T
4
6
6
B
C
O
4
4
F
B
C
B
B
D
O
B
1
2
O
1/194
(
(
(
0.100-
2.0):
500):
500):
0.5
50
150
(
(
(
0.100-
2.0):
500):
500):
0.5
50
150
(
(
(
(
(
0.1
0
0
0.00
0.00
-
2
5
5
10.
10.
.
0
0
0
0
0
0
0
0
0
)
)
)
)
)
:
:
:
:
:
0.
5
15
0.1
1.0
_
5
0
0
0
0
ms
ms
ms
ms
ms
ms
s
s
<FD>
This setting is applied for Model C400 series.
• Press 3 (= FD) to display the "FD" screen. The measuring elements used in the fault detector
are set using this screen.
• Enter the numerical value and press the ENTER key for each element.
• After setting all elements, press the END key to return to the "Protection element" menu.
⎯ 112 ⎯
6 F 2 S 0 8 8 2
/7 FD
UV SF (
UVGF (
OVGF (
60200.1-
100 )：
60)：
10. 0 ) ：
1/
V
V
V
80
46
1 0. 0
3
Setting group copy
To copy the settings of one group and overwrite them to another group, do the following:
• Press 3 (=Copy group) on the "Protection" screen to display the "Copy group A to B" screen.
/3
A
B
Copy
(
(
group
11-
A
to
B
(A ct i v e
8)：
8)：
group=
*)
• Enter the group number to be copied in line A and press the ENTER key.
• Enter the group number to be overwritten by the copy in line B and press the ENTER key.
4.2.6.8
Binary Input
The logic level of binary input signals can be inverted by setting before entering the scheme logic.
Inversion is used when the input contact cannot meet the conditions described in Table 3.2.2.
• Press 7 (= Binary input) on the "Setting (change)" sub-menu to display the "Binary input"
screen.
/2 B i n a r y i n p u t
1=Norm
BISW 1
1
=Norm
BISW 2
1=Norm
BISW 3
2 =Inv
2=Inv
2 =Inv
1 / 15
1
1
1
BISW 4
:
B I S W 15
2=Inv
:
2 =Inv
1
:
1
1=Norm
:
1=Norm
• Enter 1 (= Normal) or 2 (= Inverted) and press the ENTER key for each binary input.
4.2.6.9
Binary Output
All the binary outputs of the GRB100 except the relay failure signal are user-configurable. It is
possible to assign one signal or up to six ANDing or ORing signals to one output relay. Available
signals are listed in Appendix C.
Note: The binary outputs TP1, TP2, BO3 to BO6 for each BU (CH1 – CH64) are programmed by
PLC function.
It is also possible to attach a drop-off delay time of 0.2 seconds to these signals. The drop-off
delay time is disabled by the scheme switch [BOTD].
Appendix E shows the factory default settings.
To configure the binary output signals, do the following:
Selection of output module
• Press 8 (= Binary output) on the "Setting (change)" screen to display the "Binary output"
screen. The available output module(s) will be shown.
⎯ 113 ⎯
6 F 2 S 0 8 8 2
/2 Binary
1 =CU-IO # 1
output
2 =CU-IO #2
4 =BU-BO1
5 =BU-BO2
• Press the number corresponding to the selected output module to display the "Binary output"
screen.
When "1" or "2" selected,
/3 B i n a r y
Se le c t B O
( C U - I O # ∗)
out p u t
(
1-
∗∗)
S ele c t
N o .=
When "3" or "4" selected,
/3 B i n a r y
Se le c t C H
out p u t
(BU-BO*)
(
1-
64)
S ele c t
N o .=
Note: The setting is required for all the binary outputs. If any of the binary outputs are not to be
used, enter 0 for the logic gates #1 to #6 when assigning signals.
Selecting the output relay
• Enter the output relay number on the "Binary output" screen and press the ENTER key to
display the "Setting" screen.
/4 Setting
1=Logic gate type & delay
2=Input to logic gate
( B O* * o f * ***)
timer
or
(BO* of
/4 S e t t i n g
1= Lo g i c g a t e t y pe & d e l a y ti m e r
2= In pu t to l og i c g a te
CH**)
Setting the logic gate type and timer
• Press 1 on the "Setting" screen to display the "Logic gate type & delay timer" screen.
/5 Logic gate
Logic
1=OR
BOTD
0=Off
type &
2=AND
1=On
delay
timer
1/
1
1
2
• Enter 1 or 2 to use an OR gate or AND gate and press the ENTER key.
• Enter 0 or 1 to add 0.2s drop-off delay time to the output relay or not and press the ENTER
key.
⎯ 114 ⎯
6 F 2 S 0 8 8 2
• Press the END key to return to the "Setting" screen.
Assigning signals
• Press 2 on the "Setting" screen to display the "Input to logic gate" screen.
/5 I n p u t
In # 1 (
I n #2 (
I n #3 (
In
In
In
to
#4 (
#5 (
#6 (
l og i c g a t e
07167)：
07167)：
07167)：
000-
1/
6
2 1
4
67
7167)：
7167)：
7167)：
0
0
0
• Assign signals to gates (In #1 to #6) by entering the number corresponding to each signal
referring to Appendix C.
Note: If signals are not assigned to all the gates #1 to #6, enter 0 for the unassigned gate(s).
Repeat this process for the outputs to be configured.
4.2.6.10 LEDs
•
Press 9 (=LED) on the "Setting (change)" screen to display the "LED" screen.
/2 LED
Select
LED
(
1-
4)
Select
No.=
• Enter the LED number and press the ENTER key to display the "Setting" screen.
/3 S e t t i n g
(LED*)
1= Lo g i c g a t e t y pe & r e s e t
2= In pu t to l og i c g a te
Setting the logic gate type and reset
• Press 1 to display the "Logic gate type and reset" screen.
/4 Logic gate type & reset
Logic
1=OR
2=AND
Reset
0=Inst 1=Latch
1/
1
1
2
• Enter 1 or 2 to use an OR gate or AND gate and press the ENTER key.
• Enter 0 or 1 to select “Instantaneous reset” or “Latch reset” and press the ENTER key.
• Press the END key to return to the "Setting" screen.
Note: To release the latch state, refer to Section 4.2.1.
Assigning signals
Four LEDs from the bottom of the front panel are user-configurable. One of the signals listed in
⎯ 115 ⎯
6 F 2 S 0 8 8 2
Appendix C can be assigned to each LED as follows:
• Press 2 on the "Setting" screen to display the "Input to logic gate" screen.
•
4.2.7
/4
In
In
In
Input
#1(
#2(
#3(
In
#4(
to
logi c ga te
7167)：
007167)：
07167)：
0-
7167)：
1/ 4
21
4
67
0
Assign signals to gates (In #1- #4) by entering the number corresponding to each signal
referring to Appendix C. If an LED is not used, enter "0" or the default value will be assigned.
Testing
The sub-menu "Test" provides such functions as setting of testing switches, forced operation of
binary outputs, time measurement of the variable setting timer, logic signal observation and BU
out-of-service function. The password must be entered in order to enter the test screens because
the "Test" menu has password security protection. (See the section 4.2.6.2.)
4.2.7.1
Setting the switches
The automatic monitor function (A.M.F.) can be disabled by setting the switch [A.M.F] to "OFF".
Disabling the A.M.F. prevents tripping from being blocked even in the event of a failure in the
items being monitored by this function. It also prevents failures from being displayed on the
"ALARM" LED and LCD described in Section 4.2.1. No events related to A.M.F. are recorded,
either.
Disabling A.M.F. is useful for blocking the output of unnecessary alarms output during testing.
Note: Set the switch [A.M.F] to "Off" before applying the test inputs, when the A.M.F is disabled.
The switches [1DS1] to [64DS4] and [1CB] to [64CB] are used to simulate the contact condition
of the disconnectors and circuit breakers for relay inputs to "Open" or "Close" forcibly for testing.
While the switch [A.M.F] is set to "Off" or [1DS1] to [64DS4] and [1CB] to [64CB] are set to
"Open" or "Close", the red "TESTING" LED is lit for alarm indication.
Caution: Be sure to restore these switches after the tests are completed.
Disabling automatic monitoring
• Press 5 (= Test) on the top "MENU" screen to display the "Test" screen.
/1 Test
1=Switch
3=Timer
5=BU out
2=Binary output
4=Logic circuit
• Press 1 (= Switch) to display the "Switch" screen.
⎯ 116 ⎯
6 F 2 S 0 8 8 2
/2 Switch
A. M . F .
0 =O f f
1=On
1 = O p en
1DS1
0=Normal
1 =Op e n
1 DS2
0 = Nor m al
2 =C l os e
2 = Cl os e
1/ 32 2
1
0
0
1DS3
1DS4
1CB
0 = No r mal
0=Normal
0=Normal
1 =O pe n
1 = O p en
1 = O p en
2=Close
2 =C l os e
2 =C l os e
0
0
0
64 D S1
64 DS 2
64DS3
64DS4
6 4CB
I EC TS T
1 = O p en
0= N o r mal
1= O pen
0 =N or ma l
1= O pen
0 = N o r m al
0 = N o r m al
1= O pen
1 =O pe n
0 = Nor m al
0=Off
1 =O n
2 =Cl ose
2=Close
2=Close
2=Close
2=Close
0
0
0
0
0
0
Indicates CH number. See the Application Example of Appendix I.
• Enter 0 for A.M.F to disable the A.M.F. and press the ENTER key.
• Enter 1(=On) for IECTST to transmit ‘test mode’ to the control system by IEC60870-5-103
communication when testing the local relay, and press the ENTER key.
Setting the contact condition of disconnectors and circuit breakers (∗∗DS∗, ∗∗CB)
• Enter 1 (= Open) to set the contact condition to "Open".
• Enter 2 (= Close) to set the contact condition to "Close".
• Press the ENTER key.
Repeat this for all items.
• Press the END key to return to the "Test" screen.
4.2.7.2
Binary Output Relay
It is possible to forcibly operate all binary output relays for checking connections with the
external devices. Forced operation can be performed on one or more binary outputs at a time for
each module.
• Press 2 (= Binary output) on the "Test" screen to display the "Binary output" screen.
/2 Binary
1 =CU-IO#1
output
2 =C U-IO#2
3=BU
• Enter the selected number corresponding to each module to be operated. Then the LCD
displays the name of the module, the name of the output relay, the name of the terminal block
and the terminal number to which the relay contact is connected.
When "1" selected,
⎯ 117 ⎯
6 F 2 S 0 8 8 2
/3 BO
IO#1
IO#1
IO#1
(0 =Disable
1=Enable)
1/
1
1
1
(0 =Disable
1=Enable)
1 /14
1
1
1
BO1
BO2
BO3
3
When "2" selected,
/3 BO
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO# 2
IO# 2
BO1
BO2
BO3
B
B
B
B
B
B
B
B
B
F
O4
O5
O6
O7
O8
O9
O10
O11
O12
AIL
0
0
0
0
0
0
0
0
0
0
0
BO13
When "3" selected,
/3 B O
CH 1
CH 1
CH 1
(0 = D i s a b le
1=Enable)
1/ 5 1 2
1
0
0
TP1
TP2
BO1
CH 1
CH1
CH1
CH1
CH1
BO2
BO3
B O4
B O5
B O6
0
0
0
0
0
CH6 4
CH 6 4
CH 6 4
CH 6 4
CH6 4
CH 6 4
CH 6 4
CH 6 4
T P1
TP2
BO1
BO2
B O3
BO4
BO5
BO6
0
0
0
0
0
0
0
0
• Enter 1 and press the ENTER key.
• After completing the entries, press the END key. Then the LCD displays the screen shown
below.
⎯ 118 ⎯
6 F 2 S 0 8 8 2
/3 BO
Keep pressing
Press
CANCEL
1
to
to
operate.
cancel.
• Keep pressing 1 key to operate the output relays forcibly.
• Release the press of 1 key to reset the operation.
4.2.7.3
Timer
The pick-up or drop-off delay time of the variable timer used in the scheme logic can be measured
with monitoring jacks A and B. Monitoring jacks A and B are used to observe the input signal and
output signal to the timer respectively.
• Press 3 (= Timer) on the "Test" screen to display the "Timer" screen.
/2 T i m e r
Ti m e r (
1/
1-
200)：
1
1
• Enter the number corresponding to the timer to be observed and press the ENTER key. The
timers and related numbers are listed in Appendix D.
• Press the END key to display the following screen.
/2
Timer
Press
ENTER
Press
CANCEL
1/
to
to
1
operate.
cancel.
• Press the ENTER key to operate the timer. The "TESTING" LED turns on, and the timer is
initiated and the following display appears. The input and output signals of the timer can be
observed at monitoring jacks A and B respectively. The LEDs above monitoring jacks A or B
are also lit if the input or output signal exists.
/2 T i m e r
Op er a t i n g . . .
Pr es s E N D t o
Pr es s C A N C E L
1/
1
re s e t .
to c a n c e l .
• Press the END key to reset the input signal to the timer. The "TESTING" LED turns off.
• Press CANCEL key to test other timers. Repeat the above testing.
4.2.7.4
Logic Circuit
It is possible to observe the binary signal level on the signals listed in Appendix C with
monitoring jacks A and B.
• Press 4 (= Logic circuit) on the "Test" screen to display the "Logic circuit" screen.
⎯ 119 ⎯
6 F 2 S 0 8 8 2
/2 L o g i c
Te r m A (
Te r m B (
ci r c u i t
071 67 ) ：
071 67 ) ：
1/
2
1
48
• Enter a signal number to be observed at monitoring jack A and press the ENTER key.
• Enter the other signal number to be observed at monitoring jack B and press the ENTER
key.
After completing the setting, the signals can be observed by the binary logic level at monitoring
jacks A and B or by the LEDs above the jacks.
On screens other than the above screen, observation with the monitoring jacks is disabled.
4.2.7.5
BU out-of-service
The GRB100 provides the BU out-of-service function for maintenance such as replacement of a
BU if failed.
Caution: This function is provided for the temporary operation. Therefore, the replica
setting should be changed for a long-term operation or permanent operation.
• Press 5 (= BU out) on the "Test" screen to display the "BU out" screen.
/2 B U
BU 1
BU 2
BU 3
out
O=Out
0=Out
0=Out
1 = In
1 = In
1 = In
1/ **
1
1
1
BU 4
0=Out
1 = In
1
BU 6 4
0=Out
1 = In
1
• Enter 0(=Out of service) or 1(=In service) for each BU, and press the ENTER key. The
default setting is “1” for all BUs.
Note: Though a BU (CH) is out-of-service, the assigned BO can be forcibly operated by the setting
described in Section 4.2.7.2.
⎯ 120 ⎯
6 F 2 S 0 8 8 2
4.3
Personal Computer Interface
The relay can be operated from a personal computer using an RS232C port on the front panel.
On the personal computer, the following analysis and display of the fault voltage and current are
available in addition to the items available on the LCD screen..
• Display of voltage and current waveform:
Oscillograph, vector display
• Symmetrical component analysis:
On arbitrary time span
• Harmonic analysis:
On arbitrary time span
• Frequency analysis:
On arbitrary time span
For the details, see the separate instruction manual "PC INTERFACE RSM100".
4.4
Communication Interface
4.4.1
Relay Setting and Monitoring System
The Relay Setting and Monitoring (RSM) system is a system that retrieves and analyses the data
on power system quantities, fault and event records and views or changes settings in individual
relays via a telecommunication network using a remote PC.
Figure 4.4.1 shows the typical configuration of the RSM system via a protocol converter G1PR2.
The relays are connected through twisted pair cables, and the maximum 256 relays can be
connected since the G1PR2 can provide up to 8 ports. The total length of twisted pair wires
should not exceed 1200 m. Relays are mutually connected using an RS485 port on the relay rear
panel and connected to a PC RS232C port via G1PR2. Terminal resistor (150 ohms) is connected
the last relay. The transmission rate used is 64 kbits/s.
In case of the optional fiber optic interface (option), the relays are connected through
graded-index multi-mode 50/125μm or 62.5/125μm type optical fiber using ST connector at the
rear of the relay.
Twisted paired
cable
G1PR2
Figure 4.4.1 Relay Setting and Monitoring System
⎯ 121 ⎯
6 F 2 S 0 8 8 2
The GRB100 can support the IEC60870-5-103 communication protocol. This protocol is mainly
used when the relay communicates with a control system and is used to transfer the following
measurand, status data and general command from the relay to the control system.
• Measurand data: current
• Status data:
events, fault indications, etc.
The IEC60870-5-103 function in the relay can be customized with the original software “IEC103
configurator”. It runs on a personal computer (PC) connected to the relay, and can help setting of
Time-tagged messages, General command, Metering, etc. For detais of the setting method, refer
to “IEC103 configurator” manual. For the default setting of IEC60870-5-103, see Appendix P.
The protocol can be used through the RS485 port on the relay rear panel and can be also used
through the optional fibre optical interface.
The relay supports two baud-rates 9.6kbps and 19.2kbps.
The data transfer from the relay can be blocked by the setting.
For the settings, see the Section 4.2.6.4.
4.5
IEC 61850 Communication
GRB100 can also support data communication according to the IEC 61850 standard. Station bus
communication as specified in IEC 61850-8-1 facilitates integration of the relays within
substation control and automation systems via Ethernet LAN.
Figure 4.5.1 shows an example of a substation automation system using Ethernet-based IEC
61850 communication.
Figure 4.5.1 IEC 61850 Communication Network
⎯ 122 ⎯
6 F 2 S 0 8 8 2
4.6
Clock Function
The clock function (Calendar clock) is used for time-tagging for the following purposes:
• Event records
• Disturbance records
• Fault records
• Metering
• Automatic supervision
• Display of the fault records on the digest screen
• Display of the automatic monitoring results on the digest screen
The calendar clock can run locally or be synchronised with the external IRIG-B time standard
signal, RSM or IEC clock, etc. This can be selected by setting.
If it is necessary to synchronise with the IRIG-B time standard signal, it is possible to transform
GMT to the local time by setting.
When using time synchronisation via Ethernet according to SNTP server, the maximum four
SNTP servers can be connected. If More than one SNTP is set, priority to servers is decided in
ascending order of synchronised stratum value (in order of higher-accuracy) and the server of
smallest value is selected.
When the relays are connected to the RSM system as shown in Figure 4.4.1, the calendar clock of
each relay is synchronized with the RSM clock. If the RSM clock is synchronized with the
external time standard (GPS clock etc.), then all the relay clocks are synchronized with the
external time standard.
⎯ 123 ⎯
6 F 2 S 0 8 8 2
5. Installation
5.1
Receipt of Relays
When relays are received, carry out the acceptance inspection immediately. In particular, check
for damage during transportation, and if any is found, contact the vendor.
Check that the following accessories are attached.
• 3 pins for the monitoring jack, packed in a plastic bag.
• An attachment kit required for rack-mounting, if ordered. (See Appendix H.)
EP-101 or EP102:
1 large bracket with 5 round head screws, spring washers and washers (M4×8)
1 small bracket with 3 countersunk head screws (M4×6)
2 bars with 4 countersunk head screws (M3×8)
EP-103 (for linking two relays):
1 spacer with 3 round head screws, spring washers and washers (M4×10)
2 small brackets with 3 countersunk head screws (M4×6)
1 link panel for the rear with 8 round head screws, spring washers and washers (M4×10)
1 link panel for the bottom with 6 round head screws, spring washers and washers
(M4×10)
2 bars with 4 countersunk head screws (M3×8)
EP-107:
1 large bracket with 3 countersunk head screws (M4×6)
1 small bracket with 3 countersunk head screws (M4×6)
2 bars with 4 countersunk head screws (M3×8)
1 link panel for the bottom with 6 round head screws, spring washers and washers
(M4×10)
• Optional optical fibre cables (type RFA4012GV) to connect the CU and BUs for Plastic
optical fibre.
Always store the relays in a clean, dry environment.
5.2
Relay Mounting
Either a rack or flush mounting relay is delivered as designated by the customer. Appendix H
shows the case outlines.
If the customer requires a rack-mounting relay, support metal fittings necessary to mount it in a
19-inch rack are also supplied with the relay.
When mounting the relay in a rack, detach the original brackets fixed on both sides of the relay
and seals on the top and bottom of the relay. Attach the larger bracket and smaller bracket on the
left and right sides of the relay respectively and the two bars on the top and bottom of the relay.
When linking two relays together for housing in one rack, detach the original brackets fixed on
both sides of the relay and seals on the top and bottom of the relay. Link two relays by using two
panels after mounting the spacer between two relays, and attach the small brackets on the left and
right sides of the linked relay respectively and the two bars on the top and bottom of the linked
relay.
For details on how to mount the attachment kit, see Appendix H.
⎯ 124 ⎯
6 F 2 S 0 8 8 2
The dimensions of the attachment kits EP-101, EP-102, EP-103 and EP-107 are also shown in
Appendix H.
5.3
Electrostatic Discharge
CAUTION
Do not take any modules out of the relay case since electronic components on the modules are
very sensitive to electrostatic discharge. If it is absolutely essential to take the modules out of the
case, do not touch the electronic components or terminals with your bare hands. Additionally,
always put the module in a conductive anti-static bag when storing it.
5.4
Handling Precautions
A person's normal movements can easily generate electrostatic potential of several thousand
volts. Discharge of these voltages into semiconductor devices when handling electronic circuits
can cause serious damage, which often may not be immediately apparent but the reliability of the
circuit will have been compromised.
The electronic circuits are completely safe from electrostatic discharge when housed in the case.
Do not expose them to risk of damage by withdrawing modules unnecessarily.
Each module incorporates the highest practicable protection for its semiconductor devices.
However, if it becomes necessary to withdraw a module, precautions should be taken to preserve
the high reliability and long life for which the equipment has been designed and manufactured.
CAUTION
• Before removing a module, ensure that you are at the same electrostatic potential as the
equipment by touching the case.
• Handle the module by its front plate, frame or edges of the printed circuit board. Avoid
touching the electronic components, printed circuit board or connectors.
• Do not pass the module to another person without first ensuring you are both at the same
electrostatic potential. Shaking hands achieves equipotential.
• Place the module on an anti-static surface, or on a conducting surface which is at the same
potential as yourself.
• Do not place modules in polystyrene trays.
It is strongly recommended that detailed investigations on electronic circuitry should be carried
out in a Special Handling Area.
5.5
External Connections
External connections are shown in Appendix I.
5.5.1
Connection between CU and BUs
The connection between CU and BUs is carried out with the optical fibre cable. For cable type
and connector type, see Appendix M.
Special precautions are required when using an optical fibre cable with optical connectors.
⎯ 125 ⎯
6 F 2 S 0 8 8 2
WARNING
When connecting this equipment via an optical fibre cable, do not look directly at the optical
beam.
CAUTION
• Do not put a heavy object on an optical fibre cable.
• Be sure to attach and remove an optical connector to/from an optical transceiver module by
holding the connector. Never do it by holding the optical fibre cable itself.
• Make sure that the terminal surface of an optical connector does not become dirty. While an
optical fibre cable is not connected, cover the optical connector with the protective cap.
• Because optical connectors are designed so that they cannot be attached to an optical
transceiver module the wrong way around, attach the connector after confirming it is in the
correct attitude.
• Do not bend an optical fibre cable to a radius of less than 40mm.
R > 40mm
Connector
Connect the terminal OPT11 of CU and the terminal OPT1 of BU1 by the optical fibre cable with
connectors as follows:
TB2
TB1
A1
B1
81
71
61
51
41
31
21
11
82
72
62
52
42
32
22
12
83
73
63
53
43
33
23
13
84
74
64
54
44
34
24
14
85
75
65
55
45
35
25
15
(IRIG-B)
T B2
Optical cable
1
A18
IO#2
B 18
IO#1
86
76
66
56
46
36
26
16
87
77
67
57
47
37
27
17
88
78
68
58
48
38
28
18
17
5.5.2
B1
2
18
CU
Figure 5.5.1
A1
1
A10
B 10
13
2
14
BU1
Connection between CU and BU
Setting of BU
BU address setting is to define the channel number. The channel number can be set the range of
CH 1 to CH64 with the rotary switch and jumper pins JP5 and JP5 of BU. The channel number
(CH No.) is set as shown in Table 5.5.1. Connect OPT1 of a BU to OPT11 of CU by the optical
fibre. Open the front panel of the BU, and open the jumper pins JP5 and JP6 and set the rotary
switch position mounted on the BUM1 module to “0”. Then the CU recognizes the BU as CH1.
Set other BUs the same as above.
⎯ 126 ⎯
6 F 2 S 0 8 8 2
Table 5.5.1 BU Setting
BU (CH No.)
BU (CH1)
BU (CH2)
BU (CH3)
BU (CH4)
BU (CH5)
BU (CH6)
BU (CH7)
BU (CH8)
BU (CH9)
BU (CH10)
BU (CH11)
BU (CH12)
BU (CH13)
BU (CH14)
BU (CH15)
BU (CH16)
BU (CH17)
BU (CH18)
BU (CH19)
BU (CH20)
BU (CH21)
BU (CH22)
BU (CH23)
BU (CH24)
BU (CH25)
BU (CH26)
BU (CH27)
BU (CH28)
BU (CH29)
BU (CH30)
BU (CH31)
BU (CH32)
BU (CH33)
BU (CH34)
BU (CH35)
BU (CH36)
BU (CH37)
BU (CH38)
BU (CH39)
BU (CH40)
BU (CH41)
BU (CH42)
BU (CH43)
BU (CH44)
BU (CH45)
BU (CH46)
BU (CH47)
BU (CH48)
BU (CH49)
BU (CH50)
BU (CH51)
BU (CH52)
BU (CH53)
BU (CH54)
BU (CH55)
BU (CH56)
BU (CH57)
BU (CH58)
BU (CH59)
BU (CH60)
BU (CH61)
BU (CH62)
BU (CH63)
BU (CH64)
BU Setting
JP6
Rotary
switch
0
1
2
3
4
5
6
7
Open Open
8
9
A
B
C
D
E
F
0
1
2
3
4
5
6
7
Open Close
8
9
A
B
C
D
E
F
0
1
2
3
4
5
6
7
Close Open
8
9
A
B
C
D
E
F
0
1
2
3
4
5
6
7
Close Close
8
9
A
B
C
D
E
F
JP5
Model
C∗1∗
11
12
13
14
15
16
17
18
---------------------------------------------------------
Connection Terminal (OPT) of CU
Model Model Model Model
C∗2∗
C∗3∗
C∗4∗
C∗6∗
11
11
11
11
12
12
12
12
13
13
13
13
14
14
14
14
15
15
15
15
16
16
16
16
17
17
17
17
18
18
18
18
21
21
21
21
22
22
22
22
23
23
23
23
24
24
24
24
25
25
25
25
26
26
26
26
27
27
27
27
28
28
28
28
-31
31
31
-32
32
32
-33
33
33
-34
34
34
-35
35
35
-36
36
36
-37
37
37
-38
38
38
--41
41
--42
42
--43
43
--44
44
--45
45
--46
46
--47
47
--48
48
---51
---52
---53
---54
---55
---56
---57
---58
---61
---62
---63
---64
---65
---66
---67
---68
-----------------------------------------------------------------
⎯ 127 ⎯
Model
C∗8∗
11
12
13
14
15
16
17
18
21
22
23
24
25
26
27
28
31
32
33
34
35
36
37
38
41
42
43
44
45
46
47
48
51
52
53
54
55
56
57
58
61
62
63
64
65
66
67
68
71
72
73
74
75
76
77
78
81
82
83
84
85
86
87
88
1
2
3
4
5
6
Jumper pin (JP5,JP6)
4
2 3 56
1
7
8
0
9
F
A
E
DCB
Rotary switch
BUM1
6 F 2 S 0 8 8 2
6. Commissioning and Maintenance
6.1
Outline of Commissioning Tests
The GRB100 is fully numerical and the hardware is continuously monitored.
Commissioning tests can be kept to a minimum and need only include hardware tests and
conjunctive tests. The function tests are at the user’s discretion.
In these tests, user interfaces on the front panel of the relay or local PC can be fully applied.
Test personnel must be familiar with general relay testing practices and safety precautions to
avoid personal injuries or equipment damage.
Hardware tests
These tests are performed for the following hardware to ensure that there is no hardware defect.
Defects of hardware circuits other than the following can be detected by monitoring which
circuits function when the DC power is supplied.
User interfaces
Binary input circuits and output circuits
AC input circuits
Function tests
These tests are performed for the following functions that are fully software-based. Tests of the
protection schemes require a dynamic test set.
Measuring elements
Timers
Metering and recording
Conjunctive tests
The tests are performed after the relay is connected with the primary equipment and other external
equipment.
The following tests are included in these tests:
On load test: phase sequence check and polarity check
Tripping circuit test
Primary injection test
⎯ 128 ⎯
6 F 2 S 0 8 8 2
6.2
Cautions
6.2.1
Safety Precautions
CAUTION
• The relay rack is provided with an earthing terminal.
Before starting the work, always make sure the relay rack is earthed.
• When connecting the cable to the back of the relay, firmly fix it to the terminal block and
attach the cover provided on top of it.
• Before checking the interior of the relay, be sure to turn off the power.
Failure to observe any of the precautions above may cause electric shock or malfunction.
6.2.2
Cautions on Tests
CAUTION
• While the power is on, do not connect/disconnect the flat cable on the front of the printed
circuit board (PCB).
• While the power is on, do not mount/dismount the PCB.
• Before turning on the power, check the following:
- Make sure the polarity and voltage of the power supply are correct.
- Make sure the CT circuit is not open.
- Make sure the VT circuit is not short-circuited.
• Be careful that the transformer module is not damaged due to an overcurrent or overvoltage.
• If settings are changed for testing, remember to reset them to the original settings.
Failure to observe any of the precautions above may cause damage or malfunction of the relay.
Before mounting/dismounting the PCB, take antistatic measures such as wearing an earthed
wristband.
⎯ 129 ⎯
6 F 2 S 0 8 8 2
6.3
Preparations
Test equipment
The following test equipment is required for the commissioning tests.
1 Three-phase voltage source or 1 Single-phase voltage source
2 Single-phase current sources
1 DC power supply
1 DC voltmeter
1 AC voltmeter
1 Phase angle meter
2 AC ammeters
1 Time counter, precision timer
1 PC (not essential)
1 Primary injection test set
Relay settings
Before starting the tests, it must be specified whether the tests will use the user’s settings or the
default settings.
For the default settings, see the following appendixes:
Appendix E
Appendix J
Binary Output Default Setting List
Relay Setting Sheet
Visual inspection
After unpacking the product, check for any damage to the relay case. If there is any damage, the
internal module might also have been affected. Contact the vendor.
Relay ratings
Check that the items described on the nameplate on the front of the relay conform to the user’s
specification. The items are: relay type and model, AC voltage, current and frequency ratings, and
auxiliary DC supply voltage rating.
Local PC
When using a local PC, connect it with the relay via the RS232C port on the front of the relay.
RSM100 software is required to run the PC.
For the details, see the separate instruction manual "PC INTERFACE RSM100".
⎯ 130 ⎯
6 F 2 S 0 8 8 2
6.4
Hardware Tests
The tests can be performed without external wiring, but a DC power supply, AC voltage and two
AC current sources are required.
6.4.1
User Interfaces (CU)
This test ensures that the LCD, LEDs and keys function correctly.
LCD display
• Apply the rated DC voltage and check that the LCD is off.
Note: If there is a failure, the LCD displays the "Auto-supervision" screen when the DC voltage is
applied.
• Press the RESET key for one second and check that black dots appear on the whole screen.
LED display
• Apply the rated DC voltage and check that the "IN SERVICE" LED is lit in green.
• Press the RESET key for one second and check that seven LEDs under the "IN SERVICE"
LED and two LEDs for monitoring jacks A and B are lit in red.
VIEW and RESET keys
• Press the VIEW key when the LCD is off and check that the "Metering" screen is displayed
on the LCD.
• Press the RESET key and check that the LCD turns off.
Keypad
• Press any key on the keypad when the LCD is off and check that the LCD displays the
"MENU" screen. Press the END key to turn off the LCD.
• Repeat this for all keys.
⎯ 131 ⎯
6 F 2 S 0 8 8 2
6.4.2
Binary Input Circuit
The testing circuit is shown in Figure 6.4.1.
GRB100
CU
(+)
(−)
TB1 -A4
-B4
-A5
-B5
-A6
-B6
-A7
-B7
-A8
-B8
BI1
BI2
OPT∗∗
BI3
BI4
BI5
-A15
-B15
TB2 -A14
-B14
-A15
-B15
DC
power
supply
To other BU
IO#1
+
TB1 -A16
−
-A17
Optical
cable
BI12
OPT11
IO#2
BI13
BI14
BI15
E
BU
TB2 -A1
-A2
-B1
-B2
TB3
-A3
-B3
-A5
-B5
-A15
-B15
BUM1
BI11
BI12
OPT1
BI13
BUM5
BI1
BI2
:
:
BI7
TB2 -A9
-B9
E
Figure 6.4.1 Testing Binary Input Circuit
⎯ 132 ⎯
6 F 2 S 0 8 8 2
• Display the "Binary input & output" screen from the "Status" sub-menu.
/2 Binary input &
Input (CU-IO#1)
Input (BU-CH1)
Input (BU-CH2)
output
[0 0 0 00 0
[0 0 0 0 0 0
[0 0 0 0 0 0
Input (BU-CH64)
O u t p u t ( C U- I O # 1 )
O u t p u t ( C U- I O # 2 )
O u t p u t ( B U- C H 1 )
O u t p u t ( B U- C H 2 )
[0 0 0
[0 00
[0 00
[0 00
[0 00
000
O u t p u t ( B U- CH 6 4 )
[0 00
000
000 000
00 0 0
00 0 0
000
000 000
000 00
000 00
3 /6 7
]
]
]
0
000
00
00
]
]
]
]
]
]
• Apply the rated DC voltage to terminals of terminal block TB1 and TB2 of CU, terminal block
TB2 and TB3 of BU.
Check that the status display corresponding to the input signal changes from 0 to 1. (For
details of the binary input status display, see Section 4.2.4.2.)
Note: The number of BU and CH depends on the model.
Test the binary input circuits of other BUs same as above.
The user will be able to perform this test for one terminal to another or for all the terminals at
once.
6.4.3
Binary Output Circuit
This test can be performed by using the "Test" sub-menu and forcibly operating the relay drivers
and output relays. Operation of the output contacts is monitored at the output terminal. The output
contact and corresponding terminal number are shown in Appendix I.
• Press 2 (= Binary output) on the "Test" screen to display the "Binary output" screen. The LCD
displays the output modules mounted depending on the model.
/2 Binary
1 =CU-IO#1
output
2 =C U-IO#2
3=BU
• Enter the selected number corresponding to each module to be operated. Then the LCD
displays the name of the module and the name of the output relay to which the relay contact is
connected.
When "1" selected,
/3 BO
IO#1
IO#1
IO#1
(0 =Disable
BO1
BO2
BO3
When "2" selected,
⎯ 133 ⎯
1=Enable)
1/
1
1
1
3
6 F 2 S 0 8 8 2
/3 BO
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#2
IO#
IO#
IO#
IO#
(0 =Disable
BO1
BO2
BO3
2
2
B
B
B
B
B
B
B
B
B
F
2
BO13
2
1=Enable)
O4
O5
O6
O7
O8
O9
O10
O11
O12
AIL
1 /14
1
1
1
0
0
0
0
0
0
0
0
0
0
0
When "3" selected,
/3 BO
CH 1
CH 1
CH 1
(0=Disable
1=Enable)
1/ * * *
1
0
0
T P1
T P2
B O1
CH 1
CH1
CH1
CH1
CH1
B O2
B O3
B O4
B O5
B O6
0
0
0
0
0
CH6 4
CH64
CH 64
CH 64
CH6 4
CH 6 4
CH 64
CH 64
TP1
T P2
B O1
B O2
BO3
B O4
B O5
B O6
0
0
0
0
0
0
0
0
• Enter 1 and press the ENTER key.
• After completing the entries, press the END key. Then the LCD displays the screen shown
below. If 1 is entered for the output relays, the following forcible operation can be performed
collectively.
/3 BO
Keep pressing
Press
CANCEL
1
to
to
operate.
cancel.
• Keep pressing the 1 key to operate the output relays forcibly.
• Check that the output contacts operate at the terminal.
⎯ 134 ⎯
6 F 2 S 0 8 8 2
• Release pressing the 1 key to reset the operation.
6.4.4
AC Input Circuits
This test can be performed by applying the checking voltages and currents to the AC input
circuits and verifying that the values applied coincide with the values displayed on the LCD
screen.
The testing circuit is shown in Figure 6.4.2. A three-phase voltage source and a single-phase
current source are required. The three-phase voltage source is required for the models with FD
elements.
GRB100
CU
V
V
V
Three-phase
voltage
source
TB3 -1
To other BU
Va
Vb
-2
-3
Vc
-4
OPT∗∗
-13
-14
-15
-16
Optical
cable
TB1 -A16
OPT11
-A17
E
φ
Single-phase
current
source
φ
φ
BU
TB1 -1
A
Ia
-2
-3
Ib
-4
-5
Ic
-6
DC
power
supply
+
TB2 - A9
−
-B9
OPT1
E
Figure 6.4.2 Testing AC Input Circuit
• Check that the metering data is set to be expressed as secondary values (Display value = 2) on
the "Metering" screen.
"Setting (view)" sub-menu → "Status" setting screen → "Metering" screen
If the setting is Primary (Display value = 1), change the setting in the "Setting (change)"
⎯ 135 ⎯
6 F 2 S 0 8 8 2
sub-menu. Remember to reset it to the initial setting after the test is finished. (See Section
4.2.6.6.)
• Open the "Metering" screen in the "Status" sub-menu.
"Status" sub-menu → "Metering" screen
• Apply the rated AC voltages and current and check that the displayed values are within ± 5%
of the input values.
⎯ 136 ⎯
6 F 2 S 0 8 8 2
6.5
Function Tests
6.5.1
Measuring Element
Measuring element characteristics are realized by the software, so it is possible to verify the
overall characteristics by checking representative points.
Operation of the element under test is observed by the binary output signal at monitoring jacks A
or B or by the LED indications above the jacks. In any case, the signal number corresponding to
each element output must be set on the "Logic circuit" screen of the "Test" sub-menu.
/2 Log i c
TermA(
TermB(
c i r c u it
071 67 )：
071 67 )：
1/
2
1
48
When a signal number is entered for the TermA line, the signal is observed at monitoring jack A
and when entered for the TermB line, observed at monitoring jack B.
Note: The voltage level at the monitoring jacks is +15V ±3V for logic level "1" and less than 0.1V
for logic level "0".
CAUTION
• Use the testing equipment with more than 1kΩ of internal impedance when observing the
output signal at the monitoring jacks.
• Do not apply an external voltage to the monitoring jacks.
• Do not leave the A or B terminal shorted to 0V terminal for a long time.
In case of a three-phase element, it is enough to test for a representative phase. A-phase element is
selected for hereafter.
6.5.1.1
Current differential elements
The current differential elements are checked on the following items
• Operating current value
• Percentage restraining characteristic
• Operating time
Note: Set all the CT settings (1CT to nCT) to the same value or select a BU with the same value
setting in the testing described in Figure 6.5.1, because the operating value depends on the
settings.
In the testing, it is enough to test the DIFCH element for a representative element.
Operating current value
Minimum operating current value is checked by simulating one-end infeed. Figure 6.5.1 shows a
test circuit.
⎯ 137 ⎯
6 F 2 S 0 8 8 2
GRB100
BU
TB1 -1
A
Single-phase
current
source
Optical
cable
Ia
2
TB2 -A9
OPT1
-B9
E
CU
OPT11
DC
power
supply
+
TB1 -A16
−
-A17
Monitoring
jack
A
0V
E
DC
voltmeter
Figure 6.5.1 Operating Current Value Test Circuit
The output signal numbers of the elements are as follows:
Element
Signal number
DIFCH-A
1072
DIFCH-B
1073
DIFCH-C
1074
• Press 4 (= Logic circuit) on the "Test" sub-menu screen to display the "Logic circuit"
screen.
• Enter a signal number to observe the DIFCH-A operation at monitoring jack A and press
the ENTER key.
• Apply a test current to A-phase current terminals of bay unit and change the magnitude of
the current applied and measure the value at which the element DIFCH-A operates.
Check that the measured value is within 5% of the theoretical operating value.
Theoretical operating value = (DIFCH setting) / (CT setting) × (CT secondary rating)
⎯ 138 ⎯
6 F 2 S 0 8 8 2
Percentage restraining characteristics
The percentage restraining characteristic DF2 is tested on the outflow current (Iout) and infeed
current (Iin) plane as shown in Figure 6.5.2. The characteristic shown in Figure 6.5.2 is equivalent
to the one on the differential current (Id) and restraining current (Ir) plane shown in Figure 2.8.1.
Iout
DF2
Operating zone
DF1
Iin
0
Figure 6.5.2 Current Differential Element (Iout - Iin Plane)
The characteristic test is enough to test for two representative BUs.
Figure 6.5.3 shows a testing circuit simulating infeed from the BU1 and outflow from BU2.
The characteristic DF2, in the case of k=0.3, is expressed by the following equation,
Iout ≤ (7/13) Iin
⎯ 139 ⎯
6 F 2 S 0 8 8 2
GRB100
Infeed current (Iin)
+
Single-phase
current
source
−
BU1
TB1 -1
A
Iin
-2
TB2 -A9
φ
Optical
cable
-B9
OPT1
E
Outflow current
(Iout)
+
Single-phase
current
source
−
BU2
TB1 -1
A
Iout
-2
Optical
cable
DC
power
supply
+
TB2 -A9
−
-B9
OPT1
E
CU
OPT11
TB1
-A16
-A17
E
DC
voltmeter
OPT12
Monitoring
jack
A
0V
+
−
Figure 6.5.3 Percentage Restraining Characteristic Test of DIF
• Press 4 (= Logic circuit) on the "Test" sub-menu screen to display the "Logic circuit"
screen.
• Enter a signal number to observe the DIFCH-A output at monitoring jack A and press the
ENTER key.
• Apply an infeed current to terminal TB1-1 and -2 of the BU1.
When the infeed current applied is larger than three times the (DIFCH setting) / (CT ratio),
• Apply an outflow current of the same magnitude and counterphase with the infeed current
to terminal TB1-1 and -2 of the BU2.
• Decrease the out flow current in magnitude and measure the values at which the element
operates.
• Check that the measured values are within 5% of the theoretical values obtained above
equation.
⎯ 140 ⎯
6 F 2 S 0 8 8 2
Operating time
The testing circuit is shown in Figure 6.5.4.
GRB100
BU
Single-phase
current
source
A
TB1 -1
Optical
cable
Ia
2
OPT1
TB2 -A9
-B9
E
CU
DC
power
supply
+
TB1 -A16
−
-A17
OPT11
Monitoring
jack
A
0V
Start
E
Time
counter
Stop
OV
Figure 6.5.4 Operating Time Test
• Press 4 (= Logic circuit) on the "Test" sub-menu screen to display the "Logic circuit"
screen.
• Enter a signal number to observe the DIFCH-A operation at monitoring jack A and press
the ENTER key.
• Set a test current to 3 times of the operating current.
• Apply the test current and measure the operating time.
• Check that the operating time is 1 cycle or less.
⎯ 141 ⎯
6 F 2 S 0 8 8 2
6.5.1.2
Overcurrent element OCBF
The testing circuit is shown in Figure 6.5.5.
GRB100
BU
TB1 -1
A
Single-phase
current
source
Optical
cable
Ia
2
TB2 -A9
OPT1
-B9
E
CU
OPT11
DC
power
supply
+
TB1 -A16
−
-A17
Monitoring
jack
A
0V
E
DC
voltmeter
Figure 6.5.5 Testing OCBF elements
The output signal numbers of the OCBF elements are as follows:
Element
Signal
number
Element
Signal
number
Element
Signal
number
1OCBF-A
1152
15OCBF-A
1194
29OCBF-A
1236
43OCBF-A
1278
57OCBF-A
1320
2OCBF-A
1155
16OCBF-A
1197
30OCBF-A
1239
44OCBF-A
1281
58OCBF-A
1323
3OCBF-A
1158
17OCBF-A
1200
31OCBF-A
1242
45OCBF-A
1284
59OCBF-A
1326
4OCBF-A
1161
18OCBF-A
1203
32OCBF-A
1245
46OCBF-A
1287
60OCBF-A
1329
5OCBF-A
1164
19OCBF-A
1206
33OCBF-A
1248
47OCBF-A
1290
61OCBF-A
1332
6OCBF-A
1167
20OCBF-A
1209
34OCBF-A
1251
48OCBF-A
1293
62OCBF-A
1335
7OCBF-A
1170
21OCBF-A
1212
35OCBF-A
1254
49OCBF-A
1296
63OCBF-A
1338
8OCBF-A
1173
22OCBF-A
1215
36OCBF-A
1257
50OCBF-A
1299
64OCBF-A
1341
9OCBF-A
1176
23OCBF-A
1218
37OCBF-A
1260
51OCBF-A
1302
10OCFB-A
1179
24OCBF-A
1221
38OCBF-A
1263
52OCBF-A
1305
11OCBF-A
1182
25OCBF-A
1224
39OCBF-A
1266
53OCBF-A
1308
12OCBF-A
1185
26OCBF-A
1227
40OCBF-A
1269
54OCBF-A
1311
13OCBF-A
1188
27OCBF-A
1230
41OCBF-A
1272
55OCBF-A
1314
14OCBF-A
1191
28OCBF-A
1233
42OCBF-A
1275
56OCBF-A
1317
⎯ 142 ⎯
Element
Signal
number
Element
Signal
number
6 F 2 S 0 8 8 2
The testing procedure is as follows:
• Press 4 (= Logic circuit) on the "Test" sub-menu screen to display the "Logic circuit" screen.
• Enter a signal number to observe the OCBF at monitoring jack A and press the ENTER key.
• Apply a test current and change the magnitude of the current applied and measure the value at
which the element operates.
Check that the measured value is within ±5% of the theoretical operating value.
Theoretical operating value = (CT secondary rated current) × (OCBF setting)
6.5.1.3
FD elements UVGZA, UVGZB, UVGZC, UVGZD, UVSZA, UVSZB, UVSZC and UVSZD
The testing circuit is shown in Figure 6.5.6.
GRB100
CU
(*)
V
-2
Va
Vb
-3
Vc
TB3 -1
Three-phase
voltage
source
-4
Monitoring
jack A
A
0V
DC
power
supply
+
TB1 -A16
−
-A17
Optical
cable
OPT1
E
BU
TB2 -A9
-B9
OPT11
E
DC
voltmeter
(*): In case of testing the phase-fault
Figure 6.5.6 Testing FD elements
The output signal numbers of the FD elements are as follows:
Element
Signal number
Element
Signal number
UVGZA-A
1344
UVSZA-AB
1347
UVGZB-A
1354
UVSZB-AB
1357
UVGZC-A
1364
UVSZC-AB
1367
UVGZD-A
1374
UVSZD-AB
1377
⎯ 143 ⎯
6 F 2 S 0 8 8 2
The testing procedure is as follows:
• Press 4 (= Logic circuit) on the "Test" sub-menu screen to display the "Logic circuit" screen.
• Enter a signal number to observe the UVGZ*-* or UVSZ*-* output at monitoring jack A and
press the ENTER key.
•
6.5.2
Apply a rated voltage and change the magnitude of the voltage applied, and measure the
value at which the element operates. Check that the measured value is within 5% of the
setting value.
Timer Test
The pick-up delay time of the variable timer can be measured by connecting the monitoring jacks
A and B to a time counter as shown in Figure 6.5.7. Jacks A and B are used to observe the input
signal and output signal of the timer, respectively.
GRB100
BU
Optical
cable
TB2 -A9
OPT1
-B9
E
CU
OPT11
TB1 -A16
+
DC
power
supply
−
-A17
E
Time
counter
A
Monitoring
B
0V
Start
Stop
0V
Figure 6.5.7 Testing Variable Timer
• Press 3 (= Timer) on the "Test" sub-menu screen to display the "Timer" screen.
• Enter the number corresponding to the timer to be observed. The timers and assigned
numbers are listed in Appendix D.
• Press the END key to display the following screen.
/2
Timer
Press
ENTER
Press
CANCEL
1/
to
to
1
o pe r a t e .
cancel.
• Press the ENTER key to operate the timer. The "TESTING" LED turns on, and the timer
⎯ 144 ⎯
6 F 2 S 0 8 8 2
is initiated and the following display appears. The input and output signals of the timer can
be observed at monitoring jacks A and B respectively. The LEDs above monitoring jacks
A or B are also lit if the input or output signal exists.
/2 Time r
Operati ng...
Press END to
Press CANCEL
1 /1
reset.
to cancel.
• Press the END key to reset the input signal to the timer. The "TESTING" LED turns off.
Press CANCEL key to test other timers. Repeat the above testing.
⎯ 145 ⎯
6 F 2 S 0 8 8 2
6.5.3
Protection Scheme
In the protection scheme tests, a dynamic test set with the three-phase voltage source and current
source is required to simulate power system pre-fault, fault and post-fault conditions.
Tripping is observed with the tripping command output relays TP-1 and -2 of each BU.
Check that the indications and recordings are correct.
Differential tripping
The tripping should be checked for the test current, which is two times or larger than the
minimum operating current of DIFCH and DIFZA to DIFZD, and for the test voltage which is
smaller than the operating voltage of UVSZ∗ and UVGZ∗. Set the contact condition of all
disconnectors and circuit breakers applied to the related channels to simulate the in-service
condition before applying the test current and voltage. (See section 4.2.7.)
Operating time is measured by the operating time of the tripping command output relay. It will
typically be 1 cycle.
Check that the indications and recordings are correct.
Circuit breaker failure tripping
Set the scheme switches [nBF1] to "T" or "TOC" and [nBF2] to "ON".
Apply a fault and retain it. Check that the adjacent breaker tripping output relay operates after the
time setting of the TnB2.
Check that the indications and recordings are correct.
6.5.4
Metering and Recording
The metering function can be checked while testing the AC input circuit. See Section 6.4.4.
Fault recording can be checked while testing the protection schemes. Open the "Fault record"
screen and check that the descriptions are correct for the applied fault.
Recording events are listed in Appendix J. The events BP block, CBF block, Ind. reset are
external events and others are internal events. Event recording on the external events can be
checked by changing the status of binary input signals. Change the status in the same way as the
binary input circuit test (see Section 6.4.2) and check that the description displayed on the "Event
Record" screen is correct.
Note: The record option can be set for each event. Change the status of the binary input signal after
confirming that the related event is set to record. (The default setting enables all the events to
be recorded.)
Some of the internal events can be checked in the protection scheme tests.
Disturbance recording can be checked while testing the protection schemes. The LCD display
only shows the date and time when a disturbance is recorded. Open the "Disturbance record"
screen and check that the descriptions are correct.
Details can be displayed on the PC. Check that the descriptions on the PC are correct. For details
on how to obtain disturbance records on the PC, see the RSM100 Manual.
⎯ 146 ⎯
6 F 2 S 0 8 8 2
6.6
Conjunctive Tests
6.6.1
On Load Test
With the relay connected to the line which is carrying a load current, it is possible to check the
polarity of the voltage transformer and current transformer and the phase rotation with the
metering displays on the LCD screen.
• Open the following "Metering" screen from the "Status" sub-menu.
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Ｉｂ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ２
＊＊．＊＊ｋＡ
Ｉｃ
＊＊．＊＊ｋＡ ＊＊＊．＊°
ｌ０
＊＊．＊＊ｋＡ
Ｆｒｅｑｕｅｎｃｙ
＊＊．＊Ｈｚ
＊＊＊．＊°
＊＊＊．
＊＊＊．
Note: The magnitude of voltage and current can be set in values on the primary side or on the
secondary side by the setting. (The default setting is the primary side.)
The phase differential currents show the percentage to DIFCH and DIFZ setting values. IdyA
to IdyD and VyA to VyD are displayed depend on applied zones. (“y”=a, b, c, 1, 2, 0)
In the phase angle indication, the reference phase angle is indicated as “0.0°” at V1. Phase
angles above are expressed taking that of positive sequence voltage as a reference phase
angle. The leading phase angles are expressed plus. If no voltage input, the positive sequence
current of CH1 is taken as a reference phase angle. If the current of CH1 is small, the current
⎯ 147 ⎯
6 F 2 S 0 8 8 2
of the next channel is used as a reference phase angle. The voltages and frequency are
displayed in Model C400 series.
• Check that the phase rotation is correct.
• Verify the phase relation between voltage and current with a known load current direction.
6.6.2
Tripping Circuit Test
The tripping circuit including the circuit breaker is checked by forcibly operating the output relay
and monitoring the breaker that is tripped. Forcible operation of the output relay is performed on
the "Binary output" screen of the "Test" sub-menu as described in Section 6.4.3.
Tripping circuit
• Set the breaker to be closed.
• Press 2 (= Binary output) on the "Test" sub-menu screen to display the "Binary output" screen.
The LCD displays the output modules mounted.
/2 Binary
1 =CU-IO#1
output
2 =C U-IO#2
3=BU
• Enter 3 to select the BU, then the LCD displays the screen shown below.
/3 BO
CH 1
CH 1
CH 1
(0=Disable
1=Enable)
T P1
T P2
B O1
CH 1
CH1
CH1
CH1
CH1
CH2
CH2
CH2
CH2
B O2
B O3
B O4
B O5
B O6
T P1
T P2
B O1
B O2
0
0
0
0
0
0
0
0
0
CH6 4
CH6 4
CH6 4
CH6 4
T P1
T P2
B O1
B O2
0
0
0
0
TP1 of each CH is an output relay with one normally open contact.
• Enter 1 for TP1 of CH1 and press the ENTER key.
• Press the END key. Then the LCD displays the screen shown below.
⎯ 148 ⎯
1/ * * *
1
0
0
6 F 2 S 0 8 8 2
/3 BO
Keep pressing
Press
CANCEL
1
to
to
operate.
cancel.
• Keep pressing the 1 key to operate the output relay TP1 of CH1 and check that the No. 1
breaker is tripped.
• Release pressing the 1 key to reset the operation.
• Repeat the above for other output relays.
6.6.3
Primary injection test
This test is a protection stability check (through fault stability) carried out for all feeders before
the busbar is energized.
For this test, the tripping circuit has to be opened.
Protection Stability Check
Inject a current from a primary injection test set (recommended : 25%CT rated current ) into two
feeders (reference feeder and one other feeder, see Figure 6.6.1.)
Check that the relay does not operate.
Busbar
1
2
Primary
injection
test set
Reference feeder
Figure 6.6.1 Primary Injection Test
⎯ 149 ⎯
6 F 2 S 0 8 8 2
6.7
Maintenance
6.7.1
Regular Testing
The relay is almost completely self-supervised. The circuits which cannot be supervised are
binary input and output circuits and human interfaces.
Therefore regular testing can be minimized to checking the unsupervised circuits. The test
procedures are the same as described in Sections 6.4.1, 6.4.2 and 6.4.3.
6.7.2
Failure Tracing and Repair
Failures will be detected by automatic supervision or regular testing.
When a failure is detected by supervision, a remote alarm is issued with the binary output signal
of FAIL and the failure is indicated on the front panel with LED indicators or LCD display. It is
also recorded in the event record.
Failures detected by supervision are traced by checking the "Auto-supervision "screen on the
LCD.
If any messages are shown on the LCD, the failed module or failed external circuits can be located
by referring to Table 6.7.1.
This table shows the relationship between messages displayed on the LCD and estimated failure
location. Locations marked with (1) have a higher probability than locations marked with (2) and
(3). Locations marked with (2) have a higher probability than locations marked with (3). The
monitoring of BU is performed by FEP3 module through XOP1 module in CU. The monitoring
result is displayed on LCD by SPM7 module. If an FEP3 module fails, therefore, the result
displayed on the LCD may be incorrect. The relationship between the FEP3 module number and
the monitored BUs is as follows:
FEP Module No.
BU
Model C∗1∗
Model C∗2∗
Model C∗3∗
Model C∗4∗
Model C∗6∗
Model C∗8∗
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
FEP3-2
x
x
XOP1-1
x
x
FEP3-1
XOP1-1
XOP1-2
XOP1-3
XOP1-2
x
XOP1-3
x
As shown in the table, some of the messages cannot identify the fault location definitely but
suggest plural possible failure locations. In these cases, the failure location is identified by
replacing the suggested failed modules with spare modules one by one until the "ALARM" LED
is turned off.
The replacement or investigation should be performed first for the module or circuit with higher
probability in the table.
If there is a failure and the LCD is not working such as a screen is frozen or not displayed, the
failure location is any one of SPM7, FEP3, XOP1 and HMI module.
If there is a failure and no message is shown on the LCD in the CU, it means that the failure
location is either in the DC power supply circuit or in the microprocessors mounted on the SPM7
⎯ 150 ⎯
6 F 2 S 0 8 8 2
module. In this case, check the "ALARM" LED. If it is off, the failure is in the DC power supply
circuit. If it is lit, open the relay front panel and check the LEDs mounted on the SPM7 module. If
the LED on the SPM7 module is off, the failure is in the DC power supply circuit. If the LED is
lit, the failure is in the microprocessor.
In the former case, check if the correct DC voltage is applied to the relay. If it is, replace the IO#1
module mounting the DC/DC converter and confirm that the "ALARM" LED is turned off. In the
latter case, replace the SPM7 module mounting the processors and confirm that the "ALARM"
LED is turned off.
When the "POWER" LED in the BU is off, check if the correct DC voltage is applied to the BU.
If it is, replace the BUM1 module mounting the DC/DC converter and confirm that the "POWER"
LED is turned on.
When a failure is detected during regular testing, it will not be difficult to identify the failed
module to be replaced.
Note: When a failure or an abnormality is detected during the regular test, confirm the following first:
- Test circuit connections are correct.
- Modules are securely inserted in position.
- Correct DC power voltage with correct polarity is applied and connected to the correct
terminals.
- Correct AC inputs are applied and connected to the correct terminals.
- Test procedures comply with those stated in the manual.
⎯ 151 ⎯
6 F 2 S 0 8 8 2
Table 6.7.1 LCD Message and Failure Location
Failure location
Message or
Operation
CU
VCT
FEP3
SPM
or
7
IO#1
BU
IO#2
HMI
VCT
BUM
BUM
1
5
AC
Optic
DS
AC
LAN
PLC,
BI
cable
cable
or
inputs
cable/
IEC
61850
Input
network
CB
data
XOP1
Checksum err
×
ROM-RAM err
×
SRAM err
×
CPU err
×
Invalid err
×
NMI err
×
BU-RAM err
×
EEPROM err
×
ROM data err
×
A/D err
×
V0∗ err
× (2)
× (1)
× (2)
× (1)
V2∗ err
× (2)
× (1)
× (2)
× (1)
×
Sampling err
× (2)
DIO err
× (1)
× (1)
× (2)
DIDIS err
× (2)
LCD err
× (1)
× (1)
×
FEP∗:
Checksum err
×
FEP∗:
ROM-RAM err
FEP∗: SRAM
×
err
FEP∗: DPRAM
×
err
FEP∗: stopped
×
FEP∗:CPU err
×
FEP∗:Invalid
×
err
FEP∗:NMI err
×
FEP∗: Sampling
×
BU∗: COM err
× (3)
BU∗: A/D err
× (3)
BU∗: DIO err
× (3)
× (1)
BU∗: Address
× (3)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (2)
err
BU∗: EEPROM
err
BU∗: AI err
BU∗: Trip fail
× (3)
× (2)
× (1)
× (1)
× (2)
× (1)
⎯ 152 ⎯
6 F 2 S 0 8 8 2
Failure location
Message or
Operation
CU
VCT
FEP3
SPM
or
7
IO#1
BU
IO#2
HMI
VCT
BUM
BUM
1
5
AC
Optic
DS
cable
cable
or
AC
LAN
PLC,
BI
inputs
cable/
IEC
61850
Input
network
CB
data
XOP1
× (2)
CT∗ err
× (1)
× (2)
× (1)
DS∗ err
× (2)
× (2)
DS-Z* err
× (1)
× (2)
CB∗ err
× (2)
× (2)
× (1)
× (1)
Id-Z err
× (2)
× (1)
× (2)
× (1)
Id err
× (2)
× (1)
× (2)
× (1)
CT fail,
× (2)
× (1)
× (2)
× (1)
CT-Z∗ fail
×
DC supply off
RTC err
×
PCI err
×
×
LAN err
Goose stop
× (2)
× (1)
Ping err
× (2)
× (1)
PLC stop
×
×
MAP stop
×
×
No-working of
× (1)
× (1)
× (1)
LCD
Note *: The monitoring of BU is performed by FEP3 module through XOP1 module in CU. The monitoring result is
displayed on LCD by SPM7 module. If an FEP3 module fails, therefore, the result displayed on the LCD may be
incorrect.
⎯ 153 ⎯
6 F 2 S 0 8 8 2
6.7.3
Replacing Failed Modules
If the failure is identified to be in the relay module and the user has spare modules, the user can
recover the protection by replacing the failed modules.
Repair at the site should be limited to module replacement. Maintenance at the component level is
not recommended.
Check that the replacement module has an identical module name (VCT, FEP3, XOP1, SPM7,
IO#1, IO#2, etc.) and hardware type-form as the removed module. Furthermore, the SPM7
module should have the same software name.
The module name is indicated on the bottom front of the relay case. The hardware type-form is
indicated on the module in the following format:
Unit
Module name
Hardware type-form
CU
VCT
G1PC1-††††
FEP3
G1FE3-††††
XOP1
G1XP1-††††
SPM7
G1SP7-††††
IO#1(IO8)
G1IO8-††††
IO#2(IO2A)
G1IO2-††††
HMI
--------
VCT
G1PC1-††††
BUM1
G1BM1-††††
BUM5
G1BM5-††††
BU
The software name is indicated on the memory device on the module with eight letters such as
GSPBM1- ∗∗, GSPBK1- ∗∗, etc.
CAUTION
CAUTION
When handling a module, take anti-static measures such as wearing an earthed
wrist band and placing modules on an earthed conductive mat. Otherwise,
many of the electronic components could suffer damage.
After replacing the SPM7 module, check all of the settings including the data
related the PLC, IEC60870-5-103 and IEC61850, etc. are restored the original
settings.
The initial replacement procedure is as follows:
• Switch off the DC power supply.
WARNING Hazardous voltage may remain in the DC circuit just after switching off the
DC power supply. It takes approximately 30 seconds for the voltage to
discharge.
• Disconnect the trip outputs.
• Short circuit all AC current inputs and disconnect all AC voltage inputs.
• Unscrew the relay front cover.
Replacing the Human Machine Interface (HMI) Module (Front Panel) of CU
• Open the front panel of the relay by unscrewing the binding screw located on the left side of
the front panel.
• Unplug the ribbon cable on the front panel by pushing the catch outside.
⎯ 154 ⎯
6 F 2 S 0 8 8 2
• Remove the two retaining screws and one earthing screw on the relay case side, then detach
the front panel from the relay case.
• Attach the replacement module in the reverse procedure.
Replacing the Transformer (VT) Module of CU
• Open the right-side front panel (HMI module) by unscrewing the two binding screws located
on the left side of the panel.
• Open the left-side front panel (blind panel) by unscrewing the two binding screws located on
the right side of the panel.
• Detach the module holding bar by unscrewing the binding screw located on the left side of the
bar.
• Unplug the ribbon cable on the other module by nipping the catch.
• Remove the metal cover by unscrewing the binding screw located at the top and bottom of the
cover.
• Pull out the module by grasping the handles.
• Insert the replacement module in the reverse procedure.
Replacing other modules of CU
• Open the right-side front panel (HMI module) by unscrewing the two binding screws located
on the left side of the panel.
• Open the left-side front panel (blind panel) by unscrewing the two binding screws located on
the right side of the panel.
• Detach the module holding bar by unscrewing the binding screw located on the left side of the
bar.
• Unplug the ribbon cable running among the modules by nipping the catch (black connector)
and by pushing the catch outside (gray connector) on the connector.
• Unplug the cable connector behind the case when replacing the FEP3 module and the XOP1
module.
• Pull out the module by pulling up or down the top and bottom levers.
• Insert the replacement module in the reverse procedure.
• After replacing the SPM7 module, input the user setting values again.
Replacing the Transformer (CT) Module of BU
• Open the front panel by pulling the two knobs located on the left side of the panel.
• Detach the module holding bar by unscrewing the binding screw located on the left side of the
bar.
• Unplug the ribbon cable on the other module by nipping the catch.
• Remove the metal cover by unscrewing the binding screw located at the top and bottom of the
cover.
• Pull out the module by grasping the handles.
• Insert the replacement module in the reverse procedure.
⎯ 155 ⎯
6 F 2 S 0 8 8 2
Replacing other modules of BU
• Open the front panel by pulling the two knobs located on the left side of the panel.
• Detach the module holding bar by unscrewing the binding screw located on the left side of the
bar.
• Unplug the ribbon cable running among the modules by nipping the catch (black connector)
and by pushing the catch outside (gray connector) on the connector.
• Unplug the cable connector behind the case when replacing the BUM module.
• Pull out the module by pulling up or down the top and bottom levers.
• Insert the replacement module in the reverse procedure.
• After replacing the BUM1 module, set the BU address setting again. (See Section 5.5.2.)
For failed module tracing and its replacement, see Appendix R.
6.7.4
Resumption of Service
After replacing the failed module or repairing failed external circuits, take the following
procedures for the relay to restore into service.
• Switch on the DC power supply and confirm that the "IN SERVICE" green LED is lit and the
"ALARM" red LED is not lit.
Note: Supply DC power after checking that all the modules are in their original positions and the
ribbon cables are plugged in.
• Supply the AC inputs and reconnect the trip outputs.
6.7.5
Storage
The spare relay or module should be stored in a dry and clean room. Based on IEC Standard
60255-6 the storage temperature should be −25°C to +70°C, but the temperature of 0°C to +40°C
is recommended for long-term storage.
⎯ 156 ⎯
6 F 2 S 0 8 8 2
7. Putting Relay into Service
The following procedure must be adhered to when putting the relay into service after finishing
commissioning or maintenance tests.
• Check that all external connections are correct.
•
Check the setting of all measuring elements, timers, scheme switches, recordings and clock
are correct.
In particular, when settings are changed temporarily for testing, be sure to restore them.
•
Clear any unnecessary records on faults, events and disturbances which are recorded during
the tests.
• Press the VIEW key and check that no failure message is displayed on the
"Auto-supervision" screen.
• Check that the green "IN SERVICE" LED is lit and no other LEDs are lit on the front panel.
⎯ 157 ⎯
6 F 2 S 0 8 8 2
⎯ 158 ⎯
6 F 2 S 0 8 8 2
Appendix A
Busbar Replica
⎯ 159 ⎯
6 F 2 S 0 8 8 2
Busbar
model
Single
(Single-busbar)
Model No.
E1
Single +T
(Single-busbar with a transfer busbar)
ZoneA
ZoneA
E2
C1
1
Transfer busbar
E1
ZoneA
S1
ZoneA
ZoneB
E2
S1
C2
C1
2
ZoneB
Transfer busbar
E1
ZoneA
S1
ZoneB
S2
ZoneC
E2
ZoneA
S1
S2
ZoneC
C3
C2
C1
3
ZoneB
Transfer busbar
E1
ZoneA
S1
ZoneB
S2
ZoneC
S3
ZoneD
ZoneA
E2
C1
4
S1
ZoneB
S2
C2
ZoneC
C3
S3
ZoneD
C4
Transfer busbar
5
Note:
Symbols display the following circuits.
E1 - E4
: End of bus-section
C1 - C4
: Bus-coupler
Feeder circuits are omitted in the figure.
S1 - S4
⎯ 160 ⎯
: Bus-section
6 F 2 S 0 8 8 2
Busbar
model
Model No.
Double
(Double-basbar including to double as a
transfer busbar)
ZoneA
E1
Double +T
(Double-busbar with a transfer busbar)
ZoneA
E2
C1
C1
1
ZoneB
E3
ZoneB
E4
Transfer busbar
ZoneA
E1
S1
ZoneC
C1
ZoneB
E3
S1
ZoneC
C2
C1
C2
2
ZoneA
E2
ZoneB
E4
Transfer busbar
ZoneA
E1
C2
C1
3
ZoneB
E3
ZoneA
E2
S2
ZoneD
C2
C1
ZoneB
E4
S2
ZoneD
Transfer busbar
ZoneA
E1
S1
ZoneC
C1
4
S2
ZoneD
S1
ZoneC
C2
C1
C2
ZoneB
E3
ZoneA
E2
ZoneB
E4
S2
ZoneD
Transfer busbar
E1
ZoneA
C1
5
E3
S1
ZoneC
C2
S2
ZoneD
E2
ZoneA
S1
ZoneC
C2
C1
C3
E4
ZoneB
S2
ZoneB
Transfer busbar
⎯ 161 ⎯
ZoneD
C3
6 F 2 S 0 8 8 2
Busbar
model
Ring
(Ring-busbar)
Model No.
Ring +T
(Ring-busbar with a transfer busbar)
1
ZoneA
S1
ZoneB
ZoneA
S2
S1
ZoneB
S2
2
C1
C2
Transfer busbar
ZoneA
S1
ZoneB
S2
ZoneC
ZoneA
S3
S1
ZoneB
S2
ZoneC
S3
3
C2
C1
C3
Transfer busbar
ZoneA
S1
ZoneB
S2
ZoneC
S3
ZoneD
S4
ZoneA
S1
ZoneB
S2
ZoneC
S3
ZoneD
4
C1
C2
C3
Transfer busbar
5
⎯ 162 ⎯
C4
S4
6 F 2 S 0 8 8 2
Appendix B
Block Diagram
⎯ 163 ⎯
6 F 2 S 0 8 8 2
Busbar system
Feeder
FD
DIFCH
Buscoupler CT2
DIFZA
Buscoupler CT1
DIFZB
FD
Feeder
Scheme logic
[Bay unit (CH 1)]
[Central unit]
TRIP (1)
[DIF]
DIFCH
DIFZA
&
DS-1A
&
DIFZB
&
DS-1B
&
DS-nA
&
DS-nB
&
≧1
&
[Bay unit (CH n)]
≧1
TRIP (n)
&
&
&
[Bay unit (Buscoupler CT1)]
TRIP-BC1
[FD (Option)]
UVSF-A
≧1
[Bay unit (Buscoupler CT2)]
UVGF-A
UVSF-B
≧1
UVGF-B
DS-nA : Disconnector condition of Busbar A side
DS-nB : Disconnector condition of Busbar B side
DS-BC** : Disconnector condition of Buscoupler
Typical Block Diagram
⎯ 164 ⎯
TRIP-BC2
6 F 2 S 0 8 8 2
Appendix C
Signal List
⎯ 165 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
Signal List
CONSTANT 0
CONSTANT 1
constant 0
constant 1
Contents
CH1-DS1-N/O
CH1-DS1-N/C
CH1-BI2
CH1-BI6
CH1-BI3
CH1-BI7
CH1-BI4
CH1-EFP.TR
1OCBF-OR
Binary input signal CH1 DS1 normaly open contact
Binary input signal CH1 DS1 normaly close contact
Binary input signal CH1 BI2
Binary input signal CH1 BI6
Binary input signal CH1 BI3
Binary input signal CH1 BI7
Binary input signal CH1 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH1-EXTTP-A1
CH1-EXTTP-A2
CH1-EXTTP-B1
CH1-EXTTP-B2
CH1-EXTTP-C1
CH1-EXTTP-C2
CH2-DS1-N/O
CH2-DS1-N/C
CH2-BI2
CH2-BI6
CH2-BI3
CH2-BI7
CH2-BI4
CH2-EFP.TR
2OCBF-OR
Binary input signal CH1 External trip A-phase
Binary input signal CH1 External trip A-phase
Binary input signal CH1 External trip B-phase
Binary input signal CH1 External trip B-phase
Binary input signal CH1 External trip C-phase
Binary input signal CH1 External trip C-phase
Binary input signal CH2 DS1 normaly open contact
Binary input signal CH2 DS1 normaly close contact
Binary input signal CH2 BI2
Binary input signal CH2 BI6
Binary input signal CH2 BI3
Binary input signal CH2 BI7
Binary input signal CH2 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH2-EXTTP-A1
CH2-EXTTP-A2
CH2-EXTTP-B1
CH2-EXTTP-B2
CH2-EXTTP-C1
CH2-EXTTP-C2
CH3-DS1-N/O
CH3-DS1-N/C
CH3-BI2
CH3-BI6
CH3-BI3
CH3-BI7
CH3-BI4
CH3-EFP.TR
3OCBF-OR
Binary input signal CH2 External trip A-phase
Binary input signal CH2 External trip A-phase
Binary input signal CH2 External trip B-phase
Binary input signal CH2 External trip B-phase
Binary input signal CH2 External trip C-phase
Binary input signal CH2 External trip C-phase
Binary input signal CH3 DS1 normaly open contact
Binary input signal CH3 DS1 normaly close contact
Binary input signal CH3 BI2
Binary input signal CH3 BI6
Binary input signal CH3 BI3
Binary input signal CH3 BI7
Binary input signal CH3 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH3-EXTTP-A1
CH3-EXTTP-A2
CH3-EXTTP-B1
CH3-EXTTP-B2
CH3-EXTTP-C1
CH3-EXTTP-C2
CH4-DS1-N/O
CH4-DS1-N/C
CH4-BI2
CH4-BI6
CH4-BI3
CH4-BI7
CH4-BI4
CH4-EFP.TR
4OCBF-OR
Binary input signal CH3 External trip A-phase
Binary input signal CH3 External trip A-phase
Binary input signal CH3 External trip B-phase
Binary input signal CH3 External trip B-phase
Binary input signal CH3 External trip C-phase
Binary input signal CH3 External trip C-phase
Binary input signal CH4 DS1 normaly open contact
Binary input signal CH4 DS1 normaly close contact
Binary input signal CH4 BI2
Binary input signal CH4 BI6
Binary input signal CH4 BI3
Binary input signal CH4 BI7
Binary input signal CH4 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH4-EXTTP-A1
CH4-EXTTP-A2
Binary input signal CH4 External trip A-phase
Binary input signal CH4 External trip A-phase
⎯ 166 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
Signal Name
CH4-EXTTP-B1
CH4-EXTTP-B2
CH4-EXTTP-C1
CH4-EXTTP-C2
CH5-DS1-N/O
CH5-DS1-N/C
CH5-BI2
CH5-BI6
CH5-BI3
CH5-BI7
CH5-BI4
CH5-EFP.TR
5OCBF-OR
Contents
Binary input signal CH4 External trip B-phase
Binary input signal CH4 External trip B-phase
Binary input signal CH4 External trip C-phase
Binary input signal CH4 External trip C-phase
Binary input signal CH5 DS1 normaly open contact
Binary input signal CH5 DS1 normaly close contact
Binary input signal CH5 BI2
Binary input signal CH5 BI6
Binary input signal CH5 BI3
Binary input signal CH5 BI7
Binary input signal CH5 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH5-EXTTP-A1
CH5-EXTTP-A2
CH5-EXTTP-B1
CH5-EXTTP-B2
CH5-EXTTP-C1
CH5-EXTTP-C2
CH6-DS1-N/O
CH6-DS1-N/C
CH6-BI2
CH6-BI6
CH6-BI3
CH6-BI7
CH6-BI4
CH6-EFP.TR
6OCBF-OR
Binary input signal CH5 External trip A-phase
Binary input signal CH5 External trip A-phase
Binary input signal CH5 External trip B-phase
Binary input signal CH5 External trip B-phase
Binary input signal CH5 External trip C-phase
Binary input signal CH5 External trip C-phase
Binary input signal CH6 DS1 normaly open contact
Binary input signal CH6 DS1 normaly close contact
Binary input signal CH6 BI2
Binary input signal CH6 BI6
Binary input signal CH6 BI3
Binary input signal CH6 BI7
Binary input signal CH6 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH6-EXTTP-A1
CH6-EXTTP-A2
CH6-EXTTP-B1
CH6-EXTTP-B2
CH6-EXTTP-C1
CH6-EXTTP-C2
CH7-DS1-N/O
CH7-DS1-N/C
CH7-BI2
CH7-BI6
CH7-BI3
CH7-BI7
CH7-BI4
CH7-EFP.TR
7OCBF-OR
Binary input signal CH6 External trip A-phase
Binary input signal CH6 External trip A-phase
Binary input signal CH6 External trip B-phase
Binary input signal CH6 External trip B-phase
Binary input signal CH6 External trip C-phase
Binary input signal CH6 External trip C-phase
Binary input signal CH7 DS1 normaly open contact
Binary input signal CH7 DS1 normaly close contact
Binary input signal CH7 BI2
Binary input signal CH7 BI6
Binary input signal CH7 BI3
Binary input signal CH7 BI7
Binary input signal CH7 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH7-EXTTP-A1
CH7-EXTTP-A2
CH7-EXTTP-B1
CH7-EXTTP-B2
CH7-EXTTP-C1
CH7-EXTTP-C2
CH8-DS1-N/O
CH8-DS1-N/C
CH8-BI2
CH8-BI6
CH8-BI3
CH8-BI7
CH8-BI4
CH8-EFP.TR
8OCBF-OR
Binary input signal CH7 External trip A-phase
Binary input signal CH7 External trip A-phase
Binary input signal CH7 External trip B-phase
Binary input signal CH7 External trip B-phase
Binary input signal CH7 External trip C-phase
Binary input signal CH7 External trip C-phase
Binary input signal CH8 DS1 normaly open contact
Binary input signal CH8 DS1 normaly close contact
Binary input signal CH8 BI2
Binary input signal CH8 BI6
Binary input signal CH8 BI3
Binary input signal CH8 BI7
Binary input signal CH8 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH8-EXTTP-A1
CH8-EXTTP-A2
CH8-EXTTP-B1
CH8-EXTTP-B2
CH8-EXTTP-C1
CH8-EXTTP-C2
CH9-DS1-N/O
CH9-DS1-N/C
Binary input signal CH8 External trip A-phase
Binary input signal CH8 External trip A-phase
Binary input signal CH8 External trip B-phase
Binary input signal CH8 External trip B-phase
Binary input signal CH8 External trip C-phase
Binary input signal CH8 External trip C-phase
Binary input signal CH9 DS1 normaly open contact
Binary input signal CH9 DS1 normaly close contact
⎯ 167 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
Signal Name
CH9-BI2
CH9-BI6
CH9-BI3
CH9-BI7
CH9-BI4
CH9-EFP.TR
9OCBF-OR
Contents
Binary input signal CH9 BI2
Binary input signal CH9 BI6
Binary input signal CH9 BI3
Binary input signal CH9 BI7
Binary input signal CH9 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH9-EXTTP-A1
CH9-EXTTP-A2
CH9-EXTTP-B1
CH9-EXTTP-B2
CH9-EXTTP-C1
CH9-EXTTP-C2
CH10-DS1-N/O
CH10-DS1-N/C
CH10-BI2
CH10-BI6
CH10-BI3
CH10-BI7
CH10-BI4
CH10-EFP.TR
10OCBF-OR
Binary input signal CH9 External trip A-phase
Binary input signal CH9 External trip A-phase
Binary input signal CH9 External trip B-phase
Binary input signal CH9 External trip B-phase
Binary input signal CH9 External trip C-phase
Binary input signal CH9 External trip C-phase
Binary input signal CH10 DS1 normaly open contact
Binary input signal CH10 DS1 normaly close contact
Binary input signal CH10 BI2
Binary input signal CH10 BI6
Binary input signal CH10 BI3
Binary input signal CH10 BI7
Binary input signal CH10 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH10-EXTTP-A1
CH10-EXTTP-A2
CH10-EXTTP-B1
CH10-EXTTP-B2
CH10-EXTTP-C1
CH10-EXTTP-C2
CH11-DS1-N/O
CH11-DS1-N/C
CH11-BI2
CH11-BI6
CH11-BI3
CH11-BI7
CH11-BI4
CH11-EFP.TR
11OCBF-OR
Binary input signal CH10 External trip A-phase
Binary input signal CH10 External trip A-phase
Binary input signal CH10 External trip B-phase
Binary input signal CH10 External trip B-phase
Binary input signal CH10 External trip C-phase
Binary input signal CH10 External trip C-phase
Binary input signal CH11 DS1 normaly open contact
Binary input signal CH11 DS1 normaly close contact
Binary input signal CH11 BI2
Binary input signal CH11 BI6
Binary input signal CH11 BI3
Binary input signal CH11 BI7
Binary input signal CH11 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH11-EXTTP-A1
CH11-EXTTP-A2
CH11-EXTTP-B1
CH11-EXTTP-B2
CH11-EXTTP-C1
CH11-EXTTP-C2
CH12-DS1-N/O
CH12-DS1-N/C
CH12-BI2
CH12-BI6
CH12-BI3
CH12-BI7
CH12-BI4
CH12-EFP.TR
12OCBF-OR
Binary input signal CH11 External trip A-phase
Binary input signal CH11 External trip A-phase
Binary input signal CH11 External trip B-phase
Binary input signal CH11 External trip B-phase
Binary input signal CH11 External trip C-phase
Binary input signal CH11 External trip C-phase
Binary input signal CH12 DS1 normaly open contact
Binary input signal CH12 DS1 normaly close contact
Binary input signal CH12 BI2
Binary input signal CH12 BI6
Binary input signal CH12 BI3
Binary input signal CH12 BI7
Binary input signal CH12 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH12-EXTTP-A1
CH12-EXTTP-A2
CH12-EXTTP-B1
CH12-EXTTP-B2
CH12-EXTTP-C1
CH12-EXTTP-C2
CH13-DS1-N/O
CH13-DS1-N/C
CH13-BI2
CH13-BI6
CH13-BI3
CH13-BI7
CH13-BI4
CH13-EFP.TR
Binary input signal CH12 External trip A-phase
Binary input signal CH12 External trip A-phase
Binary input signal CH12 External trip B-phase
Binary input signal CH12 External trip B-phase
Binary input signal CH12 External trip C-phase
Binary input signal CH12 External trip C-phase
Binary input signal CH13 DS1 normaly open contact
Binary input signal CH13 DS1 normaly close contact
Binary input signal CH13 BI2
Binary input signal CH13 BI6
Binary input signal CH13 BI3
Binary input signal CH13 BI7
Binary input signal CH13 BI4
End-fault-protection transfer trip signal
⎯ 168 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
Signal Name
13OCBF-OR
Contents
OCBF relay element (3ph OR signal)
CH13-EXTTP-A1
CH13-EXTTP-A2
CH13-EXTTP-B1
CH13-EXTTP-B2
CH13-EXTTP-C1
CH13-EXTTP-C2
CH14-DS1-N/O
CH14-DS1-N/C
CH14-BI2
CH14-BI6
CH14-BI3
CH14-BI7
CH14-BI4
CH14-EFP.TR
14OCBF-OR
Binary input signal CH13 External trip A-phase
Binary input signal CH13 External trip A-phase
Binary input signal CH13 External trip B-phase
Binary input signal CH13 External trip B-phase
Binary input signal CH13 External trip C-phase
Binary input signal CH13 External trip C-phase
Binary input signal CH14 DS1 normaly open contact
Binary input signal CH14 DS1 normaly close contact
Binary input signal CH14 BI2
Binary input signal CH14 BI6
Binary input signal CH14 BI3
Binary input signal CH14 BI7
Binary input signal CH14 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH14-EXTTP-A1
CH14-EXTTP-A2
CH14-EXTTP-B1
CH14-EXTTP-B2
CH14-EXTTP-C1
CH14-EXTTP-C2
CH15-DS1-N/O
CH15-DS1-N/C
CH15-BI2
CH15-BI6
CH15-BI3
CH15-BI7
CH15-BI4
CH15-EFP.TR
15OCBF-OR
Binary input signal CH14 External trip A-phase
Binary input signal CH14 External trip A-phase
Binary input signal CH14 External trip B-phase
Binary input signal CH14 External trip B-phase
Binary input signal CH14 External trip C-phase
Binary input signal CH14 External trip C-phase
Binary input signal CH15 DS1 normaly open contact
Binary input signal CH15 DS1 normaly close contact
Binary input signal CH15 BI2
Binary input signal CH15 BI6
Binary input signal CH15 BI3
Binary input signal CH15 BI7
Binary input signal CH15 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH15-EXTTP-A1
CH15-EXTTP-A2
CH15-EXTTP-B1
CH15-EXTTP-B2
CH15-EXTTP-C1
CH15-EXTTP-C2
CH16-DS1-N/O
CH16-DS1-N/C
CH16-BI2
CH16-BI6
CH16-BI3
CH16-BI7
CH16-BI4
CH16-EFP.TR
16OCBF-OR
Binary input signal CH15 External trip A-phase
Binary input signal CH15 External trip A-phase
Binary input signal CH15 External trip B-phase
Binary input signal CH15 External trip B-phase
Binary input signal CH15 External trip C-phase
Binary input signal CH15 External trip C-phase
Binary input signal CH16 DS1 normaly open contact
Binary input signal CH16 DS1 normaly close contact
Binary input signal CH16 BI2
Binary input signal CH16 BI6
Binary input signal CH16 BI3
Binary input signal CH16 BI7
Binary input signal CH16 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH16-EXTTP-A1
CH16-EXTTP-A2
CH16-EXTTP-B1
CH16-EXTTP-B2
CH16-EXTTP-C1
CH16-EXTTP-C2
CH17-DS1-N/O
CH17-DS1-N/C
CH17-BI2
CH17-BI6
CH17-BI3
CH17-BI7
CH17-BI4
CH17-EFP.TR
17OCBF-OR
Binary input signal CH16 External trip A-phase
Binary input signal CH16 External trip A-phase
Binary input signal CH16 External trip B-phase
Binary input signal CH16 External trip B-phase
Binary input signal CH16 External trip C-phase
Binary input signal CH16 External trip C-phase
Binary input signal CH17 DS1 normaly open contact
Binary input signal CH17 DS1 normaly close contact
Binary input signal CH17 BI2
Binary input signal CH17 BI6
Binary input signal CH17 BI3
Binary input signal CH17 BI7
Binary input signal CH17 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH17-EXTTP-A1
CH17-EXTTP-A2
CH17-EXTTP-B1
CH17-EXTTP-B2
Binary input signal CH17 External trip A-phase
Binary input signal CH17 External trip A-phase
Binary input signal CH17 External trip B-phase
Binary input signal CH17 External trip B-phase
⎯ 169 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
Signal Name
CH17-EXTTP-C1
CH17-EXTTP-C2
CH18-DS1-N/O
CH18-DS1-N/C
CH18-BI2
CH18-BI6
CH18-BI3
CH18-BI7
CH18-BI4
CH18-EFP.TR
18OCBF-OR
Contents
Binary input signal CH17 External trip C-phase
Binary input signal CH17 External trip C-phase
Binary input signal CH18 DS1 normaly open contact
Binary input signal CH18 DS1 normaly close contact
Binary input signal CH18 BI2
Binary input signal CH18 BI6
Binary input signal CH18 BI3
Binary input signal CH18 BI7
Binary input signal CH18 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH18-EXTTP-A1
CH18-EXTTP-A2
CH18-EXTTP-B1
CH18-EXTTP-B2
CH18-EXTTP-C1
CH18-EXTTP-C2
CH19-DS1-N/O
CH19-DS1-N/C
CH19-BI2
CH19-BI6
CH19-BI3
CH19-BI7
CH19-BI4
CH19-EFP.TR
19OCBF-OR
Binary input signal CH18 External trip A-phase
Binary input signal CH18 External trip A-phase
Binary input signal CH18 External trip B-phase
Binary input signal CH18 External trip B-phase
Binary input signal CH18 External trip C-phase
Binary input signal CH18 External trip C-phase
Binary input signal CH19 DS1 normaly open contact
Binary input signal CH19 DS1 normaly close contact
Binary input signal CH19 BI2
Binary input signal CH19 BI6
Binary input signal CH19 BI3
Binary input signal CH19 BI7
Binary input signal CH19 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH19-EXTTP-A1
CH19-EXTTP-A2
CH19-EXTTP-B1
CH19-EXTTP-B2
CH19-EXTTP-C1
CH19-EXTTP-C2
CH20-DS1-N/O
CH20-DS1-N/C
CH20-BI2
CH20-BI6
CH20-BI3
CH20-BI7
CH20-BI4
CH20-EFP.TR
20OCBF-OR
Binary input signal CH19 External trip A-phase
Binary input signal CH19 External trip A-phase
Binary input signal CH19 External trip B-phase
Binary input signal CH19 External trip B-phase
Binary input signal CH19 External trip C-phase
Binary input signal CH19 External trip C-phase
Binary input signal CH20 DS1 normaly open contact
Binary input signal CH20 DS1 normaly close contact
Binary input signal CH20 BI2
Binary input signal CH20 BI6
Binary input signal CH20 BI3
Binary input signal CH20 BI7
Binary input signal CH20 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH20-EXTTP-A1
CH20-EXTTP-A2
CH20-EXTTP-B1
CH20-EXTTP-B2
CH20-EXTTP-C1
CH20-EXTTP-C2
CH21-DS1-N/O
CH21-DS1-N/C
CH21-BI2
CH21-BI6
CH21-BI3
CH21-BI7
CH21-BI4
CH21-EFP.TR
21OCBF-OR
Binary input signal CH20 External trip A-phase
Binary input signal CH20 External trip A-phase
Binary input signal CH20 External trip B-phase
Binary input signal CH20 External trip B-phase
Binary input signal CH20 External trip C-phase
Binary input signal CH20 External trip C-phase
Binary input signal CH21 DS1 normaly open contact
Binary input signal CH21 DS1 normaly close contact
Binary input signal CH21 BI2
Binary input signal CH21 BI6
Binary input signal CH21 BI3
Binary input signal CH21 BI7
Binary input signal CH21 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH21-EXTTP-A1
CH21-EXTTP-A2
CH21-EXTTP-B1
CH21-EXTTP-B2
CH21-EXTTP-C1
CH21-EXTTP-C2
CH22-DS1-N/O
CH22-DS1-N/C
CH22-BI2
CH22-BI6
Binary input signal CH21 External trip A-phase
Binary input signal CH21 External trip A-phase
Binary input signal CH21 External trip B-phase
Binary input signal CH21 External trip B-phase
Binary input signal CH21 External trip C-phase
Binary input signal CH21 External trip C-phase
Binary input signal CH22 DS1 normaly open contact
Binary input signal CH22 DS1 normaly close contact
Binary input signal CH22 BI2
Binary input signal CH22 BI6
⎯ 170 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
Signal Name
CH22-BI3
CH22-BI7
CH22-BI4
CH22-EFP.TR
22OCBF-OR
Contents
Binary input signal CH22 BI3
Binary input signal CH22 BI7
Binary input signal CH22 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH22-EXTTP-A1
CH22-EXTTP-A2
CH22-EXTTP-B1
CH22-EXTTP-B2
CH22-EXTTP-C1
CH22-EXTTP-C2
CH23-DS1-N/O
CH23-DS1-N/C
CH23-BI2
CH23-BI6
CH23-BI3
CH23-BI7
CH23-BI4
CH23-EFP.TR
23OCBF-OR
Binary input signal CH22 External trip A-phase
Binary input signal CH22 External trip A-phase
Binary input signal CH22 External trip B-phase
Binary input signal CH22 External trip B-phase
Binary input signal CH22 External trip C-phase
Binary input signal CH22 External trip C-phase
Binary input signal CH23 DS1 normaly open contact
Binary input signal CH23 DS1 normaly close contact
Binary input signal CH23 BI2
Binary input signal CH23 BI6
Binary input signal CH23 BI3
Binary input signal CH23 BI7
Binary input signal CH23 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH23-EXTTP-A1
CH23-EXTTP-A2
CH23-EXTTP-B1
CH23-EXTTP-B2
CH23-EXTTP-C1
CH23-EXTTP-C2
CH24-DS1-N/O
CH24-DS1-N/C
CH24-BI2
CH24-BI6
CH24-BI3
CH24-BI7
CH24-BI4
CH24-EFP.TR
24OCBF-OR
Binary input signal CH23 External trip A-phase
Binary input signal CH23 External trip A-phase
Binary input signal CH23 External trip B-phase
Binary input signal CH23 External trip B-phase
Binary input signal CH23 External trip C-phase
Binary input signal CH23 External trip C-phase
Binary input signal CH24 DS1 normaly open contact
Binary input signal CH24 DS1 normaly close contact
Binary input signal CH24 BI2
Binary input signal CH24 BI6
Binary input signal CH24 BI3
Binary input signal CH24 BI7
Binary input signal CH24 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH24-EXTTP-A1
CH24-EXTTP-A2
CH24-EXTTP-B1
CH24-EXTTP-B2
CH24-EXTTP-C1
CH24-EXTTP-C2
CH25-DS1-N/O
CH25-DS1-N/C
CH25-BI2
CH25-BI6
CH25-BI3
CH25-BI7
CH25-BI4
CH25-EFP.TR
25OCBF-OR
Binary input signal CH24 External trip A-phase
Binary input signal CH24 External trip A-phase
Binary input signal CH24 External trip B-phase
Binary input signal CH24 External trip B-phase
Binary input signal CH24 External trip C-phase
Binary input signal CH24 External trip C-phase
Binary input signal CH25 DS1 normaly open contact
Binary input signal CH25 DS1 normaly close contact
Binary input signal CH25 BI2
Binary input signal CH25 BI6
Binary input signal CH25 BI3
Binary input signal CH25 BI7
Binary input signal CH25 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH25-EXTTP-A1
CH25-EXTTP-A2
CH25-EXTTP-B1
CH25-EXTTP-B2
CH25-EXTTP-C1
CH25-EXTTP-C2
CH26-DS1-N/O
CH26-DS1-N/C
CH26-BI2
CH26-BI6
CH26-BI3
CH26-BI7
CH26-BI4
CH26-EFP.TR
26OCBF-OR
Binary input signal CH25 External trip A-phase
Binary input signal CH25 External trip A-phase
Binary input signal CH25 External trip B-phase
Binary input signal CH25 External trip B-phase
Binary input signal CH25 External trip C-phase
Binary input signal CH25 External trip C-phase
Binary input signal CH26 DS1 normaly open contact
Binary input signal CH26 DS1 normaly close contact
Binary input signal CH26 BI2
Binary input signal CH26 BI6
Binary input signal CH26 BI3
Binary input signal CH26 BI7
Binary input signal CH26 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
⎯ 171 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
Signal Name
CH26-EXTTP-A1
CH26-EXTTP-A2
CH26-EXTTP-B1
CH26-EXTTP-B2
CH26-EXTTP-C1
CH26-EXTTP-C2
CH27-DS1-N/O
CH27-DS1-N/C
CH27-BI2
CH27-BI6
CH27-BI3
CH27-BI7
CH27-BI4
CH27-EFP.TR
27OCBF-OR
Contents
Binary input signal CH26 External trip A-phase
Binary input signal CH26 External trip A-phase
Binary input signal CH26 External trip B-phase
Binary input signal CH26 External trip B-phase
Binary input signal CH26 External trip C-phase
Binary input signal CH26 External trip C-phase
Binary input signal CH27 DS1 normaly open contact
Binary input signal CH27 DS1 normaly close contact
Binary input signal CH27 BI2
Binary input signal CH27 BI6
Binary input signal CH27 BI3
Binary input signal CH27 BI7
Binary input signal CH27 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH27-EXTTP-A1
CH27-EXTTP-A2
CH27-EXTTP-B1
CH27-EXTTP-B2
CH27-EXTTP-C1
CH27-EXTTP-C2
CH28-DS1-N/O
CH28-DS1-N/C
CH28-BI2
CH28-BI6
CH28-BI3
CH28-BI7
CH28-BI4
CH28-EFP.TR
28OCBF-OR
Binary input signal CH27 External trip A-phase
Binary input signal CH27 External trip A-phase
Binary input signal CH27 External trip B-phase
Binary input signal CH27 External trip B-phase
Binary input signal CH27 External trip C-phase
Binary input signal CH27 External trip C-phase
Binary input signal CH28 DS1 normaly open contact
Binary input signal CH28 DS1 normaly close contact
Binary input signal CH28 BI2
Binary input signal CH28 BI6
Binary input signal CH28 BI3
Binary input signal CH28 BI7
Binary input signal CH28 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH28-EXTTP-A1
CH28-EXTTP-A2
CH28-EXTTP-B1
CH28-EXTTP-B2
CH28-EXTTP-C1
CH28-EXTTP-C2
CH29-DS1-N/O
CH29-DS1-N/C
CH29-BI2
CH29-BI6
CH29-BI3
CH29-BI7
CH29-BI4
CH29-EFP.TR
29OCBF-OR
Binary input signal CH28 External trip A-phase
Binary input signal CH28 External trip A-phase
Binary input signal CH28 External trip B-phase
Binary input signal CH28 External trip B-phase
Binary input signal CH28 External trip C-phase
Binary input signal CH28 External trip C-phase
Binary input signal CH29 DS1 normaly open contact
Binary input signal CH29 DS1 normaly close contact
Binary input signal CH29 BI2
Binary input signal CH29 BI6
Binary input signal CH29 BI3
Binary input signal CH29 BI7
Binary input signal CH29 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH29-EXTTP-A1
CH29-EXTTP-A2
CH29-EXTTP-B1
CH29-EXTTP-B2
CH29-EXTTP-C1
CH29-EXTTP-C2
CH30-DS1-N/O
CH30-DS1-N/C
CH30-BI2
CH30-BI6
CH30-BI3
CH30-BI7
CH30-BI4
CH30-EFP.TR
30OCBF-OR
Binary input signal CH29 External trip A-phase
Binary input signal CH29 External trip A-phase
Binary input signal CH29 External trip B-phase
Binary input signal CH29 External trip B-phase
Binary input signal CH29 External trip C-phase
Binary input signal CH29 External trip C-phase
Binary input signal CH30 DS1 normaly open contact
Binary input signal CH30 DS1 normaly close contact
Binary input signal CH30 BI2
Binary input signal CH30 BI6
Binary input signal CH30 BI3
Binary input signal CH30 BI7
Binary input signal CH30 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH30-EXTTP-A1
CH30-EXTTP-A2
CH30-EXTTP-B1
CH30-EXTTP-B2
CH30-EXTTP-C1
CH30-EXTTP-C2
Binary input signal CH30 External trip A-phase
Binary input signal CH30 External trip A-phase
Binary input signal CH30 External trip B-phase
Binary input signal CH30 External trip B-phase
Binary input signal CH30 External trip C-phase
Binary input signal CH30 External trip C-phase
⎯ 172 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
Signal Name
CH31-DS1-N/O
CH31-DS1-N/C
CH31-BI2
CH31-BI6
CH31-BI3
CH31-BI7
CH31-BI4
CH31-EFP.TR
31OCBF-OR
Contents
Binary input signal CH31 DS1 normaly open contact
Binary input signal CH31 DS1 normaly close contact
Binary input signal CH31 BI2
Binary input signal CH31 BI6
Binary input signal CH31 BI3
Binary input signal CH31 BI7
Binary input signal CH31 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH31-EXTTP-A1
CH31-EXTTP-A2
CH31-EXTTP-B1
CH31-EXTTP-B2
CH31-EXTTP-C1
CH31-EXTTP-C2
CH32-DS1-N/O
CH32-DS1-N/C
CH32-BI2
CH32-BI6
CH32-BI3
CH32-BI7
CH32-BI4
CH32-EFP.TR
32OCBF-OR
Binary input signal CH31 External trip A-phase
Binary input signal CH31 External trip A-phase
Binary input signal CH31 External trip B-phase
Binary input signal CH31 External trip B-phase
Binary input signal CH31 External trip C-phase
Binary input signal CH31 External trip C-phase
Binary input signal CH32 DS1 normaly open contact
Binary input signal CH32 DS1 normaly close contact
Binary input signal CH32 BI2
Binary input signal CH32 BI6
Binary input signal CH32 BI3
Binary input signal CH32 BI7
Binary input signal CH32 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH32-EXTTP-A1
CH32-EXTTP-A2
CH32-EXTTP-B1
CH32-EXTTP-B2
CH32-EXTTP-C1
CH32-EXTTP-C2
CH33-DS1-N/O
CH33-DS1-N/C
CH33-BI2
CH33-BI6
CH33-BI3
CH33-BI7
CH33-BI4
CH33-EFP.TR
33OCBF-OR
Binary input signal CH32 External trip A-phase
Binary input signal CH32 External trip A-phase
Binary input signal CH32 External trip B-phase
Binary input signal CH32 External trip B-phase
Binary input signal CH32 External trip C-phase
Binary input signal CH32 External trip C-phase
Binary input signal CH33 DS1 normaly open contact
Binary input signal CH33 DS1 normaly close contact
Binary input signal CH33 BI2
Binary input signal CH33 BI6
Binary input signal CH33 BI3
Binary input signal CH33 BI7
Binary input signal CH33 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH33-EXTTP-A1
CH33-EXTTP-A2
CH33-EXTTP-B1
CH33-EXTTP-B2
CH33-EXTTP-C1
CH33-EXTTP-C2
CH34-DS1-N/O
CH34-DS1-N/C
CH34-BI2
CH34-BI6
CH34-BI3
CH34-BI7
CH34-BI4
CH34-EFP.TR
34OCBF-OR
Binary input signal CH33 External trip A-phase
Binary input signal CH33 External trip A-phase
Binary input signal CH33 External trip B-phase
Binary input signal CH33 External trip B-phase
Binary input signal CH33 External trip C-phase
Binary input signal CH33 External trip C-phase
Binary input signal CH34 DS1 normaly open contact
Binary input signal CH34 DS1 normaly close contact
Binary input signal CH34 BI2
Binary input signal CH34 BI6
Binary input signal CH34 BI3
Binary input signal CH34 BI7
Binary input signal CH34 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH34-EXTTP-A1
CH34-EXTTP-A2
CH34-EXTTP-B1
CH34-EXTTP-B2
CH34-EXTTP-C1
CH34-EXTTP-C2
CH35-DS1-N/O
CH35-DS1-N/C
CH35-BI2
CH35-BI6
CH35-BI3
CH35-BI7
Binary input signal CH34 External trip A-phase
Binary input signal CH34 External trip A-phase
Binary input signal CH34 External trip B-phase
Binary input signal CH34 External trip B-phase
Binary input signal CH34 External trip C-phase
Binary input signal CH34 External trip C-phase
Binary input signal CH35 DS1 normaly open contact
Binary input signal CH35 DS1 normaly close contact
Binary input signal CH35 BI2
Binary input signal CH35 BI6
Binary input signal CH35 BI3
Binary input signal CH35 BI7
⎯ 173 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
Signal Name
CH35-BI4
CH35-EFP.TR
35OCBF-OR
Contents
Binary input signal CH35 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH35-EXTTP-A1
CH35-EXTTP-A2
CH35-EXTTP-B1
CH35-EXTTP-B2
CH35-EXTTP-C1
CH35-EXTTP-C2
CH36-DS1-N/O
CH36-DS1-N/C
CH36-BI2
CH36-BI6
CH36-BI3
CH36-BI7
CH36-BI4
CH36-EFP.TR
36OCBF-OR
Binary input signal CH35 External trip A-phase
Binary input signal CH35 External trip A-phase
Binary input signal CH35 External trip B-phase
Binary input signal CH35 External trip B-phase
Binary input signal CH35 External trip C-phase
Binary input signal CH35 External trip C-phase
Binary input signal CH36 DS1 normaly open contact
Binary input signal CH36 DS1 normaly close contact
Binary input signal CH36 BI2
Binary input signal CH36 BI6
Binary input signal CH36 BI3
Binary input signal CH36 BI7
Binary input signal CH36 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH36-EXTTP-A1
CH36-EXTTP-A2
CH36-EXTTP-B1
CH36-EXTTP-B2
CH36-EXTTP-C1
CH36-EXTTP-C2
CH37-DS1-N/O
CH37-DS1-N/C
CH37-BI2
CH37-BI6
CH37-BI3
CH37-BI7
CH37-BI4
CH37-EFP.TR
37OCBF-OR
Binary input signal CH36 External trip A-phase
Binary input signal CH36 External trip A-phase
Binary input signal CH36 External trip B-phase
Binary input signal CH36 External trip B-phase
Binary input signal CH36 External trip C-phase
Binary input signal CH36 External trip C-phase
Binary input signal CH37 DS1 normaly open contact
Binary input signal CH37 DS1 normaly close contact
Binary input signal CH37 BI2
Binary input signal CH37 BI6
Binary input signal CH37 BI3
Binary input signal CH37 BI7
Binary input signal CH37 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH37-EXTTP-A1
CH37-EXTTP-A2
CH37-EXTTP-B1
CH37-EXTTP-B2
CH37-EXTTP-C1
CH37-EXTTP-C2
CH38-DS1-N/O
CH38-DS1-N/C
CH38-BI2
CH38-BI6
CH38-BI3
CH38-BI7
CH38-BI4
CH38-EFP.TR
38OCBF-OR
Binary input signal CH37 External trip A-phase
Binary input signal CH37 External trip A-phase
Binary input signal CH37 External trip B-phase
Binary input signal CH37 External trip B-phase
Binary input signal CH37 External trip C-phase
Binary input signal CH37 External trip C-phase
Binary input signal CH38 DS1 normaly open contact
Binary input signal CH38 DS1 normaly close contact
Binary input signal CH38 BI2
Binary input signal CH38 BI6
Binary input signal CH38 BI3
Binary input signal CH38 BI7
Binary input signal CH38 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH38-EXTTP-A1
CH38-EXTTP-A2
CH38-EXTTP-B1
CH38-EXTTP-B2
CH38-EXTTP-C1
CH38-EXTTP-C2
CH39-DS1-N/O
CH39-DS1-N/C
CH39-BI2
CH39-BI6
CH39-BI3
CH39-BI7
CH39-BI4
CH39-EFP.TR
39OCBF-OR
Binary input signal CH38 External trip A-phase
Binary input signal CH38 External trip A-phase
Binary input signal CH38 External trip B-phase
Binary input signal CH38 External trip B-phase
Binary input signal CH38 External trip C-phase
Binary input signal CH38 External trip C-phase
Binary input signal CH39 DS1 normaly open contact
Binary input signal CH39 DS1 normaly close contact
Binary input signal CH39 BI2
Binary input signal CH39 BI6
Binary input signal CH39 BI3
Binary input signal CH39 BI7
Binary input signal CH39 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH39-EXTTP-A1
CH39-EXTTP-A2
Binary input signal CH39 External trip A-phase
Binary input signal CH39 External trip A-phase
⎯ 174 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
Signal Name
CH39-EXTTP-B1
CH39-EXTTP-B2
CH39-EXTTP-C1
CH39-EXTTP-C2
CH40-DS1-N/O
CH40-DS1-N/C
CH40-BI2
CH40-BI6
CH40-BI3
CH40-BI7
CH40-BI4
CH40-EFP.TR
40OCBF-OR
Contents
Binary input signal CH39 External trip B-phase
Binary input signal CH39 External trip B-phase
Binary input signal CH39 External trip C-phase
Binary input signal CH39 External trip C-phase
Binary input signal CH40 DS1 normaly open contact
Binary input signal CH40 DS1 normaly close contact
Binary input signal CH40 BI2
Binary input signal CH40 BI6
Binary input signal CH40 BI3
Binary input signal CH40 BI7
Binary input signal CH40 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH40-EXTTP-A1
CH40-EXTTP-A2
CH40-EXTTP-B1
CH40-EXTTP-B2
CH40-EXTTP-C1
CH40-EXTTP-C2
CH41-DS1-N/O
CH41-DS1-N/C
CH41-BI2
CH41-BI6
CH41-BI3
CH41-BI7
CH41-BI4
CH41-EFP.TR
41OCBF-OR
Binary input signal CH40 External trip A-phase
Binary input signal CH40 External trip A-phase
Binary input signal CH40 External trip B-phase
Binary input signal CH40 External trip B-phase
Binary input signal CH40 External trip C-phase
Binary input signal CH40 External trip C-phase
Binary input signal CH41 DS1 normaly open contact
Binary input signal CH41 DS1 normaly close contact
Binary input signal CH41 BI2
Binary input signal CH41 BI6
Binary input signal CH41 BI3
Binary input signal CH41 BI7
Binary input signal CH41 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH41-EXTTP-A1
CH41-EXTTP-A2
CH41-EXTTP-B1
CH41-EXTTP-B2
CH41-EXTTP-C1
CH41-EXTTP-C2
CH42-DS1-N/O
CH42-DS1-N/C
CH42-BI2
CH42-BI6
CH42-BI3
CH42-BI7
CH42-BI4
CH42-EFP.TR
42OCBF-OR
Binary input signal CH41 External trip A-phase
Binary input signal CH41 External trip A-phase
Binary input signal CH41 External trip B-phase
Binary input signal CH41 External trip B-phase
Binary input signal CH41 External trip C-phase
Binary input signal CH41 External trip C-phase
Binary input signal CH42 DS1 normaly open contact
Binary input signal CH42 DS1 normaly close contact
Binary input signal CH42 BI2
Binary input signal CH42 BI6
Binary input signal CH42 BI3
Binary input signal CH42 BI7
Binary input signal CH42 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH42-EXTTP-A1
CH42-EXTTP-A2
CH42-EXTTP-B1
CH42-EXTTP-B2
CH42-EXTTP-C1
CH42-EXTTP-C2
CH43-DS1-N/O
CH43-DS1-N/C
CH43-BI2
CH43-BI6
CH43-BI3
CH43-BI7
CH43-BI4
CH43-EFP.TR
43OCBF-OR
Binary input signal CH42 External trip A-phase
Binary input signal CH42 External trip A-phase
Binary input signal CH42 External trip B-phase
Binary input signal CH42 External trip B-phase
Binary input signal CH42 External trip C-phase
Binary input signal CH42 External trip C-phase
Binary input signal CH43 DS1 normaly open contact
Binary input signal CH43 DS1 normaly close contact
Binary input signal CH43 BI2
Binary input signal CH43 BI6
Binary input signal CH43 BI3
Binary input signal CH43 BI7
Binary input signal CH43 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH43-EXTTP-A1
CH43-EXTTP-A2
CH43-EXTTP-B1
CH43-EXTTP-B2
CH43-EXTTP-C1
CH43-EXTTP-C2
CH44-DS1-N/O
CH44-DS1-N/C
Binary input signal CH43 External trip A-phase
Binary input signal CH43 External trip A-phase
Binary input signal CH43 External trip B-phase
Binary input signal CH43 External trip B-phase
Binary input signal CH43 External trip C-phase
Binary input signal CH43 External trip C-phase
Binary input signal CH44 DS1 normaly open contact
Binary input signal CH44 DS1 normaly close contact
⎯ 175 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
Signal Name
CH44-BI2
CH44-BI6
CH44-BI3
CH44-BI7
CH44-BI4
CH44-EFP.TR
44OCBF-OR
Contents
Binary input signal CH44 BI2
Binary input signal CH44 BI6
Binary input signal CH44 BI3
Binary input signal CH44 BI7
Binary input signal CH44 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH44-EXTTP-A1
CH44-EXTTP-A2
CH44-EXTTP-B1
CH44-EXTTP-B2
CH44-EXTTP-C1
CH44-EXTTP-C2
CH45-DS1-N/O
CH45-DS1-N/C
CH45-BI2
CH45-BI6
CH45-BI3
CH45-BI7
CH45-BI4
CH45-EFP.TR
45OCBF-OR
Binary input signal CH44 External trip A-phase
Binary input signal CH44 External trip A-phase
Binary input signal CH44 External trip B-phase
Binary input signal CH44 External trip B-phase
Binary input signal CH44 External trip C-phase
Binary input signal CH44 External trip C-phase
Binary input signal CH45 DS1 normaly open contact
Binary input signal CH45 DS1 normaly close contact
Binary input signal CH45 BI2
Binary input signal CH45 BI6
Binary input signal CH45 BI3
Binary input signal CH45 BI7
Binary input signal CH45 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH45-EXTTP-A1
CH45-EXTTP-A2
CH45-EXTTP-B1
CH45-EXTTP-B2
CH45-EXTTP-C1
CH45-EXTTP-C2
CH46-DS1-N/O
CH46-DS1-N/C
CH46-BI2
CH46-BI6
CH46-BI3
CH46-BI7
CH46-BI4
CH46-EFP.TR
46OCBF-OR
Binary input signal CH45 External trip A-phase
Binary input signal CH45 External trip A-phase
Binary input signal CH45 External trip B-phase
Binary input signal CH45 External trip B-phase
Binary input signal CH45 External trip C-phase
Binary input signal CH45 External trip C-phase
Binary input signal CH46 DS1 normaly open contact
Binary input signal CH46 DS1 normaly close contact
Binary input signal CH46 BI2
Binary input signal CH46 BI6
Binary input signal CH46 BI3
Binary input signal CH46 BI7
Binary input signal CH46 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH46-EXTTP-A1
CH46-EXTTP-A2
CH46-EXTTP-B1
CH46-EXTTP-B2
CH46-EXTTP-C1
CH46-EXTTP-C2
CH47-DS1-N/O
CH47-DS1-N/C
CH47-BI2
CH47-BI6
CH47-BI3
CH47-BI7
CH47-BI4
CH47-EFP.TR
47OCBF-OR
Binary input signal CH46 External trip A-phase
Binary input signal CH46 External trip A-phase
Binary input signal CH46 External trip B-phase
Binary input signal CH46 External trip B-phase
Binary input signal CH46 External trip C-phase
Binary input signal CH46 External trip C-phase
Binary input signal CH47 DS1 normaly open contact
Binary input signal CH47 DS1 normaly close contact
Binary input signal CH47 BI2
Binary input signal CH47 BI6
Binary input signal CH47 BI3
Binary input signal CH47 BI7
Binary input signal CH47 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH47-EXTTP-A1
CH47-EXTTP-A2
CH47-EXTTP-B1
CH47-EXTTP-B2
CH47-EXTTP-C1
CH47-EXTTP-C2
CH48-DS1-N/O
CH48-DS1-N/C
CH48-BI2
CH48-BI6
CH48-BI3
CH48-BI7
CH48-BI4
CH48-EFP.TR
Binary input signal CH47 External trip A-phase
Binary input signal CH47 External trip A-phase
Binary input signal CH47 External trip B-phase
Binary input signal CH47 External trip B-phase
Binary input signal CH47 External trip C-phase
Binary input signal CH47 External trip C-phase
Binary input signal CH48 DS1 normaly open contact
Binary input signal CH48 DS1 normaly close contact
Binary input signal CH48 BI2
Binary input signal CH48 BI6
Binary input signal CH48 BI3
Binary input signal CH48 BI7
Binary input signal CH48 BI4
End-fault-protection transfer trip signal
⎯ 176 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
Signal Name
48OCBF-OR
Contents
OCBF relay element (3ph OR signal)
CH48-EXTTP-A1
CH48-EXTTP-A2
CH48-EXTTP-B1
CH48-EXTTP-B2
CH48-EXTTP-C1
CH48-EXTTP-C2
CH49-DS1-N/O
CH49-DS1-N/C
CH49-BI2
CH49-BI6
CH49-BI3
CH49-BI7
CH49-BI4
CH49-EFP.TR
49OCBF-OR
Binary input signal CH48 External trip A-phase
Binary input signal CH48 External trip A-phase
Binary input signal CH48 External trip B-phase
Binary input signal CH48 External trip B-phase
Binary input signal CH48 External trip C-phase
Binary input signal CH48 External trip C-phase
Binary input signal CH49 DS1 normaly open contact
Binary input signal CH49 DS1 normaly close contact
Binary input signal CH49 BI2
Binary input signal CH49 BI6
Binary input signal CH49 BI3
Binary input signal CH49 BI7
Binary input signal CH49 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH49-EXTTP-A1
CH49-EXTTP-A2
CH49-EXTTP-B1
CH49-EXTTP-B2
CH49-EXTTP-C1
CH49-EXTTP-C2
CH50-DS1-N/O
CH50-DS1-N/C
CH50-BI2
CH50-BI6
CH50-BI3
CH50-BI7
CH50-BI4
CH50-EFP.TR
50OCBF-OR
Binary input signal CH49 External trip A-phase
Binary input signal CH49 External trip A-phase
Binary input signal CH49 External trip B-phase
Binary input signal CH49 External trip B-phase
Binary input signal CH49 External trip C-phase
Binary input signal CH49 External trip C-phase
Binary input signal CH50 DS1 normaly open contact
Binary input signal CH50 DS1 normaly close contact
Binary input signal CH50 BI2
Binary input signal CH50 BI6
Binary input signal CH50 BI3
Binary input signal CH50 BI7
Binary input signal CH50 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH50-EXTTP-A1
CH50-EXTTP-A2
CH50-EXTTP-B1
CH50-EXTTP-B2
CH50-EXTTP-C1
CH50-EXTTP-C2
CH51-DS1-N/O
CH51-DS1-N/C
CH51-BI2
CH51-BI6
CH51-BI3
CH51-BI7
CH51-BI4
CH51-EFP.TR
51OCBF-OR
Binary input signal CH50 External trip A-phase
Binary input signal CH50 External trip A-phase
Binary input signal CH50 External trip B-phase
Binary input signal CH50 External trip B-phase
Binary input signal CH50 External trip C-phase
Binary input signal CH50 External trip C-phase
Binary input signal CH51 DS1 normaly open contact
Binary input signal CH51 DS1 normaly close contact
Binary input signal CH51 BI2
Binary input signal CH51 BI6
Binary input signal CH51 BI3
Binary input signal CH51 BI7
Binary input signal CH51 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH51-EXTTP-A1
CH51-EXTTP-A2
CH51-EXTTP-B1
CH51-EXTTP-B2
CH51-EXTTP-C1
CH51-EXTTP-C2
CH52-DS1-N/O
CH52-DS1-N/C
CH52-BI2
CH52-BI6
CH52-BI3
CH52-BI7
CH52-BI4
CH52-EFP.TR
52OCBF-OR
Binary input signal CH51 External trip A-phase
Binary input signal CH51 External trip A-phase
Binary input signal CH51 External trip B-phase
Binary input signal CH51 External trip B-phase
Binary input signal CH51 External trip C-phase
Binary input signal CH51 External trip C-phase
Binary input signal CH52 DS1 normaly open contact
Binary input signal CH52 DS1 normaly close contact
Binary input signal CH52 BI2
Binary input signal CH52 BI6
Binary input signal CH52 BI3
Binary input signal CH52 BI7
Binary input signal CH52 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH52-EXTTP-A1
CH52-EXTTP-A2
CH52-EXTTP-B1
CH52-EXTTP-B2
Binary input signal CH52 External trip A-phase
Binary input signal CH52 External trip A-phase
Binary input signal CH52 External trip B-phase
Binary input signal CH52 External trip B-phase
⎯ 177 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
Singal Name
CH52-EXTTP-C1
CH52-EXTTP-C2
CH53-DS1-N/O
CH53-DS1-N/C
CH53-BI2
CH53-BI6
CH53-BI3
CH53-BI7
CH53-BI4
CH53-EFP.TR
53OCBF-OR
Contents
Binary input signal CH52 External trip C-phase
Binary input signal CH52 External trip C-phase
Binary input signal CH53 DS1 normaly open contact
Binary input signal CH53 DS1 normaly close contact
Binary input signal CH53 BI2
Binary input signal CH53 BI6
Binary input signal CH53 BI3
Binary input signal CH53 BI7
Binary input signal CH53 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH53-EXTTP-A1
CH53-EXTTP-A2
CH53-EXTTP-B1
CH53-EXTTP-B2
CH53-EXTTP-C1
CH53-EXTTP-C2
CH54-DS1-N/O
CH54-DS1-N/C
CH54-BI2
CH54-BI6
CH54-BI3
CH54-BI7
CH54-BI4
CH54-EFP.TR
54OCBF-OR
Binary input signal CH53 External trip A-phase
Binary input signal CH53 External trip A-phase
Binary input signal CH53 External trip B-phase
Binary input signal CH53 External trip B-phase
Binary input signal CH53 External trip C-phase
Binary input signal CH53 External trip C-phase
Binary input signal CH54 DS1 normaly open contact
Binary input signal CH54 DS1 normaly close contact
Binary input signal CH54 BI2
Binary input signal CH54 BI6
Binary input signal CH54 BI3
Binary input signal CH54 BI7
Binary input signal CH54 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH54-EXTTP-A1
CH54-EXTTP-A2
CH54-EXTTP-B1
CH54-EXTTP-B2
CH54-EXTTP-C1
CH54-EXTTP-C2
CH55-DS1-N/O
CH55-DS1-N/C
CH55-BI2
CH55-BI6
CH55-BI3
CH55-BI7
CH55-BI4
CH55-EFP.TR
55OCBF-OR
Binary input signal CH54 External trip A-phase
Binary input signal CH54 External trip A-phase
Binary input signal CH54 External trip B-phase
Binary input signal CH54 External trip B-phase
Binary input signal CH54 External trip C-phase
Binary input signal CH54 External trip C-phase
Binary input signal CH55 DS1 normaly open contact
Binary input signal CH55 DS1 normaly close contact
Binary input signal CH55 BI2
Binary input signal CH55 BI6
Binary input signal CH55 BI3
Binary input signal CH55 BI7
Binary input signal CH55 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH55-EXTTP-A1
CH55-EXTTP-A2
CH55-EXTTP-B1
CH55-EXTTP-B2
CH55-EXTTP-C1
CH55-EXTTP-C2
CH56-DS1-N/O
CH56-DS1-N/C
CH56-BI2
CH56-BI6
CH56-BI3
CH56-BI7
CH56-BI4
CH56-EFP.TR
56OCBF-OR
Binary input signal CH55 External trip A-phase
Binary input signal CH55 External trip A-phase
Binary input signal CH55 External trip B-phase
Binary input signal CH55 External trip B-phase
Binary input signal CH55 External trip C-phase
Binary input signal CH55 External trip C-phase
Binary input signal CH56 DS1 normaly open contact
Binary input signal CH56 DS1 normaly close contact
Binary input signal CH56 BI2
Binary input signal CH56 BI6
Binary input signal CH56 BI3
Binary input signal CH56 BI7
Binary input signal CH56 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH56-EXTTP-A1
CH56-EXTTP-A2
CH56-EXTTP-B1
CH56-EXTTP-B2
CH56-EXTTP-C1
CH56-EXTTP-C2
CH57-DS1-N/O
CH57-DS1-N/C
CH57-BI2
CH57-BI6
Binary input signal CH56 External trip A-phase
Binary input signal CH56 External trip A-phase
Binary input signal CH56 External trip B-phase
Binary input signal CH56 External trip B-phase
Binary input signal CH56 External trip C-phase
Binary input signal CH56 External trip C-phase
Binary input signal CH57 DS1 normaly open contact
Binary input signal CH57 DS1 normaly close contact
Binary input signal CH57 BI2
Binary input signal CH57 BI6
⎯ 178 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
Signal Name
CH57-BI3
CH57-BI7
CH57-BI4
CH57-EFP.TR
57OCBF-OR
Contents
Binary input signal CH57 BI3
Binary input signal CH57 BI7
Binary input signal CH57 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH57-EXTTP-A1
CH57-EXTTP-A2
CH57-EXTTP-B1
CH57-EXTTP-B2
CH57-EXTTP-C1
CH57-EXTTP-C2
CH58-DS1-N/O
CH58-DS1-N/C
CH58-BI2
CH58-BI6
CH58-BI3
CH58-BI7
CH58-BI4
CH58-EFP.TR
58OCBF-OR
Binary input signal CH57 External trip A-phase
Binary input signal CH57 External trip A-phase
Binary input signal CH57 External trip B-phase
Binary input signal CH57 External trip B-phase
Binary input signal CH57 External trip C-phase
Binary input signal CH57 External trip C-phase
Binary input signal CH58 DS1 normaly open contact
Binary input signal CH58 DS1 normaly close contact
Binary input signal CH58 BI2
Binary input signal CH58 BI6
Binary input signal CH58 BI3
Binary input signal CH58 BI7
Binary input signal CH58 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH58-EXTTP-A1
CH58-EXTTP-A2
CH58-EXTTP-B1
CH58-EXTTP-B2
CH58-EXTTP-C1
CH58-EXTTP-C2
CH59-DS1-N/O
CH59-DS1-N/C
CH59-BI2
CH59-BI6
CH59-BI3
CH59-BI7
CH59-BI4
CH59-EFP.TR
59OCBF-OR
Binary input signal CH58 External trip A-phase
Binary input signal CH58 External trip A-phase
Binary input signal CH58 External trip B-phase
Binary input signal CH58 External trip B-phase
Binary input signal CH58 External trip C-phase
Binary input signal CH58 External trip C-phase
Binary input signal CH59 DS1 normaly open contact
Binary input signal CH59 DS1 normaly close contact
Binary input signal CH59 BI2
Binary input signal CH59 BI6
Binary input signal CH59 BI3
Binary input signal CH59 BI7
Binary input signal CH59 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH59-EXTTP-A1
CH59-EXTTP-A2
CH59-EXTTP-B1
CH59-EXTTP-B2
CH59-EXTTP-C1
CH59-EXTTP-C2
CH60-DS1-N/O
CH60-DS1-N/C
CH60-BI2
CH60-BI6
CH60-BI3
CH60-BI7
CH60-BI4
CH60-EFP.TR
60OCBF-OR
Binary input signal CH59 External trip A-phase
Binary input signal CH59 External trip A-phase
Binary input signal CH59 External trip B-phase
Binary input signal CH59 External trip B-phase
Binary input signal CH59 External trip C-phase
Binary input signal CH59 External trip C-phase
Binary input signal CH60 DS1 normaly open contact
Binary input signal CH60 DS1 normaly close contact
Binary input signal CH60 BI2
Binary input signal CH60 BI6
Binary input signal CH60 BI3
Binary input signal CH60 BI7
Binary input signal CH60 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH60-EXTTP-A1
CH60-EXTTP-A2
CH60-EXTTP-B1
CH60-EXTTP-B2
CH60-EXTTP-C1
CH60-EXTTP-C2
CH61-DS1-N/O
CH61-DS1-N/C
CH61-BI2
CH61-BI6
CH61-BI3
CH61-BI7
CH61-BI4
CH61-EFP.TR
61OCBF-OR
Binary input signal CH60 External trip A-phase
Binary input signal CH60 External trip A-phase
Binary input signal CH60 External trip B-phase
Binary input signal CH60 External trip B-phase
Binary input signal CH60 External trip C-phase
Binary input signal CH60 External trip C-phase
Binary input signal CH61 DS1 normaly open contact
Binary input signal CH61 DS1 normaly close contact
Binary input signal CH61 BI2
Binary input signal CH61 BI6
Binary input signal CH61 BI3
Binary input signal CH61 BI7
Binary input signal CH61 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
⎯ 179 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
1046
1047
1048
1049
1050
Signal Name
CH61-EXTTP-A1
CH61-EXTTP-A2
CH61-EXTTP-B1
CH61-EXTTP-B2
CH61-EXTTP-C1
CH61-EXTTP-C2
CH62-DS1-N/O
CH62-DS1-N/C
CH62-BI2
CH62-BI6
CH62-BI3
CH62-BI7
CH62-BI4
CH62-EFP.TR
62OCBF-OR
Contents
Binary input signal CH61 External trip A-phase
Binary input signal CH61 External trip A-phase
Binary input signal CH61 External trip B-phase
Binary input signal CH61 External trip B-phase
Binary input signal CH61 External trip C-phase
Binary input signal CH61 External trip C-phase
Binary input signal CH62 DS1 normaly open contact
Binary input signal CH62 DS1 normaly close contact
Binary input signal CH62 BI2
Binary input signal CH62 BI6
Binary input signal CH62 BI3
Binary input signal CH62 BI7
Binary input signal CH62 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH62-EXTTP-A1
CH62-EXTTP-A2
CH62-EXTTP-B1
CH62-EXTTP-B2
CH62-EXTTP-C1
CH62-EXTTP-C2
CH63-DS1-N/O
CH63-DS1-N/C
CH63-BI2
CH63-BI6
CH63-BI3
CH63-BI7
CH63-BI4
CH63-EFP.TR
63OCBF-OR
Binary input signal CH62 External trip A-phase
Binary input signal CH62 External trip A-phase
Binary input signal CH62 External trip B-phase
Binary input signal CH62 External trip B-phase
Binary input signal CH62 External trip C-phase
Binary input signal CH62 External trip C-phase
Binary input signal CH63 DS1 normaly open contact
Binary input signal CH63 DS1 normaly close contact
Binary input signal CH63 BI2
Binary input signal CH63 BI6
Binary input signal CH63 BI3
Binary input signal CH63 BI7
Binary input signal CH63 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH63-EXTTP-A1
CH63-EXTTP-A2
CH63-EXTTP-B1
CH63-EXTTP-B2
CH63-EXTTP-C1
CH63-EXTTP-C2
CH64-DS1-N/O
CH64-DS1-N/C
CH64-BI2
CH64-BI6
CH64-BI3
CH64-BI7
CH64-BI4
CH64-EFP.TR
64OCBF-OR
Binary input signal CH63 External trip A-phase
Binary input signal CH63 External trip A-phase
Binary input signal CH63 External trip B-phase
Binary input signal CH63 External trip B-phase
Binary input signal CH63 External trip C-phase
Binary input signal CH63 External trip C-phase
Binary input signal CH64 DS1 normaly open contact
Binary input signal CH64 DS1 normaly close contact
Binary input signal CH64 BI2
Binary input signal CH64 BI6
Binary input signal CH64 BI3
Binary input signal CH64 BI7
Binary input signal CH64 BI4
End-fault-protection transfer trip signal
OCBF relay element (3ph OR signal)
CH64-EXTTP-A1
CH64-EXTTP-A2
CH64-EXTTP-B1
CH64-EXTTP-B2
CH64-EXTTP-C1
CH64-EXTTP-C2
Binary input signal CH64 External trip A-phase
Binary input signal CH64 External trip A-phase
Binary input signal CH64 External trip B-phase
Binary input signal CH64 External trip B-phase
Binary input signal CH64 External trip C-phase
Binary input signal CH64 External trip C-phase
CU-BI1
CU-BI2
CU-BI3
CU-BI4
CU-BI5
CU-BI6
CU-BI7
CU-BI8
CU-BI9
CU-BI10
CU-BI11
Binary input signal CU BI1
Binary input signal CU BI2
Binary input signal CU BI3
Binary input signal CU BI4
Binary input signal CU BI5
Binary input signal CU BI6
Binary input signal CU BI7
Binary input signal CU BI8
Binary input signal CU BI9
Binary input signal CU BI10
Binary input signal CU BI11
⎯ 180 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
1093
1094
1095
1096
1097
1098
1099
1100
1101
1102
1103
1104
1105
1106
1107
1108
1109
1110
1111
1112
1113
1114
1115
1116
1117
1118
1119
1120
Signal Name
CU-BI12
CU-BI13
CU-BI14
CU-BI15
Binary input signal CU BI12
Binary input signal CU BI13
Binary input signal CU BI14
Binary input signal CU BI15
Contents
BI1 COM UF
BI2 COM UF
BI3 COM UF
BI4 COM UF
BI5 COM UF
BI6 COM UF
BI7 COM UF
BI8_COM_UF
BI9_COM_UF
BI10_COM_UF
BI11_COM_UF
BI12_COM_UF
BI13_COM_UF
BI14_COM_UF
BI15_COM_UF
Binary input signal BI1 (unfiltered)
Binary input signal BI2 (unfiltered)
Binary input signal BI3 (unfiltered)
Binary input signal BI4 (unfiltered)
Binary input signal BI5 (unfiltered)
Binary input signal BI6 (unfiltered)
Binary input signal BI7 (unfiltered)
Binary input signal BI8 (unfiltered)
Binary input signal BI9 (unfiltered)
Binary input signal BI10 (unfiltered)
Binary input signal BI11 (unfiltered)
Binary input signal BI12 (unfiltered)
Binary input signal BI13 (unfiltered)
Binary input signal BI14 (unfiltered)
Binary input signal BI15 (unfiltered)
DIFCH-A
DIFCH-B
DIFCH-C
DIFZA-A
DIFZA-B
DIFZA-C
DIFZB-A
DIFZB-B
DIFZB-C
DIFZC-A
DIFZC-B
DIFZC-C
DIFZD-A
DIFZD-B
DIFZD-C
DIFCH-BLK-A
DIFCH-BLK-B
DIFCH-BLK-C
DIFZA-BLK-A
DIFZA-BLK-B
DIFZA-BLK-C
DIFZB-BLK-A
DIFZB-BLK-B
DIFZB-BLK-C
DIFZC-BLK-A
DIFZC-BLK-B
DIFZC-BLK-C
DIFZD-BLK-A
DIFZD-BLK-B
DIFZD-BLK-C
DIFCHSV-A
DIFCHSV-B
DIFCHSV-C
DIFZASV-A
DIFZASV-B
DIFZASV-C
DIFZBSV-A
DIFZBSV-B
DIFZBSV-C
DIFZCSV-A
DIFZCSV-B
DIFZCSV-C
DIFZDSV-A
DIFZDSV-B
DIFZDSV-C
SGM IZA-A
SGM IZA-B
SGM IZA-C
SGM IZB-A
DIFCH-A relay element output
-B relay element output
-C relay element output
DIFZA-A relay element output
-B relay element output
-C relay element output
DIFZB-A relay element output
-B relay element output
-C relay element output
DIFZC-A relay element output
-B relay element output
-C relay element output
DIFZD-A relay element output
-B relay element output
-C relay element output
DIFCH-BLK-A relay element output
-B relay element output
-C relay element output
DIFZA-BLK-A relay element output
-B relay element output
-C relay element output
DIFZB-BLK-A relay element output
-B relay element output
-C relay element output
DIFZC-BLK-A relay element output
-B relay element output
-C relay element output
DIFZD-BLK-A relay element output
-B relay element output
-C relay element output
DIFCHSV-A relay element output
-B relay element output
-C relay element output
DIFZASV-A relay element output
-B relay element output
-C relay element output
DIFZBSV-A relay element output
-B relay element output
-C relay element output
DIFZCSV-A relay element output
-B relay element output
-C relay element output
DIFZDSV-A relay element output
-B relay element output
-C relay element output
Zone A differential current (Phase A)
Zone A differential current (Phase B)
Zone A differential current (Phase C)
Zone B differential current (Phase A)
⎯ 181 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
1132
1133
1134
1135
1136
1137
1138
1139
1140
1141
1142
1143
1144
1145
1146
1147
1148
1149
1150
1151
1152
1153
1154
1155
1156
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
1187
1188
1189
1190
Signal Name
SGM IZB-B
SGM IZB-C
SGM IZC-A
SGM IZC-B
SGM IZC-C
SGM IZD-A
SGM IZD-B
SGM IZD-C
DIFCH-OR
DIFZA-OR
DIFZB-OR
DIFZC-OR
DIFZD-OR
DIFCH-BLK-OR
DIFZA-BLK-OR
DIFZB-BLK-OR
DIFZC-BLK-OR
DIFZD-BLK-OR
DIFCHSV-OR
DIFZASV-OR
DIFZBSV-OR
DIFZCSV-OR
DIFZDSV-OR
UVZA
UVZB
UVZC
UVZD
Contents
Zone B differential current (Phase B)
Zone B differential current (Phase C)
Zone C differential current (Phase A)
Zone C differential current (Phase B)
Zone C differential current (Phase C)
Zone D differential current (Phase A)
Zone D differential current (Phase B)
Zone D differential current (Phase C)
DIFCH relay element output
DIFZA relay element output
DIFZB relay element output
DIFZC relay element output
DIFZD relay element output
DIFCH-BLK relay element output
DIFZA-BLK relay element output
DIFZB-BLK relay element output
DIFZC-BLK relay element output
DIFZD-BLK relay element output
DIFCHSV relay element output
DIFZASV relay element output
DIFZBSV relay element output
DIFZCSV relay element output
DIFZDSV relay element output
UVG/UVS of ZoneA relay element output
UVG/UVS of ZoneB relay element output
UVG/UVS of ZoneC relay element output
UVG/UVS of ZoneD relay element output
1OCBF-A
1OCBF-B
1OCBF-C
2OCBF-A
2OCBF-B
2OCBF-C
3OCBF-A
3OCBF-B
3OCBF-C
4OCBF-A
4OCBF-B
4OCBF-C
5OCBF-A
5OCBF-B
5OCBF-C
6OCBF-A
6OCBF-B
6OCBF-C
7OCBF-A
7OCBF-B
7OCBF-C
8OCBF-A
8OCBF-B
8OCBF-C
9OCBF-A
9OCBF-B
9OCBF-C
10OCBF-A
10OCBF-B
10OCBF-C
11OCBF-A
11OCBF-B
11OCBF-C
12OCBF-A
12OCBF-B
12OCBF-C
13OCBF-A
13OCBF-B
13OCBF-C
1OCBF-A relay element output
-B relay element output
-C relay element output
2OCBF-A relay element output
-B relay element output
-C relay element output
3OCBF-A relay element output
-B relay element output
-C relay element output
4OCBF-A relay element output
-B relay element output
-C relay element output
5OCBF-A relay element output
-B relay element output
-C relay element output
6OCBF-A relay element output
-B relay element output
-C relay element output
7OCBF-A relay element output
-B relay element output
-C relay element output
8OCBF-A relay element output
-B relay element output
-C relay element output
9OCBF-A relay element output
-B relay element output
-C relay element output
10OCBF-A relay element output
-B relay element output
-C relay element output
11OCBF-A relay element output
-B relay element output
-C relay element output
12OCBF-A relay element output
-B relay element output
-C relay element output
13OCBF-A relay element output
-B relay element output
-C relay element output
⎯ 182 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1191
1192
1193
1194
1195
1196
1197
1198
1199
1200
1201
1202
1203
1204
1205
1206
1207
1208
1209
1210
1211
1212
1213
1214
1215
1216
1217
1218
1219
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
1246
1247
1248
1249
1250
1251
1252
1253
1254
1255
1256
1257
1258
1259
1260
Signal Name
14OCBF-A
14OCBF-B
14OCBF-C
15OCBF-A
15OCBF-B
15OCBF-C
16OCBF-A
16OCBF-B
16OCBF-C
17OCBF-A
17OCBF-B
17OCBF-C
18OCBF-A
18OCBF-B
18OCBF-C
19OCBF-A
19OCBF-B
19OCBF-C
20OCBF-A
20OCBF-B
20OCBF-C
21OCBF-A
21OCBF-B
21OCBF-C
22OCBF-A
22OCBF-B
22OCBF-C
23OCBF-A
23OCBF-B
23OCBF-C
24OCBF-A
24OCBF-B
24OCBF-C
25OCBF-A
25OCBF-B
25OCBF-C
26OCBF-A
26OCBF-B
26OCBF-C
27OCBF-A
27OCBF-B
27OCBF-C
28OCBF-A
28OCBF-B
28OCBF-C
29OCBF-A
29OCBF-B
29OCBF-C
30OCBF-A
30OCBF-B
30OCBF-C
31OCBF-A
31OCBF-B
31OCBF-C
32OCBF-A
32OCBF-B
32OCBF-C
33OCBF-A
33OCBF-B
33OCBF-C
34OCBF-A
34OCBF-B
34OCBF-C
35OCBF-A
35OCBF-B
35OCBF-C
36OCBF-A
36OCBF-B
36OCBF-C
37OCBF-A
Contents
14OCBF-A relay element output
-B relay element output
-C relay element output
15OCBF-A relay element output
-B relay element output
-C relay element output
16OCBF-A relay element output
-B relay element output
-C relay element output
17OCBF-A relay element output
-B relay element output
-C relay element output
18OCBF-A relay element output
-B relay element output
-C relay element output
19OCBF-A relay element output
-B relay element output
-C relay element output
20OCBF-A relay element output
-B relay element output
-C relay element output
21OCBF-A relay element output
-B relay element output
-C relay element output
22OCBF-A relay element output
-B relay element output
-C relay element output
23OCBF-A relay element output
-B relay element output
-C relay element output
24OCBF-A relay element output
-B relay element output
-C relay element output
25OCBF-A relay element output
-B relay element output
-C relay element output
26OCBF-A relay element output
-B relay element output
-C relay element output
27OCBF-A relay element output
-B relay element output
-C relay element output
28OCBF-A relay element output
-B relay element output
-C relay element output
29OCBF-A relay element output
-B relay element output
-C relay element output
30OCBF-A relay element output
-B relay element output
-C relay element output
31OCBF-A relay element output
-B relay element output
-C relay element output
32OCBF-A relay element output
-B relay element output
-C relay element output
33OCBF-A relay element output
-B relay element output
-C relay element output
34OCBF-A relay element output
-B relay element output
-C relay element output
35OCBF-A relay element output
-B relay element output
-C relay element output
36OCBF-A relay element output
-B relay element output
-C relay element output
37OCBF-A relay element output
⎯ 183 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1261
1262
1263
1264
1265
1266
1267
1268
1269
1270
1271
1272
1273
1274
1275
1276
1277
1278
1279
1280
1281
1282
1283
1284
1285
1286
1287
1288
1289
1290
1291
1292
1293
1294
1295
1296
1297
1298
1299
1300
1301
1302
1303
1304
1305
1306
1307
1308
1309
1310
1311
1312
1313
1314
1315
1316
1317
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
Signal Name
37OCBF-B
37OCBF-C
38OCBF-A
38OCBF-B
38OCBF-C
39OCBF-A
39OCBF-B
39OCBF-C
40OCBF-A
40OCBF-B
40OCBF-C
41OCBF-A
41OCBF-B
41OCBF-C
42OCBF-A
42OCBF-B
42OCBF-C
43OCBF-A
43OCBF-B
43OCBF-C
44OCBF-A
44OCBF-B
44OCBF-C
45OCBF-A
45OCBF-B
45OCBF-C
46OCBF-A
46OCBF-B
46OCBF-C
47OCBF-A
47OCBF-B
47OCBF-C
48OCBF-A
48OCBF-B
48OCBF-C
49OCBF-A
49OCBF-B
49OCBF-C
50OCBF-A
50OCBF-B
50OCBF-C
51OCBF-A
51OCBF-B
51OCBF-C
52OCBF-A
52OCBF-B
52OCBF-C
53OCBF-A
53OCBF-B
53OCBF-C
54OCBF-A
54OCBF-B
54OCBF-C
55OCBF-A
55OCBF-B
55OCBF-C
56OCBF-A
56OCBF-B
56OCBF-C
57OCBF-A
57OCBF-B
57OCBF-C
58OCBF-A
58OCBF-B
58OCBF-C
59OCBF-A
59OCBF-B
59OCBF-C
60OCBF-A
60OCBF-B
Contents
-B relay element output
-C relay element output
38OCBF-A relay element output
-B relay element output
-C relay element output
39OCBF-A relay element output
-B relay element output
-C relay element output
40OCBF-A relay element output
-B relay element output
-C relay element output
41OCBF-A relay element output
-B relay element output
-C relay element output
42OCBF-A relay element output
-B relay element output
-C relay element output
43OCBF-A relay element output
-B relay element output
-C relay element output
44OCBF-A relay element output
-B relay element output
-C relay element output
45OCBF-A relay element output
-B relay element output
-C relay element output
46OCBF-A relay element output
-B relay element output
-C relay element output
47OCBF-A relay element output
-B relay element output
-C relay element output
48OCBF-A relay element output
-B relay element output
-C relay element output
49OCBF-A relay element output
-B relay element output
-C relay element output
50OCBF-A relay element output
-B relay element output
-C relay element output
51OCBF-A relay element output
-B relay element output
-C relay element output
52OCBF-A relay element output
-B relay element output
-C relay element output
53OCBF-A relay element output
-B relay element output
-C relay element output
54OCBF-A relay element output
-B relay element output
-C relay element output
55OCBF-A relay element output
-B relay element output
-C relay element output
56OCBF-A relay element output
-B relay element output
-C relay element output
57OCBF-A relay element output
-B relay element output
-C relay element output
58OCBF-A relay element output
-B relay element output
-C relay element output
59OCBF-A relay element output
-B relay element output
-C relay element output
60OCBF-A relay element output
-B relay element output
⎯ 184 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1331
1332
1333
1334
1335
1336
1337
1338
1339
1340
1341
1342
1343
1344
1345
1346
1347
1348
1349
1350
1351
1352
1353
1354
1355
1356
1357
1358
1359
1360
1361
1362
1363
1364
1365
1366
1367
1368
1369
1370
1371
1372
1373
1374
1375
1376
1377
1378
1379
1380
1381
1382
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
Signal Name
60OCBF-C
61OCBF-A
61OCBF-B
61OCBF-C
62OCBF-A
62OCBF-B
62OCBF-C
63OCBF-A
63OCBF-B
63OCBF-C
64OCBF-A
64OCBF-B
64OCBF-C
UVGZA-A
UVGZA-B
UVGZA-C
UVSZA-AB
UVSZA-BC
UVSZA-CA
UVDZA-A
UVDZA-B
UVDZA-C
OVGZA
UVGZB-A
UVGZB-B
UVGZB-C
UVSZB-AB
UVSZB-BC
UVSZB-CA
UVDZB-A
UVDZB-B
UVDZB-C
OVGZB
UVGZC-A
UVGZC-B
UVGZC-C
UVSZC-AB
UVSZC-BC
UVSZC-CA
UVDZC-A
UVDZC-B
UVDZC-C
OVGZC
UVGZD-A
UVGZD-B
UVGZD-C
UVSZD-AB
UVSZD-BC
UVSZD-CA
UVDZD-A
UVDZD-B
UVDZD-C
OVGZD
UVGZA
UVSZA
UVDZA
UVGZB
UVSZB
UVDZB
UVGZC
UVSZC
UVDZC
UVGZD
UVSZD
UVDZD
CTFID ZA-A
CTFID ZA-B
CTFID ZA-C
CTFID ZB-A
CTFID ZB-B
Contents
-C relay element output
61OCBF-A relay element output
-B relay element output
-C relay element output
62OCBF-A relay element output
-B relay element output
-C relay element output
63OCBF-A relay element output
-B relay element output
-C relay element output
64OCBF-A relay element output
-B relay element output
-C relay element output
UVGZA-A relay element output
-B relay element output
-C relay element output
UVSZA-AB relay element output
-BC relay element output
-CA relay element output
UVDZA-A relay element output
-B relay element output
-C relay element output
OVGZA relay element output
UVGZB-A relay element output
-B relay element output
-C relay element output
UVSZB-AB relay element output
-BC relay element output
-CA relay element output
UVDZB-A relay element output
-B relay element output
-C relay element output
OVGZB relay element output
UVGZC-A relay element output
-B relay element output
-C relay element output
UVSZC-AB relay element output
-BC relay element output
-CA relay element output
UVDZC-A relay element output
-B relay element output
-C relay element output
OVGZC relay element output
UVGZD-A relay element output
-B relay element output
-C relay element output
UVSZD-AB relay element output
-BC relay element output
-CA relay element output
UVDZD-A relay element output
-B relay element output
-C relay element output
OVGZD relay element output
UVGZA-A,B,C relay elemnet output (3phase OR)
UVSZA-A,B,C relay elemnet output (3phase OR)
UVDZA-A,B,C relay elemnet output (3phase OR with del-timer)
UVGZB-A,B,C relay elemnet output (3phase OR)
UVSZB-A,B,C relay elemnet output (3phase OR)
UVDZB-A,B,C relay elemnet output (3phase OR with del-timer)
UVGZC-A,B,C relay elemnet output (3phase OR)
UVSZC-A,B,C relay elemnet output (3phase OR)
UVDZC-A,B,C relay elemnet output (3phase OR with del-timer)
UVGZD-A,B,C relay elemnet output (3phase OR)
UVSZD-A,B,C relay elemnet output (3phase OR)
UVDZD-A,B,C relay elemnet output (3phase OR with del-timer)
Id element for CTF detection (Zone A)
ditto
ditto
Id element for CTF detection (Zone B)
ditto
⎯ 185 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1401
1402
1403
1404
1405
1406
1407
1408
1409
1410
1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
1426
1427
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439
1440
1441
1442
1443
1444
1445
1446
1447
1448
1449
1450
1451
1452
1453
1454
1455
1456
1457
1458
1459
1460
1461
1462
1463
1464
1465
1466
1467
1468
1469
1470
Signal Name
CTFID ZB-C
CTFID ZC-A
CTFID ZC-B
CTFID ZC-C
CTFID ZD-A
CTFID ZD-B
CTFID ZD-C
CTFID CH-A
CTFID CH-B
CTFID CH-C
CTFOVG ZA
CTFOVG ZB
CTFOVG ZC
CTFOVG ZD
CTFUV ZA
CTFUV ZB
CTFUV ZC
CTFUV ZD
CTFUVD ZA
CTFUVD ZB
CTFUVD ZC
CTFUVD ZD
DIFCH-EVF-A
DIFCH-EVF-B
DIFCH-EVF-C
DIFZA-EVF-A
DIFZA-EVF-B
DIFZA-EVF-C
DIFZB-EVF-A
DIFZB-EVF-B
DIFZB-EVF-C
DIFZC-EVF-A
DIFZC-EVF-B
DIFZC-EVF-C
DIFZD-EVF-A
DIFZD-EVF-B
DIFZD-EVF-C
Contents
ditto
Id element for CTF detection (Zone C)
ditto
ditto
Id element for CTF detection (Zone D)
ditto
ditto
Id element for CTF detection (Check zone)
ditto
ditto
OVG element for CTF detection
ditto
ditto
ditto
UV element for CTF detection
ditto
ditto
ditto
UVD element for CTF detection
ditto
ditto
ditto
Evolving fault detection in DIFCH-A relay
in DIFCH-B relay
in DIFCH-C relay
Evolving fault detection in DIFZA-A relay
in DIFZA-B relay
in DIFZA-C relay
Evolving fault detection in DIFZB-A relay
in DIFZB-B relay
in DIFZB-C relay
Evolving fault detection in DIFZC-A relay
in DIFZC-B relay
in DIFZC-C relay
Evolving fault detection in DIFZD-A relay
in DIFZD-B relay
in DIFZD-C relay
⎯ 186 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1471
1472
1473
1474
1475
1476
1477
1478
1479
1480
1481
1482
1483
1484
1485
1486
1487
1488
1489
1490
1491
1492
1493
1494
1495
1496
1497
1498
1499
1500
1501
1502
1503
1504
1505
1506
1507
1508
1509
1510
1511
1512
1513
1514
1515
1516
1517
1518
1519
1520
1521
1522
1523
1524
1525
1526
1527
1528
1529
1530
1531
1532
1533
1534
1535
1536
1537
1538
1539
1540
Signal Name
43BP
43CBF
SECTION1-DS
SECTION2-DS
SECTION3-DS
Contents
Bus protection in service
Breaker failuer protecion in service
Section1 DS close
Section2 DS close
Section3 DS close
⎯ 187 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1541
1542
1543
1544
1545
1546
1547
1548
1549
1550
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
1567
1568
1569
1570
1571
1572
1573
1574
1575
1576
1577
1578
1579
1580
1581
1582
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
1598
1599
1600
1601
1602
1603
1604
1605
1606
1607
1608
1609
1610
Signal Name
SECTION4-DS
COUPLER1-DS
COUPLER1-DSB1
COUPLER1-DSB2
COUPLER1-DST
COUPLER2-DS
COUPLER2-DSB1
COUPLER2-DSB2
COUPLER2-DST
COUPLER3-DS
COUPLER3-DSB1
COUPLER3-DSB2
COUPLER3-DST
COUPLER4-DS
COUPLER4-DST
SECTION1-CB
SECTION2-CB
SECTION3-CB
SECTION4-CB
COUPLER1-CB
COUPLER2-CB
COUPLER3-CB
E.SEC1-CB
E.SEC2-CB
E.SEC3-CB
E.SEC4-CB
C1-TRANS.-ZA
C1-TRANS.-ZB
C2-TRANS.-ZA
C2-TRANS.-ZB
C3-TRANS.-ZD
C3-TRANS.-ZB
TRANS.-ZA
TRANS.-ZB
TRANS.-ZC
TRANS.-ZD
TRANSFER
BRIDGE-ZA ZB
BRIDGE-ZB ZC
BRIDGE-ZA ZD
BRIDGE-ZC ZD
BRIDGE-ZB ZD
BRIDGE
DIFCH-OPERATE
DIFZA-OPERATE
DIFZB-OPERATE
DIFZC-OPERATE
DIFZD-OPERATE
CBFCH-OPERATE
CBFZA-OPERATE
CBFZB-OPERATE
CBFZC-OPERATE
CBFZD-OPERATE
BP-TRIP
CBF-RETRIP
CBF-TRIP
CBF-TRANSFER
Contents
Section4 DS close
Coupler1 DS close
Coupler1 DS-B1 close
Coupler1 DS-B2 close
Coupler1 DS-T close
Couoler2 DS close
Coupler2 DS-B1 close
Coupler2 DS-B2 close
Coupler2 DS-T close
Coupler3 DS close
COUPLER3 DS-B1 close
COUPLER3 DS-B2 close
Coupler3 DS-T close
Coupler4 DS close
Coupler4 DS-T close
Section1 CB close
Section2 CB close
Section3 CB close
Section4 CB close
Coupler1 CB close
Coupler2 CB close
Coupler3 CB close
End of section1 CB close
End of section2 CB close
End of section3 CB close
End of section4 CB close
Coupler1 : transfer-bus connected with ZoneA applicable condition
Coupler1 : transfer-bus connected with ZoneB applicable condition
Coupler2 : transfer-bus connected with ZoneA applicable condition
Coupler2 : transfer-bus connected with ZoneB applicable condition
Coupler3 : transfer-bus connected with ZoneD applicable condition
Coupler3 : transfer-bus connected with ZoneB applicable condition
Transfer-bus connetcted with ZoneA condition
Transfer-bus connetcted with ZoneB condition
Transfer-bus connetcted with ZoneC condition
Transfer-bus connetcted with ZoneD condition
Transfer-bus applicable condition
Busbar bridge condition ZoneA and ZoneB
Busbar bridge condition ZoneB and ZoneC
Busbar bridge condition ZoneA and ZoneD
Busbar bridge condition ZoneC and ZoneD
Busbar bridge condition ZoneB and ZoneD
Busbar bridge condition
DIFCH operation
DIFZA operation
DIFZB operation
DIFZC operation
DIFZD operation
CBF for check zone operation
CBF for zone A operation
CBF for zone B operation
CBF for zone C operation
CBF for zone D operation
Bus protection trip
Breaker failuer protecion retrip
Breaker failuer protecion trip
Breaker failuer protecion transfer trip
DIF-CH TRIP
DIF-ZA TRIP
DIF-ZB TRIP
DIF-ZC TRIP
DIF-ZD TRIP
COMTP-ZA
COMTP-ZB
COMTP-ZC
COMTP-ZD
COM-TRIP
C1 S1 OPEN
C1 S2 OPEN
DIF-CH trip
DIF-ZA trip
DIF-ZB trip
DIF-ZC trip
DIF-ZD trip
Command trip of zone A
Command trip of zone B
Command trip of zone C
Command trip of zone D
Command trip
Coupler1 opened and Section1 opened
Coupler1 opened and Section2 opened
⎯ 188 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1611
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
1624
1625
1626
1627
1628
1629
1630
1631
1632
1633
1634
1635
1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
1650
1651
1652
1653
1654
1655
1656
1657
1658
1659
1660
1661
1662
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
1675
1676
1677
1678
1679
1680
Signal Name
C2 S1 OPEN
C2 S2 OPEN
C1 C2 OPEN
S1 S2 OPEN
EFP-TRANSFER
Contents
Coupler2 opened and Section1 opened
Coupler2 opened and Section2 opened
Coupler1 opened and Coupler2 opened
Section1 opened and Section2 opened
End-fault-protection transfer trip signal
CH1-DS1
CH1-DS2
CH1-DS3
CH1-DS4
CH2-DS1
CH2-DS2
CH2-DS3
CH2-DS4
CH3-DS1
CH3-DS2
CH3-DS3
CH3-DS4
CH4-DS1
CH4-DS2
CH4-DS3
CH4-DS4
CH5-DS1
CH5-DS2
CH5-DS3
CH5-DS4
CH6-DS1
CH6-DS2
CH6-DS3
CH6-DS4
CH7-DS1
CH7-DS2
CH7-DS3
CH7-DS4
CH8-DS1
CH8-DS2
CH8-DS3
CH8-DS4
CH9-DS1
CH9-DS2
CH9-DS3
CH9-DS4
CH10-DS1
CH10-DS2
CH10-DS3
CH10-DS4
CH11-DS1
CH11-DS2
CH11-DS3
CH11-DS4
CH12-DS1
CH12-DS2
CH12-DS3
CH12-DS4
CH13-DS1
CH1 DS1 close
CH1 DS2 close
CH1 DS3 close
CH1 DS4 close
CH2 DS1 close
CH2 DS2 close
CH2 DS3 close
CH2 DS4 close
CH3 DS1 close
CH3 DS2 close
CH3 DS3 close
CH3 DS4 close
CH4 DS1 close
CH4 DS2 close
CH4 DS3 close
CH4 DS4 close
CH5 DS1 close
CH5 DS2 close
CH5 DS3 close
CH5 DS4 close
CH6 DS1 close
CH6 DS2 close
CH6 DS3 close
CH6 DS4 close
CH7 DS1 close
CH7 DS2 close
CH7 DS3 close
CH7 DS4 close
CH8 DS1 close
CH8 DS2 close
CH8 DS3 close
CH8 DS4 close
CH9 DS1 close
CH9 DS2 close
CH9 DS3 close
CH9 DS4 close
CH10 DS1 close
CH10 DS2 close
CH10 DS3 close
CH10 DS4 close
CH11 DS1 close
CH11 DS2 close
CH11 DS3 close
CH11 DS4 close
CH12 DS1 close
CH12 DS2 close
CH12 DS3 close
CH12 DS4 close
CH13 DS1 close
⎯ 189 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1681
1682
1683
1684
1685
1686
1687
1688
1689
1690
1691
1692
1693
1694
1695
1696
1697
1698
1699
1700
1701
1702
1703
1704
1705
1706
1707
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
1718
1719
1720
1721
1722
1723
1724
1725
1726
1727
1728
1729
1730
1731
1732
1733
1734
1735
1736
1737
1738
1739
1740
1741
1742
1743
1744
1745
1746
1747
1748
1749
1750
Signal Name
CH13-DS2
CH13-DS3
CH13-DS4
CH14-DS1
CH14-DS2
CH14-DS3
CH14-DS4
CH15-DS1
CH15-DS2
CH15-DS3
CH15-DS4
CH16-DS1
CH16-DS2
CH16-DS3
CH16-DS4
CH17-DS1
CH17-DS2
CH17-DS3
CH17-DS4
CH18-DS1
CH18-DS2
CH18-DS3
CH18-DS4
CH19-DS1
CH19-DS2
CH19-DS3
CH19-DS4
CH20-DS1
CH20-DS2
CH20-DS3
CH20-DS4
CH21-DS1
CH21-DS2
CH21-DS3
CH21-DS4
CH22-DS1
CH22-DS2
CH22-DS3
CH22-DS4
CH23-DS1
CH23-DS2
CH23-DS3
CH23-DS4
CH24-DS1
CH24-DS2
CH24-DS3
CH24-DS4
CH25-DS1
CH25-DS2
CH25-DS3
CH25-DS4
CH26-DS1
CH26-DS2
CH26-DS3
CH26-DS4
CH27-DS1
CH27-DS2
CH27-DS3
CH27-DS4
CH28-DS1
CH28-DS2
CH28-DS3
CH28-DS4
CH29-DS1
CH29-DS2
CH29-DS3
CH29-DS4
CH30-DS1
CH30-DS2
CH30-DS3
Contents
CH13 DS2 close
CH13 DS3 close
CH13 DS4 close
CH14 DS1 close
CH14 DS2 close
CH14 DS3 close
CH14 DS4 close
CH15 DS1 close
CH15 DS2 close
CH15 DS3 close
CH15 DS4 close
CH16 DS1 close
CH16 DS2 close
CH16 DS3 close
CH16 DS4 close
CH17 DS1 close
CH17 DS2 close
CH17 DS3 close
CH17 DS4 close
CH18 DS1 close
CH18 DS2 close
CH18 DS3 close
CH18 DS4 close
CH19 DS1 close
CH19 DS2 close
CH19 DS3 close
CH19 DS4 close
CH20 DS1 close
CH20 DS2 close
CH20 DS3 close
CH20 DS4 close
CH21 DS1 close
CH21 DS2 close
CH21 DS3 close
CH21 DS4 close
CH22 DS1 close
CH22 DS2 close
CH22 DS3 close
CH22 DS4 close
CH23 DS1 close
CH23 DS2 close
CH23 DS3 close
CH23 DS4 close
CH24 DS1 close
CH24 DS2 close
CH24 DS3 close
CH24 DS4 close
CH25 DS1 close
CH25 DS2 close
CH25 DS3 close
CH25 DS4 close
CH26 DS1 close
CH26 DS2 close
CH26 DS3 close
CH26 DS4 close
CH27 DS1 close
CH27 DS2 close
CH27 DS3 close
CH27 DS4 close
CH28 DS1 close
CH28 DS2 close
CH28 DS3 close
CH28 DS4 close
CH29 DS1 close
CH29 DS2 close
CH29 DS3 close
CH29 DS4 close
CH30 DS1 close
CH30 DS2 close
CH30 DS3 close
⎯ 190 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1751
1752
1753
1754
1755
1756
1757
1758
1759
1760
1761
1762
1763
1764
1765
1766
1767
1768
1769
1770
1771
1772
1773
1774
1775
1776
1777
1778
1779
1780
1781
1782
1783
1784
1785
1786
1787
1788
1789
1790
1791
1792
1793
1794
1795
1796
1797
1798
1799
1800
1801
1802
1803
1804
1805
1806
1807
1808
1809
1810
1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
Signal Name
CH30-DS4
CH31-DS1
CH31-DS2
CH31-DS3
CH31-DS4
CH32-DS1
CH32-DS2
CH32-DS3
CH32-DS4
CH33-DS1
CH33-DS2
CH33-DS3
CH33-DS4
CH34-DS1
CH34-DS2
CH34-DS3
CH34-DS4
CH35-DS1
CH35-DS2
CH35-DS3
CH35-DS4
CH36-DS1
CH36-DS2
CH36-DS3
CH36-DS4
CH37-DS1
CH37-DS2
CH37-DS3
CH37-DS4
CH38-DS1
CH38-DS2
CH38-DS3
CH38-DS4
CH39-DS1
CH39-DS2
CH39-DS3
CH39-DS4
CH40-DS1
CH40-DS2
CH40-DS3
CH40-DS4
CH41-DS1
CH41-DS2
CH41-DS3
CH41-DS4
CH42-DS1
CH42-DS2
CH42-DS3
CH42-DS4
CH43-DS1
CH43-DS2
CH43-DS3
CH43-DS4
CH44-DS1
CH44-DS2
CH44-DS3
CH44-DS4
CH45-DS1
CH45-DS2
CH45-DS3
CH45-DS4
CH46-DS1
CH46-DS2
CH46-DS3
CH46-DS4
CH47-DS1
CH47-DS2
CH47-DS3
CH47-DS4
CH48-DS1
Contents
CH30 DS4 close
CH31 DS1 close
CH31 DS2 close
CH31 DS3 close
CH31 DS4 close
CH32 DS1 close
CH32 DS2 close
CH32 DS3 close
CH32 DS4 close
CH33 DS1 close
CH33 DS2 close
CH33 DS3 close
CH33 DS4 close
CH34 DS1 close
CH34 DS2 close
CH34 DS3 close
CH34 DS4 close
CH35 DS1 close
CH35 DS2 close
CH35 DS3 close
CH35 DS4 close
CH36 DS1 close
CH36 DS2 close
CH36 DS3 close
CH36 DS4 close
CH37 DS1 close
CH37 DS2 close
CH37 DS3 close
CH37 DS4 close
CH38 DS1 close
CH38 DS2 close
CH38 DS3 close
CH38 DS4 close
CH39 DS1 close
CH39 DS2 close
CH39 DS3 close
CH39 DS4 close
CH40 DS1 close
CH40 DS2 close
CH40 DS3 close
CH40 DS4 close
CH41 DS1 close
CH41 DS2 close
CH41 DS3 close
CH41 DS4 close
CH42 DS1 close
CH42 DS2 close
CH42 DS3 close
CH42 DS4 close
CH43 DS1 close
CH43 DS2 close
CH43 DS3 close
CH43 DS4 close
CH44 DS1 close
CH44 DS2 close
CH44 DS3 close
CH44 DS4 close
CH45 DS1 close
CH45 DS2 close
CH45 DS3 close
CH45 DS4 close
CH46 DS1 close
CH46 DS2 close
CH46 DS3 close
CH46 DS4 close
CH47 DS1 close
CH47 DS2 close
CH47 DS3 close
CH47 DS4 close
CH48 DS1 close
⎯ 191 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1821
1822
1823
1824
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
1843
1844
1845
1846
1847
1848
1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
1877
1878
1879
1880
1881
1882
1883
1884
1885
1886
1887
1888
1889
1890
Signal Name
CH48-DS2
CH48-DS3
CH48-DS4
CH49-DS1
CH49-DS2
CH49-DS3
CH49-DS4
CH50-DS1
CH50-DS2
CH50-DS3
CH50-DS4
CH51-DS1
CH51-DS2
CH51-DS3
CH51-DS4
CH52-DS1
CH52-DS2
CH52-DS3
CH52-DS4
CH53-DS1
CH53-DS2
CH53-DS3
CH53-DS4
CH54-DS1
CH54-DS2
CH54-DS3
CH54-DS4
CH55-DS1
CH55-DS2
CH55-DS3
CH55-DS4
CH56-DS1
CH56-DS2
CH56-DS3
CH56-DS4
CH57-DS1
CH57-DS2
CH57-DS3
CH57-DS4
CH58-DS1
CH58-DS2
CH58-DS3
CH58-DS4
CH59-DS1
CH59-DS2
CH59-DS3
CH59-DS4
CH60-DS1
CH60-DS2
CH60-DS3
CH60-DS4
CH61-DS1
CH61-DS2
CH61-DS3
CH61-DS4
CH62-DS1
CH62-DS2
CH62-DS3
CH62-DS4
CH63-DS1
CH63-DS2
CH63-DS3
CH63-DS4
CH64-DS1
CH64-DS2
CH64-DS3
CH64-DS4
CH1-CB
CH2-CB
CH3-CB
Contents
CH48 DS2 close
CH48 DS3 close
CH48 DS4 close
CH49 DS1 close
CH49 DS2 close
CH49 DS3 close
CH49 DS4 close
CH50 DS1 close
CH50 DS2 close
CH50 DS3 close
CH50 DS4 close
CH51 DS1 close
CH51 DS2 close
CH51 DS3 close
CH51 DS4 close
CH52 DS1 close
CH52 DS2 close
CH52 DS3 close
CH52 DS4 close
CH53 DS1 close
CH53 DS2 close
CH53 DS3 close
CH53 DS4 close
CH54 DS1 close
CH54 DS2 close
CH54 DS3 close
CH54 DS4 close
CH55 DS1 close
CH55 DS2 close
CH55 DS3 close
CH55 DS4 close
CH56 DS1 close
CH56 DS2 close
CH56 DS3 close
CH56 DS4 close
CH57 DS1 close
CH57 DS2 close
CH57 DS3 close
CH57 DS4 close
CH58 DS1 close
CH58 DS2 close
CH58 DS3 close
CH58 DS4 close
CH59 DS1 close
CH59 DS2 close
CH59 DS3 close
CH59 DS4 close
CH60 DS1 close
CH60 DS2 close
CH60 DS3 close
CH60 DS4 close
CH61 DS1 close
CH61 DS2 close
CH61 DS3 close
CH61 DS4 close
CH62 DS1 close
CH62 DS2 close
CH62 DS3 close
CH62 DS4 close
CH63 DS1 close
CH63 DS2 close
CH63 DS3 close
CH63 DS4 close
CH64 DS1 close
CH64 DS2 close
CH64 DS3 close
CH64 DS4 close
CH1 CB close
CH2 CB close
CH3 CB close
⎯ 192 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1891
1892
1893
1894
1895
1896
1897
1898
1899
1900
1901
1902
1903
1904
1905
1906
1907
1908
1909
1910
1911
1912
1913
1914
1915
1916
1917
1918
1919
1920
1921
1922
1923
1924
1925
1926
1927
1928
1929
1930
1931
1932
1933
1934
1935
1936
1937
1938
1939
1940
1941
1942
1943
1944
1945
1946
1947
1948
1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
Signal Name
CH4-CB
CH5-CB
CH6-CB
CH7-CB
CH8-CB
CH9-CB
CH10-CB
CH11-CB
CH12-CB
CH13-CB
CH14-CB
CH15-CB
CH16-CB
CH17-CB
CH18-CB
CH19-CB
CH20-CB
CH21-CB
CH22-CB
CH23-CB
CH24-CB
CH25-CB
CH26-CB
CH27-CB
CH28-CB
CH29-CB
CH30-CB
CH31-CB
CH32-CB
CH33-CB
CH34-CB
CH35-CB
CH36-CB
CH37-CB
CH38-CB
CH39-CB
CH40-CB
CH41-CB
CH42-CB
CH43-CB
CH44-CB
CH45-CB
CH46-CB
CH47-CB
CH48-CB
CH49-CB
CH50-CB
CH51-CB
CH52-CB
CH53-CB
CH54-CB
CH55-CB
CH56-CB
CH57-CB
CH58-CB
CH59-CB
CH60-CB
CH61-CB
CH62-CB
CH63-CB
CH64-CB
CH1-EXTTP-A
CH1-EXTTP-B
CH1-EXTTP-C
CH2-EXTTP-A
CH2-EXTTP-B
CH2-EXTTP-C
CH3-EXTTP-A
CH3-EXTTP-B
CH3-EXTTP-C
Contents
CH4 CB close
CH5 CB close
CH6 CB close
CH7 CB close
CH8 CB close
CH9 CB close
CH10 CB close
CH11 CB close
CH12 CB close
CH13 CB close
CH14 CB close
CH15 CB close
CH16 CB close
CH17 CB close
CH18 CB close
CH19 CB close
CH20 CB close
CH21 CB close
CH22 CB close
CH23 CB close
CH24 CB close
CH25 CB close
CH26 CB close
CH27 CB close
CH28 CB close
CH29 CB close
CH30 CB close
CH31 CB close
CH32 CB close
CH33 CB close
CH34 CB close
CH35 CB close
CH36 CB close
CH37 CB close
CH38 CB close
CH39 CB close
CH40 CB close
CH41 CB close
CH42 CB close
CH43 CB close
CH44 CB close
CH45 CB close
CH46 CB close
CH47 CB close
CH48 CB close
CH49 CB close
CH50 CB close
CH51 CB close
CH52 CB close
CH53 CB close
CH54 CB close
CH55 CB close
CH56 CB close
CH57 CB close
CH58 CB close
CH59 CB close
CH60 CB close
CH61 CB close
CH62 CB close
CH63 CB close
CH64 CB close
CH1 External trip command A-phase
CH1 External trip command B-phase
CH1 External trip command C-phase
CH2 External trip command A-phase
CH2 External trip command B-phase
CH2 External trip command C-phase
CH3 External trip command A-phase
CH3 External trip command B-phase
CH3 External trip command C-phase
⎯ 193 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
Signal Name
CH4-EXTTP-A
CH4-EXTTP-B
CH4-EXTTP-C
CH5-EXTTP-A
CH5-EXTTP-B
CH5-EXTTP-C
CH6-EXTTP-A
CH6-EXTTP-B
CH6-EXTTP-C
CH7-EXTTP-A
CH7-EXTTP-B
CH7-EXTTP-C
CH8-EXTTP-A
CH8-EXTTP-B
CH8-EXTTP-C
CH9-EXTTP-A
CH9-EXTTP-B
CH9-EXTTP-C
CH10-EXTTP-A
CH10-EXTTP-B
CH10-EXTTP-C
CH11-EXTTP-A
CH11-EXTTP-B
CH11-EXTTP-C
CH12-EXTTP-A
CH12-EXTTP-B
CH12-EXTTP-C
CH13-EXTTP-A
CH13-EXTTP-B
CH13-EXTTP-C
CH14-EXTTP-A
CH14-EXTTP-B
CH14-EXTTP-C
CH15-EXTTP-A
CH15-EXTTP-B
CH15-EXTTP-C
CH16-EXTTP-A
CH16-EXTTP-B
CH16-EXTTP-C
CH17-EXTTP-A
CH17-EXTTP-B
CH17-EXTTP-C
CH18-EXTTP-A
CH18-EXTTP-B
CH18-EXTTP-C
CH19-EXTTP-A
CH19-EXTTP-B
CH19-EXTTP-C
CH20-EXTTP-A
CH20-EXTTP-B
CH20-EXTTP-C
CH21-EXTTP-A
CH21-EXTTP-B
CH21-EXTTP-C
CH22-EXTTP-A
CH22-EXTTP-B
CH22-EXTTP-C
CH23-EXTTP-A
CH23-EXTTP-B
CH23-EXTTP-C
CH24-EXTTP-A
CH24-EXTTP-B
CH24-EXTTP-C
CH25-EXTTP-A
CH25-EXTTP-B
CH25-EXTTP-C
CH26-EXTTP-A
CH26-EXTTP-B
CH26-EXTTP-C
CH27-EXTTP-A
Contents
CH4 External trip command A-phase
CH4 External trip command B-phase
CH4 External trip command C-phase
CH5 External trip command A-phase
CH5 External trip command B-phase
CH5 External trip command C-phase
CH6 External trip command A-phase
CH6 External trip command B-phase
CH6 External trip command C-phase
CH7 External trip command A-phase
CH7 External trip command B-phase
CH7 External trip command C-phase
CH8 External trip command A-phase
CH8 External trip command B-phase
CH8 External trip command C-phase
CH9 External trip command A-phase
CH9 External trip command B-phase
CH9 External trip command C-phase
CH10 External trip command A-phase
CH10 External trip command B-phase
CH10 External trip command C-phase
CH11 External trip command A-phase
CH11 External trip command B-phase
CH11 External trip command C-phase
CH12 External trip command A-phase
CH12 External trip command B-phase
CH12 External trip command C-phase
CH13 External trip command A-phase
CH13 External trip command B-phase
CH13 External trip command C-phase
CH14 External trip command A-phase
CH14 External trip command B-phase
CH14 External trip command C-phase
CH15 External trip command A-phase
CH15 External trip command B-phase
CH15 External trip command C-phase
CH16 External trip command A-phase
CH16 External trip command B-phase
CH16 External trip command C-phase
CH17 External trip command A-phase
CH17 External trip command B-phase
CH17 External trip command C-phase
CH18 External trip command A-phase
CH18 External trip command B-phase
CH18 External trip command C-phase
CH19 External trip command A-phase
CH19 External trip command B-phase
CH19 External trip command C-phase
CH20 External trip command A-phase
CH20 External trip command B-phase
CH20 External trip command C-phase
CH21 External trip command A-phase
CH21 External trip command B-phase
CH21 External trip command C-phase
CH22 External trip command A-phase
CH22 External trip command B-phase
CH22 External trip command C-phase
CH23 External trip command A-phase
CH23 External trip command B-phase
CH23 External trip command C-phase
CH24 External trip command A-phase
CH24 External trip command B-phase
CH24 External trip command C-phase
CH25 External trip command A-phase
CH25 External trip command B-phase
CH25 External trip command C-phase
CH26 External trip command A-phase
CH26 External trip command B-phase
CH26 External trip command C-phase
CH27 External trip command A-phase
⎯ 194 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2031
2032
2033
2034
2035
2036
2037
2038
2039
2040
2041
2042
2043
2044
2045
2046
2047
2048
2049
2050
2051
2052
2053
2054
2055
2056
2057
2058
2059
2060
2061
2062
2063
2064
2065
2066
2067
2068
2069
2070
2071
2072
2073
2074
2075
2076
2077
2078
2079
2080
2081
2082
2083
2084
2085
2086
2087
2088
2089
2090
2091
2092
2093
2094
2095
2096
2097
2098
2099
2100
Signal Name
CH27-EXTTP-B
CH27-EXTTP-C
CH28-EXTTP-A
CH28-EXTTP-B
CH28-EXTTP-C
CH29-EXTTP-A
CH29-EXTTP-B
CH29-EXTTP-C
CH30-EXTTP-A
CH30-EXTTP-B
CH30-EXTTP-C
CH31-EXTTP-A
CH31-EXTTP-B
CH31-EXTTP-C
CH32-EXTTP-A
CH32-EXTTP-B
CH32-EXTTP-C
CH33-EXTTP-A
CH33-EXTTP-B
CH33-EXTTP-C
CH34-EXTTP-A
CH34-EXTTP-B
CH34-EXTTP-C
CH35-EXTTP-A
CH35-EXTTP-B
CH35-EXTTP-C
CH36-EXTTP-A
CH36-EXTTP-B
CH36-EXTTP-C
CH37-EXTTP-A
CH37-EXTTP-B
CH37-EXTTP-C
CH38-EXTTP-A
CH38-EXTTP-B
CH38-EXTTP-C
CH39-EXTTP-A
CH39-EXTTP-B
CH39-EXTTP-C
CH40-EXTTP-A
CH40-EXTTP-B
CH40-EXTTP-C
CH41-EXTTP-A
CH41-EXTTP-B
CH41-EXTTP-C
CH42-EXTTP-A
CH42-EXTTP-B
CH42-EXTTP-C
CH43-EXTTP-A
CH43-EXTTP-B
CH43-EXTTP-C
CH44-EXTTP-A
CH44-EXTTP-B
CH44-EXTTP-C
CH45-EXTTP-A
CH45-EXTTP-B
CH45-EXTTP-C
CH46-EXTTP-A
CH46-EXTTP-B
CH46-EXTTP-C
CH47-EXTTP-A
CH47-EXTTP-B
CH47-EXTTP-C
CH48-EXTTP-A
CH48-EXTTP-B
CH48-EXTTP-C
CH49-EXTTP-A
CH49-EXTTP-B
CH49-EXTTP-C
CH50-EXTTP-A
CH50-EXTTP-B
Contents
CH27 External trip command B-phase
CH27 External trip command C-phase
CH28 External trip command A-phase
CH28 External trip command B-phase
CH28 External trip command C-phase
CH29 External trip command A-phase
CH29 External trip command B-phase
CH29 External trip command C-phase
CH30 External trip command A-phase
CH30 External trip command B-phase
CH30 External trip command C-phase
CH31 External trip command A-phase
CH31 External trip command B-phase
CH31 External trip command C-phase
CH32 External trip command A-phase
CH32 External trip command B-phase
CH32 External trip command C-phase
CH33 External trip command A-phase
CH33 External trip command B-phase
CH33 External trip command C-phase
CH34 External trip command A-phase
CH34 External trip command B-phase
CH34 External trip command C-phase
CH35 External trip command A-phase
CH35 External trip command B-phase
CH35 External trip command C-phase
CH36 External trip command A-phase
CH36 External trip command B-phase
CH36 External trip command C-phase
CH37 External trip command A-phase
CH37 External trip command B-phase
CH37 External trip command C-phase
CH38 External trip command A-phase
CH38 External trip command B-phase
CH38 External trip command C-phase
CH39 External trip command A-phase
CH39 External trip command B-phase
CH39 External trip command C-phase
CH40 External trip command A-phase
CH40 External trip command B-phase
CH40 External trip command C-phase
CH41 External trip command A-phase
CH41 External trip command B-phase
CH41 External trip command C-phase
CH42 External trip command A-phase
CH42 External trip command B-phase
CH42 External trip command C-phase
CH43 External trip command A-phase
CH43 External trip command B-phase
CH43 External trip command C-phase
CH44 External trip command A-phase
CH44 External trip command B-phase
CH44 External trip command C-phase
CH45 External trip command A-phase
CH45 External trip command B-phase
CH45 External trip command C-phase
CH46 External trip command A-phase
CH46 External trip command B-phase
CH46 External trip command C-phase
CH47 External trip command A-phase
CH47 External trip command B-phase
CH47 External trip command C-phase
CH48 External trip command A-phase
CH48 External trip command B-phase
CH48 External trip command C-phase
CH49 External trip command A-phase
CH49 External trip command B-phase
CH49 External trip command C-phase
CH50 External trip command A-phase
CH50 External trip command B-phase
⎯ 195 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2101
2102
2103
2104
2105
2106
2107
2108
2109
2110
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2121
2122
2123
2124
2125
2126
2127
2128
2129
2130
2131
2132
2133
2134
2135
2136
2137
2138
2139
2140
2141
2142
2143
2144
2145
2146
2147
2148
2149
2150
2151
2152
2153
2154
2155
2156
2157
2158
2159
2160
2161
2162
2163
2164
2165
2166
2167
2168
2169
2170
Signal Name
CH50-EXTTP-C
CH51-EXTTP-A
CH51-EXTTP-B
CH51-EXTTP-C
CH52-EXTTP-A
CH52-EXTTP-B
CH52-EXTTP-C
CH53-EXTTP-A
CH53-EXTTP-B
CH53-EXTTP-C
CH54-EXTTP-A
CH54-EXTTP-B
CH54-EXTTP-C
CH55-EXTTP-A
CH55-EXTTP-B
CH55-EXTTP-C
CH56-EXTTP-A
CH56-EXTTP-B
CH56-EXTTP-C
CH57-EXTTP-A
CH57-EXTTP-B
CH57-EXTTP-C
CH58-EXTTP-A
CH58-EXTTP-B
CH58-EXTTP-C
CH59-EXTTP-A
CH59-EXTTP-B
CH59-EXTTP-C
CH60-EXTTP-A
CH60-EXTTP-B
CH60-EXTTP-C
CH61-EXTTP-A
CH61-EXTTP-B
CH61-EXTTP-C
CH62-EXTTP-A
CH62-EXTTP-B
CH62-EXTTP-C
CH63-EXTTP-A
CH63-EXTTP-B
CH63-EXTTP-C
CH64-EXTTP-A
CH64-EXTTP-B
CH64-EXTTP-C
1CBF-RETRIP
2CBF-RETRIP
3CBF-RETRIP
4CBF-RETRIP
5CBF-RETRIP
6CBF-RETRIP
7CBF-RETRIP
8CBF-RETRIP
9CBF-RETRIP
10CBF-RETRIP
11CBF-RETRIP
12CBF-RETRIP
13CBF-RETRIP
14CBF-RETRIP
15CBF-RETRIP
16CBF-RETRIP
17CBF-RETRIP
18CBF-RETRIP
19CBF-RETRIP
20CBF-RETRIP
21CBF-RETRIP
22CBF-RETRIP
23CBF-RETRIP
24CBF-RETRIP
25CBF-RETRIP
26CBF-RETRIP
27CBF-RETRIP
Contents
CH50 External trip command C-phase
CH51 External trip command A-phase
CH51 External trip command B-phase
CH51 External trip command C-phase
CH52 External trip command A-phase
CH52 External trip command B-phase
CH52 External trip command C-phase
CH53 External trip command A-phase
CH53 External trip command B-phase
CH53 External trip command C-phase
CH54 External trip command A-phase
CH54 External trip command B-phase
CH54 External trip command C-phase
CH55 External trip command A-phase
CH55 External trip command B-phase
CH55 External trip command C-phase
CH56 External trip command A-phase
CH56 External trip command B-phase
CH56 External trip command C-phase
CH57 External trip command A-phase
CH57 External trip command B-phase
CH57 External trip command C-phase
CH58 External trip command A-phase
CH58 External trip command B-phase
CH58 External trip command C-phase
CH59 External trip command A-phase
CH59 External trip command B-phase
CH59 External trip command C-phase
CH60 External trip command A-phase
CH60 External trip command B-phase
CH60 External trip command C-phase
CH61 External trip command A-phase
CH61 External trip command B-phase
CH61 External trip command C-phase
CH62 External trip command A-phase
CH62 External trip command B-phase
CH62 External trip command C-phase
CH63 External trip command A-phase
CH63 External trip command B-phase
CH63 External trip command C-phase
CH64 External trip command A-phase
CH64 External trip command B-phase
CH64 External trip command C-phase
CH1 CBF retrip pick-up signal
CH2 CBF retrip pick-up signal
CH3 CBF retrip pick-up signal
CH4 CBF retrip pick-up signal
CH5 CBF retrip pick-up signal
CH6 CBF retrip pick-up signal
CH7 CBF retrip pick-up signal
CH8 CBF retrip pick-up signal
CH9 CBF retrip pick-up signal
CH10 CBF retrip pick-up signal
CH11 CBF retrip pick-up signal
CH12 CBF retrip pick-up signal
CH13 CBF retrip pick-up signal
CH14 CBF retrip pick-up signal
CH15 CBF retrip pick-up signal
CH16 CBF retrip pick-up signal
CH17 CBF retrip pick-up signal
CH18 CBF retrip pick-up signal
CH19 CBF retrip pick-up signal
CH20 CBF retrip pick-up signal
CH21 CBF retrip pick-up signal
CH22 CBF retrip pick-up signal
CH23 CBF retrip pick-up signal
CH24 CBF retrip pick-up signal
CH25 CBF retrip pick-up signal
CH26 CBF retrip pick-up signal
CH27 CBF retrip pick-up signal
⎯ 196 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2171
2172
2173
2174
2175
2176
2177
2178
2179
2180
2181
2182
2183
2184
2185
2186
2187
2188
2189
2190
2191
2192
2193
2194
2195
2196
2197
2198
2199
2200
2201
2202
2203
2204
2205
2206
2207
2208
2209
2210
2211
2212
2213
2214
2215
2216
2217
2218
2219
2220
2221
2222
2223
2224
2225
2226
2227
2228
2229
2230
2231
2232
2233
2234
2235
2236
2237
2238
2239
2240
Signal Name
28CBF-RETRIP
29CBF-RETRIP
30CBF-RETRIP
31CBF-RETRIP
32CBF-RETRIP
33CBF-RETRIP
34CBF-RETRIP
35CBF-RETRIP
36CBF-RETRIP
37CBF-RETRIP
38CBF-RETRIP
39CBF-RETRIP
40CBF-RETRIP
41CBF-RETRIP
42CBF-RETRIP
43CBF-RETRIP
44CBF-RETRIP
45CBF-RETRIP
46CBF-RETRIP
47CBF-RETRIP
48CBF-RETRIP
49CBF-RETRIP
50CBF-RETRIP
51CBF-RETRIP
52CBF-RETRIP
53CBF-RETRIP
54CBF-RETRIP
55CBF-RETRIP
56CBF-RETRIP
57CBF-RETRIP
58CBF-RETRIP
59CBF-RETRIP
60CBF-RETRIP
61CBF-RETRIP
62CBF-RETRIP
63CBF-RETRIP
64CBF-RETRIP
1CBF-TRIP
2CBF-TRIP
3CBF-TRIP
4CBF-TRIP
5CBF-TRIP
6CBF-TRIP
7CBF-TRIP
8CBF-TRIP
9CBF-TRIP
10CBF-TRIP
11CBF-TRIP
12CBF-TRIP
13CBF-TRIP
14CBF-TRIP
15CBF-TRIP
16CBF-TRIP
17CBF-TRIP
18CBF-TRIP
19CBF-TRIP
20CBF-TRIP
21CBF-TRIP
22CBF-TRIP
23CBF-TRIP
24CBF-TRIP
25CBF-TRIP
26CBF-TRIP
27CBF-TRIP
28CBF-TRIP
29CBF-TRIP
30CBF-TRIP
31CBF-TRIP
32CBF-TRIP
33CBF-TRIP
Contents
CH28 CBF retrip pick-up signal
CH29 CBF retrip pick-up signal
CH30 CBF retrip pick-up signal
CH31 CBF retrip pick-up signal
CH32 CBF retrip pick-up signal
CH33 CBF retrip pick-up signal
CH34 CBF retrip pick-up signal
CH35 CBF retrip pick-up signal
CH36 CBF retrip pick-up signal
CH37 CBF retrip pick-up signal
CH38 CBF retrip pick-up signal
CH39 CBF retrip pick-up signal
CH40 CBF retrip pick-up signal
CH41 CBF retrip pick-up signal
CH42 CBF retrip pick-up signal
CH43 CBF retrip pick-up signal
CH44 CBF retrip pick-up signal
CH45 CBF retrip pick-up signal
CH46 CBF retrip pick-up signal
CH47 CBF retrip pick-up signal
CH48 CBF retrip pick-up signal
CH49 CBF retrip pick-up signal
CH50 CBF retrip pick-up signal
CH51 CBF retrip pick-up signal
CH52 CBF retrip pick-up signal
CH53 CBF retrip pick-up signal
CH54 CBF retrip pick-up signal
CH55 CBF retrip pick-up signal
CH56 CBF retrip pick-up signal
CH57 CBF retrip pick-up signal
CH58 CBF retrip pick-up signal
CH59 CBF retrip pick-up signal
CH60 CBF retrip pick-up signal
CH61 CBF retrip pick-up signal
CH62 CBF retrip pick-up signal
CH63 CBF retrip pick-up signal
CH64 CBF retrip pick-up signal
CH1 CBF trip pick-up signal
CH2 CBF trip pick-up signal
CH3 CBF trip pick-up signal
CH4 CBF trip pick-up signal
CH5 CBF trip pick-up signal
CH6 CBF trip pick-up signal
CH7 CBF trip pick-up signal
CH8 CBF trip pick-up signal
CH9 CBF trip pick-up signal
CH10 CBF trip pick-up signal
CH11 CBF trip pick-up signal
CH12 CBF trip pick-up signal
CH13 CBF trip pick-up signal
CH14 CBF trip pick-up signal
CH15 CBF trip pick-up signal
CH16 CBF trip pick-up signal
CH17 CBF trip pick-up signal
CH18 CBF trip pick-up signal
CH19 CBF trip pick-up signal
CH20 CBF trip pick-up signal
CH21 CBF trip pick-up signal
CH22 CBF trip pick-up signal
CH23 CBF trip pick-up signal
CH24 CBF trip pick-up signal
CH25 CBF trip pick-up signal
CH26 CBF trip pick-up signal
CH27 CBF trip pick-up signal
CH28 CBF trip pick-up signal
CH29 CBF trip pick-up signal
CH30 CBF trip pick-up signal
CH31 CBF trip pick-up signal
CH32 CBF trip pick-up signal
CH33 CBF trip pick-up signal
⎯ 197 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2241
2242
2243
2244
2245
2246
2247
2248
2249
2250
2251
2252
2253
2254
2255
2256
2257
2258
2259
2260
2261
2262
2263
2264
2265
2266
2267
2268
2269
2270
2271
2272
2273
2274
2275
2276
2277
2278
2279
2280
2281
2282
2283
2284
2285
2286
2287
2288
2289
2290
2291
2292
2293
2294
2295
2296
2297
2298
2299
2300
2301
2302
2303
2304
2305
2306
2307
2308
2309
2310
Signal Name
34CBF-TRIP
35CBF-TRIP
36CBF-TRIP
37CBF-TRIP
38CBF-TRIP
39CBF-TRIP
40CBF-TRIP
41CBF-TRIP
42CBF-TRIP
43CBF-TRIP
44CBF-TRIP
45CBF-TRIP
46CBF-TRIP
47CBF-TRIP
48CBF-TRIP
49CBF-TRIP
50CBF-TRIP
51CBF-TRIP
52CBF-TRIP
53CBF-TRIP
54CBF-TRIP
55CBF-TRIP
56CBF-TRIP
57CBF-TRIP
58CBF-TRIP
59CBF-TRIP
60CBF-TRIP
61CBF-TRIP
62CBF-TRIP
63CBF-TRIP
64CBF-TRIP
CH1-BPTP
CH2-BPTP
CH3-BPTP
CH4-BPTP
CH5-BPTP
CH6-BPTP
CH7-BPTP
CH8-BPTP
CH9-BPTP
CH10-BPTP
CH11-BPTP
CH12-BPTP
CH13-BPTP
CH14-BPTP
CH15-BPTP
CH16-BPTP
CH17-BPTP
CH18-BPTP
CH19-BPTP
CH20-BPTP
CH21-BPTP
CH22-BPTP
CH23-BPTP
CH24-BPTP
CH25-BPTP
CH26-BPTP
CH27-BPTP
CH28-BPTP
CH29-BPTP
CH30-BPTP
CH31-BPTP
CH32-BPTP
CH33-BPTP
CH34-BPTP
CH35-BPTP
CH36-BPTP
CH37-BPTP
CH38-BPTP
CH39-BPTP
Contents
CH34 CBF trip pick-up signal
CH35 CBF trip pick-up signal
CH36 CBF trip pick-up signal
CH37 CBF trip pick-up signal
CH38 CBF trip pick-up signal
CH39 CBF trip pick-up signal
CH40 CBF trip pick-up signal
CH41 CBF trip pick-up signal
CH42 CBF trip pick-up signal
CH43 CBF trip pick-up signal
CH44 CBF trip pick-up signal
CH45 CBF trip pick-up signal
CH46 CBF trip pick-up signal
CH47 CBF trip pick-up signal
CH48 CBF trip pick-up signal
CH49 CBF trip pick-up signal
CH50 CBF trip pick-up signal
CH51 CBF trip pick-up signal
CH52 CBF trip pick-up signal
CH53 CBF trip pick-up signal
CH54 CBF trip pick-up signal
CH55 CBF trip pick-up signal
CH56 CBF trip pick-up signal
CH57 CBF trip pick-up signal
CH58 CBF trip pick-up signal
CH59 CBF trip pick-up signal
CH60 CBF trip pick-up signal
CH61 CBF trip pick-up signal
CH62 CBF trip pick-up signal
CH63 CBF trip pick-up signal
CH64 CBF trip pick-up signal
CH1 Busbar protecion trip
CH2 Busbar protecion trip
CH3 Busbar protecion trip
CH4 Busbar protecion trip
CH5 Busbar protecion trip
CH6 Busbar protecion trip
CH7 Busbar protecion trip
CH8 Busbar protecion trip
CH9 Busbar protecion trip
CH10 Busbar protecion trip
CH11 Busbar protecion trip
CH12 Busbar protecion trip
CH13 Busbar protecion trip
CH14 Busbar protecion trip
CH15 Busbar protecion trip
CH16 Busbar protecion trip
CH17 Busbar protecion trip
CH18 Busbar protecion trip
CH19 Busbar protecion trip
CH20 Busbar protecion trip
CH21 Busbar protecion trip
CH22 Busbar protecion trip
CH23 Busbar protecion trip
CH24 Busbar protecion trip
CH25 Busbar protecion trip
CH26 Busbar protecion trip
CH27 Busbar protecion trip
CH28 Busbar protecion trip
CH29 Busbar protecion trip
CH30 Busbar protecion trip
CH31 Busbar protecion trip
CH32 Busbar protecion trip
CH33 Busbar protecion trip
CH34 Busbar protecion trip
CH35 Busbar protecion trip
CH36 Busbar protecion trip
CH37 Busbar protecion trip
CH38 Busbar protecion trip
CH39 Busbar protecion trip
⎯ 198 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2311
2312
2313
2314
2315
2316
2317
2318
2319
2320
2321
2322
2323
2324
2325
2326
2327
2328
2329
2330
2331
2332
2333
2334
2335
2336
2337
2338
2339
2340
2341
2342
2343
2344
2345
2346
2347
2348
2349
2350
2351
2352
2353
2354
2355
2356
2357
2358
2359
2360
2361
2362
2363
2364
2365
2366
2367
2368
2369
2370
2371
2372
2373
2374
2375
2376
2377
2378
2379
2380
Signal Name
CH40-BPTP
CH41-BPTP
CH42-BPTP
CH43-BPTP
CH44-BPTP
CH45-BPTP
CH46-BPTP
CH47-BPTP
CH48-BPTP
CH49-BPTP
CH50-BPTP
CH51-BPTP
CH52-BPTP
CH53-BPTP
CH54-BPTP
CH55-BPTP
CH56-BPTP
CH57-BPTP
CH58-BPTP
CH59-BPTP
CH60-BPTP
CH61-BPTP
CH62-BPTP
CH63-BPTP
CH64-BPTP
CH1-CBFRETP
CH2-CBFRETP
CH3-CBFRETP
CH4-CBFRETP
CH5-CBFRETP
CH6-CBFRETP
CH7-CBFRETP
CH8-CBFRETP
CH9-CBFRETP
CH10-CBFRETP
CH11-CBFRETP
CH12-CBFRETP
CH13-CBFRETP
CH14-CBFRETP
CH15-CBFRETP
CH16-CBFRETP
CH17-CBFRETP
CH18-CBFRETP
CH19-CBFRETP
CH20-CBFRETP
CH21-CBFRETP
CH22-CBFRETP
CH23-CBFRETP
CH24-CBFRETP
CH25-CBFRETP
CH26-CBFRETP
CH27-CBFRETP
CH28-CBFRETP
CH29-CBFRETP
CH30-CBFRETP
CH31-CBFRETP
CH32-CBFRETP
CH33-CBFRETP
CH34-CBFRETP
CH35-CBFRETP
CH36-CBFRETP
CH37-CBFRETP
CH38-CBFRETP
CH39-CBFRETP
CH40-CBFRETP
CH41-CBFRETP
CH42-CBFRETP
CH43-CBFRETP
CH44-CBFRETP
CH45-CBFRETP
Contents
CH40 Busbar protecion trip
CH41 Busbar protecion trip
CH42 Busbar protecion trip
CH43 Busbar protecion trip
CH44 Busbar protecion trip
CH45 Busbar protecion trip
CH46 Busbar protecion trip
CH47 Busbar protecion trip
CH48 Busbar protecion trip
CH49 Busbar protecion trip
CH50 Busbar protecion trip
CH51 Busbar protecion trip
CH52 Busbar protecion trip
CH53 Busbar protecion trip
CH54 Busbar protecion trip
CH55 Busbar protecion trip
CH56 Busbar protecion trip
CH57 Busbar protecion trip
CH58 Busbar protecion trip
CH59 Busbar protecion trip
CH60 Busbar protecion trip
CH61 Busbar protecion trip
CH62 Busbar protecion trip
CH63 Busbar protecion trip
CH64 Busbar protecion trip
CH1 CBF retrip
CH2 CBF retrip
CH3 CBF retrip
CH4 CBF retrip
CH5 CBF retrip
CH6 CBF retrip
CH7 CBF retrip
CH8 CBF retrip
CH9 CBF retrip
CH10 CBF retrip
CH11 CBF retrip
CH12 CBF retrip
CH13 CBF retrip
CH14 CBF retrip
CH15 CBF retrip
CH16 CBF retrip
CH17 CBF retrip
CH18 CBF retrip
CH19 CBF retrip
CH20 CBF retrip
CH21 CBF retrip
CH22 CBF retrip
CH23 CBF retrip
CH24 CBF retrip
CH25 CBF retrip
CH26 CBF retrip
CH27 CBF retrip
CH28 CBF retrip
CH29 CBF retrip
CH30 CBF retrip
CH31 CBF retrip
CH32 CBF retrip
CH33 CBF retrip
CH34 CBF retrip
CH35 CBF retrip
CH36 CBF retrip
CH37 CBF retrip
CH38 CBF retrip
CH39 CBF retrip
CH40 CBF retrip
CH41 CBF retrip
CH42 CBF retrip
CH43 CBF retrip
CH44 CBF retrip
CH45 CBF retrip
⎯ 199 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2381
2382
2383
2384
2385
2386
2387
2388
2389
2390
2391
2392
2393
2394
2395
2396
2397
2398
2399
2400
2401
2402
2403
2404
2405
2406
2407
2408
2409
2410
2411
2412
2413
2414
2415
2416
2417
2418
2419
2420
2421
2422
2423
2424
2425
2426
2427
2428
2429
2430
2431
2432
2433
2434
2435
2436
2437
2438
2439
2440
2441
2442
2443
2444
2445
2446
2447
2448
2449
2450
Signal Name
CH46-CBFRETP
CH47-CBFRETP
CH48-CBFRETP
CH49-CBFRETP
CH50-CBFRETP
CH51-CBFRETP
CH52-CBFRETP
CH53-CBFRETP
CH54-CBFRETP
CH55-CBFRETP
CH56-CBFRETP
CH57-CBFRETP
CH58-CBFRETP
CH59-CBFRETP
CH60-CBFRETP
CH61-CBFRETP
CH62-CBFRETP
CH63-CBFRETP
CH64-CBFRETP
CH1-CBFTP
CH2-CBFTP
CH3-CBFTP
CH4-CBFTP
CH5-CBFTP
CH6-CBFTP
CH7-CBFTP
CH8-CBFTP
CH9-CBFTP
CH10-CBFTP
CH11-CBFTP
CH12-CBFTP
CH13-CBFTP
CH14-CBFTP
CH15-CBFTP
CH16-CBFTP
CH17-CBFTP
CH18-CBFTP
CH19-CBFTP
CH20-CBFTP
CH21-CBFTP
CH22-CBFTP
CH23-CBFTP
CH24-CBFTP
CH25-CBFTP
CH26-CBFTP
CH27-CBFTP
CH28-CBFTP
CH29-CBFTP
CH30-CBFTP
CH31-CBFTP
CH32-CBFTP
CH33-CBFTP
CH34-CBFTP
CH35-CBFTP
CH36-CBFTP
CH37-CBFTP
CH38-CBFTP
CH39-CBFTP
CH40-CBFTP
CH41-CBFTP
CH42-CBFTP
CH43-CBFTP
CH44-CBFTP
CH45-CBFTP
CH46-CBFTP
CH47-CBFTP
CH48-CBFTP
CH49-CBFTP
CH50-CBFTP
CH51-CBFTP
Contents
CH46 CBF retrip
CH47 CBF retrip
CH48 CBF retrip
CH49 CBF retrip
CH50 CBF retrip
CH51 CBF retrip
CH52 CBF retrip
CH53 CBF retrip
CH54 CBF retrip
CH55 CBF retrip
CH56 CBF retrip
CH57 CBF retrip
CH58 CBF retrip
CH59 CBF retrip
CH60 CBF retrip
CH61 CBF retrip
CH62 CBF retrip
CH63 CBF retrip
CH64 CBF retrip
CH1 CBF trip
CH2 CBF trip
CH3 CBF trip
CH4 CBF trip
CH5 CBF trip
CH6 CBF trip
CH7 CBF trip
CH8 CBF trip
CH9 CBF trip
CH10 CBF trip
CH11 CBF trip
CH12 CBF trip
CH13 CBF trip
CH14 CBF trip
CH15 CBF trip
CH16 CBF trip
CH17 CBF trip
CH18 CBF trip
CH19 CBF trip
CH20 CBF trip
CH21 CBF trip
CH22 CBF trip
CH23 CBF trip
CH24 CBF trip
CH25 CBF trip
CH26 CBF trip
CH27 CBF trip
CH28 CBF trip
CH29 CBF trip
CH30 CBF trip
CH31 CBF trip
CH32 CBF trip
CH33 CBF trip
CH34 CBF trip
CH35 CBF trip
CH36 CBF trip
CH37 CBF trip
CH38 CBF trip
CH39 CBF trip
CH40 CBF trip
CH41 CBF trip
CH42 CBF trip
CH43 CBF trip
CH44 CBF trip
CH45 CBF trip
CH46 CBF trip
CH47 CBF trip
CH48 CBF trip
CH49 CBF trip
CH50 CBF trip
CH51 CBF trip
⎯ 200 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2451
2452
2453
2454
2455
2456
2457
2458
2459
2460
2461
2462
2463
2464
2465
2466
2467
2468
2469
2470
2471
2472
2473
2474
2475
2476
2477
2478
2479
2480
2481
2482
2483
2484
2485
2486
2487
2488
2489
2490
2491
2492
2493
2494
2495
2496
2497
2498
2499
2500
2501
2502
2503
2504
2505
2506
2507
2508
2509
2510
2511
2512
2513
2514
2515
2516
2517
2518
2519
2520
Signal Name
CH52-CBFTP
CH53-CBFTP
CH54-CBFTP
CH55-CBFTP
CH56-CBFTP
CH57-CBFTP
CH58-CBFTP
CH59-CBFTP
CH60-CBFTP
CH61-CBFTP
CH62-CBFTP
CH63-CBFTP
CH64-CBFTP
CH1-CBF.TR
CH2-CBF.TR
CH3-CBF.TR
CH4-CBF.TR
CH5-CBF.TR
CH6-CBF.TR
CH7-CBF.TR
CH8-CBF.TR
CH9-CBF.TR
CH10-CBF.TR
CH11-CBF.TR
CH12-CBF.TR
CH13-CBF.TR
CH14-CBF.TR
CH15-CBF.TR
CH16-CBF.TR
CH17-CBF.TR
CH18-CBF.TR
CH19-CBF.TR
CH20-CBF.TR
CH21-CBF.TR
CH22-CBF.TR
CH23-CBF.TR
CH24-CBF.TR
CH25-CBF.TR
CH26-CBF.TR
CH27-CBF.TR
CH28-CBF.TR
CH29-CBF.TR
CH30-CBF.TR
CH31-CBF.TR
CH32-CBF.TR
CH33-CBF.TR
CH34-CBF.TR
CH35-CBF.TR
CH36-CBF.TR
CH37-CBF.TR
CH38-CBF.TR
CH39-CBF.TR
CH40-CBF.TR
CH41-CBF.TR
CH42-CBF.TR
CH43-CBF.TR
CH44-CBF.TR
CH45-CBF.TR
CH46-CBF.TR
CH47-CBF.TR
CH48-CBF.TR
CH49-CBF.TR
CH50-CBF.TR
CH51-CBF.TR
CH52-CBF.TR
CH53-CBF.TR
CH54-CBF.TR
CH55-CBF.TR
CH56-CBF.TR
CH57-CBF.TR
Contents
CH52 CBF trip
CH53 CBF trip
CH54 CBF trip
CH55 CBF trip
CH56 CBF trip
CH57 CBF trip
CH58 CBF trip
CH59 CBF trip
CH60 CBF trip
CH61 CBF trip
CH62 CBF trip
CH63 CBF trip
CH64 CBF trip
CH1 CBF transfer trip
CH2 CBF transfer trip
CH3 CBF transfer trip
CH4 CBF transfer trip
CH5 CBF transfer trip
CH6 CBF transfer trip
CH7 CBF transfer trip
CH8 CBF transfer trip
CH9 CBF transfer trip
CH10 CBF transfer trip
CH11 CBF transfer trip
CH12 CBF transfer trip
CH13 CBF transfer trip
CH14 CBF transfer trip
CH15 CBF transfer trip
CH16 CBF transfer trip
CH17 CBF transfer trip
CH18 CBF transfer trip
CH19 CBF transfer trip
CH20 CBF transfer trip
CH21 CBF transfer trip
CH22 CBF transfer trip
CH23 CBF transfer trip
CH24 CBF transfer trip
CH25 CBF transfer trip
CH26 CBF transfer trip
CH27 CBF transfer trip
CH28 CBF transfer trip
CH29 CBF transfer trip
CH30 CBF transfer trip
CH31 CBF transfer trip
CH32 CBF transfer trip
CH33 CBF transfer trip
CH34 CBF transfer trip
CH35 CBF transfer trip
CH36 CBF transfer trip
CH37 CBF transfer trip
CH38 CBF transfer trip
CH39 CBF transfer trip
CH40 CBF transfer trip
CH41 CBF transfer trip
CH42 CBF transfer trip
CH43 CBF transfer trip
CH44 CBF transfer trip
CH45 CBF transfer trip
CH46 CBF transfer trip
CH47 CBF transfer trip
CH48 CBF transfer trip
CH49 CBF transfer trip
CH50 CBF transfer trip
CH51 CBF transfer trip
CH52 CBF transfer trip
CH53 CBF transfer trip
CH54 CBF transfer trip
CH55 CBF transfer trip
CH56 CBF transfer trip
CH57 CBF transfer trip
⎯ 201 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2521
2522
2523
2524
2525
2526
2527
2528
2529
2530
2531
2532
2533
2534
2535
2536
2537
2538
2539
2540
2541
2542
2543
2544
2545
2546
2547
2548
2549
2550
2551
2552
2553
2554
2555
2556
2557
2558
2559
2560
2561
2562
2563
2564
2565
2566
2567
2568
2569
2570
2571
2572
2573
2574
2575
2576
2577
2578
2579
2580
2581
2582
2583
2584
2585
2586
2587
2588
2589
2590
Signal Name
CH58-CBF.TR
CH59-CBF.TR
CH60-CBF.TR
CH61-CBF.TR
CH62-CBF.TR
CH63-CBF.TR
CH64-CBF.TR
CH1-CBF/RE
CH2-CBF/RE
CH3-CBF/RE
CH4-CBF/RE
CH5-CBF/RE
CH6-CBF/RE
CH7-CBF/RE
CH8-CBF/RE
CH9-CBF/RE
CH10-CBF/RE
CH11-CBF/RE
CH12-CBF/RE
CH13-CBF/RE
CH14-CBF/RE
CH15-CBF/RE
CH16-CBF/RE
CH17-CBF/RE
CH18-CBF/RE
CH19-CBF/RE
CH20-CBF/RE
CH21-CBF/RE
CH22-CBF/RE
CH23-CBF/RE
CH24-CBF/RE
CH25-CBF/RE
CH26-CBF/RE
CH27-CBF/RE
CH28-CBF/RE
CH29-CBF/RE
CH30-CBF/RE
CH31-CBF/RE
CH32-CBF/RE
CH33-CBF/RE
CH34-CBF/RE
CH35-CBF/RE
CH36-CBF/RE
CH37-CBF/RE
CH38-CBF/RE
CH39-CBF/RE
CH40-CBF/RE
CH41-CBF/RE
CH42-CBF/RE
CH43-CBF/RE
CH44-CBF/RE
CH45-CBF/RE
CH46-CBF/RE
CH47-CBF/RE
CH48-CBF/RE
CH49-CBF/RE
CH50-CBF/RE
CH51-CBF/RE
CH52-CBF/RE
CH53-CBF/RE
CH54-CBF/RE
CH55-CBF/RE
CH56-CBF/RE
CH57-CBF/RE
CH58-CBF/RE
CH59-CBF/RE
CH60-CBF/RE
CH61-CBF/RE
CH62-CBF/RE
CH63-CBF/RE
Contents
CH58 CBF transfer trip
CH59 CBF transfer trip
CH60 CBF transfer trip
CH61 CBF transfer trip
CH62 CBF transfer trip
CH63 CBF transfer trip
CH64 CBF transfer trip
CH1 CBF retrip/trip
CH2 CBF retrip/trip
CH3 CBF retrip/trip
CH4 CBF retrip/trip
CH5 CBF retrip/trip
CH6 CBF retrip/trip
CH7 CBF retrip/trip
CH8 CBF retrip/trip
CH9 CBF retrip/trip
CH10 CBF retrip/trip
CH11 CBF retrip/trip
CH12 CBF retrip/trip
CH13 CBF retrip/trip
CH14 CBF retrip/trip
CH15 CBF retrip/trip
CH16 CBF retrip/trip
CH17 CBF retrip/trip
CH18 CBF retrip/trip
CH19 CBF retrip/trip
CH20 CBF retrip/trip
CH21 CBF retrip/trip
CH22 CBF retrip/trip
CH23 CBF retrip/trip
CH24 CBF retrip/trip
CH25 CBF retrip/trip
CH26 CBF retrip/trip
CH27 CBF retrip/trip
CH28 CBF retrip/trip
CH29 CBF retrip/trip
CH30 CBF retrip/trip
CH31 CBF retrip/trip
CH32 CBF retrip/trip
CH33 CBF retrip/trip
CH34 CBF retrip/trip
CH35 CBF retrip/trip
CH36 CBF retrip/trip
CH37 CBF retrip/trip
CH38 CBF retrip/trip
CH39 CBF retrip/trip
CH40 CBF retrip/trip
CH41 CBF retrip/trip
CH42 CBF retrip/trip
CH43 CBF retrip/trip
CH44 CBF retrip/trip
CH45 CBF retrip/trip
CH46 CBF retrip/trip
CH47 CBF retrip/trip
CH48 CBF retrip/trip
CH49 CBF retrip/trip
CH50 CBF retrip/trip
CH51 CBF retrip/trip
CH52 CBF retrip/trip
CH53 CBF retrip/trip
CH54 CBF retrip/trip
CH55 CBF retrip/trip
CH56 CBF retrip/trip
CH57 CBF retrip/trip
CH58 CBF retrip/trip
CH59 CBF retrip/trip
CH60 CBF retrip/trip
CH61 CBF retrip/trip
CH62 CBF retrip/trip
CH63 CBF retrip/trip
⎯ 202 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2591
2592
2593
2594
2595
2596
2597
2598
2599
2600
2601
2602
2603
2604
2605
2606
2607
2608
2609
2610
2611
2612
2613
2614
2615
2616
2617
2618
2619
2620
2621
2622
2623
2624
2625
2626
2627
2628
2629
2630
2631
2632
2633
2634
2635
2636
2637
2638
2639
2640
2641
2642
2643
2644
2645
2646
2647
2648
2649
2650
2651
2652
2653
2654
2655
2656
2657
2658
2659
2660
Signal Name
CH64-CBF/RE
CH1-COMTP
CH2-COMTP
CH3-COMTP
CH4-COMTP
CH5-COMTP
CH6-COMTP
CH7-COMTP
CH8-COMTP
CH9-COMTP
CH10-COMTP
CH11-COMTP
CH12-COMTP
CH13-COMTP
CH14-COMTP
CH15-COMTP
CH16-COMTP
CH17-COMTP
CH18-COMTP
CH19-COMTP
CH20-COMTP
CH21-COMTP
CH22-COMTP
CH23-COMTP
CH24-COMTP
CH25-COMTP
CH26-COMTP
CH27-COMTP
CH28-COMTP
CH29-COMTP
CH30-COMTP
CH31-COMTP
CH32-COMTP
CH33-COMTP
CH34-COMTP
CH35-COMTP
CH36-COMTP
CH37-COMTP
CH38-COMTP
CH39-COMTP
CH40-COMTP
CH41-COMTP
CH42-COMTP
CH43-COMTP
CH44-COMTP
CH45-COMTP
CH46-COMTP
CH47-COMTP
CH48-COMTP
CH49-COMTP
CH50-COMTP
CH51-COMTP
CH52-COMTP
CH53-COMTP
CH54-COMTP
CH55-COMTP
CH56-COMTP
CH57-COMTP
CH58-COMTP
CH59-COMTP
CH60-COMTP
CH61-COMTP
CH62-COMTP
CH63-COMTP
CH64-COMTP
Contents
CH64 CBF retrip/trip
CH1 command trip
CH2 command trip
CH3 command trip
CH4 command trip
CH5 command trip
CH6 command trip
CH7 command trip
CH8 command trip
CH9 command trip
CH10 command trip
CH11 command trip
CH12 command trip
CH13 command trip
CH14 command trip
CH15 command trip
CH16 command trip
CH17 command trip
CH18 command trip
CH19 command trip
CH20 command trip
CH21 command trip
CH22 command trip
CH23 command trip
CH24 command trip
CH25 command trip
CH26 command trip
CH27 command trip
CH28 command trip
CH29 command trip
CH30 command trip
CH31 command trip
CH32 command trip
CH33 command trip
CH34 command trip
CH35 command trip
CH36 command trip
CH37 command trip
CH38 command trip
CH39 command trip
CH40 command trip
CH41 command trip
CH42 command trip
CH43 command trip
CH44 command trip
CH45 command trip
CH46 command trip
CH47 command trip
CH48 command trip
CH49 command trip
CH50 command trip
CH51 command trip
CH52 command trip
CH53 command trip
CH54 command trip
CH55 command trip
CH56 command trip
CH57 command trip
CH58 command trip
CH59 command trip
CH60 command trip
CH61 command trip
CH62 command trip
CH63 command trip
CH64 command trip
⎯ 203 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2661
2662
2663
2664
2665
2666
2667
2668
2669
2670
2671
2672
2673
2674
2675
2676
2677
2678
2679
2680
2681
2682
2683
2684
2685
2686
2687
2688
2689
2690
2691
2692
2693
2694
2695
2696
2697
2698
2699
2700
2701
2702
2703
2704
2705
2706
2707
2708
2709
2710
2711
2712
2713
2714
2715
2716
2717
2718
2719
2720
2721
2722
2723
2724
2725
2726
2727
2728
2729
2730
Signal Name
Contents
⎯ 204 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2731
2732
2733
2734
2735
2736
2737
2738
2739
2740
2741
2742
2743
2744
2745
2746
2747
2748
2749
2750
2751
2752
2753
2754
2755
2756
2757
2758
2759
2760
2761
2762
2763
2764
2765
2766
2767
2768
2769
2770
2771
2772
2773
2774
2775
2776
2777
2778
2779
2780
2781
2782
2783
2784
2785
2786
2787
2788
2789
2790
2791
2792
2793
2794
2795
2796
2797
2798
2799
2800
Signal Name
Contents
⎯ 205 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2801
2802
2803
2804
2805
2806
2807
2808
2809
2810
2811
2812
2813
2814
2815
2816
2817
2818
2819
2820
2821
2822
2823
2824
2825
2826
2827
2828
2829
2830
2831
2832
2833
2834
2835
2836
2837
2838
2839
2840
2841
2842
2843
2844
2845
2846
2847
2848
2849
2850
2851
2852
2853
2854
2855
2856
2857
2858
2859
2860
2861
2862
2863
2864
2865
2866
2867
2868
2869
2870
Signal Name
Contents
IEC MDBLK
IEC TESTMODE
GROUP1 ACTIVE
GROUP2 ACTIVE
GROUP3 ACTIVE
GROUP4 ACTIVE
monitor direction blocked
IEC61870-5-103 testmode
group1 active
group2 active
group3 active
group4 active
RLY FAIL
RLY OP BLK
AMF OFF
DSSV
CBSV
BISV
IDSV
RELAY FAIL-A
OPSV
RELAY FAILURE
RELAY OUTPUT BLOCK
SV BLOCK
DS failure signal
CB failure signal
BI failure signal
ID failure signal
TRIP-H
Trip signal hold
BRIDGE ALARM
CT ERR
V0 ERR
V2 ERR
IDSV-ZA
IDSV-ZB
IDSV-ZC
IDSV-ZD
IDSV-CH
DSSV DS1
DSSV DS2
DSSV DS3
DSSV DS4
GEN PICKUP
GEN TRIP
DSSV ZA
DSSV ZB
DSSV ZC
DSSV ZD
Bridge alarm signal
ID fail signal(Discriminating zone A)
ID fail signal(Discriminating zone B)
ID fail signal(Discriminating zone C)
ID fail signal(Discriminating zone D)
ID fail signal(Chack zone)
DS1 failure signal
DS2 failure signal
DS3 failure signal
DS4 failure signal
General start/pick-up
General trip
ZoneA DS failure signal
ZoneB DS failure signal
ZoneC DS failure signal
ZoneD DS failure signal
CTF-ZA
CTF-ZB
CTF-ZC
CTF-ZD
CTF-CH
CTF-ZA ALARM
CTF-ZB ALARM
CTF-ZC ALARM
CTF detection
ditto
ditto
ditto
ditto
CTF alarm
ditto
ditto
⎯ 206 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2871
2872
2873
2874
2875
2876
2877
2878
2879
2880
2881
2882
2883
2884
2885
2886
2887
2888
2889
2890
2891
2892
2893
2894
2895
2896
2897
2898
2899
2900
2901
2902
2903
2904
2905
2906
2907
2908
2909
2910
2911
2912
2913
2914
2915
2916
2917
2918
2919
2920
2921
2922
2923
2924
2925
2926
2927
2928
2929
2930
2931
2932
2933
2934
2935
2936
2937
2938
2939
2940
Signal Name
CTF-ZD ALARM
CTF-CH ALARM
CTF ALARM
CT1 ERR
CT2 ERR
CT3 ERR
CT4 ERR
CT5_ERR
CT6_ERR
CT7_ERR
CT8_ERR
CT9_ERR
CT10_ERR
CT11_ERR
CT12_ERR
CT13_ERR
CT14_ERR
CT15_ERR
CT16_ERR
CT17_ERR
CT18_ERR
CT19_ERR
CT20_ERR
CT21_ERR
CT22_ERR
CT23_ERR
CT24_ERR
CT25_ERR
CT26_ERR
CT27_ERR
CT28_ERR
CT29_ERR
CT30_ERR
CT31_ERR
CT32_ERR
CT33_ERR
CT34_ERR
CT35_ERR
CT36_ERR
CT37_ERR
CT38_ERR
CT39_ERR
CT40_ERR
CT41_ERR
CT42_ERR
CT43_ERR
CT44_ERR
CT45_ERR
CT46_ERR
CT47_ERR
CT48_ERR
CT49_ERR
CT50_ERR
CT51_ERR
CT52_ERR
CT53_ERR
CT54_ERR
CT55_ERR
CT56_ERR
CT57_ERR
CT58_ERR
CT59_ERR
CT60_ERR
CT61_ERR
CT62_ERR
CT63_ERR
CT64_ERR
V0_ZA_ERR
V0_ZB_ERR
V0_ZC_ERR
Contents
ditto
ditto
ditto
CT failure
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
V0 failure
ditto
ditto
⎯ 207 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
2941
2942
2943
2944
2945
2946
2947
2948
2949
2950
2951
2952
2953
2954
2955
2956
2957
2958
2959
2960
2961
2962
2963
2964
2965
2966
2967
2968
2969
2970
2971
2972
2973
2974
2975
2976
2977
2978
2979
2980
2981
2982
2983
2984
2985
2986
2987
2988
2989
2990
2991
2992
2993
2994
2995
2996
2997
2998
2999
3000
3001
3002
3003
3004
3005
3006
3007
3008
3009
3010
Signal Name
V0_ZD_ERR
V2_ZA_ERR
V2_ZB_ERR
V2_ZC_ERR
V2_ZD_ERR
Contents
ditto
V2 failure
ditto
ditto
ditto
⎯ 208 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3011
3012
3013
3014
3015
3016
3017
3018
3019
3020
3021
3022
3023
3024
3025
3026
3027
3028
3029
3030
3031
3032
3033
3034
3035
3036
3037
3038
3039
3040
3041
3042
3043
3044
3045
3046
3047
3048
3049
3050
3051
3052
3053
3054
3055
3056
3057
3058
3059
3060
3061
3062
3063
3064
3065
3066
3067
3068
3069
3070
3071
3072
3073
3074
3075
3076
3077
3078
3079
3080
Signal Name
FAULT PHA A
FAULT PHA B
FAULT PHA C
LOCAL OP ACT
REMOTE OP ACT
NORM LED ON
ALM LED ON
TRIP LED ON
TEST LED ON
Contents
fault phase A
fault phase B
fault phase C
local operation active
remote operation active
IN-SERVICE LED ON
ALARM LED ON
TRIP LED ON
TEST LED ON
⎯ 209 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3081
3082
3083
3084
3085
3086
3087
3088
3089
3090
3091
3092
3093
3094
3095
3096
3097
3098
3099
3100
3101
3102
3103
3104
3105
3106
3107
3108
3109
3110
3111
3112
3113
3114
3115
3116
3117
3118
3119
3120
3121
3122
3123
3124
3125
3126
3127
3128
3129
3130
3131
3132
3133
3134
3135
3136
3137
3138
3139
3140
3141
3142
3143
3144
3145
3146
3147
3148
3149
3150
Signal Name
LED RESET
PROT COM ON
PRG LED1 ON
PRG LED2 ON
PRG LED3 ON
PRG LED4 ON
Contents
TRIP LED RESET
IEC103 communication command (reserved)
IEC103 communication command (reserved)
IEC103 communication command
PROGRAMMABLE LED1 ON
PROGRAMMABLE LED2 ON
PROGRAMMABLE LED3 ON
PROGRAMMABLE LED4 ON
PROGRAMMABLE LED5 ON (reserved)
PROGRAMMABLE LED6 ON (reserved)
PROGRAMMABLE LED7 ON (reserved)
PROGRAMMABLE LED8 ON (reserved)
PROGRAMMABLE LED9 ON (reserved)
PROGRAMMABLE LED10 ON (reserved)
PROGRAMMABLE LED11 ON (reserved)
PROGRAMMABLE LED12 ON (reserved)
PROGRAMMABLE LED13 ON (reserved)
PROGRAMMABLE LED14 ON (reserved)
PROGRAMMABLE LED15 ON (reserved)
PROGRAMMABLE LED16 ON (reserved)
BU-OUT
F.Record DONE
F.Record CLR
E.Record CLR
D.Record CLR
Data Lost
Any BU out of service condition
fault location completed
Fault record clear
Event record clear
Disturbance record clear
Data clear by BU-RAM memory monitoring error
PLC data CHG
IEC103 data CHG
IEC850 data CHG
Sys.set change
Rly.set change
Grp.set change
PLC data change
IEC-103 data change
IEC-850 data change
System setting change
Relay setting change
Group setting change
KEY-VIEW
KEY-RESET
KEY-ENTER
KEY-END
KEY-CANCEL
VIEW key status (1:pressed)
RESET key status (2:pressed)
ENTER key status (3:pressed)
END key status (4:pressed)
CANCEL key status (5:pressed)
DC supply err
RTC err
PCI err
GOOSE stop
Ping err
PLC err
61850 err
SUM err
ROM RAM err
SRAM err
BU RAM err
DIDIS err
DC supply error
RTC stopped
PCI bus error
GOOSE stopped
Ping no anwer
PLC stopeed
61850 stopped
Program ROM checksum error
Rom - Ram mismatch error
SRAM memory monitoring error
BU-RAM memory monitoring error
DIDIS error
⎯ 210 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3151
3152
3153
3154
3155
3156
3157
3158
3159
3160
3161
3162
3163
3164
3165
3166
3167
3168
3169
3170
3171
3172
3173
3174
3175
3176
3177
3178
3179
3180
3181
3182
3183
3184
3185
3186
3187
3188
3189
3190
3191
3192
3193
3194
3195
3196
3197
3198
3199
3200
3201
3202
3203
3204
3205
3206
3207
3208
3209
3210
3211
3212
3213
3214
3215
3216
3217
3218
3219
3220
Signal Name
EEPROM err
Contents
EEPROM memory monitoring error
A/D err
CPU err
Invalid
NMI
Sampling err
DIO err
LAN err
LCD err
ROM data err
FEP1 SUM err
FEP1 ROMR err
FEP1 SRAM err
FEP1 DPR err
FEP1 stopped
FEP1 CPU err
FEP1 INV err
FEP1 NMI
FEP1 SP err
FEP2 SUM err
FEP2 ROMR err
FEP2 SRAM err
FEP2 DPR err
FEP2 stopped
FEP2 CPU err
FEP2 INV err
FEP2 NMI
FEP2 SP err
A/D accuracy checking error
Program error
Invalid error
NMI
Sampling error
DIO card connection error
LAN error
LCD panel connection error
8M Romdata error
FEP#1 Program ROM checksum error
FEP#1 ROM-RAM error
FEP#1 SRAM memory monitoring error
FEP#1 DP-RAM memory monitoring error
FEP#1 stopped
FEP#1 CPU error
FEP#1 Invalid
FEP#1 NMI
FEP#1 Sampling error
FEP#2 Program ROM checksum error
FEP#2 ROM-RAM error
FEP#2 SRAM memory monitoring error
FEP#2 DP-RAM memory monitoring error
FEP#2 stopped
FEP#2 CPU error
FEP#2 Invalid
FEP#2 NMI
FEP#2 Sampling error
BU_COM_err
BU_EEPROM_err
BU_AIREV_err
BU_AD_err
BU_DIO_err
BU_ADDR_err
BU_OUTPUT_err
BU Communication error (OR)
BU EEPROM error (OR)
BU AI Rev-data error (OR)
BU AD error (OR)
BU DIO error (OR)
BU Address error(OR)
BU Output error (OR)
⎯ 211 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3221
3222
3223
3224
3225
3226
3227
3228
3229
3230
3231
3232
3233
3234
3235
3236
3237
3238
3239
3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3250
3251
3252
3253
3254
3255
3256
3257
3258
3259
3260
3261
3262
3263
3264
3265
3266
3267
3268
3269
3270
3271
3272
3273
3274
3275
3276
3277
3278
3279
3280
3281
3282
3283
3284
3285
3286
3287
3288
3289
3290
Signal Name
Contents
⎯ 212 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3291
3292
3293
3294
3295
3296
3297
3298
3299
3300
3301
3302
3303
3304
3305
3306
3307
3308
3309
3310
3311
3312
3313
3314
3315
3316
3317
3318
3319
3320
3321
3322
3323
3324
3325
3326
3327
3328
3329
3330
3331
3332
3333
3334
3335
3336
3337
3338
3339
3340
3341
3342
3343
3344
3345
3346
3347
3348
3349
3350
3351
3352
3353
3354
3355
3356
3357
3358
3359
3360
Signal Name
GOOSE_IN_Q1
GOOSE_IN_Q2
GOOSE_IN_Q3
GOOSE_IN_Q4
GOOSE_IN_Q5
GOOSE_IN_Q6
GOOSE_IN_Q7
GOOSE_IN_Q8
GOOSE_IN_Q9
GOOSE_IN_Q10
GOOSE_IN_Q11
GOOSE_IN_Q12
GOOSE_IN_Q13
GOOSE_IN_Q14
GOOSE_IN_Q15
GOOSE_IN_Q16
GOOSE_IN_Q17
GOOSE_IN_Q18
GOOSE_IN_Q19
GOOSE_IN_Q20
GOOSE_IN_Q21
GOOSE_IN_Q22
GOOSE_IN_Q23
GOOSE_IN_Q24
GOOSE_IN_Q25
GOOSE_IN_Q26
GOOSE_IN_Q27
GOOSE_IN_Q28
GOOSE_IN_Q29
GOOSE_IN_Q30
GOOSE_IN_Q31
GOOSE_IN_Q32
GOOSE_IN_1
Contents
Goose Input Quality #1
Goose Input Quality #2
Goose Input Quality #3
Goose Input Quality #4
Goose Input Quality #5
Goose Input Quality #6
Goose Input Quality #7
Goose Input Quality #8
Goose Input Quality #9
Goose Input Quality #10
Goose Input Quality #11
Goose Input Quality #12
Goose Input Quality #13
Goose Input Quality #14
Goose Input Quality #15
Goose Input Quality #16
Goose Input Quality #17
Goose Input Quality #18
Goose Input Quality #19
Goose Input Quality #20
Goose Input Quality #21
Goose Input Quality #22
Goose Input Quality #23
Goose Input Quality #24
Goose Input Quality #25
Goose Input Quality #26
Goose Input Quality #27
Goose Input Quality #28
Goose Input Quality #29
Goose Input Quality #30
Goose Input Quality #31
Goose Input Quality #32
Goose Input #1
⎯ 213 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3361
3362
3363
3364
3365
3366
3367
3368
3369
3370
3371
3372
3373
3374
3375
3376
3377
3378
3379
3380
3381
3382
3383
3384
3385
3386
3387
3388
3389
3390
3391
3392
3393
3394
3395
3396
3397
3398
3399
3400
3401
3402
3403
3404
3405
3406
3407
3408
3409
3410
3411
3412
3413
3414
3415
3416
3417
3418
3419
3420
3421
3422
3423
3424
3425
3426
3427
3428
3429
3430
Signal Name
GOOSE_IN_2
GOOSE_IN_3
GOOSE_IN_4
GOOSE_IN_5
GOOSE_IN_6
GOOSE_IN_7
GOOSE_IN_8
GOOSE_IN_9
GOOSE_IN_10
GOOSE_IN_11
GOOSE_IN_12
GOOSE_IN_13
GOOSE_IN_14
GOOSE_IN_15
GOOSE_IN_16
GOOSE_IN_17
GOOSE_IN_18
GOOSE_IN_19
GOOSE_IN_20
GOOSE_IN_21
GOOSE_IN_22
GOOSE_IN_23
GOOSE_IN_24
GOOSE_IN_25
GOOSE_IN_26
GOOSE_IN_27
GOOSE_IN_28
GOOSE_IN_29
GOOSE_IN_30
GOOSE_IN_31
GOOSE_IN_32
Contents
Goose Input #2
Goose Input #3
Goose Input #4
Goose Input #5
Goose Input #6
Goose Input #7
Goose Input #8
Goose Input #9
Goose Input #10
Goose Input #11
Goose Input #12
Goose Input #13
Goose Input #14
Goose Input #15
Goose Input #16
Goose Input #17
Goose Input #18
Goose Input #19
Goose Input #20
Goose Input #21
Goose Input #22
Goose Input #23
Goose Input #24
Goose Input #25
Goose Input #26
Goose Input #27
Goose Input #28
Goose Input #29
Goose Input #30
Goose Input #31
Goose Input #32
⎯ 214 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3431
3432
3433
3434
3435
3436
3437
3438
3439
3440
3441
3442
3443
3444
3445
3446
3447
3448
3449
3450
3451
3452
3453
3454
3455
3456
3457
3458
3459
3460
3461
3462
3463
3464
3465
3466
3467
3468
3469
3470
3471
3472
3473
3474
3475
3476
3477
3478
3479
3480
3481
3482
3483
3484
3485
3486
3487
3488
3489
3490
3491
3492
3493
3494
3495
3496
3497
3498
3499
3500
Signal Name
Contents
⎯ 215 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3501
3502
3503
3504
3505
3506
3507
3508
3509
3510
3511
3512
3513
3514
3515
3516
3517
3518
3519
3520
3521
3522
3523
3524
3525
3526
3527
3528
3529
3530
3531
3532
3533
3534
3535
3536
3537
3538
3539
3540
3541
3542
3543
3544
3545
3546
3547
3548
3549
3550
3551
3552
3553
3554
3555
3556
3557
3558
3559
3560
3561
3562
3563
3564
3565
3566
3567
3568
3569
3570
Signal Name
Contents
⎯ 216 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3571
3572
3573
3574
3575
3576
3577
3578
3579
3580
3581
3582
3583
Signal Name
Contents
⎯ 217 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3584
3585
3586
3587
3588
3589
3590
3591
3592
3593
3594
3595
3596
3597
3598
3599
3600
3601
3602
3603
3604
3605
3606
3607
3608
3609
3610
3611
3612
3613
3614
3615
3616
3617
3618
3619
3620
3621
3622
3623
3624
3625
3626
3627
3628
3629
3630
3631
3632
3633
3634
3635
3636
3637
3638
3639
3640
3641
3642
3643
3644
3645
3646
3647
3648
3649
3650
3651
3652
3653
3654
Signal Name
Contents
CH1-DS2 N/O
CH1-DS2 N/C
CH1-DS3 N/O
CH1-DS3 N/C
CH1-DS4 N/O
CH1-DS4 N/C
CH1-CB N/O
CH1-CB N/C
CH1 DS2 normaly open contact
CH1 DS2 normaly close contact
CH1 DS3 normaly open contact
CH1 DS3 normaly close contact
CH1 DS4 normaly open contact
CH1 DS4 normaly close contact
CH1 CB normaly open contact
CH1 CB normaly close contact
CH2-DS2 N/O
CH2-DS2 N/C
CH2-DS3 N/O
CH2-DS3 N/C
CH2-DS4 N/O
CH2-DS4 N/C
CH2-CB N/O
CH2-CB N/C
CH2 DS2 normaly open contact
CH2 DS2 normaly close contact
CH2 DS3 normaly open contact
CH2 DS3 normaly close contact
CH2 DS4 normaly open contact
CH2 DS4 normaly close contact
CH2 CB normaly open contact
CH2 CB normaly close contact
CH3-DS2 N/O
CH3-DS2 N/C
CH3-DS3 N/O
CH3-DS3 N/C
CH3-DS4 N/O
CH3-DS4 N/C
CH3-CB N/O
CH3-CB N/C
CH3 DS2 normaly open contact
CH3 DS2 normaly close contact
CH3 DS3 normaly open contact
CH3 DS3 normaly close contact
CH3 DS4 normaly open contact
CH3 DS4 normaly close contact
CH3 CB normaly open contact
CH3 CB normaly close contact
CH4-DS2 N/O
CH4-DS2 N/C
CH4-DS3 N/O
CH4-DS3 N/C
CH4-DS4 N/O
CH4-DS4 N/C
CH4-CB N/O
CH4-CB N/C
CH4 DS2 normaly open contact
CH4 DS2 normaly close contact
CH4 DS3 normaly open contact
CH4 DS3 normaly close contact
CH4 DS4 normaly open contact
CH4 DS4 normaly close contact
CH4 CB normaly open contact
CH4 CB normaly close contact
CH5-DS2
CH5-DS2
CH5-DS3
CH5-DS3
CH5-DS4
CH5 DS2 normaly open contact
CH5 DS2 normaly close contact
CH5 DS3 normaly open contact
CH5 DS3 normaly close contact
CH5 DS4 normaly open contact
N/O
N/C
N/O
N/C
N/O
⎯ 218 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3655
3656
3657
3658
3659
3660
3661
3662
3663
3664
3665
3666
3667
3668
3669
3670
3671
3672
3673
3674
3675
3676
3677
3678
3679
3680
3681
3682
3683
3684
3685
3686
3687
3688
3689
3690
3691
3692
3693
3694
3695
3696
3697
3698
3699
3700
3701
3702
3703
3704
3705
3706
3707
3708
3709
3710
3711
3712
3713
3714
3715
3716
3717
3718
3719
3720
3721
3722
3723
3724
Signal Name
CH5-DS4 N/C
CH5-CB N/O
CH5-CB N/C
CH5 DS4 normaly close contact
CH5 CB normaly open contact
CH5 CB normaly close contact
Contents
CH6-DS2 N/O
CH6-DS2 N/C
CH6-DS3 N/O
CH6-DS3 N/C
CH6-DS4 N/O
CH6-DS4 N/C
CH6-CB N/O
CH6-CB N/C
CH6 DS2 normaly open contact
CH6 DS2 normaly close contact
CH6 DS3 normaly open contact
CH6 DS3 normaly close contact
CH6 DS4 normaly open contact
CH6 DS4 normaly close contact
CH6 CB normaly open contact
CH6 CB normaly close contact
CH7-DS2 N/O
CH7-DS2 N/C
CH7-DS3 N/O
CH7-DS3 N/C
CH7-DS4 N/O
CH7-DS4 N/C
CH7-CB N/O
CH7-CB N/C
CH7 DS2 normaly open contact
CH7 DS2 normaly close contact
CH7 DS3 normaly open contact
CH7 DS3 normaly close contact
CH7 DS4 normaly open contact
CH7 DS4 normaly close contact
CH7 CB normaly open contact
CH7 CB normaly close contact
CH8-DS2 N/O
CH8-DS2 N/C
CH8-DS3 N/O
CH8-DS3 N/C
CH8-DS4 N/O
CH8-DS4 N/C
CH8-CB N/O
CH8-CB N/C
CH8 DS2 normaly open contact
CH8 DS2 normaly close contact
CH8 DS3 normaly open contact
CH8 DS3 normaly close contact
CH8 DS4 normaly open contact
CH8 DS4 normaly close contact
CH8 CB normaly open contact
CH8 CB normaly close contact
CH9-DS2 N/O
CH9-DS2 N/C
CH9-DS3 N/O
CH9-DS3 N/C
CH9-DS4 N/O
CH9-DS4 N/C
CH9-CB N/O
CH9-CB N/C
CH9 DS2 normaly open contact
CH9 DS2 normaly close contact
CH9 DS3 normaly open contact
CH9 DS3 normaly close contact
CH9 DS4 normaly open contact
CH9 DS4 normaly close contact
CH9 CB normaly open contact
CH9 CB normaly close contact
⎯ 219 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3725
3726
3727
3728
3729
3730
3731
3732
3733
3734
3735
3736
3737
3738
3739
3740
3741
3742
3743
3744
3745
3746
3747
3748
3749
3750
3751
3752
3753
3754
3755
3756
3757
3758
3759
3760
3761
3762
3763
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782
3783
3784
3785
3786
3787
3788
3789
3790
3791
3792
3793
3794
Signal Name
Contents
CH10-DS2 N/O
CH10-DS2 N/C
CH10-DS3 N/O
CH10-DS3 N/C
CH10-DS4 N/O
CH10-DS4 N/C
CH10-CB N/O
CH10-CB N/C
CH10 DS2 normaly open contact
CH10 DS2 normaly close contact
CH10 DS3 normaly open contact
CH10 DS3 normaly close contact
CH10 DS4 normaly open contact
CH10 DS4 normaly close contact
CH10 CB normaly open contact
CH10 CB normaly close contact
CH11-DS2 N/O
CH11-DS2 N/C
CH11-DS3 N/O
CH11-DS3 N/C
CH11-DS4 N/O
CH11-DS4 N/C
CH11-CB N/O
CH11-CB N/C
CH11 DS2 normaly open contact
CH11 DS2 normaly close contact
CH11 DS3 normaly open contact
CH11 DS3 normaly close contact
CH11 DS4 normaly open contact
CH11 DS4 normaly close contact
CH11 CB normaly open contact
CH11 CB normaly close contact
CH12-DS2 N/O
CH12-DS2 N/C
CH12-DS3 N/O
CH12-DS3 N/C
CH12-DS4 N/O
CH12-DS4 N/C
CH12-CB N/O
CH12-CB N/C
CH12 DS2 normaly open contact
CH12 DS2 normaly close contact
CH12 DS3 normaly open contact
CH12 DS3 normaly close contact
CH12 DS4 normaly open contact
CH12 DS4 normaly close contact
CH12 CB normaly open contact
CH12 CB normaly close contact
CH13-DS2 N/O
CH13-DS2 N/C
CH13-DS3 N/O
CH13-DS3 N/C
CH13-DS4 N/O
CH13-DS4 N/C
CH13-CB N/O
CH13-CB N/C
CH13 DS2 normaly open contact
CH13 DS2 normaly close contact
CH13 DS3 normaly open contact
CH13 DS3 normaly close contact
CH13 DS4 normaly open contact
CH13 DS4 normaly close contact
CH13 CB normaly open contact
CH13 CB normaly close contact
CH14-DS2 N/O
CH14 DS2 normaly open contact
⎯ 220 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3795
3796
3797
3798
3799
3800
3801
3802
3803
3804
3805
3806
3807
3808
3809
3810
3811
3812
3813
3814
3815
3816
3817
3818
3819
3820
3821
3822
3823
3824
3825
3826
3827
3828
3829
3830
3831
3832
3833
3834
3835
3836
3837
3838
3839
3840
3841
3842
3843
3844
3845
3846
3847
3848
3849
3850
3851
3852
3853
3854
3855
3856
3857
3858
3859
3860
3861
3862
3863
3864
Signal Name
CH14-DS2 N/C
CH14-DS3 N/O
CH14-DS3 N/C
CH14-DS4 N/O
CH14-DS4 N/C
CH14-CB N/O
CH14-CB N/C
CH14 DS2 normaly close contact
CH14 DS3 normaly open contact
CH14 DS3 normaly close contact
CH14 DS4 normaly open contact
CH14 DS4 normaly close contact
CH14 CB normaly open contact
CH14 CB normaly close contact
Contents
CH15-DS2 N/O
CH15-DS2 N/C
CH15-DS3 N/O
CH15-DS3 N/C
CH15-DS4 N/O
CH15-DS4 N/C
CH15-CB N/O
CH15-CB N/C
CH15 DS2 normaly open contact
CH15 DS2 normaly close contact
CH15 DS3 normaly open contact
CH15 DS3 normaly close contact
CH15 DS4 normaly open contact
CH15 DS4 normaly close contact
CH15 CB normaly open contact
CH15 CB normaly close contact
CH16-DS2 N/O
CH16-DS2 N/C
CH16-DS3 N/O
CH16-DS3 N/C
CH16-DS4 N/O
CH16-DS4 N/C
CH16-CB N/O
CH16-CB N/C
CH16 DS2 normaly open contact
CH16 DS2 normaly close contact
CH16 DS3 normaly open contact
CH16 DS3 normaly close contact
CH16 DS4 normaly open contact
CH16 DS4 normaly close contact
CH16 CB normaly open contact
CH16 CB normaly close contact
CH17-DS2 N/O
CH17-DS2 N/C
CH17-DS3 N/O
CH17-DS3 N/C
CH17-DS4 N/O
CH17-DS4 N/C
CH17-CB N/O
CH17-CB N/C
CH17 DS2 normaly open contact
CH17 DS2 normaly close contact
CH17 DS3 normaly open contact
CH17 DS3 normaly close contact
CH17 DS4 normaly open contact
CH17 DS4 normaly close contact
CH17 CB normaly open contact
CH17 CB normaly close contact
CH18-DS2 N/O
CH18-DS2 N/C
CH18-DS3 N/O
CH18-DS3 N/C
CH18-DS4 N/O
CH18-DS4 N/C
CH18-CB N/O
CH18 DS2 normaly open contact
CH18 DS2 normaly close contact
CH18 DS3 normaly open contact
CH18 DS3 normaly close contact
CH18 DS4 normaly open contact
CH18 DS4 normaly close contact
CH18 CB normaly open contact
⎯ 221 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3865
3866
3867
3868
3869
3870
3871
3872
3873
3874
3875
3876
3877
3878
3879
3880
3881
3882
3883
3884
3885
3886
3887
3888
3889
3890
3891
3892
3893
3894
3895
3896
3897
3898
3899
3900
3901
3902
3903
3904
3905
3906
3907
3908
3909
3910
3911
3912
3913
3914
3915
3916
3917
3918
3919
3920
3921
3922
3923
3924
3925
3926
3927
3928
3929
3930
3931
3932
3933
3934
Signal Name
CH18-CB N/C
CH18 CB normaly close contact
Contents
CH19-DS2 N/O
CH19-DS2 N/C
CH19-DS3 N/O
CH19-DS3 N/C
CH19-DS4 N/O
CH19-DS4 N/C
CH19-CB N/O
CH19-CB N/C
CH19 DS2 normaly open contact
CH19 DS2 normaly close contact
CH19 DS3 normaly open contact
CH19 DS3 normaly close contact
CH19 DS4 normaly open contact
CH19 DS4 normaly close contact
CH19 CB normaly open contact
CH19 CB normaly close contact
CH20-DS2 N/O
CH20-DS2 N/C
CH20-DS3 N/O
CH20-DS3 N/C
CH20-DS4 N/O
CH20-DS4 N/C
CH20-CB N/O
CH20-CB N/C
CH20 DS2 normaly open contact
CH20 DS2 normaly close contact
CH20 DS3 normaly open contact
CH20 DS3 normaly close contact
CH20 DS4 normaly open contact
CH20 DS4 normaly close contact
CH20 CB normaly open contact
CH20 CB normaly close contact
CH21-DS2 N/O
CH21-DS2 N/C
CH21-DS3 N/O
CH21-DS3 N/C
CH21-DS4 N/O
CH21-DS4 N/C
CH21-CB N/O
CH21-CB N/C
CH21 DS2 normaly open contact
CH21 DS2 normaly close contact
CH21 DS3 normaly open contact
CH21 DS3 normaly close contact
CH21 DS4 normaly open contact
CH21 DS4 normaly close contact
CH21 CB normaly open contact
CH21 CB normaly close contact
CH22-DS2 N/O
CH22-DS2 N/C
CH22-DS3 N/O
CH22-DS3 N/C
CH22-DS4 N/O
CH22-DS4 N/C
CH22-CB N/O
CH22-CB N/C
CH22 DS2 normaly open contact
CH22 DS2 normaly close contact
CH22 DS3 normaly open contact
CH22 DS3 normaly close contact
CH22 DS4 normaly open contact
CH22 DS4 normaly close contact
CH22 CB normaly open contact
CH22 CB normaly close contact
⎯ 222 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
3935
3936
3937
3938
3939
3940
3941
3942
3943
3944
3945
3946
3947
3948
3949
3950
3951
3952
3953
3954
3955
3956
3957
3958
3959
3960
3961
3962
3963
3964
3965
3966
3967
3968
3969
3970
3971
3972
3973
3974
3975
3976
3977
3978
3979
3980
3981
3982
3983
3984
3985
3986
3987
3988
3989
3990
3991
3992
3993
3994
3995
3996
3997
3998
3999
4000
4001
4002
4003
4004
Signal Name
Contents
CH23-DS2 N/O
CH23-DS2 N/C
CH23-DS3 N/O
CH23-DS3 N/C
CH23-DS4 N/O
CH23-DS4 N/C
CH23-CB N/O
CH23-CB N/C
CH23 DS2 normaly open contact
CH23 DS2 normaly close contact
CH23 DS3 normaly open contact
CH23 DS3 normaly close contact
CH23 DS4 normaly open contact
CH23 DS4 normaly close contact
CH23 CB normaly open contact
CH23 CB normaly close contact
CH24-DS2 N/O
CH24-DS2 N/C
CH24-DS3 N/O
CH24-DS3 N/C
CH24-DS4 N/O
CH24-DS4 N/C
CH24-CB N/O
CH24-CB N/C
CH24 DS2 normaly open contact
CH24 DS2 normaly close contact
CH24 DS3 normaly open contact
CH24 DS3 normaly close contact
CH24 DS4 normaly open contact
CH24 DS4 normaly close contact
CH24 CB normaly open contact
CH24 CB normaly close contact
CH25-DS2 N/O
CH25-DS2 N/C
CH25-DS3 N/O
CH25-DS3 N/C
CH25-DS4 N/O
CH25-DS4 N/C
CH25-CB N/O
CH25-CB N/C
CH25 DS2 normaly open contact
CH25 DS2 normaly close contact
CH25 DS3 normaly open contact
CH25 DS3 normaly close contact
CH25 DS4 normaly open contact
CH25 DS4 normaly close contact
CH25 CB normaly open contact
CH25 CB normaly close contact
CH26-DS2 N/O
CH26-DS2 N/C
CH26-DS3 N/O
CH26-DS3 N/C
CH26-DS4 N/O
CH26-DS4 N/C
CH26-CB N/O
CH26-CB N/C
CH26 DS2 normaly open contact
CH26 DS2 normaly close contact
CH26 DS3 normaly open contact
CH26 DS3 normaly close contact
CH26 DS4 normaly open contact
CH26 DS4 normaly close contact
CH26 CB normaly open contact
CH26 CB normaly close contact
CH27-DS2 N/O
CH27-DS2 N/C
CH27-DS3 N/O
CH27 DS2 normaly open contact
CH27 DS2 normaly close contact
CH27 DS3 normaly open contact
⎯ 223 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4005
4006
4007
4008
4009
4010
4011
4012
4013
4014
4015
4016
4017
4018
4019
4020
4021
4022
4023
4024
4025
4026
4027
4028
4029
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
4043
4044
4045
4046
4047
4048
4049
4050
4051
4052
4053
4054
4055
4056
4057
4058
4059
4060
4061
4062
4063
4064
4065
4066
4067
4068
4069
4070
4071
4072
4073
4074
Signal Name
CH27-DS3 N/C
CH27-DS4 N/O
CH27-DS4 N/C
CH27-CB N/O
CH27-CB N/C
CH27 DS3 normaly close contact
CH27 DS4 normaly open contact
CH27 DS4 normaly close contact
CH27 CB normaly open contact
CH27 CB normaly close contact
Contents
CH28-DS2 N/O
CH28-DS2 N/C
CH28-DS3 N/O
CH28-DS3 N/C
CH28-DS4 N/O
CH28-DS4 N/C
CH28-CB N/O
CH28-CB N/C
CH28 DS2 normaly open contact
CH28 DS2 normaly close contact
CH28 DS3 normaly open contact
CH28 DS3 normaly close contact
CH28 DS4 normaly open contact
CH28 DS4 normaly close contact
CH28 CB normaly open contact
CH28 CB normaly close contact
CH29-DS2 N/O
CH29-DS2 N/C
CH29-DS3 N/O
CH29-DS3 N/C
CH29-DS4 N/O
CH29-DS4 N/C
CH29-CB N/O
CH29-CB N/C
CH29 DS2 normaly open contact
CH29 DS2 normaly close contact
CH29 DS3 normaly open contact
CH29 DS3 normaly close contact
CH29 DS4 normaly open contact
CH29 DS4 normaly close contact
CH29 CB normaly open contact
CH29 CB normaly close contact
CH30-DS2 N/O
CH30-DS2 N/C
CH30-DS3 N/O
CH30-DS3 N/C
CH30-DS4 N/O
CH30-DS4 N/C
CH30-CB N/O
CH30-CB N/C
CH30 DS2 normaly open contact
CH30 DS2 normaly close contact
CH30 DS3 normaly open contact
CH30 DS3 normaly close contact
CH30 DS4 normaly open contact
CH30 DS4 normaly close contact
CH30 CB normaly open contact
CH30 CB normaly close contact
CH31-DS2 N/O
CH31-DS2 N/C
CH31-DS3 N/O
CH31-DS3 N/C
CH31-DS4 N/O
CH31-DS4 N/C
CH31-CB N/O
CH31-CB N/C
CH31 DS2 normaly open contact
CH31 DS2 normaly close contact
CH31 DS3 normaly open contact
CH31 DS3 normaly close contact
CH31 DS4 normaly open contact
CH31 DS4 normaly close contact
CH31 CB normaly open contact
CH31 CB normaly close contact
⎯ 224 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4075
4076
4077
4078
4079
4080
4081
4082
4083
4084
4085
4086
4087
4088
4089
4090
4091
4092
4093
4094
4095
4096
4097
4098
4099
4100
4101
4102
4103
4104
4105
4106
4107
4108
4109
4110
4111
4112
4113
4114
4115
4116
4117
4118
4119
4120
4121
4122
4123
4124
4125
4126
4127
4128
4129
4130
4131
4132
4133
4134
4135
4136
4137
4138
4139
4140
4141
4142
4143
4144
Signal Name
Contents
CH32-DS2 N/O
CH32-DS2 N/C
CH32-DS3 N/O
CH32-DS3 N/C
CH32-DS4 N/O
CH32-DS4 N/C
CH32-CB N/O
CH32-CB N/C
CH32 DS2 normaly open contact
CH32 DS2 normaly close contact
CH32 DS3 normaly open contact
CH32 DS3 normaly close contact
CH32 DS4 normaly open contact
CH32 DS4 normaly close contact
CH32 CB normaly open contact
CH32 CB normaly close contact
CH33-DS2 N/O
CH33-DS2 N/C
CH33-DS3 N/O
CH33-DS3 N/C
CH33-DS4 N/O
CH33-DS4 N/C
CH33-CB N/O
CH33-CB N/C
CH33 DS2 normaly open contact
CH33 DS2 normaly close contact
CH33 DS3 normaly open contact
CH33 DS3 normaly close contact
CH33 DS4 normaly open contact
CH33 DS4 normaly close contact
CH33 CB normaly open contact
CH33 CB normaly close contact
CH34-DS2 N/O
CH34-DS2 N/C
CH34-DS3 N/O
CH34-DS3 N/C
CH34-DS4 N/O
CH34-DS4 N/C
CH34-CB N/O
CH34-CB N/C
CH34 DS2 normaly open contact
CH34 DS2 normaly close contact
CH34 DS3 normaly open contact
CH34 DS3 normaly close contact
CH34 DS4 normaly open contact
CH34 DS4 normaly close contact
CH34 CB normaly open contact
CH34 CB normaly close contact
CH35-DS2 N/O
CH35-DS2 N/C
CH35-DS3 N/O
CH35-DS3 N/C
CH35-DS4 N/O
CH35-DS4 N/C
CH35-CB N/O
CH35-CB N/C
CH35 DS2 normaly open contact
CH35 DS2 normaly close contact
CH35 DS3 normaly open contact
CH35 DS3 normaly close contact
CH35 DS4 normaly open contact
CH35 DS4 normaly close contact
CH35 CB normaly open contact
CH35 CB normaly close contact
⎯ 225 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4145
4146
4147
4148
4149
4150
4151
4152
4153
4154
4155
4156
4157
4158
4159
4160
4161
4162
4163
4164
4165
4166
4167
4168
4169
4170
4171
4172
4173
4174
4175
4176
4177
4178
4179
4180
4181
4182
4183
4184
4185
4186
4187
4188
4189
4190
4191
4192
4193
4194
4195
4196
4197
4198
4199
4200
4201
4202
4203
4204
4205
4206
4207
4208
4209
4210
4211
4212
4213
4214
Signal Name
Contents
CH36-DS2 N/O
CH36-DS2 N/C
CH36-DS3 N/O
CH36-DS3 N/C
CH36-DS4 N/O
CH36-DS4 N/C
CH36-CB N/O
CH36-CB N/C
CH36 DS2 normaly open contact
CH36 DS2 normaly close contact
CH36 DS3 normaly open contact
CH36 DS3 normaly close contact
CH36 DS4 normaly open contact
CH36 DS4 normaly close contact
CH36 CB normaly open contact
CH36 CB normaly close contact
CH37-DS2 N/O
CH37-DS2 N/C
CH37-DS3 N/O
CH37-DS3 N/C
CH37-DS4 N/O
CH37-DS4 N/C
CH37-CB N/O
CH37-CB N/C
CH37 DS2 normaly open contact
CH37 DS2 normaly close contact
CH37 DS3 normaly open contact
CH37 DS3 normaly close contact
CH37 DS4 normaly open contact
CH37 DS4 normaly close contact
CH37 CB normaly open contact
CH37 CB normaly close contact
CH38-DS2 N/O
CH38-DS2 N/C
CH38-DS3 N/O
CH38-DS3 N/C
CH38-DS4 N/O
CH38-DS4 N/C
CH38-CB N/O
CH38-CB N/C
CH38 DS2 normaly open contact
CH38 DS2 normaly close contact
CH38 DS3 normaly open contact
CH38 DS3 normaly close contact
CH38 DS4 normaly open contact
CH38 DS4 normaly close contact
CH38 CB normaly open contact
CH38 CB normaly close contact
CH39-DS2 N/O
CH39-DS2 N/C
CH39-DS3 N/O
CH39-DS3 N/C
CH39-DS4 N/O
CH39-DS4 N/C
CH39-CB N/O
CH39-CB N/C
CH39 DS2 normaly open contact
CH39 DS2 normaly close contact
CH39 DS3 normaly open contact
CH39 DS3 normaly close contact
CH39 DS4 normaly open contact
CH39 DS4 normaly close contact
CH39 CB normaly open contact
CH39 CB normaly close contact
CH40-DS2
CH40-DS2
CH40-DS3
CH40-DS3
CH40-DS4
CH40 DS2 normaly open contact
CH40 DS2 normaly close contact
CH40 DS3 normaly open contact
CH40 DS3 normaly close contact
CH40 DS4 normaly open contact
N/O
N/C
N/O
N/C
N/O
⎯ 226 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4215
4216
4217
4218
4219
4220
4221
4222
4223
4224
4225
4226
4227
4228
4229
4230
4231
4232
4233
4234
4235
4236
4237
4238
4239
4240
4241
4242
4243
4244
4245
4246
4247
4248
4249
4250
4251
4252
4253
4254
4255
4256
4257
4258
4259
4260
4261
4262
4263
4264
4265
4266
4267
4268
4269
4270
4271
4272
4273
4274
4275
4276
4277
4278
4279
4280
4281
4282
4283
4284
Signal Name
CH40-DS4 N/C
CH40-CB N/O
CH40-CB N/C
CH40 DS4 normaly close contact
CH40 CB normaly open contact
CH40 CB normaly close contact
Contents
CH41-DS2 N/O
CH41-DS2 N/C
CH41-DS3 N/O
CH41-DS3 N/C
CH41-DS4 N/O
CH41-DS4 N/C
CH41-CB N/O
CH41-CB N/C
CH41 DS2 normaly open contact
CH41 DS2 normaly close contact
CH41 DS3 normaly open contact
CH41 DS3 normaly close contact
CH41 DS4 normaly open contact
CH41 DS4 normaly close contact
CH41 CB normaly open contact
CH41 CB normaly close contact
CH42-DS2 N/O
CH42-DS2 N/C
CH42-DS3 N/O
CH42-DS3 N/C
CH42-DS4 N/O
CH42-DS4 N/C
CH42-CB N/O
CH42-CB N/C
CH42 DS2 normaly open contact
CH42 DS2 normaly close contact
CH42 DS3 normaly open contact
CH42 DS3 normaly close contact
CH42 DS4 normaly open contact
CH42 DS4 normaly close contact
CH42 CB normaly open contact
CH42 CB normaly close contact
CH43-DS2 N/O
CH43-DS2 N/C
CH43-DS3 N/O
CH43-DS3 N/C
CH43-DS4 N/O
CH43-DS4 N/C
CH43-CB N/O
CH43-CB N/C
CH43 DS2 normaly open contact
CH43 DS2 normaly close contact
CH43 DS3 normaly open contact
CH43 DS3 normaly close contact
CH43 DS4 normaly open contact
CH43 DS4 normaly close contact
CH43 CB normaly open contact
CH43 CB normaly close contact
CH44-DS2 N/O
CH44-DS2 N/C
CH44-DS3 N/O
CH44-DS3 N/C
CH44-DS4 N/O
CH44-DS4 N/C
CH44-CB N/O
CH44-CB N/C
CH44 DS2 normaly open contact
CH44 DS2 normaly close contact
CH44 DS3 normaly open contact
CH44 DS3 normaly close contact
CH44 DS4 normaly open contact
CH44 DS4 normaly close contact
CH44 CB normaly open contact
CH44 CB normaly close contact
⎯ 227 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4285
4286
4287
4288
4289
4290
4291
4292
4293
4294
4295
4296
4297
4298
4299
4300
4301
4302
4303
4304
4305
4306
4307
4308
4309
4310
4311
4312
4313
4314
4315
4316
4317
4318
4319
4320
4321
4322
4323
4324
4325
4326
4327
4328
4329
4330
4331
4332
4333
4334
4335
4336
4337
4338
4339
4340
4341
4342
4343
4344
4345
4346
4347
4348
4349
4350
4351
4352
4353
4354
Signal Name
Contents
CH45-DS2 N/O
CH45-DS2 N/C
CH45-DS3 N/O
CH45-DS3 N/C
CH45-DS4 N/O
CH45-DS4 N/C
CH45-CB N/O
CH45-CB N/C
CH45 DS2 normaly open contact
CH45 DS2 normaly close contact
CH45 DS3 normaly open contact
CH45 DS3 normaly close contact
CH45 DS4 normaly open contact
CH45 DS4 normaly close contact
CH45 CB normaly open contact
CH45 CB normaly close contact
CH46-DS2 N/O
CH46-DS2 N/C
CH46-DS3 N/O
CH46-DS3 N/C
CH46-DS4 N/O
CH46-DS4 N/C
CH46-CB N/O
CH46-CB N/C
CH46 DS2 normaly open contact
CH46 DS2 normaly close contact
CH46 DS3 normaly open contact
CH46 DS3 normaly close contact
CH46 DS4 normaly open contact
CH46 DS4 normaly close contact
CH46 CB normaly open contact
CH46 CB normaly close contact
CH47-DS2 N/O
CH47-DS2 N/C
CH47-DS3 N/O
CH47-DS3 N/C
CH47-DS4 N/O
CH47-DS4 N/C
CH47-CB N/O
CH47-CB N/C
CH47 DS2 normaly open contact
CH47 DS2 normaly close contact
CH47 DS3 normaly open contact
CH47 DS3 normaly close contact
CH47 DS4 normaly open contact
CH47 DS4 normaly close contact
CH47 CB normaly open contact
CH47 CB normaly close contact
CH48-DS2 N/O
CH48-DS2 N/C
CH48-DS3 N/O
CH48-DS3 N/C
CH48-DS4 N/O
CH48-DS4 N/C
CH48-CB N/O
CH48-CB N/C
CH48 DS2 normaly open contact
CH48 DS2 normaly close contact
CH48 DS3 normaly open contact
CH48 DS3 normaly close contact
CH48 DS4 normaly open contact
CH48 DS4 normaly close contact
CH48 CB normaly open contact
CH48 CB normaly close contact
CH49-DS2 N/O
CH49 DS2 normaly open contact
⎯ 228 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4355
4356
4357
4358
4359
4360
4361
4362
4363
4364
4365
4366
4367
4368
4369
4370
4371
4372
4373
4374
4375
4376
4377
4378
4379
4380
4381
4382
4383
4384
4385
4386
4387
4388
4389
4390
4391
4392
4393
4394
4395
4396
4397
4398
4399
4400
4401
4402
4403
4404
4405
4406
4407
4408
4409
4410
4411
4412
4413
4414
4415
4416
4417
4418
4419
4420
4421
4422
4423
4424
Signal Name
CH49-DS2 N/C
CH49-DS3 N/O
CH49-DS3 N/C
CH49-DS4 N/O
CH49-DS4 N/C
CH49-CB N/O
CH49-CB N/C
CH49 DS2 normaly close contact
CH49 DS3 normaly open contact
CH49 DS3 normaly close contact
CH49 DS4 normaly open contact
CH49 DS4 normaly close contact
CH49 CB normaly open contact
CH49 CB normaly close contact
Contents
CH50-DS2 N/O
CH50-DS2 N/C
CH50-DS3 N/O
CH50-DS3 N/C
CH50-DS4 N/O
CH50-DS4 N/C
CH50-CB N/O
CH50-CB N/C
CH50 DS2 normaly open contact
CH50 DS2 normaly close contact
CH50 DS3 normaly open contact
CH50 DS3 normaly close contact
CH50 DS4 normaly open contact
CH50 DS4 normaly close contact
CH50 CB normaly open contact
CH50 CB normaly close contact
CH51-DS2 N/O
CH51-DS2 N/C
CH51-DS3 N/O
CH51-DS3 N/C
CH51-DS4 N/O
CH51-DS4 N/C
CH51-CB N/O
CH51-CB N/C
CH51 DS2 normaly open contact
CH51 DS2 normaly close contact
CH51 DS3 normaly open contact
CH51 DS3 normaly close contact
CH51 DS4 normaly open contact
CH51 DS4 normaly close contact
CH51 CB normaly open contact
CH51 CB normaly close contact
CH52-DS2 N/O
CH52-DS2 N/C
CH52-DS3 N/O
CH52-DS3 N/C
CH52-DS4 N/O
CH52-DS4 N/C
CH52-CB N/O
CH52-CB N/C
CH52 DS2 normaly open contact
CH52 DS2 normaly close contact
CH52 DS3 normaly open contact
CH52 DS3 normaly close contact
CH52 DS4 normaly open contact
CH52 DS4 normaly close contact
CH52 CB normaly open contact
CH52 CB normaly close contact
CH53-DS2 N/O
CH53-DS2 N/C
CH53-DS3 N/O
CH53-DS3 N/C
CH53-DS4 N/O
CH53-DS4 N/C
CH53-CB N/O
CH53 DS2 normaly open contact
CH53 DS2 normaly close contact
CH53 DS3 normaly open contact
CH53 DS3 normaly close contact
CH53 DS4 normaly open contact
CH53 DS4 normaly close contact
CH53 CB normaly open contact
⎯ 229 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4425
4426
4427
4428
4429
4430
4431
4432
4433
4434
4435
4436
4437
4438
4439
4440
4441
4442
4443
4444
4445
4446
4447
4448
4449
4450
4451
4452
4453
4454
4455
4456
4457
4458
4459
4460
4461
4462
4463
4464
4465
4466
4467
4468
4469
4470
4471
4472
4473
4474
4475
4476
4477
4478
4479
4480
4481
4482
4483
4484
4485
4486
4487
4488
4489
4490
4491
4492
4493
4494
Signal Name
CH53-CB N/C
CH53 CB normaly close contact
Contents
CH54-DS2 N/O
CH54-DS2 N/C
CH54-DS3 N/O
CH54-DS3 N/C
CH54-DS4 N/O
CH54-DS4 N/C
CH54-CB N/O
CH54-CB N/C
CH54 DS2 normaly open contact
CH54 DS2 normaly close contact
CH54 DS3 normaly open contact
CH54 DS3 normaly close contact
CH54 DS4 normaly open contact
CH54 DS4 normaly close contact
CH54 CB normaly open contact
CH54 CB normaly close contact
CH55-DS2 N/O
CH55-DS2 N/C
CH55-DS3 N/O
CH55-DS3 N/C
CH55-DS4 N/O
CH55-DS4 N/C
CH55-CB N/O
CH55-CB N/C
CH55 DS2 normaly open contact
CH55 DS2 normaly close contact
CH55 DS3 normaly open contact
CH55 DS3 normaly close contact
CH55 DS4 normaly open contact
CH55 DS4 normaly close contact
CH55 CB normaly open contact
CH55 CB normaly close contact
CH56-DS2 N/O
CH56-DS2 N/C
CH56-DS3 N/O
CH56-DS3 N/C
CH56-DS4 N/O
CH56-DS4 N/C
CH56-CB N/O
CH56-CB N/C
CH56 DS2 normaly open contact
CH56 DS2 normaly close contact
CH56 DS3 normaly open contact
CH56 DS3 normaly close contact
CH56 DS4 normaly open contact
CH56 DS4 normaly close contact
CH56 CB normaly open contact
CH56 CB normaly close contact
CH57-DS2 N/O
CH57-DS2 N/C
CH57-DS3 N/O
CH57-DS3 N/C
CH57-DS4 N/O
CH57-DS4 N/C
CH57-CB N/O
CH57-CB N/C
CH57 DS2 normaly open contact
CH57 DS2 normaly close contact
CH57 DS3 normaly open contact
CH57 DS3 normaly close contact
CH57 DS4 normaly open contact
CH57 DS4 normaly close contact
CH57 CB normaly open contact
CH57 CB normaly close contact
⎯ 230 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4495
4496
4497
4498
4499
4500
4501
4502
4503
4504
4505
4506
4507
4508
4509
4510
4511
4512
4513
4514
4515
4516
4517
4518
4519
4520
4521
4522
4523
4524
4525
4526
4527
4528
4529
4530
4531
4532
4533
4534
4535
4536
4537
4538
4539
4540
4541
4542
4543
4544
4545
4546
4547
4548
4549
4550
4551
4552
4553
4554
4555
4556
4557
4558
4559
4560
4561
4562
4563
4564
Signal Name
Contents
CH58-DS2 N/O
CH58-DS2 N/C
CH58-DS3 N/O
CH58-DS3 N/C
CH58-DS4 N/O
CH58-DS4 N/C
CH58-CB N/O
CH58-CB N/C
CH58 DS2 normaly open contact
CH58 DS2 normaly close contact
CH58 DS3 normaly open contact
CH58 DS3 normaly close contact
CH58 DS4 normaly open contact
CH58 DS4 normaly close contact
CH58 CB normaly open contact
CH58 CB normaly close contact
CH59-DS2 N/O
CH59-DS2 N/C
CH59-DS3 N/O
CH59-DS3 N/C
CH59-DS4 N/O
CH59-DS4 N/C
CH59-CB N/O
CH59-CB N/C
CH59 DS2 normaly open contact
CH59 DS2 normaly close contact
CH59 DS3 normaly open contact
CH59 DS3 normaly close contact
CH59 DS4 normaly open contact
CH59 DS4 normaly close contact
CH59 CB normaly open contact
CH59 CB normaly close contact
CH60-DS2 N/O
CH60-DS2 N/C
CH60-DS3 N/O
CH60-DS3 N/C
CH60-DS4 N/O
CH60-DS4 N/C
CH60-CB N/O
CH60-CB N/C
CH60 DS2 normaly open contact
CH60 DS2 normaly close contact
CH60 DS3 normaly open contact
CH60 DS3 normaly close contact
CH60 DS4 normaly open contact
CH60 DS4 normaly close contact
CH60 CB normaly open contact
CH60 CB normaly close contact
CH61-DS2 N/O
CH61-DS2 N/C
CH61-DS3 N/O
CH61-DS3 N/C
CH61-DS4 N/O
CH61-DS4 N/C
CH61-CB N/O
CH61-CB N/C
CH61 DS2 normaly open contact
CH61 DS2 normaly close contact
CH61 DS3 normaly open contact
CH61 DS3 normaly close contact
CH61 DS4 normaly open contact
CH61 DS4 normaly close contact
CH61 CB normaly open contact
CH61 CB normaly close contact
CH62-DS2 N/O
CH62-DS2 N/C
CH62-DS3 N/O
CH62 DS2 normaly open contact
CH62 DS2 normaly close contact
CH62 DS3 normaly open contact
⎯ 231 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4565
4566
4567
4568
4569
4570
4571
4572
4573
4574
4575
4576
4577
4578
4579
4580
4581
4582
4583
4584
4585
4586
4587
4588
4589
4590
4591
4592
4593
4594
4595
4596
4597
4598
4599
4600
4601
4602
4603
4604
4605
4606
4607
4608
4609
4610
4611
4612
4613
4614
4615
4616
4617
4618
4619
4620
4621
4622
4623
4624
4625
4626
4627
4628
4629
4630
4631
4632
4633
4634
Signal Name
CH62-DS3 N/C
CH62-DS4 N/O
CH62-DS4 N/C
CH62-CB N/O
CH62-CB N/C
CH62 DS3 normaly close contact
CH62 DS4 normaly open contact
CH62 DS4 normaly close contact
CH62 CB normaly open contact
CH62 CB normaly close contact
Contents
CH63-DS2 N/O
CH63-DS2 N/C
CH63-DS3 N/O
CH63-DS3 N/C
CH63-DS4 N/O
CH63-DS4 N/C
CH63-CB N/O
CH63-CB N/C
CH63 DS2 normaly open contact
CH63 DS2 normaly close contact
CH63 DS3 normaly open contact
CH63 DS3 normaly close contact
CH63 DS4 normaly open contact
CH63 DS4 normaly close contact
CH63 CB normaly open contact
CH63 CB normaly close contact
CH64-DS2 N/O
CH64-DS2 N/C
CH64-DS3 N/O
CH64-DS3 N/C
CH64-DS4 N/O
CH64-DS4 N/C
CH64-CB N/O
CH64-CB N/C
CH64 DS2 normaly open contact
CH64 DS2 normaly close contact
CH64 DS3 normaly open contact
CH64 DS3 normaly close contact
CH64 DS4 normaly open contact
CH64 DS4 normaly close contact
CH64 CB normaly open contact
CH64 CB normaly close contact
IND.RESET
BP BLOCK-A
CBF BLOCK-A
BP BLOCK-B
CBF BLOCK-B
Indication reset command
BP function block command-A
CBF function block command-A
BP function block command-B
CBF function block command-B
DIFFS-ZA
DIFFS-ZB
DIFFS-ZC
DIFFS-ZD
DIFFS
DIFCH CHARA
DIF-ZA protection fail-safe command
DIF-ZB protection fail-safe command
DIF-ZC protection fail-safe command
DIF-ZD protection fail-safe command
DIF(check zone) protection fail-safe command
DIFCH characteristic changing command
⎯ 232 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4635
4636
4637
4638
4639
4640
4641
4642
4643
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
4655
4656
4657
4658
4659
4660
4661
4662
4663
4664
4665
4666
4667
4668
4669
4670
4671
4672
4673
4674
4675
4676
4677
4678
4679
4680
4681
4682
4683
4684
4685
4686
4687
4688
4689
4690
4691
4692
4693
4694
4695
4696
4697
4698
4699
4700
4701
4702
4703
4704
Signal Name
Contents
CBFFS-ZA
CBFFS-ZB
CBFFS-ZC
CBFFS-ZD
CBFFS-NOUSE
CBF protection zone-A fail-safe command
CBF protection zone-B fail-safe command
CBF protection zone-C fail-safe command
CBF protection zone-D fail-safe command
CBF fail-safe not used command
COMTP-ZA COM
COMTP-ZB COM
COMTP-ZC COM
COMTP-ZD COM
CTF BLOCK
Command trip forcibly trip
ditto
ditto
ditto
CTF block command
CBFTRFS-ZA
CBFTRFS-ZB
CBFTRFS-ZC
CBFTRFS-ZD
CBFTRFS-NOUSE
CBF transfer zone-A fail-safe command
CBF transfer zone-B fail-safe command
CBF transfer zone-C fail-safe command
CBF transfer zone-D fail-safe command
CBF transfer fail-safe not used command
DIFZA DELAY
DIFZB DELAY
DIFZC DELAY
DIFZD DELAY
DIF DELAY
Trip command delay timer setting
Trip command delay timer setting
Trip command delay timer setting
Trip command delay timer setting
Trip command delay timer setting
C1-CUR.BLK
C2-CUR.BLK
C3-CUR.BLK
C4-CUR.BLK
Coupler1 current block command for single-bus with trnsfer
Coupler2 current block command for single-bus with trnsfer
Coupler3 current block command for single-bus with trnsfer
Coupler4 current block command for single-bus with trnsfer
S
S
S
S
CH1-EXT-BPTP
CH2-EXT-BPTP
CH3-EXT-BPTP
CH4-EXT-BPTP
CH5-EXT-BPTP
CH6-EXT-BPTP
CH7-EXT-BPTP
CH8-EXT-BPTP
CH9-EXT-BPTP
CH10-EXT-BPTP
CH11-EXT-BPTP
CH12-EXT-BPTP
CH13-EXT-BPTP
CH14-EXT-BPTP
CH15-EXT-BPTP
CH16-EXT-BPTP
CH17-EXT-BPTP
CH1 external bus protection trip command
CH2 external bus protection trip command
CH3 external bus protection trip command
CH4 external bus protection trip command
CH5 external bus protection trip command
CH6 external bus protection trip command
CH7 external bus protection trip command
CH8 external bus protection trip command
CH9 external bus protection trip command
CH10 external bus protection trip command
CH11 external bus protection trip command
CH12 external bus protection trip command
CH13 external bus protection trip command
CH14 external bus protection trip command
CH15 external bus protection trip command
CH16 external bus protection trip command
CH17 external bus protection trip command
⎯ 233 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4705
4706
4707
4708
4709
4710
4711
4712
4713
4714
4715
4716
4717
4718
4719
4720
4721
4722
4723
4724
4725
4726
4727
4728
4729
4730
4731
4732
4733
4734
4735
4736
4737
4738
4739
4740
4741
4742
4743
4744
4745
4746
4747
4748
4749
4750
4751
4752
4753
4754
4755
4756
4757
4758
4759
4760
4761
4762
4763
4764
4765
4766
4767
4768
4769
4770
4771
4772
4773
4774
Signal Name
CH18-EXT-BPTP
CH19-EXT-BPTP
CH20-EXT-BPTP
CH21-EXT-BPTP
CH22-EXT-BPTP
CH23-EXT-BPTP
CH24-EXT-BPTP
CH25-EXT-BPTP
CH26-EXT-BPTP
CH27-EXT-BPTP
CH28-EXT-BPTP
CH29-EXT-BPTP
CH30-EXT-BPTP
CH31-EXT-BPTP
CH32-EXT-BPTP
CH33-EXT-BPTP
CH34-EXT-BPTP
CH35-EXT-BPTP
CH36-EXT-BPTP
CH37-EXT-BPTP
CH38-EXT-BPTP
CH39-EXT-BPTP
CH40-EXT-BPTP
CH41-EXT-BPTP
CH42-EXT-BPTP
CH43-EXT-BPTP
CH44-EXT-BPTP
CH45-EXT-BPTP
CH46-EXT-BPTP
CH47-EXT-BPTP
CH48-EXT-BPTP
CH49-EXT-BPTP
CH50-EXT-BPTP
CH51-EXT-BPTP
CH52-EXT-BPTP
CH53-EXT-BPTP
CH54-EXT-BPTP
CH55-EXT-BPTP
CH56-EXT-BPTP
CH57-EXT-BPTP
CH58-EXT-BPTP
CH59-EXT-BPTP
CH60-EXT-BPTP
CH61-EXT-BPTP
CH62-EXT-BPTP
CH63-EXT-BPTP
CH64-EXT-BPTP
CH1-CBFIO
CH2-CBFIO
CH3-CBFIO
CH4-CBFIO
CH5-CBFIO
CH6-CBFIO
CH7-CBFIO
CH8-CBFIO
CH9-CBFIO
CH10-CBFIO
CH11-CBFIO
CH12-CBFIO
CH13-CBFIO
CH14-CBFIO
CH15-CBFIO
CH16-CBFIO
CH17-CBFIO
CH18-CBFIO
CH19-CBFIO
CH20-CBFIO
CH21-CBFIO
CH22-CBFIO
CH23-CBFIO
Contents
CH18 external bus protection trip command
CH19 external bus protection trip command
CH20 external bus protection trip command
CH21 external bus protection trip command
CH22 external bus protection trip command
CH23 external bus protection trip command
CH24 external bus protection trip command
CH25 external bus protection trip command
CH26 external bus protection trip command
CH27 external bus protection trip command
CH28 external bus protection trip command
CH29 external bus protection trip command
CH30 external bus protection trip command
CH31 external bus protection trip command
CH32 external bus protection trip command
CH33 external bus protection trip command
CH34 external bus protection trip command
CH35 external bus protection trip command
CH36 external bus protection trip command
CH37 external bus protection trip command
CH38 external bus protection trip command
CH39 external bus protection trip command
CH40 external bus protection trip command
CH41 external bus protection trip command
CH42 external bus protection trip command
CH43 external bus protection trip command
CH44 external bus protection trip command
CH45 external bus protection trip command
CH46 external bus protection trip command
CH47 external bus protection trip command
CH48 external bus protection trip command
CH49 external bus protection trip command
CH50 external bus protection trip command
CH51 external bus protection trip command
CH52 external bus protection trip command
CH53 external bus protection trip command
CH54 external bus protection trip command
CH55 external bus protection trip command
CH56 external bus protection trip command
CH57 external bus protection trip command
CH58 external bus protection trip command
CH59 external bus protection trip command
CH60 external bus protection trip command
CH61 external bus protection trip command
CH62 external bus protection trip command
CH63 external bus protection trip command
CH64 external bus protection trip command
CH1 CBF instantly operation command
CH2 CBF instantly operation command
CH3 CBF instantly operation command
CH4 CBF instantly operation command
CH5 CBF instantly operation command
CH6 CBF instantly operation command
CH7 CBF instantly operation command
CH8 CBF instantly operation command
CH9 CBF instantly operation command
CH10 CBF instantly operation command
CH11 CBF instantly operation command
CH12 CBF instantly operation command
CH13 CBF instantly operation command
CH14 CBF instantly operation command
CH15 CBF instantly operation command
CH16 CBF instantly operation command
CH17 CBF instantly operation command
CH18 CBF instantly operation command
CH19 CBF instantly operation command
CH20 CBF instantly operation command
CH21 CBF instantly operation command
CH22 CBF instantly operation command
CH23 CBF instantly operation command
⎯ 234 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4775
4776
4777
4778
4779
4780
4781
4782
4783
4784
4785
4786
4787
4788
4789
4790
4791
4792
4793
4794
4795
4796
4797
4798
4799
4800
4801
4802
4803
4804
4805
4806
4807
4808
4809
4810
4811
4812
4813
4814
4815
4816
4817
4818
4819
4820
4821
4822
4823
4824
4825
4826
4827
4828
4829
4830
4831
4832
4833
4834
4835
4836
4837
4838
4839
4840
4841
4842
4843
4844
Signal Name
CH24-CBFIO
CH25-CBFIO
CH26-CBFIO
CH27-CBFIO
CH28-CBFIO
CH29-CBFIO
CH30-CBFIO
CH31-CBFIO
CH32-CBFIO
CH33-CBFIO
CH34-CBFIO
CH35-CBFIO
CH36-CBFIO
CH37-CBFIO
CH38-CBFIO
CH39-CBFIO
CH40-CBFIO
CH41-CBFIO
CH42-CBFIO
CH43-CBFIO
CH44-CBFIO
CH45-CBFIO
CH46-CBFIO
CH47-CBFIO
CH48-CBFIO
CH49-CBFIO
CH50-CBFIO
CH51-CBFIO
CH52-CBFIO
CH53-CBFIO
CH54-CBFIO
CH55-CBFIO
CH56-CBFIO
CH57-CBFIO
CH58-CBFIO
CH59-CBFIO
CH60-CBFIO
CH61-CBFIO
CH62-CBFIO
CH63-CBFIO
CH64-CBFIO
CH1-COM.TP
CH2-COM.TP
CH3-COM.TP
CH4-COM.TP
CH5-COM.TP
CH6-COM.TP
CH7-COM.TP
CH8-COM.TP
CH9-COM.TP
CH10-COM.TP
CH11-COM.TP
CH12-COM.TP
CH13-COM.TP
CH14-COM.TP
CH15-COM.TP
CH16-COM.TP
CH17-COM.TP
CH18-COM.TP
CH19-COM.TP
CH20-COM.TP
CH21-COM.TP
CH22-COM.TP
CH23-COM.TP
CH24-COM.TP
CH25-COM.TP
CH26-COM.TP
CH27-COM.TP
CH28-COM.TP
CH29-COM.TP
Contents
CH24 CBF instantly operation command
CH25 CBF instantly operation command
CH26 CBF instantly operation command
CH27 CBF instantly operation command
CH28 CBF instantly operation command
CH29 CBF instantly operation command
CH30 CBF instantly operation command
CH31 CBF instantly operation command
CH32 CBF instantly operation command
CH33 CBF instantly operation command
CH34 CBF instantly operation command
CH35 CBF instantly operation command
CH36 CBF instantly operation command
CH37 CBF instantly operation command
CH38 CBF instantly operation command
CH39 CBF instantly operation command
CH40 CBF instantly operation command
CH41 CBF instantly operation command
CH42 CBF instantly operation command
CH43 CBF instantly operation command
CH44 CBF instantly operation command
CH45 CBF instantly operation command
CH46 CBF instantly operation command
CH47 CBF instantly operation command
CH48 CBF instantly operation command
CH49 CBF instantly operation command
CH50 CBF instantly operation command
CH51 CBF instantly operation command
CH52 CBF instantly operation command
CH53 CBF instantly operation command
CH54 CBF instantly operation command
CH55 CBF instantly operation command
CH56 CBF instantly operation command
CH57 CBF instantly operation command
CH58 CBF instantly operation command
CH59 CBF instantly operation command
CH60 CBF instantly operation command
CH61 CBF instantly operation command
CH62 CBF instantly operation command
CH63 CBF instantly operation command
CH64 CBF instantly operation command
CH1 command trip initiation command
CH2 command trip initiation command
CH3 command trip initiation command
CH4 command trip initiation command
CH5 command trip initiation command
CH6 command trip initiation command
CH7 command trip initiation command
CH8 command trip initiation command
CH9 command trip initiation command
CH10 command trip initiation command
CH11 command trip initiation command
CH12 command trip initiation command
CH13 command trip initiation command
CH14 command trip initiation command
CH15 command trip initiation command
CH16 command trip initiation command
CH17 command trip initiation command
CH18 command trip initiation command
CH19 command trip initiation command
CH20 command trip initiation command
CH21 command trip initiation command
CH22 command trip initiation command
CH23 command trip initiation command
CH24 command trip initiation command
CH25 command trip initiation command
CH26 command trip initiation command
CH27 command trip initiation command
CH28 command trip initiation command
CH29 command trip initiation command
⎯ 235 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4845
4846
4847
4848
4849
4850
4851
4852
4853
4854
4855
4856
4857
4858
4859
4860
4861
4862
4863
4864
4865
4866
4867
4868
4869
4870
4871
4872
4873
4874
4875
4876
4877
4878
4879
4880
4881
4882
4883
4884
4885
4886
4887
4888
4889
4890
4891
4892
4893
4894
4895
4896
4897
4898
4899
4900
4901
4902
4903
4904
4905
4906
4907
4908
4909
4910
4911
4912
4913
4914
Signal Name
CH30-COM.TP
CH31-COM.TP
CH32-COM.TP
CH33-COM.TP
CH34-COM.TP
CH35-COM.TP
CH36-COM.TP
CH37-COM.TP
CH38-COM.TP
CH39-COM.TP
CH40-COM.TP
CH41-COM.TP
CH42-COM.TP
CH43-COM.TP
CH44-COM.TP
CH45-COM.TP
CH46-COM.TP
CH47-COM.TP
CH48-COM.TP
CH49-COM.TP
CH50-COM.TP
CH51-COM.TP
CH52-COM.TP
CH53-COM.TP
CH54-COM.TP
CH55-COM.TP
CH56-COM.TP
CH57-COM.TP
CH58-COM.TP
CH59-COM.TP
CH60-COM.TP
CH61-COM.TP
CH62-COM.TP
CH63-COM.TP
CH64-COM.TP
Contents
CH30 command trip initiation command
CH31 command trip initiation command
CH32 command trip initiation command
CH33 command trip initiation command
CH34 command trip initiation command
CH35 command trip initiation command
CH36 command trip initiation command
CH37 command trip initiation command
CH38 command trip initiation command
CH39 command trip initiation command
CH40 command trip initiation command
CH41 command trip initiation command
CH42 command trip initiation command
CH43 command trip initiation command
CH44 command trip initiation command
CH45 command trip initiation command
CH46 command trip initiation command
CH47 command trip initiation command
CH48 command trip initiation command
CH49 command trip initiation command
CH50 command trip initiation command
CH51 command trip initiation command
CH52 command trip initiation command
CH53 command trip initiation command
CH54 command trip initiation command
CH55 command trip initiation command
CH56 command trip initiation command
CH57 command trip initiation command
CH58 command trip initiation command
CH59 command trip initiation command
CH60 command trip initiation command
CH61 command trip initiation command
CH62 command trip initiation command
CH63 command trip initiation command
CH64 command trip initiation command
S1-ZAC.RESET
S2-ZAC.RESET
S3-ZAC.RESET
S4-ZAC.RESET
C1-ZAC.RESET
C2-ZAC.RESET
C3-ZAC.RESET
Section1 zero ampere control reset command
Section2 zero ampere control reset command
Section3 zero ampere control reset command
Section4 zero ampere control reset command
Coupler1 zero ampere control reset command
Coupler2 zero ampere control reset command
Coupler3 zero ampere control reset command
E1-ZAC.RESET
E2-ZAC.RESET
E3-ZAC.RESET
E4-ZAC.RESET
End of section1 zero ampere control reset command
End of section2 zero ampere control reset command
End of section3 zero ampere control reset command
End of section4 zero ampere control reset command
CH1-CBFCB
CH2-CBFCB
CH3-CBFCB
CH4-CBFCB
CH5-CBFCB
CH6-CBFCB
CH7-CBFCB
CH8-CBFCB
CH9-CBFCB
CH10-CBFCB
CH11-CBFCB
CH12-CBFCB
CH13-CBFCB
CH14-CBFCB
CH15-CBFCB
CH16-CBFCB
CH17-CBFCB
CH18-CBFCB
CH19-CBFCB
CH1 CB for CBF initiation command
CH2 CB for CBF initiation command
CH3 CB for CBF initiation command
CH4 CB for CBF initiation command
CH5 CB for CBF initiation command
CH6 CB for CBF initiation command
CH7 CB for CBF initiation command
CH8 CB for CBF initiation command
CH9 CB for CBF initiation command
CH10 CB for CBF initiation command
CH11 CB for CBF initiation command
CH12 CB for CBF initiation command
CH13 CB for CBF initiation command
CH14 CB for CBF initiation command
CH15 CB for CBF initiation command
CH16 CB for CBF initiation command
CH17 CB for CBF initiation command
CH18 CB for CBF initiation command
CH19 CB for CBF initiation command
⎯ 236 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4915
4916
4917
4918
4919
4920
4921
4922
4923
4924
4925
4926
4927
4928
4929
4930
4931
4932
4933
4934
4935
4936
4937
4938
4939
4940
4941
4942
4943
4944
4945
4946
4947
4948
4949
4950
4951
4952
4953
4954
4955
4956
4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
4969
4970
4971
4972
4973
4974
4975
4976
4977
4978
4979
4980
4981
4982
4983
4984
Signal Name
CH20-CBFCB
CH21-CBFCB
CH22-CBFCB
CH23-CBFCB
CH24-CBFCB
CH25-CBFCB
CH26-CBFCB
CH27-CBFCB
CH28-CBFCB
CH29-CBFCB
CH30-CBFCB
CH31-CBFCB
CH32-CBFCB
CH33-CBFCB
CH34-CBFCB
CH35-CBFCB
CH36-CBFCB
CH37-CBFCB
CH38-CBFCB
CH39-CBFCB
CH40-CBFCB
CH41-CBFCB
CH42-CBFCB
CH43-CBFCB
CH44-CBFCB
CH45-CBFCB
CH46-CBFCB
CH47-CBFCB
CH48-CBFCB
CH49-CBFCB
CH50-CBFCB
CH51-CBFCB
CH52-CBFCB
CH53-CBFCB
CH54-CBFCB
CH55-CBFCB
CH56-CBFCB
CH57-CBFCB
CH58-CBFCB
CH59-CBFCB
CH60-CBFCB
CH61-CBFCB
CH62-CBFCB
CH63-CBFCB
CH64-CBFCB
BU1-OUT
BU2-OUT
BU3-OUT
BU4-OUT
BU5-OUT
BU6-OUT
BU7-OUT
BU8-OUT
BU9-OUT
BU10-OUT
BU11-OUT
BU12-OUT
BU13-OUT
BU14-OUT
BU15-OUT
BU16-OUT
BU17-OUT
BU18-OUT
BU19-OUT
BU20-OUT
BU21-OUT
BU22-OUT
BU23-OUT
BU24-OUT
BU25-OUT
Contents
CH20 CB for CBF initiation command
CH21 CB for CBF initiation command
CH22 CB for CBF initiation command
CH23 CB for CBF initiation command
CH24 CB for CBF initiation command
CH25 CB for CBF initiation command
CH26 CB for CBF initiation command
CH27 CB for CBF initiation command
CH28 CB for CBF initiation command
CH29 CB for CBF initiation command
CH30 CB for CBF initiation command
CH31 CB for CBF initiation command
CH32 CB for CBF initiation command
CH33 CB for CBF initiation command
CH34 CB for CBF initiation command
CH35 CB for CBF initiation command
CH36 CB for CBF initiation command
CH37 CB for CBF initiation command
CH38 CB for CBF initiation command
CH39 CB for CBF initiation command
CH40 CB for CBF initiation command
CH41 CB for CBF initiation command
CH42 CB for CBF initiation command
CH43 CB for CBF initiation command
CH44 CB for CBF initiation command
CH45 CB for CBF initiation command
CH46 CB for CBF initiation command
CH47 CB for CBF initiation command
CH48 CB for CBF initiation command
CH49 CB for CBF initiation command
CH50 CB for CBF initiation command
CH51 CB for CBF initiation command
CH52 CB for CBF initiation command
CH53 CB for CBF initiation command
CH54 CB for CBF initiation command
CH55 CB for CBF initiation command
CH56 CB for CBF initiation command
CH57 CB for CBF initiation command
CH58 CB for CBF initiation command
CH59 CB for CBF initiation command
CH60 CB for CBF initiation command
CH61 CB for CBF initiation command
CH62 CB for CBF initiation command
CH63 CB for CBF initiation command
CH64 CB for CBF initiation command
BU1 out of service command
BU2 out of service command
BU3 out of service command
BU4 out of service command
BU5 out of service command
BU6 out of service command
BU7 out of service command
BU8 out of service command
BU9 out of service command
BU10 out of service command
BU11 out of service command
BU12 out of service command
BU13 out of service command
BU14 out of service command
BU15 out of service command
BU16 out of service command
BU17 out of service command
BU18 out of service command
BU19 out of service command
BU20 out of service command
BU21 out of service command
BU22 out of service command
BU23 out of service command
BU24 out of service command
BU25 out of service command
⎯ 237 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
4985
4986
4987
4988
4989
4990
4991
4992
4993
4994
4995
4996
4997
4998
4999
5000
5001
5002
5003
5004
5005
5006
5007
5008
5009
5010
5011
5012
5013
5014
5015
5016
5017
5018
5019
5020
5021
5022
5023
5024
5025
5026
5027
5028
5029
5030
5031
5032
5033
5034
5035
5036
5037
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047
5048
5049
5050
5051
5052
5053
5054
5055
Signal Name
BU26-OUT
BU27-OUT
BU28-OUT
BU29-OUT
BU30-OUT
BU31-OUT
BU32-OUT
BU33-OUT
BU34-OUT
BU35-OUT
BU36-OUT
BU37-OUT
BU38-OUT
BU39-OUT
BU40-OUT
BU41-OUT
BU42-OUT
BU43-OUT
BU44-OUT
BU45-OUT
BU46-OUT
BU47-OUT
BU48-OUT
BU49-OUT
BU50-OUT
BU51-OUT
BU52-OUT
BU53-OUT
BU54-OUT
BU55-OUT
BU56-OUT
BU57-OUT
BU58-OUT
BU59-OUT
BU60-OUT
BU61-OUT
BU62-OUT
BU63-OUT
BU64-OUT
CH1-EFPTR R
CH2-EFPTR R
CH3-EFPTR R
CH4-EFPTR R
CH5-EFPTR R
CH6-EFPTR R
CH7-EFPTR R
CH8-EFPTR R
CH9-EFPTR R
CH10-EFPTR R
CH11-EFPTR R
CH12-EFPTR R
CH13-EFPTR R
CH14-EFPTR R
CH15-EFPTR R
CH16-EFPTR R
CH17-EFPTR R
CH18-EFPTR R
CH19-EFPTR R
CH20-EFPTR R
CH21-EFPTR R
CH22-EFPTR R
CH23-EFPTR R
CH24-EFPTR R
CH25-EFPTR R
CH26-EFPTR R
CH27-EFPTR R
CH28-EFPTR R
CH29-EFPTR R
CH30-EFPTR R
CH31-EFPTR R
CH32-EFPTR R
Contents
BU26 out of service command
BU27 out of service command
BU28 out of service command
BU29 out of service command
BU30 out of service command
BU31 out of service command
BU32 out of service command
BU33 out of service command
BU34 out of service command
BU35 out of service command
BU36 out of service command
BU37 out of service command
BU38 out of service command
BU39 out of service command
BU40 out of service command
BU41 out of service command
BU42 out of service command
BU43 out of service command
BU44 out of service command
BU45 out of service command
BU46 out of service command
BU47 out of service command
BU48 out of service command
BU49 out of service command
BU50 out of service command
BU51 out of service command
BU52 out of service command
BU53 out of service command
BU54 out of service command
BU55 out of service command
BU56 out of service command
BU57 out of service command
BU58 out of service command
BU59 out of service command
BU60 out of service command
BU61 out of service command
BU62 out of service command
BU63 out of service command
BU64 out of service command
Required condition for EFP transfer trip
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
⎯ 238 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5056
5057
5058
5059
5060
5061
5062
5063
5064
5065
5066
5067
5068
5069
5070
5071
5072
5073
5074
5075
5076
5077
5078
5079
5080
5081
5082
5083
5084
5085
5086
5087
5088
5089
5090
5091
5092
5093
5094
5095
5096
5097
5098
5099
5100
5101
5102
5103
5104
5105
5106
5107
5108
5109
5110
5111
5112
5113
5114
5115
5116
5117
5118
5119
5120
5121
5122
5123
5124
Signal Name
CH33-EFPTR R
CH34-EFPTR R
CH35-EFPTR R
CH36-EFPTR R
CH37-EFPTR R
CH38-EFPTR R
CH39-EFPTR R
CH40-EFPTR R
CH41-EFPTR R
CH42-EFPTR R
CH43-EFPTR R
CH44-EFPTR R
CH45-EFPTR R
CH46-EFPTR R
CH47-EFPTR R
CH48-EFPTR R
CH49-EFPTR R
CH50-EFPTR R
CH51-EFPTR R
CH52-EFPTR R
CH53-EFPTR R
CH54-EFPTR R
CH55-EFPTR R
CH56-EFPTR R
CH57-EFPTR R
CH58-EFPTR R
CH59-EFPTR R
CH60-EFPTR R
CH61-EFPTR R
CH62-EFPTR R
CH63-EFPTR R
CH64-EFPTR R
CH1-EFPTR ON
CH2-EFPTR ON
CH3-EFPTR ON
CH4-EFPTR ON
CH5-EFPTR ON
CH6-EFPTR ON
CH7-EFPTR ON
CH8-EFPTR ON
CH9-EFPTR ON
CH10-EFPTR ON
CH11-EFPTR ON
CH12-EFPTR ON
CH13-EFPTR ON
CH14-EFPTR ON
CH15-EFPTR ON
CH16-EFPTR ON
CH17-EFPTR ON
CH18-EFPTR ON
CH19-EFPTR ON
CH20-EFPTR ON
CH21-EFPTR ON
CH22-EFPTR ON
CH23-EFPTR ON
CH24-EFPTR ON
CH25-EFPTR ON
CH26-EFPTR ON
CH27-EFPTR ON
CH28-EFPTR ON
CH29-EFPTR ON
CH30-EFPTR ON
CH31-EFPTR ON
CH32-EFPTR ON
CH33-EFPTR ON
CH34-EFPTR ON
CH35-EFPTR ON
CH36-EFPTR ON
CH37-EFPTR ON
Contents
Required condition for EFP transfer trip
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
EFP transfer trip enable command
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
EFP transfer trip enable command
ditto
ditto
ditto
ditto
⎯ 239 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5125
5126
5127
5128
5129
5130
5131
5132
5133
5134
5135
5136
5137
5138
5139
5140
5141
5142
5143
5144
5145
5146
5147
5148
5149
5150
5151
5152
5153
5154
5155
5156
5157
5158
5159
5160
5161
5162
5163
5164
5165
5166
5167
5168
5169
5170
5171
5172
5173
5174
5175
5176
5177
5178
5179
5180
5181
5182
5183
5184
5185
5186
5187
5188
5189
5190
5191
5192
5193
5194
Signal Name
CH38-EFPTR ON
CH39-EFPTR ON
CH40-EFPTR ON
CH41-EFPTR ON
CH42-EFPTR ON
CH43-EFPTR ON
CH44-EFPTR ON
CH45-EFPTR ON
CH46-EFPTR ON
CH47-EFPTR ON
CH48-EFPTR ON
CH49-EFPTR ON
CH50-EFPTR ON
CH51-EFPTR ON
CH52-EFPTR ON
CH53-EFPTR ON
CH54-EFPTR ON
CH55-EFPTR ON
CH56-EFPTR ON
CH57-EFPTR ON
CH58-EFPTR ON
CH59-EFPTR ON
CH60-EFPTR ON
CH61-EFPTR ON
CH62-EFPTR ON
CH63-EFPTR ON
CH64-EFPTR ON
CH1-TP1
CH1-TP2
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
Binary output signal of CH1-TP1
TP2
Contents
CH1-BO3
CH1-BO4
CH1-BO5
CH1-BO6
CH2-TP1
CH2-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH2-TP1
TP2
CH2-BO3
CH2-BO4
CH2-BO5
CH2-BO6
CH3-TP1
CH3-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH3-TP1
TP2
CH3-BO3
CH3-BO4
CH3-BO5
CH3-BO6
CH4-TP1
CH4-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH4-TP1
TP2
CH4-BO3
CH4-BO4
CH4-BO5
CH4-BO6
CH5-TP1
CH5-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH5-TP1
TP2
CH5-BO3
CH5-BO4
CH5-BO5
CH5-BO6
CH6-TP1
CH6-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH6-TP1
TP2
⎯ 240 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5195
5196
5197
5198
5199
5200
5201
5202
5203
5204
5205
5206
5207
5208
5209
5210
5211
5212
5213
5214
5215
5216
5217
5218
5219
5220
5221
5222
5223
5224
5225
5226
5227
5228
5229
5230
5231
5232
5233
5234
5235
5236
5237
5238
5239
5240
5241
5242
5243
5244
5245
5246
5247
5248
5249
5250
5251
5252
5253
5254
5255
5256
5257
5258
5259
5260
5261
5262
5263
5264
Signal Name
Contents
CH6-BO3
CH6-BO4
CH6-BO5
CH6-BO6
CH7-TP1
CH7-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH7-TP1
TP2
CH7-BO3
CH7-BO4
CH7-BO5
CH7-BO6
CH8-TP1
CH8-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH8-TP1
TP2
CH8-BO3
CH8-BO4
CH8-BO5
CH8-BO6
CH9-TP1
CH9-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH9-TP1
TP2
CH9-BO3
CH9-BO4
CH9-BO5
CH9-BO6
CH10-TP1
CH10-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH10-TP1
TP2
CH10-BO3
CH10-BO4
CH10-BO5
CH10-BO6
CH11-TP1
CH11-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH11-TP1
TP2
CH11-BO3
CH11-BO4
CH11-BO5
CH11-BO6
CH12-TP1
CH12-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH12-TP1
TP2
CH12-BO3
CH12-BO4
CH12-BO5
CH12-BO6
CH13-TP1
CH13-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH13-TP1
TP2
CH13-BO3
CH13-BO4
CH13-BO5
CH13-BO6
CH14-TP1
CH14-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH14-TP1
TP2
CH14-BO3
CH14-BO4
CH14-BO5
CH14-BO6
CH15-TP1
BO3
BO4
BO5
BO6
Binary output signal of CH15-TP1
⎯ 241 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5265
5266
5267
5268
5269
5270
5271
5272
5273
5274
5275
5276
5277
5278
5279
5280
5281
5282
5283
5284
5285
5286
5287
5288
5289
5290
5291
5292
5293
5294
5295
5296
5297
5298
5299
5300
5301
5302
5303
5304
5305
5306
5307
5308
5309
5310
5311
5312
5313
5314
5315
5316
5317
5318
5319
5320
5321
5322
5323
5324
5325
5326
5327
5328
5329
5330
5331
5332
5333
5334
Signal Name
CH15-TP2
Contents
TP2
CH15-BO3
CH15-BO4
CH15-BO5
CH15-BO6
CH16-TP1
CH16-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH16-TP1
TP2
CH16-BO3
CH16-BO4
CH16-BO5
CH16-BO6
CH17-TP1
CH17-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH17-TP1
TP2
CH17-BO3
CH17-BO4
CH17-BO5
CH17-BO6
CH18-TP1
CH18-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH18-TP1
TP2
CH18-BO3
CH18-BO4
CH18-BO5
CH18-BO6
CH19-TP1
CH19-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH19-TP1
TP2
CH19-BO3
CH19-BO4
CH19-BO5
CH19-BO6
CH20-TP1
CH20-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH20-TP1
TP2
CH20-BO3
CH20-BO4
CH20-BO5
CH20-BO6
CH21-TP1
CH21-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH21-TP1
TP2
CH21-BO3
CH21-BO4
CH21-BO5
CH21-BO6
CH22-TP1
CH22-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH22-TP1
TP2
CH22-BO3
CH22-BO4
CH22-BO5
CH22-BO6
CH23-TP1
CH23-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH23-TP1
TP2
CH23-BO3
CH23-BO4
CH23-BO5
BO3
BO4
BO5
⎯ 242 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5335
5336
5337
5338
5339
5340
5341
5342
5343
5344
5345
5346
5347
5348
5349
5350
5351
5352
5353
5354
5355
5356
5357
5358
5359
5360
5361
5362
5363
5364
5365
5366
5367
5368
5369
5370
5371
5372
5373
5374
5375
5376
5377
5378
5379
5380
5381
5382
5383
5384
5385
5386
5387
5388
5389
5390
5391
5392
5393
5394
5395
5396
5397
5398
5399
5400
5401
5402
5403
5404
Signal Name
CH23-BO6
CH24-TP1
CH24-TP2
BO6
Binary output signal of CH24-TP1
TP2
CH24-BO3
CH24-BO4
CH24-BO5
CH24-BO6
CH25-TP1
CH25-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH25-TP1
TP2
CH25-BO3
CH25-BO4
CH25-BO5
CH25-BO6
CH26-TP1
CH26-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH26-TP1
TP2
CH26-BO3
CH26-BO4
CH26-BO5
CH26-BO6
CH27-TP1
CH27-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH27-TP1
TP2
CH27-BO3
CH27-BO4
CH27-BO5
CH27-BO6
CH28-TP1
CH28-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH28-TP1
TP2
CH28-BO3
CH28-BO4
CH28-BO5
CH28-BO6
CH29-TP1
CH29-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH29-TP1
TP2
CH29-BO3
CH29-BO4
CH29-BO5
CH29-BO6
CH30-TP1
CH30-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH30-TP1
TP2
CH30-BO3
CH30-BO4
CH30-BO5
CH30-BO6
CH31-TP1
CH31-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH31-TP1
TP2
CH31-BO3
CH31-BO4
CH31-BO5
CH31-BO6
CH32-TP1
CH32-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH32-TP1
TP2
CH32-BO3
Contents
BO3
⎯ 243 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5405
5406
5407
5408
5409
5410
5411
5412
5413
5414
5415
5416
5417
5418
5419
5420
5421
5422
5423
5424
5425
5426
5427
5428
5429
5430
5431
5432
5433
5434
5435
5436
5437
5438
5439
5440
5441
5442
5443
5444
5445
5446
5447
5448
5449
5450
5451
5452
5453
5454
5455
5456
5457
5458
5459
5460
5461
5462
5463
5464
5465
5466
5467
5468
5469
5470
5471
5472
5473
5474
Signal Name
CH32-BO4
CH32-BO5
CH32-BO6
CH33-TP1
CH33-TP2
BO4
BO5
BO6
Binary output signal of CH33-TP1
TP2
Contents
CH33-BO3
CH33-BO4
CH33-BO5
CH33-BO6
CH34-TP1
CH34-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH34-TP1
TP2
CH34-BO3
CH34-BO4
CH34-BO5
CH34-BO6
CH35-TP1
CH35-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH35-TP1
TP2
CH35-BO3
CH35-BO4
CH35-BO5
CH35-BO6
CH36-TP1
CH36-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH36-TP1
TP2
CH36-BO3
CH36-BO4
CH36-BO5
CH36-BO6
CH37-TP1
CH37-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH37-TP1
TP2
CH37-BO3
CH37-BO4
CH37-BO5
CH37-BO6
CH38-TP1
CH38-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH38-TP1
TP2
CH38-BO3
CH38-BO4
CH38-BO5
CH38-BO6
CH39-TP1
CH39-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH39-TP1
TP2
CH39-BO3
CH39-BO4
CH39-BO5
CH39-BO6
CH40-TP1
CH40-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH40-TP1
TP2
CH40-BO3
CH40-BO4
CH40-BO5
CH40-BO6
CH41-TP1
CH41-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH41-TP1
TP2
⎯ 244 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5475
5476
5477
5478
5479
5480
5481
5482
5483
5484
5485
5486
5487
5488
5489
5490
5491
5492
5493
5494
5495
5496
5497
5498
5499
5500
5501
5502
5503
5504
5505
5506
5507
5508
5509
5510
5511
5512
5513
5514
5515
5516
5517
5518
5519
5520
5521
5522
5523
5524
5525
5526
5527
5528
5529
5530
5531
5532
5533
5534
5535
5536
5537
5538
5539
5540
5541
5542
5543
5544
Signal Name
Contents
CH41-BO3
CH41-BO4
CH41-BO5
CH41-BO6
CH42-TP1
CH42-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH42-TP1
TP2
CH42-BO3
CH42-BO4
CH42-BO5
CH42-BO6
CH43-TP1
CH43-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH43-TP1
TP2
CH43-BO3
CH43-BO4
CH43-BO5
CH43-BO6
CH44-TP1
CH44-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH44-TP1
TP2
CH44-BO3
CH44-BO4
CH44-BO5
CH44-BO6
CH45-TP1
CH45-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH45-TP1
TP2
CH45-BO3
CH45-BO4
CH45-BO5
CH45-BO6
CH46-TP1
CH46-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH46-TP1
TP2
CH46-BO3
CH46-BO4
CH46-BO5
CH46-BO6
CH47-TP1
CH47-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH47-TP1
TP2
CH47-BO3
CH47-BO4
CH47-BO5
CH47-BO6
CH48-TP1
CH48-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH48-TP1
TP2
CH48-BO3
CH48-BO4
CH48-BO5
CH48-BO6
CH49-TP1
CH49-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH49-TP1
TP2
CH49-BO3
CH49-BO4
CH49-BO5
CH49-BO6
CH50-TP1
BO3
BO4
BO5
BO6
Binary output signal of CH50-TP1
⎯ 245 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5545
5546
5547
5548
5549
5550
5551
5552
5553
5554
5555
5556
5557
5558
5559
5560
5561
5562
5563
5564
5565
5566
5567
5568
5569
5570
5571
5572
5573
5574
5575
5576
5577
5578
5579
5580
5581
5582
5583
5584
5585
5586
5587
5588
5589
5590
5591
5592
5593
5594
5595
5596
5597
5598
5599
5600
5601
5602
5603
5604
5605
5606
5607
5608
5609
5610
5611
5612
5613
5614
Signal Name
CH50-TP2
Contents
TP2
CH50-BO3
CH50-BO4
CH50-BO5
CH50-BO6
CH51-TP1
CH51-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH51-TP1
TP2
CH51-BO3
CH51-BO4
CH51-BO5
CH51-BO6
CH52-TP1
CH52-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH52-TP1
TP2
CH52-BO3
CH52-BO4
CH52-BO5
CH52-BO6
CH53-TP1
CH53-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH53-TP1
TP2
CH53-BO3
CH53-BO4
CH53-BO5
CH53-BO6
CH54-TP1
CH54-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH54-TP1
TP2
CH54-BO3
CH54-BO4
CH54-BO5
CH54-BO6
CH55-TP1
CH55-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH55-TP1
TP2
CH55-BO3
CH55-BO4
CH55-BO5
CH55-BO6
CH56-TP1
CH56-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH56-TP1
TP2
CH56-BO3
CH56-BO4
CH56-BO5
CH56-BO6
CH57-TP1
CH57-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH57-TP1
TP2
CH57-BO3
CH57-BO4
CH57-BO5
CH57-BO6
CH58-TP1
CH58-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH58-TP1
TP2
CH58-BO3
CH58-BO4
CH58-BO5
BO3
BO4
BO5
⎯ 246 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5615
5616
5617
5618
5619
5620
5621
5622
5623
5624
5625
5626
5627
5628
5629
5630
5631
5632
5633
5634
5635
5636
5637
5638
5639
5640
5641
5642
5643
5644
5645
5646
5647
5648
5649
5650
5651
5652
5653
5654
5655
5656
5657
5658
5659
5660
5661
5662
5663
5664
5665
5666
5667
5668
5669
5670
5671
5672
5673
5674
5675
5676
5677
5678
5679
5680
5681
5682
5683
5684
Signal Name
CH58-BO6
CH59-TP1
CH59-TP2
BO6
Binary output signal of CH59-TP1
TP2
CH59-BO3
CH59-BO4
CH59-BO5
CH59-BO6
CH60-TP1
CH60-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH60-TP1
TP2
CH60-BO3
CH60-BO4
CH60-BO5
CH60-BO6
CH61-TP1
CH61-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH61-TP1
TP2
CH61-BO3
CH61-BO4
CH61-BO5
CH61-BO6
CH62-TP1
CH62-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH62-TP1
TP2
CH62-BO3
CH62-BO4
CH62-BO5
CH62-BO6
CH63-TP1
CH63-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH63-TP1
TP2
CH63-BO3
CH63-BO4
CH63-BO5
CH63-BO6
CH64-TP1
CH64-TP2
BO3
BO4
BO5
BO6
Binary output signal of CH64-TP1
TP2
CH64-BO3
CH64-BO4
CH64-BO5
CH64-BO6
Contents
BO3
BO4
BO5
BO6
⎯ 247 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5685
5686
5687
5688
5689
5690
5691
5692
5693
5694
5695
5696
5697
5698
5699
5700
5701
5702
5703
5704
5705
5706
5707
5708
5709
5710
5711
5712
5713
5714
5715
5716
5717
5718
5719
5720
5721
5722
5723
5724
5725
5726
5727
5728
5729
5730
5731
5732
5733
5734
5735
5736
5737
5738
5739
5740
5741
5742
5743
5744
5745
5746
5747
5748
5749
5750
5751
5752
5753
5754
Signal Name
Contents
⎯ 248 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5755
5756
5757
5758
5759
5760
5761
5762
5763
5764
5765
5766
5767
5768
5769
5770
5771
5772
5773
5774
5775
5776
5777
5778
5779
5780
5781
5782
5783
5784
5785
5786
5787
5788
5789
5790
5791
5792
5793
5794
5795
5796
5797
5798
5799
5800
5801
5802
5803
5804
5805
5806
5807
5808
5809
5810
5811
5812
5813
5814
5815
5816
5817
5818
5819
5820
5821
5822
5823
5824
Signal Name
Contents
⎯ 249 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5825
5826
5827
5828
5829
5830
5831
5832
5833
5834
5835
5836
5837
5838
5839
5840
5841
5842
5843
5844
5845
5846
5847
5848
5849
5850
5851
5852
5853
5854
5855
5856
5857
5858
5859
5860
5861
5862
5863
5864
5865
5866
5867
5868
5869
5870
5871
5872
5873
5874
5875
5876
5877
5878
5879
5880
5881
5882
5883
5884
5885
5886
5887
5888
5889
5890
5891
5892
5893
5894
Signal Name
Contents
⎯ 250 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5895
5896
5897
5898
5899
5900
5901
5902
5903
5904
5905
5906
5907
5908
5909
5910
5911
5912
5913
5914
5915
5916
5917
5918
5919
5920
5921
5922
5923
5924
5925
5926
5927
5928
5929
5930
5931
5932
5933
5934
5935
5936
5937
5938
5939
5940
5941
5942
5943
5944
5945
5946
5947
5948
5949
5950
5951
5952
5953
5954
5955
5956
5957
5958
5959
5960
5961
5962
5963
5964
Signal Name
Contents
⎯ 251 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
5965
5966
5967
5968
5969
5970
5971
5972
5973
5974
5975
5976
5977
5978
5979
5980
5981
5982
5983
5984
5985
5986
5987
5988
5989
5990
5991
5992
5993
5994
5995
5996
5997
5998
5999
6000
6001
6002
6003
6004
6005
6006
6007
6008
6009
6010
6011
6012
6013
6014
6015
6016
6017
6018
6019
6020
6021
6022
6023
6024
6025
6026
6027
6028
6029
6030
6031
6032
6033
6034
Signal Name
Contents
⎯ 252 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6035
6036
6037
6038
6039
6040
6041
6042
6043
6044
6045
6046
6047
6048
6049
6050
6051
6052
6053
6054
6055
6056
6057
6058
6059
6060
6061
6062
6063
6064
6065
6066
6067
6068
6069
6070
6071
6072
6073
6074
6075
6076
6077
6078
6079
6080
6081
6082
6083
6084
6085
6086
6087
6088
6089
6090
6091
6092
6093
6094
6095
6096
6097
6098
6099
6100
6101
6102
6103
6104
Signal Name
Contents
⎯ 253 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6105
6106
6107
6108
6109
6110
6111
6112
6113
6114
6115
6116
6117
6118
6119
6120
6121
6122
6123
6124
6125
6126
6127
6128
6129
6130
6131
6132
6133
6134
6135
6136
6137
6138
6139
6140
6141
6142
6143
6144
6145
6146
6147
6148
6149
6150
6151
6152
6153
6154
6155
6156
6157
6158
6159
6160
6161
6162
6163
6164
6165
6166
6167
6168
6169
6170
6171
6172
6173
6174
Signal Name
Contents
LED1 lit output (reserved)
LED2 lit output (reserved)
LED3 lit output (reserved)
LED4 lit output (reserved)
LED5 lit output (reserved)
LED6 lit output (reserved)
LED7 lit output (reserved)
LED8 lit output (reserved)
F.RECORD1
F.RECORD2
F.RECORD3
F.RECORD4
F.RCD MODE
Fault record stored command 1
2
3
4
Fault record mode command (COM trip)
D.RECORD1
D.RECORD2
D.RECORD3
D.RECORD4
Disturbance record stored command 1
2
3
4
5 (reserved)
6 (reserved)
7 (reserved)
⎯ 254 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6175
6176
6177
6178
6179
6180
6181
6182
6183
6184
6185
6186
6187
6188
6189
6190
6191
6192
6193
6194
6195
6196
6197
6198
6199
6200
6201
6202
6203
6204
6205
6206
6207
6208
6209
6210
6211
6212
6213
6214
6215
6216
6217
6218
6219
6220
6221
6222
6223
6224
6225
6226
6227
6228
6229
6230
6231
6232
6233
6234
6235
6236
6237
6238
6239
6240
6241
6242
6243
6244
Signal Name
SET.GROUP1
SET.GROUP2
SET.GROUP3
SET.GROUP4
SET.GROUP5
SET.GROUP6
SET.GROUP7
SET.GROUP8
Contents
8 (reserved)
Active setting group changed commamd (Change to group1)
2
3
4
5
6
7
8
CON
CON
CON
CON
CON
CON
CON
CON
User configurable trip mode in fault record
ditto
ditto
ditto
ditto
ditto
ditto
ditto
TPMD1
TPMD2
TPMD3
TPMD4
TPMD5
TPMD6
TPMD7
TPMD8
PROT COM RECV
Auto-recloser inactivate command received (reserved)
Teleprotection inactivate command received (reserved)
protection inactivate command received
TPLED RST RCV
TRIP LED RESET command received
⎯ 255 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6245
6246
6247
6248
6249
6250
6251
6252
6253
6254
6255
6256
6257
6258
6259
6260
6261
6262
6263
6264
6265
6266
6267
6268
6269
6270
6271
6272
6273
6274
6275
6276
6277
6278
6279
6280
6281
6282
6283
6284
6285
6286
6287
6288
6289
6290
6291
6292
6293
6294
6295
6296
6297
6298
6299
6300
6301
6302
6303
6304
6305
6306
6307
6308
6309
6310
6311
6312
6313
6314
Signal Name
Contents
⎯ 256 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6315
6316
6317
6318
6319
6320
6321
6322
6323
6324
6325
6326
6327
6328
6329
6330
6331
6332
6333
6334
6335
6336
6337
6338
6339
6340
6341
6342
6343
6344
6345
6346
6347
6348
6349
6350
6351
6352
6353
6354
6355
6356
6357
6358
6359
6360
6361
6362
6363
6364
6365
6366
6367
6368
6369
6370
6371
6372
6373
6374
6375
6376
6377
6378
6379
6380
6381
6382
6383
6384
Signal Name
Contents
⎯ 257 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6385
6386
6387
6388
6389
6390
6391
6392
6393
6394
6395
6396
6397
6398
6399
6400
6401
6402
6403
6404
6405
6406
6407
6408
6409
6410
6411
6412
6413
6414
6415
6416
6417
6418
6419
6420
6421
6422
6423
6424
6425
6426
6427
6428
6429
6430
6431
6432
6433
6434
6435
6436
6437
6438
6439
6440
6441
6442
6443
6444
6445
6446
6447
6448
6449
6450
6451
6452
6453
6454
Signal Name
Contents
⎯ 258 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6455
6456
6457
6458
6459
6460
6461
6462
6463
6464
6465
6466
6467
6468
6469
6470
6471
6472
6473
6474
6475
6476
6477
6478
6479
6480
6481
6482
6483
6484
6485
6486
6487
6488
6489
6490
6491
6492
6493
6494
6495
6496
6497
6498
6499
6500
6501
6502
6503
6504
6505
6506
6507
6508
6509
6510
6511
6512
6513
6514
6515
6516
6517
6518
6519
6520
6521
6522
6523
6524
Signal Name
Contents
⎯ 259 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6525
6526
6527
6528
6529
6530
6531
6532
6533
6534
6535
6536
6537
6538
6539
6540
6541
6542
6543
6544
6545
6546
6547
6548
6549
6550
6551
6552
6553
6554
6555
6556
6557
6558
6559
6560
6561
6562
6563
6564
6565
6566
6567
6568
6569
6570
6571
6572
6573
6574
6575
6576
6577
6578
6579
6580
6581
6582
6583
6584
6585
6586
6587
6588
6589
6590
6591
6592
6593
6594
Signal Name
Contents
⎯ 260 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6595
6596
6597
6598
6599
6600
6601
6602
6603
6604
6605
6606
6607
6608
6609
6610
6611
6612
6613
6614
6615
6616
6617
6618
6619
6620
6621
6622
6623
6624
6625
6626
6627
6628
6629
6630
6631
6632
6633
6634
6635
6636
6637
6638
6639
6640
6641
6642
6643
6644
6645
6646
6647
6648
6649
6650
6651
6652
6653
6654
6655
6656
6657
6658
6659
6660
6661
6662
6663
6664
Signal Name
Contents
⎯ 261 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6665
6666
6667
6668
6669
6670
6671
6672
6673
6674
6675
6676
6677
6678
6679
6680
6681
6682
6683
6684
6685
6686
6687
6688
6689
6690
6691
6692
6693
6694
6695
6696
6697
6698
6699
6700
6701
6702
6703
6704
6705
6706
6707
6708
6709
6710
6711
6712
6713
6714
6715
6716
6717
6718
6719
6720
6721
6722
6723
6724
6725
6726
6727
6728
6729
6730
6731
6732
6733
6734
Signal Name
Contents
⎯ 262 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6735
6736
6737
6738
6739
6740
6741
6742
6743
6744
6745
6746
6747
6748
6749
6750
6751
6752
6753
6754
6755
6756
6757
6758
6759
6760
6761
6762
6763
6764
6765
6766
6767
6768
6769
6770
6771
6772
6773
6774
6775
6776
6777
6778
6779
6780
6781
6782
6783
6784
6785
6786
6787
6788
6789
6790
6791
6792
6793
6794
6795
6796
6797
6798
6799
6800
6801
6802
6803
6804
Signal Name
Contents
⎯ 263 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6805
6806
6807
6808
6809
6810
6811
6812
6813
6814
6815
6816
6817
6818
6819
6820
6821
6822
6823
6824
6825
6826
6827
6828
6829
6830
6831
6832
6833
6834
6835
6836
6837
6838
6839
6840
6841
6842
6843
6844
6845
6846
6847
6848
6849
6850
6851
6852
6853
6854
6855
6856
6857
6858
6859
6860
6861
6862
6863
6864
6865
6866
6867
6868
6869
6870
6871
6872
6873
6874
Signal Name
Contents
⎯ 264 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6875
6876
6877
6878
6879
6880
6881
6882
6883
6884
6885
6886
6887
6888
6889
6890
6891
6892
6893
6894
6895
6896
6897
6898
6899
6900
6901
6902
6903
6904
6905
6906
6907
6908
6909
6910
6911
6912
6913
6914
6915
6916
6917
6918
6919
6920
6921
6922
6923
6924
6925
6926
6927
6928
6929
6930
6931
6932
6933
6934
6935
6936
6937
6938
6939
6940
6941
6942
6943
6944
Signal Name
Contents
TEMP001
TEMP002
TEMP003
TEMP004
TEMP005
TEMP006
TEMP007
TEMP008
TEMP009
TEMP010
TEMP011
TEMP012
TEMP013
TEMP014
TEMP015
TEMP016
TEMP017
TEMP018
TEMP019
TEMP020
TEMP021
TEMP022
TEMP023
TEMP024
TEMP025
TEMP026
TEMP027
TEMP028
TEMP029
TEMP030
TEMP031
TEMP032
TEMP033
⎯ 265 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
6945
6946
6947
6948
6949
6950
6951
6952
6953
6954
6955
6956
6957
6958
6959
6960
6961
6962
6963
6964
6965
6966
6967
6968
6969
6970
6971
6972
6973
6974
6975
6976
6977
6978
6979
6980
6981
6982
6983
6984
6985
6986
6987
6988
6989
6990
6991
6992
6993
6994
6995
6996
6997
6998
6999
7000
7001
7002
7003
7004
7005
7006
7007
7008
7009
7010
7011
7012
7013
7014
Signal Name
TEMP034
TEMP035
TEMP036
TEMP037
TEMP038
TEMP039
TEMP040
TEMP041
TEMP042
TEMP043
TEMP044
TEMP045
TEMP046
TEMP047
TEMP048
TEMP049
TEMP050
TEMP051
TEMP052
TEMP053
TEMP054
TEMP055
TEMP056
TEMP057
TEMP058
TEMP059
TEMP060
TEMP061
TEMP062
TEMP063
TEMP064
TEMP065
TEMP066
TEMP067
TEMP068
TEMP069
TEMP070
TEMP071
TEMP072
TEMP073
TEMP074
TEMP075
TEMP076
TEMP077
TEMP078
TEMP079
TEMP080
TEMP081
TEMP082
TEMP083
TEMP084
TEMP085
TEMP086
TEMP087
TEMP088
TEMP089
TEMP090
TEMP091
TEMP092
TEMP093
TEMP094
TEMP095
TEMP096
TEMP097
TEMP098
TEMP099
TEMP100
TEMP101
TEMP102
TEMP103
Contents
⎯ 266 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
7015
7016
7017
7018
7019
7020
7021
7022
7023
7024
7025
7026
7027
7028
7029
7030
7031
7032
7033
7034
7035
7036
7037
7038
7039
7040
7041
7042
7043
7044
7045
7046
7047
7048
7049
7050
7051
7052
7053
7054
7055
7056
7057
7058
7059
7060
7061
7062
7063
7064
7065
7066
7067
7068
7069
7070
7071
7072
7073
7074
7075
7076
7077
7078
7079
7080
7081
7082
7083
7084
Signal Name
TEMP104
TEMP105
TEMP106
TEMP107
TEMP108
TEMP109
TEMP110
TEMP111
TEMP112
TEMP113
TEMP114
TEMP115
TEMP116
TEMP117
TEMP118
TEMP119
TEMP120
TEMP121
TEMP122
TEMP123
TEMP124
TEMP125
TEMP126
TEMP127
TEMP128
TEMP129
TEMP130
TEMP131
TEMP132
TEMP133
TEMP134
TEMP135
TEMP136
TEMP137
TEMP138
TEMP139
TEMP140
TEMP141
TEMP142
TEMP143
TEMP144
TEMP145
TEMP146
TEMP147
TEMP148
TEMP149
TEMP150
TEMP151
TEMP152
TEMP153
TEMP154
TEMP155
TEMP156
TEMP157
TEMP158
TEMP159
TEMP160
TEMP161
TEMP162
TEMP163
TEMP164
TEMP165
TEMP166
TEMP167
TEMP168
TEMP169
TEMP170
TEMP171
TEMP172
TEMP173
Contents
⎯ 267 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
7085
7086
7087
7088
7089
7090
7091
7092
7093
7094
7095
7096
7097
7098
7099
7100
7101
7102
7103
7104
7105
7106
7107
7108
7109
7110
7111
7112
7113
7114
7115
7116
7117
7118
7119
7120
7121
7122
7123
7124
7125
7126
7127
7128
7129
7130
7131
7132
7133
7134
7135
7136
7137
7138
7139
7140
7141
7142
7143
7144
7145
7146
7147
7148
7149
7150
7151
7152
7153
7154
Signal Name
TEMP174
TEMP175
TEMP176
TEMP177
TEMP178
TEMP179
TEMP180
TEMP181
TEMP182
TEMP183
TEMP184
TEMP185
TEMP186
TEMP187
TEMP188
TEMP189
TEMP190
TEMP191
TEMP192
TEMP193
TEMP194
TEMP195
TEMP196
TEMP197
TEMP198
TEMP199
TEMP200
TEMP201
TEMP202
TEMP203
TEMP204
TEMP205
TEMP206
TEMP207
TEMP208
TEMP209
TEMP210
TEMP211
TEMP212
TEMP213
TEMP214
TEMP215
TEMP216
TEMP217
TEMP218
TEMP219
TEMP220
TEMP221
TEMP222
TEMP223
TEMP224
TEMP225
TEMP226
TEMP227
TEMP228
TEMP229
TEMP230
TEMP231
TEMP232
TEMP233
TEMP234
TEMP235
TEMP236
TEMP237
TEMP238
TEMP239
TEMP240
TEMP241
TEMP242
TEMP243
Contents
⎯ 268 ⎯
6 F 2 S 0 8 8 2
Signal List
No.
7155
7156
7157
7158
7159
7160
7161
7162
7163
7164
7165
7166
7167
Signal Name
TEMP244
TEMP245
TEMP246
TEMP247
TEMP248
TEMP249
TEMP250
TEMP251
TEMP252
TEMP253
TEMP254
TEMP255
TEMP256
Contents
⎯ 269 ⎯
6 F 2 S 0 8 8 2
For IEC61850
Measure Table
NO
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
SIGNAL NAME
VaA_mag
VbA_mag
VcA_mag
VaA_ang
VbA_ang
VcA_ang
VaB_mag
VbB_mag
VcB_mag
VaB_ang
VbB_ang
VcB_ang
VaC_mag
VbC_mag
VcC_mag
VaC_ang
VbC_ang
VcC_ang
VaD_mag
VbD_mag
VcD_mag
VaD_ang
VbD_ang
VcD_ang
V1A_mag
V2A_mag
V0A_mag
V1A_ang
V2A_ang
V0A_ang
V1B_mag
V2B_mag
V0B_mag
V1B_ang
V2B_ang
V0B_ang
V1C_mag
V2C_mag
V0C_mag
V1C_ang
V2C_ang
V0C_ang
V1D_mag
V2D_mag
V0D_mag
V1D_ang
V2D_ang
V0D_ang
CH1_Ia_mag
CH1_Ib_mag
CH1_Ic_mag
CONTENTS
VaA magnitude
VbA magnitude
VcA magnitude
VaA angle
VbA angle
VcA angle
VaB magnitude
VbB magnitude
VcB magnitude
VaB angle
VbB angle
VcB angle
VaC magnitude
VbC magnitude
VcC magnitude
VaC angle
VbC angle
VcC angle
VaD magnitude
VbD magnitude
VcD magnitude
VaD angle
VbD angle
VcD angle
V1A magnitude
V2A magnitude
V0A magnitude
V1A angle
V2A angle
V0A angle
V1B magnitude
V2B magnitude
V0B magnitude
V1B angle
V2B angle
V0B angle
V1C magnitude
V2C magnitude
V0C magnitude
V1C angle
V2C angle
V0C angle
V1D magnitude
V2D magnitude
V0D magnitude
V1D angle
V2D angle
V0D angle
CH1 Ia magnitude
CH1 Ib magnitude
CH1 Ic magnitude
NO
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
⎯ 270 ⎯
SIGNAL NAME
CH1_Ia_ang
CH1_Ib_ang
CH1_Ic_ang
CH2_Ia_mag
CH2_Ib_mag
CH2_Ic_mag
CH2_Ia_ang
CH2_Ib_ang
CH2_Ic_ang
CH3_Ia_mag
CH3_Ib_mag
CH3_Ic_mag
CH3_Ia_ang
CH3_Ib_ang
CH3_Ic_ang
CH4_Ia_mag
CH4_Ib_mag
CH4_Ic_mag
CH4_Ia_ang
CH4_Ib_ang
CH4_Ic_ang
CH5_Ia_mag
CH5_Ib_mag
CH5_Ic_mag
CH5_Ia_ang
CH5_Ib_ang
CH5_Ic_ang
CH6_Ia_mag
CH6_Ib_mag
CH6_Ic_mag
CH6_Ia_ang
CH6_Ib_ang
CH6_Ic_ang
CH7_Ia_mag
CH7_Ib_mag
CH7_Ic_mag
CH7_Ia_ang
CH7_Ib_ang
CH7_Ic_ang
CH8_Ia_mag
CH8_Ib_mag
CH8_Ic_mag
CH8_Ia_ang
CH8_Ib_ang
CH8_Ic_ang
CH9_Ia_mag
CH9_Ib_mag
CH9_Ic_mag
CH9_Ia_ang
CH9_Ib_ang
CONTENTS
CH1 Ia angle
CH1 Ib angle
CH1 Ic angle
CH2 Ia magnitude
CH2 Ib magnitude
CH2 Ic magnitude
CH2 Ia angle
CH2 Ib angle
CH2 Ic angle
CH3 Ia magnitude
CH3 Ib magnitude
CH3 Ic magnitude
CH3 Ia angle
CH3 Ib angle
CH3 Ic angle
CH4 Ia magnitude
CH4 Ib magnitude
CH4 Ic magnitude
CH4 Ia angle
CH4 Ib angle
CH4 Ic angle
CH5 Ia magnitude
CH5 Ib magnitude
CH5 Ic magnitude
CH5 Ia angle
CH5 Ib angle
CH5 Ic angle
CH6 Ia magnitude
CH6 Ib magnitude
CH6 Ic magnitude
CH6 Ia angle
CH6 Ib angle
CH6 Ic angle
CH7 Ia magnitude
CH7 Ib magnitude
CH7 Ic magnitude
CH7 Ia angle
CH7 Ib angle
CH7 Ic angle
CH8 Ia magnitude
CH8 Ib magnitude
CH8 Ic magnitude
CH8 Ia angle
CH8 Ib angle
CH8 Ic angle
CH9 Ia magnitude
CH9 Ib magnitude
CH9 Ic magnitude
CH9 Ia angle
CH9 Ib angle
6 F 2 S 0 8 8 2
NO
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
SIGNAL NAME
CH9_Ic_ang
CH10_Ia_mag
CH10_Ib_mag
CH10_Ic_mag
CH10_Ia_ang
CH10_Ib_ang
CH10_Ic_ang
CH11_Ia_mag
CH11_Ib_mag
CH11_Ic_mag
CH11_Ia_ang
CH11_Ib_ang
CH11_Ic_ang
CH12_Ia_mag
CH12_Ib_mag
CH12_Ic_mag
CH12_Ia_ang
CH12_Ib_ang
CH12_Ic_ang
CH13_Ia_mag
CH13_Ib_mag
CH13_Ic_mag
CH13_Ia_ang
CH13_Ib_ang
CH13_Ic_ang
CH14_Ia_mag
CH14_Ib_mag
CH14_Ic_mag
CH14_Ia_ang
CH14_Ib_ang
CH14_Ic_ang
CH15_Ia_mag
CH15_Ib_mag
CH15_Ic_mag
CH15_Ia_ang
CH15_Ib_ang
CH15_Ic_ang
CH16_Ia_mag
CH16_Ib_mag
CH16_Ic_mag
CH16_Ia_ang
CH16_Ib_ang
CH16_Ic_ang
CH17_Ia_mag
CH17_Ib_mag
CH17_Ic_mag
CH17_Ia_ang
CH17_Ib_ang
CH17_Ic_ang
CH18_Ia_mag
CONTENTS
CH9 Ic angle
CH10 Ia magnitude
CH10 Ib magnitude
CH10 Ic magnitude
CH10 Ia angle
CH10 Ib angle
CH10 Ic angle
CH11 Ia magnitude
CH11 Ib magnitude
CH11 Ic magnitude
CH11 Ia angle
CH11 Ib angle
CH11 Ic angle
CH12 Ia magnitude
CH12 Ib magnitude
CH12 Ic magnitude
CH12 Ia angle
CH12 Ib angle
CH12 Ic angle
CH13 Ia magnitude
CH13 Ib magnitude
CH13 Ic magnitude
CH13 Ia angle
CH13 Ib angle
CH13 Ic angle
CH14 Ia magnitude
CH14 Ib magnitude
CH14 Ic magnitude
CH14 Ia angle
CH14 Ib angle
CH14 Ic angle
CH15 Ia magnitude
CH15 Ib magnitude
CH15 Ic magnitude
CH15 Ia angle
CH15 Ib angle
CH15 Ic angle
CH16 Ia magnitude
CH16 Ib magnitude
CH16 Ic magnitude
CH16 Ia angle
CH16 Ib angle
CH16 Ic angle
CH17 Ia magnitude
CH17 Ib magnitude
CH17 Ic magnitude
CH17 Ia angle
CH17 Ib angle
CH17 Ic angle
CH18 Ia magnitude
NO
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
⎯ 271 ⎯
SIGNAL NAME
CH18_Ib_mag
CH18_Ic_mag
CH18_Ia_ang
CH18_Ib_ang
CH18_Ic_ang
CH19_Ia_mag
CH19_Ib_mag
CH19_Ic_mag
CH19_Ia_ang
CH19_Ib_ang
CH19_Ic_ang
CH20_Ia_mag
CH20_Ib_mag
CH20_Ic_mag
CH20_Ia_ang
CH20_Ib_ang
CH20_Ic_ang
CH21_Ia_mag
CH21_Ib_mag
CH21_Ic_mag
CH21_Ia_ang
CH21_Ib_ang
CH21_Ic_ang
CH22_Ia_mag
CH22_Ib_mag
CH22_Ic_mag
CH22_Ia_ang
CH22_Ib_ang
CH22_Ic_ang
CH23_Ia_mag
CH23_Ib_mag
CH23_Ic_mag
CH23_Ia_ang
CH23_Ib_ang
CH23_Ic_ang
CH24_Ia_mag
CH24_Ib_mag
CH24_Ic_mag
CH24_Ia_ang
CH24_Ib_ang
CH24_Ic_ang
CH25_Ia_mag
CH25_Ib_mag
CH25_Ic_mag
CH25_Ia_ang
CH25_Ib_ang
CH25_Ic_ang
CH26_Ia_mag
CH26_Ib_mag
CH26_Ic_mag
CONTENTS
CH18 Ib magnitude
CH18 Ic magnitude
CH18 Ia angle
CH18 Ib angle
CH18 Ic angle
CH19 Ia magnitude
CH19 Ib magnitude
CH19 Ic magnitude
CH19 Ia angle
CH19 Ib angle
CH19 Ic angle
CH20 Ia magnitude
CH20 Ib magnitude
CH20 Ic magnitude
CH20 Ia angle
CH20 Ib angle
CH20 Ic angle
CH21 Ia magnitude
CH21 Ib magnitude
CH21 Ic magnitude
CH21 Ia angle
CH21 Ib angle
CH21 Ic angle
CH22 Ia magnitude
CH22 Ib magnitude
CH22 Ic magnitude
CH22 Ia angle
CH22 Ib angle
CH22 Ic angle
CH23 Ia magnitude
CH23 Ib magnitude
CH23 Ic magnitude
CH23 Ia angle
CH23 Ib angle
CH23 Ic angle
CH24 Ia magnitude
CH24 Ib magnitude
CH24 Ic magnitude
CH24 Ia angle
CH24 Ib angle
CH24 Ic angle
CH25 Ia magnitude
CH25 Ib magnitude
CH25 Ic magnitude
CH25 Ia angle
CH25 Ib angle
CH25 Ic angle
CH26 Ia magnitude
CH26 Ib magnitude
CH26 Ic magnitude
6 F 2 S 0 8 8 2
NO
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
SIGNAL NAME
CH26_Ia_ang
CH26_Ib_ang
CH26_Ic_ang
CH27_Ia_mag
CH27_Ib_mag
CH27_Ic_mag
CH27_Ia_ang
CH27_Ib_ang
CH27_Ic_ang
CH28_Ia_mag
CH28_Ib_mag
CH28_Ic_mag
CH28_Ia_ang
CH28_Ib_ang
CH28_Ic_ang
CH29_Ia_mag
CH29_Ib_mag
CH29_Ic_mag
CH29_Ia_ang
CH29_Ib_ang
CH29_Ic_ang
CH30_Ia_mag
CH30_Ib_mag
CH30_Ic_mag
CH30_Ia_ang
CH30_Ib_ang
CH30_Ic_ang
CH31_Ia_mag
CH31_Ib_mag
CH31_Ic_mag
CH31_Ia_ang
CH31_Ib_ang
CH31_Ic_ang
CH32_Ia_mag
CH32_Ib_mag
CH32_Ic_mag
CH32_Ia_ang
CH32_Ib_ang
CH32_Ic_ang
CH33_Ia_mag
CH33_Ib_mag
CH33_Ic_mag
CH33_Ia_ang
CH33_Ib_ang
CH33_Ic_ang
CH34_Ia_mag
CH34_Ib_mag
CH34_Ic_mag
CH34_Ia_ang
CH34_Ib_ang
CONTENTS
CH26 Ia angle
CH26 Ib angle
CH26 Ic angle
CH27 Ia magnitude
CH27 Ib magnitude
CH27 Ic magnitude
CH27 Ia angle
CH27 Ib angle
CH27 Ic angle
CH28 Ia magnitude
CH28 Ib magnitude
CH28 Ic magnitude
CH28 Ia angle
CH28 Ib angle
CH28 Ic angle
CH29 Ia magnitude
CH29 Ib magnitude
CH29 Ic magnitude
CH29 Ia angle
CH29 Ib angle
CH29 Ic angle
CH30 Ia magnitude
CH30 Ib magnitude
CH30 Ic magnitude
CH30 Ia angle
CH30 Ib angle
CH30 Ic angle
CH31 Ia magnitude
CH31 Ib magnitude
CH31 Ic magnitude
CH31 Ia angle
CH31 Ib angle
CH31 Ic angle
CH32 Ia magnitude
CH32 Ib magnitude
CH32 Ic magnitude
CH32 Ia angle
CH32 Ib angle
CH32 Ic angle
CH33 Ia magnitude
CH33 Ib magnitude
CH33 Ic magnitude
CH33 Ia angle
CH33 Ib angle
CH33 Ic angle
CH34 Ia magnitude
CH34 Ib magnitude
CH34 Ic magnitude
CH34 Ia angle
CH34 Ib angle
NO
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
⎯ 272 ⎯
SIGNAL NAME
CH34_Ic_ang
CH35_Ia_mag
CH35_Ib_mag
CH35_Ic_mag
CH35_Ia_ang
CH35_Ib_ang
CH35_Ic_ang
CH36_Ia_mag
CH36_Ib_mag
CH36_Ic_mag
CH36_Ia_ang
CH36_Ib_ang
CH36_Ic_ang
CH37_Ia_mag
CH37_Ib_mag
CH37_Ic_mag
CH37_Ia_ang
CH37_Ib_ang
CH37_Ic_ang
CH38_Ia_mag
CH38_Ib_mag
CH38_Ic_mag
CH38_Ia_ang
CH38_Ib_ang
CH38_Ic_ang
CH39_Ia_mag
CH39_Ib_mag
CH39_Ic_mag
CH39_Ia_ang
CH39_Ib_ang
CH39_Ic_ang
CH40_Ia_mag
CH40_Ib_mag
CH40_Ic_mag
CH40_Ia_ang
CH40_Ib_ang
CH40_Ic_ang
CH41_Ia_mag
CH41_Ib_mag
CH41_Ic_mag
CH41_Ia_ang
CH41_Ib_ang
CH41_Ic_ang
CH42_Ia_mag
CH42_Ib_mag
CH42_Ic_mag
CH42_Ia_ang
CH42_Ib_ang
CH42_Ic_ang
CH43_Ia_mag
CONTENTS
CH34 Ic angle
CH35 Ia magnitude
CH35 Ib magnitude
CH35 Ic magnitude
CH35 Ia angle
CH35 Ib angle
CH35 Ic angle
CH36 Ia magnitude
CH36 Ib magnitude
CH36 Ic magnitude
CH36 Ia angle
CH36 Ib angle
CH36 Ic angle
CH37 Ia magnitude
CH37 Ib magnitude
CH37 Ic magnitude
CH37 Ia angle
CH37 Ib angle
CH37 Ic angle
CH38 Ia magnitude
CH38 Ib magnitude
CH38 Ic magnitude
CH38 Ia angle
CH38 Ib angle
CH38 Ic angle
CH39 Ia magnitude
CH39 Ib magnitude
CH39 Ic magnitude
CH39 Ia angle
CH39 Ib angle
CH39 Ic angle
CH40 Ia magnitude
CH40 Ib magnitude
CH40 Ic magnitude
CH40 Ia angle
CH40 Ib angle
CH40 Ic angle
CH41 Ia magnitude
CH41 Ib magnitude
CH41 Ic magnitude
CH41 Ia angle
CH41 Ib angle
CH41 Ic angle
CH42 Ia magnitude
CH42 Ib magnitude
CH42 Ic magnitude
CH42 Ia angle
CH42 Ib angle
CH42 Ic angle
CH43 Ia magnitude
6 F 2 S 0 8 8 2
NO
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
SIGNAL NAME
CH43_Ib_mag
CH43_Ic_mag
CH43_Ia_ang
CH43_Ib_ang
CH43_Ic_ang
CH44_Ia_mag
CH44_Ib_mag
CH44_Ic_mag
CH44_Ia_ang
CH44_Ib_ang
CH44_Ic_ang
CH45_Ia_mag
CH45_Ib_mag
CH45_Ic_mag
CH45_Ia_ang
CH45_Ib_ang
CH45_Ic_ang
CH46_Ia_mag
CH46_Ib_mag
CH46_Ic_mag
CH46_Ia_ang
CH46_Ib_ang
CH46_Ic_ang
CH47_Ia_mag
CH47_Ib_mag
CH47_Ic_mag
CH47_Ia_ang
CH47_Ib_ang
CH47_Ic_ang
CH48_Ia_mag
CH48_Ib_mag
CH48_Ic_mag
CH48_Ia_ang
CH48_Ib_ang
CH48_Ic_ang
CH49_Ia_mag
CH49_Ib_mag
CH49_Ic_mag
CH49_Ia_ang
CH49_Ib_ang
CH49_Ic_ang
CH50_Ia_mag
CH50_Ib_mag
CH50_Ic_mag
CH50_Ia_ang
CH50_Ib_ang
CH50_Ic_ang
CH51_Ia_mag
CH51_Ib_mag
CH51_Ic_mag
CONTENTS
CH43 Ib magnitude
CH43 Ic magnitude
CH43 Ia angle
CH43 Ib angle
CH43 Ic angle
CH44 Ia magnitude
CH44 Ib magnitude
CH44 Ic magnitude
CH44 Ia angle
CH44 Ib angle
CH44 Ic angle
CH45 Ia magnitude
CH45 Ib magnitude
CH45 Ic magnitude
CH45 Ia angle
CH45 Ib angle
CH45 Ic angle
CH46 Ia magnitude
CH46 Ib magnitude
CH46 Ic magnitude
CH46 Ia angle
CH46 Ib angle
CH46 Ic angle
CH47 Ia magnitude
CH47 Ib magnitude
CH47 Ic magnitude
CH47 Ia angle
CH47 Ib angle
CH47 Ic angle
CH48 Ia magnitude
CH48 Ib magnitude
CH48 Ic magnitude
CH48 Ia angle
CH48 Ib angle
CH48 Ic angle
CH49 Ia magnitude
CH49 Ib magnitude
CH49 Ic magnitude
CH49 Ia angle
CH49 Ib angle
CH49 Ic angle
CH50 Ia magnitude
CH50 Ib magnitude
CH50 Ic magnitude
CH50 Ia angle
CH50 Ib angle
CH50 Ic angle
CH51 Ia magnitude
CH51 Ib magnitude
CH51 Ic magnitude
NO
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
⎯ 273 ⎯
SIGNAL NAME
CH51_Ia_ang
CH51_Ib_ang
CH51_Ic_ang
CH52_Ia_mag
CH52_Ib_mag
CH52_Ic_mag
CH52_Ia_ang
CH52_Ib_ang
CH52_Ic_ang
CH53_Ia_mag
CH53_Ib_mag
CH53_Ic_mag
CH53_Ia_ang
CH53_Ib_ang
CH53_Ic_ang
CH54_Ia_mag
CH54_Ib_mag
CH54_Ic_mag
CH54_Ia_ang
CH54_Ib_ang
CH54_Ic_ang
CH55_Ia_mag
CH55_Ib_mag
CH55_Ic_mag
CH55_Ia_ang
CH55_Ib_ang
CH55_Ic_ang
CH56_Ia_mag
CH56_Ib_mag
CH56_Ic_mag
CH56_Ia_ang
CH56_Ib_ang
CH56_Ic_ang
CH57_Ia_mag
CH57_Ib_mag
CH57_Ic_mag
CH57_Ia_ang
CH57_Ib_ang
CH57_Ic_ang
CH58_Ia_mag
CH58_Ib_mag
CH58_Ic_mag
CH58_Ia_ang
CH58_Ib_ang
CH58_Ic_ang
CH59_Ia_mag
CH59_Ib_mag
CH59_Ic_mag
CH59_Ia_ang
CH59_Ib_ang
CONTENTS
CH51 Ia angle
CH51 Ib angle
CH51 Ic angle
CH52 Ia magnitude
CH52 Ib magnitude
CH52 Ic magnitude
CH52 Ia angle
CH52 Ib angle
CH52 Ic angle
CH53 Ia magnitude
CH53 Ib magnitude
CH53 Ic magnitude
CH53 Ia angle
CH53 Ib angle
CH53 Ic angle
CH54 Ia magnitude
CH54 Ib magnitude
CH54 Ic magnitude
CH54 Ia angle
CH54 Ib angle
CH54 Ic angle
CH55 Ia magnitude
CH55 Ib magnitude
CH55 Ic magnitude
CH55 Ia angle
CH55 Ib angle
CH55 Ic angle
CH56 Ia magnitude
CH56 Ib magnitude
CH56 Ic magnitude
CH56 Ia angle
CH56 Ib angle
CH56 Ic angle
CH57 Ia magnitude
CH57 Ib magnitude
CH57 Ic magnitude
CH57 Ia angle
CH57 Ib angle
CH57 Ic angle
CH58 Ia magnitude
CH58 Ib magnitude
CH58 Ic magnitude
CH58 Ia angle
CH58 Ib angle
CH58 Ic angle
CH59 Ia magnitude
CH59 Ib magnitude
CH59 Ic magnitude
CH59 Ia angle
CH59 Ib angle
6 F 2 S 0 8 8 2
NO
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
SIGNAL NAME
CH59_Ic_ang
CH60_Ia_mag
CH60_Ib_mag
CH60_Ic_mag
CH60_Ia_ang
CH60_Ib_ang
CH60_Ic_ang
CH61_Ia_mag
CH61_Ib_mag
CH61_Ic_mag
CH61_Ia_ang
CH61_Ib_ang
CH61_Ic_ang
CH62_Ia_mag
CH62_Ib_mag
CH62_Ic_mag
CH62_Ia_ang
CH62_Ib_ang
CH62_Ic_ang
CH63_Ia_mag
CH63_Ib_mag
CH63_Ic_mag
CH63_Ia_ang
CH63_Ib_ang
CH63_Ic_ang
CH64_Ia_mag
CH64_Ib_mag
CH64_Ic_mag
CH64_Ia_ang
CH64_Ib_ang
CH64_Ic_ang
CH1_I1_mag
CH1_I2_mag
CH1_I0_mag
CH1_I1_ang
CH1_I2_ang
CH1_I0_ang
CH2_I1_mag
CH2_I2_mag
CH2_I0_mag
CH2_I1_ang
CH2_I2_ang
CH2_I0_ang
CH3_I1_mag
CH3_I2_mag
CH3_I0_mag
CH3_I1_ang
CH3_I2_ang
CH3_I0_ang
CONTENTS
CH59 Ic angle
CH60 Ia magnitude
CH60 Ib magnitude
CH60 Ic magnitude
CH60 Ia angle
CH60 Ib angle
CH60 Ic angle
CH61 Ia magnitude
CH61 Ib magnitude
CH61 Ic magnitude
CH61 Ia angle
CH61 Ib angle
CH61 Ic angle
CH62 Ia magnitude
CH62 Ib magnitude
CH62 Ic magnitude
CH62 Ia angle
CH62 Ib angle
CH62 Ic angle
CH63 Ia magnitude
CH63 Ib magnitude
CH63 Ic magnitude
CH63 Ia angle
CH63 Ib angle
CH63 Ic angle
CH64 Ia magnitude
CH64 Ib magnitude
CH64 Ic magnitude
CH64 Ia angle
CH64 Ib angle
CH64 Ic angle
CH1 I1 magnitude
CH1 I2 magnitude
CH1 I0 magnitude
CH1 I1 angle
CH1 I2 angle
CH1 I0 angle
CH2 I1 magnitude
CH2 I2 magnitude
CH2 I0 magnitude
CH2 I1 angle
CH2 I2 angle
CH2 I0 angle
CH3 I1 magnitude
CH3 I2 magnitude
CH3 I0 magnitude
CH3 I1 angle
CH3 I2 angle
CH3 I0 angle
NO
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
⎯ 274 ⎯
SIGNAL NAME
CH4_I2_mag
CH4_I0_mag
CH4_I1_ang
CH4_I2_ang
CH4_I0_ang
CH5_I1_mag
CH5_I2_mag
CH5_I0_mag
CH5_I1_ang
CH5_I2_ang
CH5_I0_ang
CH6_I1_mag
CH6_I2_mag
CH6_I0_mag
CH6_I1_ang
CH6_I2_ang
CH6_I0_ang
CH7_I1_mag
CH7_I2_mag
CH7_I0_mag
CH7_I1_ang
CH7_I2_ang
CH7_I0_ang
CH8_I1_mag
CH8_I2_mag
CH8_I0_mag
CH8_I1_ang
CH8_I2_ang
CH8_I0_ang
CH9_I1_mag
CH9_I2_mag
CH9_I0_mag
CH9_I1_ang
CH9_I2_ang
CH9_I0_ang
CH10_I1_mag
CH10_I2_mag
CH10_I0_mag
CH10_I1_ang
CH10_I2_ang
CH10_I0_ang
CH11_I1_mag
CH11_I2_mag
CH11_I0_mag
CH11_I1_ang
CH11_I2_ang
CH11_I0_ang
CH12_I1_mag
CH12_I2_mag
CH12_I0_mag
CONTENTS
CH4 I2 magnitude
CH4 I0 magnitude
CH4 I1 angle
CH4 I2 angle
CH4 I0 angle
CH5 I1 magnitude
CH5 I2 magnitude
CH5 I0 magnitude
CH5 I1 angle
CH5 I2 angle
CH5 I0 angle
CH6 I1 magnitude
CH6 I2 magnitude
CH6 I0 magnitude
CH6 I1 angle
CH6 I2 angle
CH6 I0 angle
CH7 I1 magnitude
CH7 I2 magnitude
CH7 I0 magnitude
CH7 I1 angle
CH7 I2 angle
CH7 I0 angle
CH8 I1 magnitude
CH8 I2 magnitude
CH8 I0 magnitude
CH8 I1 angle
CH8 I2 angle
CH8 I0 angle
CH9 I1 magnitude
CH9 I2 magnitude
CH9 I0 magnitude
CH9 I1 angle
CH9 I2 angle
CH9 I0 angle
CH10 I1 magnitude
CH10 I2 magnitude
CH10 I0 magnitude
CH10 I1 angle
CH10 I2 angle
CH10 I0 angle
CH11 I1 magnitude
CH11 I2 magnitude
CH11 I0 magnitude
CH11 I1 angle
CH11 I2 angle
CH11 I0 angle
CH12 I1 magnitude
CH12 I2 magnitude
CH12 I0 magnitude
6 F 2 S 0 8 8 2
NO
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
SIGNAL NAME
CH12_I1_ang
CH12_I2_ang
CH12_I0_ang
CH13_I1_mag
CH13_I2_mag
CH13_I0_mag
CH13_I1_ang
CH13_I2_ang
CH13_I0_ang
CH14_I1_mag
CH14_I2_mag
CH14_I0_mag
CH14_I1_ang
CH14_I2_ang
CH14_I0_ang
CH15_I1_mag
CH15_I2_mag
CH15_I0_mag
CH15_I1_ang
CH15_I2_ang
CH15_I0_ang
CH16_I1_mag
CH16_I2_mag
CH16_I0_mag
CH16_I1_ang
CH16_I2_ang
CH16_I0_ang
CH17_I1_mag
CH17_I2_mag
CH17_I0_mag
CH17_I1_ang
CH17_I2_ang
CH17_I0_ang
CH18_I1_mag
CH18_I2_mag
CH18_I0_mag
CH18_I1_ang
CH18_I2_ang
CH18_I0_ang
CH19_I1_mag
CH19_I2_mag
CH19_I0_mag
CH19_I1_ang
CH19_I2_ang
CH19_I0_ang
CH20_I1_mag
CH20_I2_mag
CH20_I0_mag
CH20_I1_ang
CH20_I2_ang
CONTENTS
CH12 I1 angle
CH12 I2 angle
CH12 I0 angle
CH13 I1 magnitude
CH13 I2 magnitude
CH13 I0 magnitude
CH13 I1 angle
CH13 I2 angle
CH13 I0 angle
CH14 I1 magnitude
CH14 I2 magnitude
CH14 I0 magnitude
CH14 I1 angle
CH14 I2 angle
CH14 I0 angle
CH15 I1 magnitude
CH15 I2 magnitude
CH15 I0 magnitude
CH15 I1 angle
CH15 I2 angle
CH15 I0 angle
CH16 I1 magnitude
CH16 I2 magnitude
CH16 I0 magnitude
CH16 I1 angle
CH16 I2 angle
CH16 I0 angle
CH17 I1 magnitude
CH17 I2 magnitude
CH17 I0 magnitude
CH17 I1 angle
CH17 I2 angle
CH17 I0 angle
CH18 I1 magnitude
CH18 I2 magnitude
CH18 I0 magnitude
CH18 I1 angle
CH18 I2 angle
CH18 I0 angle
CH19 I1 magnitude
CH19 I2 magnitude
CH19 I0 magnitude
CH19 I1 angle
CH19 I2 angle
CH19 I0 angle
CH20 I1 magnitude
CH20 I2 magnitude
CH20 I0 magnitude
CH20 I1 angle
CH20 I2 angle
NO
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
⎯ 275 ⎯
SIGNAL NAME
CH20_I0_ang
CH21_I1_mag
CH21_I2_mag
CH21_I0_mag
CH21_I1_ang
CH21_I2_ang
CH21_I0_ang
CH22_I1_mag
CH22_I2_mag
CH22_I0_mag
CH22_I1_ang
CH22_I2_ang
CH22_I0_ang
CH23_I1_mag
CH23_I2_mag
CH23_I0_mag
CH23_I1_ang
CH23_I2_ang
CH23_I0_ang
CH24_I1_mag
CH24_I2_mag
CH24_I0_mag
CH24_I1_ang
CH24_I2_ang
CH24_I0_ang
CH25_I1_mag
CH25_I2_mag
CH25_I0_mag
CH25_I1_ang
CH25_I2_ang
CH25_I0_ang
CH26_I1_mag
CH26_I2_mag
CH26_I0_mag
CH26_I1_ang
CH26_I2_ang
CH26_I0_ang
CH27_I1_mag
CH27_I2_mag
CH27_I0_mag
CH27_I1_ang
CH27_I2_ang
CH27_I0_ang
CH28_I1_mag
CH28_I2_mag
CH28_I0_mag
CH28_I1_ang
CH28_I2_ang
CH28_I0_ang
CH29_I1_mag
CONTENTS
CH20 I0 angle
CH21 I1 magnitude
CH21 I2 magnitude
CH21 I0 magnitude
CH21 I1 angle
CH21 I2 angle
CH21 I0 angle
CH22 I1 magnitude
CH22 I2 magnitude
CH22 I0 magnitude
CH22 I1 angle
CH22 I2 angle
CH22 I0 angle
CH23 I1 magnitude
CH23 I2 magnitude
CH23 I0 magnitude
CH23 I1 angle
CH23 I2 angle
CH23 I0 angle
CH24 I1 magnitude
CH24 I2 magnitude
CH24 I0 magnitude
CH24 I1 angle
CH24 I2 angle
CH24 I0 angle
CH25 I1 magnitude
CH25 I2 magnitude
CH25 I0 magnitude
CH25 I1 angle
CH25 I2 angle
CH25 I0 angle
CH26 I1 magnitude
CH26 I2 magnitude
CH26 I0 magnitude
CH26 I1 angle
CH26 I2 angle
CH26 I0 angle
CH27 I1 magnitude
CH27 I2 magnitude
CH27 I0 magnitude
CH27 I1 angle
CH27 I2 angle
CH27 I0 angle
CH28 I1 magnitude
CH28 I2 magnitude
CH28 I0 magnitude
CH28 I1 angle
CH28 I2 angle
CH28 I0 angle
CH29 I1 magnitude
6 F 2 S 0 8 8 2
NO
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
SIGNAL NAME
CH29_I2_mag
CH29_I0_mag
CH29_I1_ang
CH29_I2_ang
CH29_I0_ang
CH30_I1_mag
CH30_I2_mag
CH30_I0_mag
CH30_I1_ang
CH30_I2_ang
CH30_I0_ang
CH31_I1_mag
CH31_I2_mag
CH31_I0_mag
CH31_I1_ang
CH31_I2_ang
CH31_I0_ang
CH32_I1_mag
CH32_I2_mag
CH32_I0_mag
CH32_I1_ang
CH32_I2_ang
CH32_I0_ang
CH33_I1_mag
CH33_I2_mag
CH33_I0_mag
CH33_I1_ang
CH33_I2_ang
CH33_I0_ang
CH34_I1_mag
CH34_I2_mag
CH34_I0_mag
CH34_I1_ang
CH34_I2_ang
CH34_I0_ang
CH35_I1_mag
CH35_I2_mag
CH35_I0_mag
CH35_I1_ang
CH35_I2_ang
CH35_I0_ang
CH36_I1_mag
CH36_I2_mag
CH36_I0_mag
CH36_I1_ang
CH36_I2_ang
CH36_I0_ang
CH37_I1_mag
CH37_I2_mag
CH37_I0_mag
CONTENTS
CH29 I2 magnitude
CH29 I0 magnitude
CH29 I1 angle
CH29 I2 angle
CH29 I0 angle
CH30 I1 magnitude
CH30 I2 magnitude
CH30 I0 magnitude
CH30 I1 angle
CH30 I2 angle
CH30 I0 angle
CH31 I1 magnitude
CH31 I2 magnitude
CH31 I0 magnitude
CH31 I1 angle
CH31 I2 angle
CH31 I0 angle
CH32 I1 magnitude
CH32 I2 magnitude
CH32 I0 magnitude
CH32 I1 angle
CH32 I2 angle
CH32 I0 angle
CH33 I1 magnitude
CH33 I2 magnitude
CH33 I0 magnitude
CH33 I1 angle
CH33 I2 angle
CH33 I0 angle
CH34 I1 magnitude
CH34 I2 magnitude
CH34 I0 magnitude
CH34 I1 angle
CH34 I2 angle
CH34 I0 angle
CH35 I1 magnitude
CH35 I2 magnitude
CH35 I0 magnitude
CH35 I1 angle
CH35 I2 angle
CH35 I0 angle
CH36 I1 magnitude
CH36 I2 magnitude
CH36 I0 magnitude
CH36 I1 angle
CH36 I2 angle
CH36 I0 angle
CH37 I1 magnitude
CH37 I2 magnitude
CH37 I0 magnitude
NO
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
⎯ 276 ⎯
SIGNAL NAME
CH37_I1_ang
CH37_I2_ang
CH37_I0_ang
CH38_I1_mag
CH38_I2_mag
CH38_I0_mag
CH38_I1_ang
CH38_I2_ang
CH38_I0_ang
CH39_I1_mag
CH39_I2_mag
CH39_I0_mag
CH39_I1_ang
CH39_I2_ang
CH39_I0_ang
CH40_I1_mag
CH40_I2_mag
CH40_I0_mag
CH40_I1_ang
CH40_I2_ang
CH40_I0_ang
CH41_I1_mag
CH41_I2_mag
CH41_I0_mag
CH41_I1_ang
CH41_I2_ang
CH41_I0_ang
CH42_I1_mag
CH42_I2_mag
CH42_I0_mag
CH42_I1_ang
CH42_I2_ang
CH42_I0_ang
CH43_I1_mag
CH43_I2_mag
CH43_I0_mag
CH43_I1_ang
CH43_I2_ang
CH43_I0_ang
CH44_I1_mag
CH44_I2_mag
CH44_I0_mag
CH44_I1_ang
CH44_I2_ang
CH44_I0_ang
CH45_I1_mag
CH45_I2_mag
CH45_I0_mag
CH45_I1_ang
CH45_I2_ang
CONTENTS
CH37 I1 angle
CH37 I2 angle
CH37 I0 angle
CH38 I1 magnitude
CH38 I2 magnitude
CH38 I0 magnitude
CH38 I1 angle
CH38 I2 angle
CH38 I0 angle
CH39 I1 magnitude
CH39 I2 magnitude
CH39 I0 magnitude
CH39 I1 angle
CH39 I2 angle
CH39 I0 angle
CH40 I1 magnitude
CH40 I2 magnitude
CH40 I0 magnitude
CH40 I1 angle
CH40 I2 angle
CH40 I0 angle
CH41 I1 magnitude
CH41 I2 magnitude
CH41 I0 magnitude
CH41 I1 angle
CH41 I2 angle
CH41 I0 angle
CH42 I1 magnitude
CH42 I2 magnitude
CH42 I0 magnitude
CH42 I1 angle
CH42 I2 angle
CH42 I0 angle
CH43 I1 magnitude
CH43 I2 magnitude
CH43 I0 magnitude
CH43 I1 angle
CH43 I2 angle
CH43 I0 angle
CH44 I1 magnitude
CH44 I2 magnitude
CH44 I0 magnitude
CH44 I1 angle
CH44 I2 angle
CH44 I0 angle
CH45 I1 magnitude
CH45 I2 magnitude
CH45 I0 magnitude
CH45 I1 angle
CH45 I2 angle
6 F 2 S 0 8 8 2
NO
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
SIGNAL NAME
CH45_I0_ang
CH46_I1_mag
CH46_I2_mag
CH46_I0_mag
CH46_I1_ang
CH46_I2_ang
CH46_I0_ang
CH47_I1_mag
CH47_I2_mag
CH47_I0_mag
CH47_I1_ang
CH47_I2_ang
CH47_I0_ang
CH48_I1_mag
CH48_I2_mag
CH48_I0_mag
CH48_I1_ang
CH48_I2_ang
CH48_I0_ang
CH49_I1_mag
CH49_I2_mag
CH49_I0_mag
CH49_I1_ang
CH49_I2_ang
CH49_I0_ang
CH50_I1_mag
CH50_I2_mag
CH50_I0_mag
CH50_I1_ang
CH50_I2_ang
CH50_I0_ang
CH51_I1_mag
CH51_I2_mag
CH51_I0_mag
CH51_I1_ang
CH51_I2_ang
CH51_I0_ang
CH52_I1_mag
CH52_I2_mag
CH52_I0_mag
CH52_I1_ang
CH52_I2_ang
CH52_I0_ang
CH53_I1_mag
CH53_I2_mag
CH53_I0_mag
CH53_I1_ang
CH53_I2_ang
CH53_I0_ang
CH54_I1_mag
CONTENTS
CH45 I0 angle
CH46 I1 magnitude
CH46 I2 magnitude
CH46 I0 magnitude
CH46 I1 angle
CH46 I2 angle
CH46 I0 angle
CH47 I1 magnitude
CH47 I2 magnitude
CH47 I0 magnitude
CH47 I1 angle
CH47 I2 angle
CH47 I0 angle
CH48 I1 magnitude
CH48 I2 magnitude
CH48 I0 magnitude
CH48 I1 angle
CH48 I2 angle
CH48 I0 angle
CH49 I1 magnitude
CH49 I2 magnitude
CH49 I0 magnitude
CH49 I1 angle
CH49 I2 angle
CH49 I0 angle
CH50 I1 magnitude
CH50 I2 magnitude
CH50 I0 magnitude
CH50 I1 angle
CH50 I2 angle
CH50 I0 angle
CH51 I1 magnitude
CH51 I2 magnitude
CH51 I0 magnitude
CH51 I1 angle
CH51 I2 angle
CH51 I0 angle
CH52 I1 magnitude
CH52 I2 magnitude
CH52 I0 magnitude
CH52 I1 angle
CH52 I2 angle
CH52 I0 angle
CH53 I1 magnitude
CH53 I2 magnitude
CH53 I0 magnitude
CH53 I1 angle
CH53 I2 angle
CH53 I0 angle
CH54 I1 magnitude
NO
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
⎯ 277 ⎯
SIGNAL NAME
CH54_I2_mag
CH54_I0_mag
CH54_I1_ang
CH54_I2_ang
CH54_I0_ang
CH55_I1_mag
CH55_I2_mag
CH55_I0_mag
CH55_I1_ang
CH55_I2_ang
CH55_I0_ang
CH56_I1_mag
CH56_I2_mag
CH56_I0_mag
CH56_I1_ang
CH56_I2_ang
CH56_I0_ang
CH57_I1_mag
CH57_I2_mag
CH57_I0_mag
CH57_I1_ang
CH57_I2_ang
CH57_I0_ang
CH58_I1_mag
CH58_I2_mag
CH58_I0_mag
CH58_I1_ang
CH58_I2_ang
CH58_I0_ang
CH59_I1_mag
CH59_I2_mag
CH59_I0_mag
CH59_I1_ang
CH59_I2_ang
CH59_I0_ang
CH60_I1_mag
CH60_I2_mag
CH60_I0_mag
CH60_I1_ang
CH60_I2_ang
CH60_I0_ang
CH61_I1_mag
CH61_I2_mag
CH61_I0_mag
CH61_I1_ang
CH61_I2_ang
CH61_I0_ang
CH62_I1_mag
CH62_I2_mag
CH62_I0_mag
CONTENTS
CH54 I2 magnitude
CH54 I0 magnitude
CH54 I1 angle
CH54 I2 angle
CH54 I0 angle
CH55 I1 magnitude
CH55 I2 magnitude
CH55 I0 magnitude
CH55 I1 angle
CH55 I2 angle
CH55 I0 angle
CH56 I1 magnitude
CH56 I2 magnitude
CH56 I0 magnitude
CH56 I1 angle
CH56 I2 angle
CH56 I0 angle
CH57 I1 magnitude
CH57 I2 magnitude
CH57 I0 magnitude
CH57 I1 angle
CH57 I2 angle
CH57 I0 angle
CH58 I1 magnitude
CH58 I2 magnitude
CH58 I0 magnitude
CH58 I1 angle
CH58 I2 angle
CH58 I0 angle
CH59 I1 magnitude
CH59 I2 magnitude
CH59 I0 magnitude
CH59 I1 angle
CH59 I2 angle
CH59 I0 angle
CH60 I1 magnitude
CH60 I2 magnitude
CH60 I0 magnitude
CH60 I1 angle
CH60 I2 angle
CH60 I0 angle
CH61 I1 magnitude
CH61 I2 magnitude
CH61 I0 magnitude
CH61 I1 angle
CH61 I2 angle
CH61 I0 angle
CH62 I1 magnitude
CH62 I2 magnitude
CH62 I0 magnitude
6 F 2 S 0 8 8 2
NO
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
SIGNAL NAME
CH62_I1_ang
CH62_I2_ang
CH62_I0_ang
CH63_I1_mag
CH63_I2_mag
CH63_I0_mag
CH63_I1_ang
CH63_I2_ang
CH63_I0_ang
CH64_I1_mag
CH64_I2_mag
CH64_I0_mag
CH64_I1_ang
CH64_I2_ang
CH64_I0_ang
Freq
Ida_mag
Idb_mag
Idc_mag
Ira_mag
Irb_mag
Irc_mag
IdaA_mag
IdbA_mag
IdcA_mag
IraA_mag
IrbA_mag
IrcA_mag
IdaB_mag
IdbB_mag
IdcB_mag
IraB_mag
IrbB_mag
IrcB_mag
IdaC_mag
IdbC_mag
IdcC_mag
IraC_mag
IrbC_mag
IrcC_mag
IdaD_mag
IdbD_mag
IdcD_mag
IraD_mag
IrbD_mag
IrcD_mag
CONTENTS
CH62 I1 angle
CH62 I2 angle
CH62 I0 angle
CH63 I1 magnitude
CH63 I2 magnitude
CH63 I0 magnitude
CH63 I1 angle
CH63 I2 angle
CH63 I0 angle
CH64 I1 magnitude
CH64 I2 magnitude
CH64 I0 magnitude
CH64 I1 angle
CH64 I2 angle
CH64 I0 angle
Frequency
Ida magnitude
Idb magnitude
Idc magnitude
Ira magnitude
Irb magnitude
Irc magnitude
IdaA magnitude
IdbA magnitude
IdcA magnitude
IraA magnitude
IrbA magnitude
IrcA magnitude
IdaB magnitude
IdbB magnitude
IdcB magnitude
IraB magnitude
IrbB magnitude
IrcB magnitude
IdaC magnitude
IdbC magnitude
IdcC magnitude
IraC magnitude
IrbC magnitude
IrcC magnitude
IdaD magnitude
IdbD magnitude
IdcD magnitude
IraD magnitude
IrbD magnitude
IrcD magnitude
⎯ 278 ⎯
6 F 2 S 0 8 8 2
Setting Table
NO
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
SIGNAL NAME
CONTENTS
GROUP_NO
ACT_GROUP
EDIT_GROUP
CHG_GROUP
number of groups
active group number
edit group number
change active group
NO
⎯ 279 ⎯
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
SIGNAL NAME
CONTENTS
1A2_5A1
1A1_5A2
1A1_5A0
1A0_5A1
1A:2 5A:1
1A:1 5A:2
1A:1 5A:0
1A:0 5A:1
SoftType
Software type
6 F 2 S 0 8 8 2
NO
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
SIGNAL NAME
CONTENTS
MappingName
Vendor
Mapping info
venfor name
Const0
Const1
Const2
Const3
Always 0
Always 1
Always 2
Always 3
⎯ 280 ⎯
6 F 2 S 0 8 8 2
Status Table
NO
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
SIGNAL NAME
GOOSE_V_001
GOOSE_V_002
GOOSE_V_003
GOOSE_V_004
GOOSE_V_005
GOOSE_V_006
GOOSE_V_007
GOOSE_V_008
GOOSE_V_009
GOOSE_V_010
GOOSE_V_011
GOOSE_V_012
GOOSE_V_013
GOOSE_V_014
GOOSE_V_015
GOOSE_V_016
GOOSE_V_017
GOOSE_V_018
GOOSE_V_019
GOOSE_V_020
GOOSE_V_021
GOOSE_V_022
GOOSE_V_023
GOOSE_V_024
GOOSE_V_025
GOOSE_V_026
GOOSE_V_027
GOOSE_V_028
GOOSE_V_029
GOOSE_V_030
GOOSE_V_031
GOOSE_V_032
GOOSE_V_033
GOOSE_V_034
GOOSE_V_035
GOOSE_V_036
GOOSE_V_037
GOOSE_V_038
GOOSE_V_039
GOOSE_V_040
GOOSE_V_041
GOOSE_V_042
GOOSE_V_043
GOOSE_V_044
GOOSE_V_045
GOOSE_V_046
GOOSE_V_047
GOOSE_V_048
GOOSE_V_049
GOOSE_V_050
GOOSE_V_051
CONTENTS
GOOSE_Value_001
GOOSE_Value_002
GOOSE_Value_003
GOOSE_Value_004
GOOSE_Value_005
GOOSE_Value_006
GOOSE_Value_007
GOOSE_Value_008
GOOSE_Value_009
GOOSE_Value_010
GOOSE_Value_011
GOOSE_Value_012
GOOSE_Value_013
GOOSE_Value_014
GOOSE_Value_015
GOOSE_Value_016
GOOSE_Value_017
GOOSE_Value_018
GOOSE_Value_019
GOOSE_Value_020
GOOSE_Value_021
GOOSE_Value_022
GOOSE_Value_023
GOOSE_Value_024
GOOSE_Value_025
GOOSE_Value_026
GOOSE_Value_027
GOOSE_Value_028
GOOSE_Value_029
GOOSE_Value_030
GOOSE_Value_031
GOOSE_Value_032
GOOSE_Value_033
GOOSE_Value_034
GOOSE_Value_035
GOOSE_Value_036
GOOSE_Value_037
GOOSE_Value_038
GOOSE_Value_039
GOOSE_Value_040
GOOSE_Value_041
GOOSE_Value_042
GOOSE_Value_043
GOOSE_Value_044
GOOSE_Value_045
GOOSE_Value_046
GOOSE_Value_047
GOOSE_Value_048
GOOSE_Value_049
GOOSE_Value_050
GOOSE_Value_051
NO
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
⎯ 281 ⎯
SIGNAL NAME
GOOSE_V_052
GOOSE_V_053
GOOSE_V_054
GOOSE_V_055
GOOSE_V_056
GOOSE_V_057
GOOSE_V_058
GOOSE_V_059
GOOSE_V_060
GOOSE_V_061
GOOSE_V_062
GOOSE_V_063
GOOSE_V_064
GOOSE_V_065
GOOSE_V_066
GOOSE_V_067
GOOSE_V_068
GOOSE_V_069
GOOSE_V_070
GOOSE_V_071
GOOSE_V_072
GOOSE_V_073
GOOSE_V_074
GOOSE_V_075
GOOSE_V_076
GOOSE_V_077
GOOSE_V_078
GOOSE_V_079
GOOSE_V_080
GOOSE_V_081
GOOSE_V_082
GOOSE_V_083
GOOSE_V_084
GOOSE_V_085
GOOSE_V_086
GOOSE_V_087
GOOSE_V_088
GOOSE_V_089
GOOSE_V_090
GOOSE_V_091
GOOSE_V_092
GOOSE_V_093
GOOSE_V_094
GOOSE_V_095
GOOSE_V_096
GOOSE_V_097
GOOSE_V_098
GOOSE_V_099
GOOSE_V_100
GOOSE_V_101
CONTENTS
GOOSE_Value_052
GOOSE_Value_053
GOOSE_Value_054
GOOSE_Value_055
GOOSE_Value_056
GOOSE_Value_057
GOOSE_Value_058
GOOSE_Value_059
GOOSE_Value_060
GOOSE_Value_061
GOOSE_Value_062
GOOSE_Value_063
GOOSE_Value_064
GOOSE_Value_065
GOOSE_Value_066
GOOSE_Value_067
GOOSE_Value_068
GOOSE_Value_069
GOOSE_Value_070
GOOSE_Value_071
GOOSE_Value_072
GOOSE_Value_073
GOOSE_Value_074
GOOSE_Value_075
GOOSE_Value_076
GOOSE_Value_077
GOOSE_Value_078
GOOSE_Value_079
GOOSE_Value_080
GOOSE_Value_081
GOOSE_Value_082
GOOSE_Value_083
GOOSE_Value_084
GOOSE_Value_085
GOOSE_Value_086
GOOSE_Value_087
GOOSE_Value_088
GOOSE_Value_089
GOOSE_Value_090
GOOSE_Value_091
GOOSE_Value_092
GOOSE_Value_093
GOOSE_Value_094
GOOSE_Value_095
GOOSE_Value_096
GOOSE_Value_097
GOOSE_Value_098
GOOSE_Value_099
GOOSE_Value_100
GOOSE_Value_101
6 F 2 S 0 8 8 2
NO
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
SIGNAL NAME
GOOSE_V_102
GOOSE_V_103
GOOSE_V_104
GOOSE_V_105
GOOSE_V_106
GOOSE_V_107
GOOSE_V_108
GOOSE_V_109
GOOSE_V_110
GOOSE_V_111
GOOSE_V_112
GOOSE_V_113
GOOSE_V_114
GOOSE_V_115
GOOSE_V_116
GOOSE_V_117
GOOSE_V_118
GOOSE_V_119
GOOSE_V_120
GOOSE_V_121
GOOSE_V_122
GOOSE_V_123
GOOSE_V_124
GOOSE_V_125
GOOSE_V_126
GOOSE_V_127
GOOSE_V_128
CONTENTS
GOOSE_Value_102
GOOSE_Value_103
GOOSE_Value_104
GOOSE_Value_105
GOOSE_Value_106
GOOSE_Value_107
GOOSE_Value_108
GOOSE_Value_109
GOOSE_Value_110
GOOSE_Value_111
GOOSE_Value_112
GOOSE_Value_113
GOOSE_Value_114
GOOSE_Value_115
GOOSE_Value_116
GOOSE_Value_117
GOOSE_Value_118
GOOSE_Value_119
GOOSE_Value_120
GOOSE_Value_121
GOOSE_Value_122
GOOSE_Value_123
GOOSE_Value_124
GOOSE_Value_125
GOOSE_Value_126
GOOSE_Value_127
GOOSE_Value_128
LEDRST_EXEC LEDRST_EXEC
HEALTH
HEALTH
NO
SIGNAL NAME
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200 MOD_001
⎯ 282 ⎯
CONTENTS
IEC-MODE_001
6 F 2 S 0 8 8 2
NO
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
SIGNAL NAME
MOD_002
MOD_003
MOD_004
MOD_005
MOD_006
MOD_007
MOD_008
MOD_009
MOD_010
MOD_011
MOD_012
MOD_013
MOD_014
MOD_015
MOD_016
MOD_017
MOD_018
MOD_019
MOD_020
MOD_021
MOD_022
MOD_023
MOD_024
MOD_025
MOD_026
MOD_027
MOD_028
MOD_029
MOD_030
MOD_031
MOD_032
MOD_033
MOD_034
MOD_035
MOD_036
MOD_037
MOD_038
MOD_039
MOD_040
MOD_041
MOD_042
MOD_043
MOD_044
MOD_045
MOD_046
MOD_047
MOD_048
MOD_049
MOD_050
MOD_051
CONTENTS
IEC-MODE_002
IEC-MODE_003
IEC-MODE_004
IEC-MODE_005
IEC-MODE_006
IEC-MODE_007
IEC-MODE_008
IEC-MODE_009
IEC-MODE_010
IEC-MODE_011
IEC-MODE_012
IEC-MODE_013
IEC-MODE_014
IEC-MODE_015
IEC-MODE_016
IEC-MODE_017
IEC-MODE_018
IEC-MODE_019
IEC-MODE_020
IEC-MODE_021
IEC-MODE_022
IEC-MODE_023
IEC-MODE_024
IEC-MODE_025
IEC-MODE_026
IEC-MODE_027
IEC-MODE_028
IEC-MODE_029
IEC-MODE_030
IEC-MODE_031
IEC-MODE_032
IEC-MODE_033
IEC-MODE_034
IEC-MODE_035
IEC-MODE_036
IEC-MODE_037
IEC-MODE_038
IEC-MODE_039
IEC-MODE_040
IEC-MODE_041
IEC-MODE_042
IEC-MODE_043
IEC-MODE_044
IEC-MODE_045
IEC-MODE_046
IEC-MODE_047
IEC-MODE_048
IEC-MODE_049
IEC-MODE_050
IEC-MODE_051
NO
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
⎯ 283 ⎯
SIGNAL NAME
MOD_052
MOD_053
MOD_054
MOD_055
MOD_056
MOD_057
MOD_058
MOD_059
MOD_060
MOD_061
MOD_062
MOD_063
MOD_064
MOD_065
MOD_066
MOD_067
MOD_068
MOD_069
MOD_070
MOD_071
MOD_072
MOD_073
MOD_074
MOD_075
MOD_076
MOD_077
MOD_078
MOD_079
MOD_080
MOD_081
MOD_082
MOD_083
MOD_084
MOD_085
MOD_086
MOD_087
MOD_088
MOD_089
MOD_090
MOD_091
MOD_092
MOD_093
MOD_094
MOD_095
MOD_096
MOD_097
MOD_098
MOD_099
MOD_100
BEH_001
CONTENTS
IEC-MODE_052
IEC-MODE_053
IEC-MODE_054
IEC-MODE_055
IEC-MODE_056
IEC-MODE_057
IEC-MODE_058
IEC-MODE_059
IEC-MODE_060
IEC-MODE_061
IEC-MODE_062
IEC-MODE_063
IEC-MODE_064
IEC-MODE_065
IEC-MODE_066
IEC-MODE_067
IEC-MODE_068
IEC-MODE_069
IEC-MODE_070
IEC-MODE_071
IEC-MODE_072
IEC-MODE_073
IEC-MODE_074
IEC-MODE_075
IEC-MODE_076
IEC-MODE_077
IEC-MODE_078
IEC-MODE_079
IEC-MODE_080
IEC-MODE_081
IEC-MODE_082
IEC-MODE_083
IEC-MODE_084
IEC-MODE_085
IEC-MODE_086
IEC-MODE_087
IEC-MODE_088
IEC-MODE_089
IEC-MODE_090
IEC-MODE_091
IEC-MODE_092
IEC-MODE_093
IEC-MODE_094
IEC-MODE_095
IEC-MODE_096
IEC-MODE_097
IEC-MODE_098
IEC-MODE_099
IEC-MODE_100
IEC-Behavier_001
6 F 2 S 0 8 8 2
NO
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
SIGNAL NAME
BEH_002
BEH_003
BEH_004
BEH_005
BEH_006
BEH_007
BEH_008
BEH_009
BEH_010
BEH_011
BEH_012
BEH_013
BEH_014
BEH_015
BEH_016
BEH_017
BEH_018
BEH_019
BEH_020
BEH_021
BEH_022
BEH_023
BEH_024
BEH_025
BEH_026
BEH_027
BEH_028
BEH_029
BEH_030
BEH_031
BEH_032
BEH_033
BEH_034
BEH_035
BEH_036
BEH_037
BEH_038
BEH_039
BEH_040
BEH_041
BEH_042
BEH_043
BEH_044
BEH_045
BEH_046
BEH_047
BEH_048
BEH_049
BEH_050
BEH_051
CONTENTS
IEC-Behavier_002
IEC-Behavier_003
IEC-Behavier_004
IEC-Behavier_005
IEC-Behavier_006
IEC-Behavier_007
IEC-Behavier_008
IEC-Behavier_009
IEC-Behavier_010
IEC-Behavier_011
IEC-Behavier_012
IEC-Behavier_013
IEC-Behavier_014
IEC-Behavier_015
IEC-Behavier_016
IEC-Behavier_017
IEC-Behavier_018
IEC-Behavier_019
IEC-Behavier_020
IEC-Behavier_021
IEC-Behavier_022
IEC-Behavier_023
IEC-Behavier_024
IEC-Behavier_025
IEC-Behavier_026
IEC-Behavier_027
IEC-Behavier_028
IEC-Behavier_029
IEC-Behavier_030
IEC-Behavier_031
IEC-Behavier_032
IEC-Behavier_033
IEC-Behavier_034
IEC-Behavier_035
IEC-Behavier_036
IEC-Behavier_037
IEC-Behavier_038
IEC-Behavier_039
IEC-Behavier_040
IEC-Behavier_041
IEC-Behavier_042
IEC-Behavier_043
IEC-Behavier_044
IEC-Behavier_045
IEC-Behavier_046
IEC-Behavier_047
IEC-Behavier_048
IEC-Behavier_049
IEC-Behavier_050
IEC-Behavier_051
NO
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
⎯ 284 ⎯
SIGNAL NAME
BEH_052
BEH_053
BEH_054
BEH_055
BEH_056
BEH_057
BEH_058
BEH_059
BEH_060
BEH_061
BEH_062
BEH_063
BEH_064
BEH_065
BEH_066
BEH_067
BEH_068
BEH_069
BEH_070
BEH_071
BEH_072
BEH_073
BEH_074
BEH_075
BEH_076
BEH_077
BEH_078
BEH_079
BEH_080
BEH_081
BEH_082
BEH_083
BEH_084
BEH_085
BEH_086
BEH_087
BEH_088
BEH_089
BEH_090
BEH_091
BEH_092
BEH_093
BEH_094
BEH_095
BEH_096
BEH_097
BEH_098
BEH_099
BEH_100
Const0
CONTENTS
IEC-Behavier_052
IEC-Behavier_053
IEC-Behavier_054
IEC-Behavier_055
IEC-Behavier_056
IEC-Behavier_057
IEC-Behavier_058
IEC-Behavier_059
IEC-Behavier_060
IEC-Behavier_061
IEC-Behavier_062
IEC-Behavier_063
IEC-Behavier_064
IEC-Behavier_065
IEC-Behavier_066
IEC-Behavier_067
IEC-Behavier_068
IEC-Behavier_069
IEC-Behavier_070
IEC-Behavier_071
IEC-Behavier_072
IEC-Behavier_073
IEC-Behavier_074
IEC-Behavier_075
IEC-Behavier_076
IEC-Behavier_077
IEC-Behavier_078
IEC-Behavier_079
IEC-Behavier_080
IEC-Behavier_081
IEC-Behavier_082
IEC-Behavier_083
IEC-Behavier_084
IEC-Behavier_085
IEC-Behavier_086
IEC-Behavier_087
IEC-Behavier_088
IEC-Behavier_089
IEC-Behavier_090
IEC-Behavier_091
IEC-Behavier_092
IEC-Behavier_093
IEC-Behavier_094
IEC-Behavier_095
IEC-Behavier_096
IEC-Behavier_097
IEC-Behavier_098
IEC-Behavier_099
IEC-Behavier_100
Const0
6 F 2 S 0 8 8 2
NO
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
SIGNAL NAME
Const1
Const2
Const3
Const4
Const5
CONTENTS
Const1
Const2
Const3
Const4
Const5
NO
SIGNAL NAME
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
⎯ 285 ⎯
CONTENTS
6 F 2 S 0 8 8 2
Control Table
NO
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
SIGNAL NAME
LEDRST_SIG
LEDRST_ORCAT
LEDRST_ORID
LEDRST_ORCAT_ST
LEDRST_ORID_ST
RESERVE
RESERVE
RESERVE
RESERVE
RESERVE
MOD_CHECK
MOD_CTLNUM
MOD_CTLVAL
MOD_ORCAT
MOD_ORIDENT
MOD_TEST
MOD_CTLMDL
MOD_ST_ORCAT
MOD_ST_ORIDENT
MOD_SELECT
MOD_SBOTIMEOUT
MOD_SBOCLASS
CONTENTS
LED Reset
Control - LED Reset Originator category
Control - LED Reset Originator category
Status - LED Rst Originator category
Status - LED Rst Originator category
Reserve
Reserve
Reserve
Reserve
Reserve
MOD_CHECK
MOD_CTLNUM
MOD_CTLVAL
MOD_ORCAT
MOD_ORIDENT
MOD_TEST
MOD_CTLMDL
MOD_ST_ORCAT
MOD_ST_ORIDENT
MOD_SELECT
MOD_SBOTIMEOUT
MOD_SBOCLASS
⎯ 286 ⎯
6 F 2 S 0 8 8 2
Appendix D
Variable Timer List
⎯ 287 ⎯
6 F 2 S 0 8 8 2
Variable Timer List
Timer
Timer No.
Contents
Timer
Timer No.
Contents
T1BF1
1
CH1 BF retrip
T26BF1
51
T1BF2
2
CH1 BF trip
T26BF2
52
CH26 BF retrip
CH26 BF trip
T2BF1
3
CH2 BF retrip
T27BF1
53
CH27 BF retrip
T2BF2
4
CH2 BF trip
T27BF2
54
CH27 BF trip
T3BF1
5
CH3 BF retrip
T28BF1
55
CH28 BF retrip
T3BF2
6
CH3 BF trip
T28BF2
56
CH28 BF trip
T4BF1
7
CH4 BF retrip
T29BF1
57
CH29 BF retrip
T4BF2
8
CH4 BF trip
T29BF2
58
CH29 BF trip
T5BF1
9
CH5 BF retrip
T30BF1
59
CH30 BF retrip
T5BF2
10
CH5 BF trip
T30BF2
60
CH30 BF trip
T6BF1
11
CH6 BF retrip
T31BF1
61
CH31 BF retrip
T6BF2
12
CH6 BF trip
T31BF2
62
CH31 BF trip
T7BF1
13
CH7 BF retrip
T32BF1
63
CH32 BF retrip
T7BF2
14
CH7 BF trip
T32BF2
64
CH32 BF trip
T8BF1
15
CH8 BF retrip
T33BF1
65
CH33 BF retrip
T8BF2
16
CH8 BF trip
T33BF2
66
CH33 BF trip
T9BF1
17
CH9 BF retrip
T34BF1
67
CH34 BF retrip
T9BF2
18
CH9 BF trip
T34BF2
68
CH34 BF trip
T10BF1
19
CH10 BF retrip
T35BF1
69
CH35 BF retrip
T10BF2
20
CH10 BF trip
T35BF2
70
CH35 BF trip
T11BF1
21
CH11 BF retrip
T36BF1
71
CH36 BF retrip
T11BF2
22
CH11 BF trip
T36BF2
72
CH36 BF trip
T12BF1
23
CH12 BF retrip
T37BF1
73
CH37 BF retrip
T12BF2
24
CH12 BF trip
T37BF2
74
CH37 BF trip
T13BF1
25
CH13 BF retrip
T38BF1
75
CH38 BF retrip
T13BF2
26
CH13 BF trip
T38BF2
76
CH38 BF trip
T14BF1
27
CH14 BF retrip
T39BF1
77
CH39 BF retrip
T14BF2
28
CH14 BF trip
T39BF2
78
CH39 BF trip
T15BF1
29
CH15 BF retrip
T40BF1
79
CH40 BF retrip
T15BF2
30
CH15 BF trip
T40BF2
80
CH40 BF trip
T16BF1
31
CH16 BF retrip
T41BF1
81
CH41 BF retrip
T16BF2
32
CH16 BF trip
T41BF2
82
CH41 BF trip
T17BF1
33
CH17 BF retrip
T42BF1
83
CH42 BF retrip
T17BF2
34
CH17 BF trip
T42BF2
84
CH42 BF trip
T18BF1
35
CH18 BF retrip
T43BF1
85
CH43 BF retrip
T18BF2
36
CH18 BF trip
T43BF2
86
CH43 BF trip
T19BF1
37
CH19 BF retrip
T44BF1
87
CH44 BF retrip
T19BF2
38
CH19 BF trip
T44BF2
88
CH44 BF trip
T20BF1
39
CH20 BF retrip
T45BF1
89
CH45 BF retrip
T20BF2
40
CH20 BF trip
T45BF2
90
CH45 BF trip
T21BF1
41
CH21 BF retrip
T46BF1
91
CH46 BF retrip
T21BF2
42
CH21 BF trip
T46BF2
92
CH46 BF trip
T22BF1
43
CH22 BF retrip
T47BF1
93
CH47 BF retrip
T22BF2
44
CH22 BF trip
T47BF2
94
CH47 BF trip
T23BF1
45
CH23 BF retrip
T48BF1
95
CH48 BF retrip
T23BF2
46
CH23 BF trip
T48BF2
96
CH48 BF trip
T24BF1
47
CH24 BF retrip
T49BF1
97
CH49 BF retrip
T24BF2
48
CH24 BF trip
T49BF2
98
CH49 BF trip
T25BF1
49
CH25 BF retrip
T50BF1
99
CH50 BF retrip
T25BF2
50
CH25 BF trip
T50BF2
100
CH50 BF trip
⎯ 288 ⎯
6 F 2 S 0 8 8 2
Timer
Timer No.
Contents
Timer
Timer No.
T51BF1
101
CH51 BF retrip
T51BF2
102
CH51 BF trip
151
152
T52BF1
103
CH52 BF retrip
153
T52BF2
104
CH52 BF trip
154
T53BF1
105
CH53 BF retrip
155
T53BF2
106
CH53 BF trip
156
T54BF1
107
CH54 BF retrip
157
T54BF2
108
CH54 BF trip
158
T55BF1
109
CH55 BF retrip
159
T55BF2
110
CH55 BF trip
160
T56BF1
111
CH56 BF retrip
161
T56BF2
112
CH56 BF trip
162
T57BF1
113
CH57 BF retrip
163
T57BF2
114
CH57 BF trip
164
T58BF1
115
CH58 BF retrip
165
T58BF2
116
CH58 BF trip
166
T59BF1
117
CH59 BF retrip
167
T59BF2
118
CH59 BF trip
168
T60BF1
119
CH60 BF retrip
169
T60BF2
120
CH60 BF trip
170
T61BF1
121
CH61 BF retrip
171
T61BF2
122
CH61 BF trip
172
T62BF1
123
CH62 BF retrip
173
T62BF2
124
CH62 BF trip
174
T63BF1
125
CH63 BF retrip
175
T63BF2
126
CH63 BF trip
176
T64BF1
127
CH64 BF retrip
177
T64BF2
128
CH64 BF trip
178
TIDSV
129
Id err detected time
179
TBRDG
130
Busbar bridge alarm time
180
131
181
132
182
133
183
134
184
135
185
136
186
137
187
138
188
139
189
140
190
141
191
142
192
143
193
144
194
145
195
146
196
147
197
148
198
149
199
150
200
⎯ 289 ⎯
Contents
6 F 2 S 0 8 8 2
⎯ 290 ⎯
6 F 2 S 0 8 8 2
Appendix E
Binary Output Default Setting List
⎯ 291 ⎯
6 F 2 S 0 8 8 2
Binary Output Default Setting List
CU-IO#1
BO1
BO2
BO3
Setting
Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
0
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
--
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
0
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
--
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
0
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 292 ⎯
6 F 2 S 0 8 8 2
CU-IO#2
BO1
BO2
BO3
BO4
BO5
BO6
BO7
BO8
BO9
Setting
Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
1600
DIF-ZA_TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1601
DIF-ZB_TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1602
DIF-ZC_TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1603
DIF-ZD_TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
1594
BP-TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1594
BP-TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1595
CBF-RETRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
---
In #1
0 - 7167
Output signal
1595
CBF-RETRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
1596
CBF-TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 293 ⎯
--
6 F 2 S 0 8 8 2
CU-IO#2
BO10
BO11
BO12
BO13
Setting
Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
1596
CBF-TRIP
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
In #6
Logic
0 - 7167
0 - 7167
OR - AND
BOTD
ditto
ditto
Logic gate
0
0
OR
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
1597
CBF-TRANSFER
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
BOTD
OR - AND
Off - On
In #1
0 - 7167
Output signal
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
Logic gate
BOTD timer
--
0
OR
On
---
1597
CBF-TRANSFER
0
Logic gate
OR
Off - On
BOTD timer
On
--
In #1
0 - 7167
Output signal
2833
RELAY_FAIL-A
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 294 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH1
CH2
CH3
CH4
CH5
CH6
CH7
CH8
CH9
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2464
CH1-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2465
CH2-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2466
CH3-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2467
CH4-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2468
CH5-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2469
CH6-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2470
CH7-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2471
CH8-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2472
CH9-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 295 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH10
CH11
CH12
CH13
CH14
CH15
CH16
CH17
CH18
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2473
CH10-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2474
CH11-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2475
CH12-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2476
CH13-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2477
CH14-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2478
CH15-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2479
CH16-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2480
CH17-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2481
CH18-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 296 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH19
CH20
CH21
CH22
CH23
CH24
CH25
CH26
CH27
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2482
CH19-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2483
CH20-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2484
CH21-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2485
CH22-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2486
CH23-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2487
CH24-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2488
CH25-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2489
CH26-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2490
CH27-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 297 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH28
CH29
CH30
CH31
CH32
CH33
CH34
CH35
CH36
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2491
CH28-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2492
CH29-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2493
CH30-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2494
CH31-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2495
CH32-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2496
CH33-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2497
CH34-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2498
CH35-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2499
CH36-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 298 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH37
CH38
CH39
CH40
CH41
CH42
CH43
CH44
CH45
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2500
CH37-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2501
CH38-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2502
CH39-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2503
CH40-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2504
CH41-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2505
CH42-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2506
CH43-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2507
CH44-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2508
CH45-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 299 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH46
CH47
CH48
CH49
CH50
CH51
CH52
CH53
CH54
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2509
CH46-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2510
CH47-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2511
CH48-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2512
CH49-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2513
CH50-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2514
CH51-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2515
CH52-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2516
CH53-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2517
CH54-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 300 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH55
CH56
CH57
CH58
CH59
CH60
CH61
CH62
CH63
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2518
CH55-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2519
CH56-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2520
CH57-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2521
CH58-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2522
CH59-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2523
CH60-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2524
CH61-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2525
CH62-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2526
CH63-CBF.TR
In #2
0 - 7167
ditto
0
In #3
0 - 7167
ditto
0
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 301 ⎯
--
6 F 2 S 0 8 8 2
BU-BO1
CH64
Setting Device
Name
Range
Logic
BOTD
OR - AND
Off - On
In #1
In #2
In #3
In #4
In #5
In #6
0 - 7167
0 - 7167
0 - 7167
0 - 7167
0 - 7167
0 - 7167
Default Setting
Contents
Logic gate
BOTD timer
Output signal
ditto
ditto
ditto
ditto
ditto
⎯ 302 ⎯
Setting
OR
Off
Signal Name
---
2527
0
0
0
0
0
CH64-CBF.TR
6 F 2 S 0 8 8 2
BU-BO2
CH1
CH2
CH3
CH4
CH5
CH6
CH7
CH8
CH9
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2272
CH1-BPTP
In #2
0 - 7167
ditto
2336
CH1-CBFRETP
In #3
0 - 7167
ditto
2400
CH1-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2273
CH2-BPTP
In #2
0 - 7167
ditto
2337
CH2-CBFRETP
In #3
0 - 7167
ditto
2401
CH2-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2274
CH3-BPTP
In #2
0 - 7167
ditto
2338
CH3-CBFRETP
In #3
0 - 7167
ditto
2402
CH3-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2275
CH4-BPTP
In #2
0 - 7167
ditto
2339
CH4-CBFRETP
In #3
0 - 7167
ditto
2403
CH4-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2276
CH5-BPTP
In #2
0 - 7167
ditto
2340
CH5-CBFRETP
In #3
0 - 7167
ditto
2404
CH5-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2277
CH6-BPTP
In #2
0 - 7167
ditto
2341
CH6-CBFRETP
In #3
0 - 7167
ditto
2405
CH6-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2278
CH7-BPTP
In #2
0 - 7167
ditto
2342
CH7-CBFRETP
In #3
0 - 7167
ditto
2406
CH7-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2279
CH8-BPTP
In #2
0 - 7167
ditto
2343
CH8-CBFRETP
In #3
0 - 7167
ditto
2407
CH8-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2280
CH9-BPTP
In #2
0 - 7167
ditto
2344
CH9-CBFRETP
In #3
0 - 7167
ditto
2408
CH9-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 303 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH10
CH11
CH12
CH13
CH14
CH15
CH16
CH17
CH18
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2281
CH10-BPTP
In #2
0 - 7167
ditto
2345
CH10-CBFRETP
In #3
0 - 7167
ditto
2409
CH10-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2282
CH11-BPTP
In #2
0 - 7167
ditto
2346
CH11-CBFRETP
In #3
0 - 7167
ditto
2410
CH11-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2283
CH12-BPTP
In #2
0 - 7167
ditto
2347
CH12-CBFRETP
In #3
0 - 7167
ditto
2411
CH12-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2284
CH13-BPTP
In #2
0 - 7167
ditto
2348
CH13-CBFRETP
In #3
0 - 7167
ditto
2412
CH13-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2285
CH14-BPTP
In #2
0 - 7167
ditto
2349
CH14-CBFRETP
In #3
0 - 7167
ditto
2413
CH14-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2286
CH15-BPTP
In #2
0 - 7167
ditto
2350
CH15-CBFRETP
In #3
0 - 7167
ditto
2414
CH15-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2287
CH16-BPTP
In #2
0 - 7167
ditto
2351
CH16-CBFRETP
In #3
0 - 7167
ditto
2415
CH16-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2288
CH17-BPTP
In #2
0 - 7167
ditto
2352
CH17-CBFRETP
In #3
0 - 7167
ditto
2416
CH17-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2289
CH18-BPTP
In #2
0 - 7167
ditto
2353
CH18-CBFRETP
In #3
0 - 7167
ditto
2417
CH18-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 304 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH19
CH20
CH21
CH22
CH23
CH24
CH25
CH26
CH27
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2290
CH19-BPTP
In #2
0 - 7167
ditto
2354
CH19-CBFRETP
In #3
0 - 7167
ditto
2418
CH19-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2291
CH20-BPTP
In #2
0 - 7167
ditto
2355
CH20-CBFRETP
In #3
0 - 7167
ditto
2419
CH20-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2292
CH21-BPTP
In #2
0 - 7167
ditto
2356
CH21-CBFRETP
In #3
0 - 7167
ditto
2420
CH21-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2293
CH22-BPTP
In #2
0 - 7167
ditto
2357
CH22-CBFRETP
In #3
0 - 7167
ditto
2421
CH22-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2294
CH23-BPTP
In #2
0 - 7167
ditto
2358
CH23-CBFRETP
In #3
0 - 7167
ditto
2422
CH23-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2295
CH24-BPTP
In #2
0 - 7167
ditto
2359
CH24-CBFRETP
In #3
0 - 7167
ditto
2423
CH24-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2296
CH25-BPTP
In #2
0 - 7167
ditto
2360
CH25-CBFRETP
In #3
0 - 7167
ditto
2424
CH25-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2297
CH26-BPTP
In #2
0 - 7167
ditto
2361
CH26-CBFRETP
In #3
0 - 7167
ditto
2425
CH26-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2298
CH27-BPTP
In #2
0 - 7167
ditto
2362
CH27-CBFRETP
In #3
0 - 7167
ditto
2426
CH27-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 305 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH28
CH29
CH30
CH31
CH32
CH33
CH34
CH35
CH36
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2299
CH28-BPTP
In #2
0 - 7167
ditto
2363
CH28-CBFRETP
In #3
0 - 7167
ditto
2427
CH28-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2300
CH29-BPTP
In #2
0 - 7167
ditto
2364
CH29-CBFRETP
In #3
0 - 7167
ditto
2428
CH29-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2301
CH30-BPTP
In #2
0 - 7167
ditto
2365
CH30-CBFRETP
In #3
0 - 7167
ditto
2429
CH30-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2302
CH31-BPTP
In #2
0 - 7167
ditto
2366
CH31-CBFRETP
In #3
0 - 7167
ditto
2430
CH31-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2303
CH32-BPTP
In #2
0 - 7167
ditto
2367
CH32-CBFRETP
In #3
0 - 7167
ditto
2431
CH32-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2304
CH33-BPTP
In #2
0 - 7167
ditto
2368
CH33-CBFRETP
In #3
0 - 7167
ditto
2432
CH33-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2305
CH34-BPTP
In #2
0 - 7167
ditto
2369
CH34-CBFRETP
In #3
0 - 7167
ditto
2433
CH34-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2306
CH35-BPTP
In #2
0 - 7167
ditto
2370
CH35-CBFRETP
In #3
0 - 7167
ditto
2434
CH35-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2307
CH36-BPTP
In #2
0 - 7167
ditto
2371
CH36-CBFRETP
In #3
0 - 7167
ditto
2435
CH36-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 306 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH37
CH38
CH39
CH40
CH41
CH42
CH43
CH44
CH45
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2308
CH37-BPTP
In #2
0 - 7167
ditto
2372
CH37-CBFRETP
In #3
0 - 7167
ditto
2436
CH37-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2309
CH38-BPTP
In #2
0 - 7167
ditto
2373
CH38-CBFRETP
In #3
0 - 7167
ditto
2437
CH38-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2310
CH39-BPTP
In #2
0 - 7167
ditto
2374
CH39-CBFRETP
In #3
0 - 7167
ditto
2438
CH39-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2311
CH40-BPTP
In #2
0 - 7167
ditto
2375
CH40-CBFRETP
In #3
0 - 7167
ditto
2439
CH40-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2312
CH41-BPTP
In #2
0 - 7167
ditto
2376
CH41-CBFRETP
In #3
0 - 7167
ditto
2440
CH41-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2313
CH42-BPTP
In #2
0 - 7167
ditto
2377
CH42-CBFRETP
In #3
0 - 7167
ditto
2441
CH42-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2314
CH43-BPTP
In #2
0 - 7167
ditto
2378
CH43-CBFRETP
In #3
0 - 7167
ditto
2442
CH43-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2315
CH44-BPTP
In #2
0 - 7167
ditto
2379
CH44-CBFRETP
In #3
0 - 7167
ditto
2443
CH44-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2316
CH45-BPTP
In #2
0 - 7167
ditto
2380
CH45-CBFRETP
In #3
0 - 7167
ditto
2444
CH45-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 307 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH46
CH47
CH48
CH49
CH50
CH51
CH52
CH53
CH54
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2317
CH46-BPTP
In #2
0 - 7167
ditto
2381
CH46-CBFRETP
In #3
0 - 7167
ditto
2445
CH46-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2318
CH47-BPTP
In #2
0 - 7167
ditto
2382
CH47-CBFRETP
In #3
0 - 7167
ditto
2446
CH47-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2319
CH48-BPTP
In #2
0 - 7167
ditto
2383
CH48-CBFRETP
In #3
0 - 7167
ditto
2447
CH48-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2320
CH49-BPTP
In #2
0 - 7167
ditto
2384
CH49-CBFRETP
In #3
0 - 7167
ditto
2448
CH49-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2321
CH50-BPTP
In #2
0 - 7167
ditto
2385
CH50-CBFRETP
In #3
0 - 7167
ditto
2449
CH50-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2322
CH51-BPTP
In #2
0 - 7167
ditto
2386
CH51-CBFRETP
In #3
0 - 7167
ditto
2450
CH51-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2323
CH52-BPTP
In #2
0 - 7167
ditto
2387
CH52-CBFRETP
In #3
0 - 7167
ditto
2451
CH52-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2324
CH53-BPTP
In #2
0 - 7167
ditto
2388
CH53-CBFRETP
In #3
0 - 7167
ditto
2452
CH53-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2325
CH54-BPTP
In #2
0 - 7167
ditto
2389
CH54-CBFRETP
In #3
0 - 7167
ditto
2453
CH54-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 308 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH55
CH56
CH57
CH58
CH59
CH60
CH61
CH62
CH63
Setting Device
Name
Range
Logic
OR - AND
BOTD
Default Setting
Contents
Setting
Signal Name
Logic gate
OR
--
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2326
CH55-BPTP
In #2
0 - 7167
ditto
2390
CH55-CBFRETP
In #3
0 - 7167
ditto
2454
CH55-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2327
CH56-BPTP
In #2
0 - 7167
ditto
2391
CH56-CBFRETP
In #3
0 - 7167
ditto
2455
CH56-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2328
CH57-BPTP
In #2
0 - 7167
ditto
2392
CH57-CBFRETP
In #3
0 - 7167
ditto
2456
CH57-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2329
CH58-BPTP
In #2
0 - 7167
ditto
2393
CH58-CBFRETP
In #3
0 - 7167
ditto
2457
CH58-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
Logic
0 - 7167
OR - AND
BOTD
ditto
Logic gate
0
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2330
CH59-BPTP
In #2
0 - 7167
ditto
2394
CH59-CBFRETP
In #3
0 - 7167
ditto
2458
CH59-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
--
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2331
CH60-BPTP
In #2
0 - 7167
ditto
2395
CH60-CBFRETP
In #3
0 - 7167
ditto
2459
CH60-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2332
CH61-BPTP
In #2
0 - 7167
ditto
2396
CH61-CBFRETP
In #3
0 - 7167
ditto
2460
CH61-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
---
In #1
0 - 7167
Output signal
2333
CH62-BPTP
In #2
0 - 7167
ditto
2397
CH62-CBFRETP
In #3
0 - 7167
ditto
2461
CH62-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
Logic
OR - AND
BOTD
0
Logic gate
OR
Off - On
BOTD timer
Off
--
In #1
0 - 7167
Output signal
2334
CH63-BPTP
In #2
0 - 7167
ditto
2398
CH63-CBFRETP
In #3
0 - 7167
ditto
2462
CH63-CBFTP
In #4
0 - 7167
ditto
0
In #5
0 - 7167
ditto
0
In #6
0 - 7167
ditto
0
⎯ 309 ⎯
--
6 F 2 S 0 8 8 2
BU-BO2
CH64
Setting Device
Name
Range
Logic
BOTD
OR - AND
Off - On
In #1
In #2
In #3
In #4
In #5
In #6
0 - 7167
0 - 7167
0 - 7167
0 - 7167
0 - 7167
0 - 7167
Default Setting
Contents
Logic gate
BOTD timer
Output signal
ditto
ditto
ditto
ditto
ditto
⎯ 310 ⎯
Setting
OR
Off
Signal Name
---
2335
2399
2463
0
0
0
CH64-BPTP
CH64-CBFRETP
CH64-CBFTP
6 F 2 S 0 8 8 2
Appendix F
Disturbance Record Signal List
⎯ 311 ⎯
6 F 2 S 0 8 8 2
Analog signals
N o.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
N am e
C o n te n t s
V aA
V bA
V cA
V aB
V bB
V cB
V aC
V bC
V cC
V aD
V bD
V cD
1 Ia
1 Ib
1 Ic
2 Ia
2 Ib
2 Ic
3 Ia
3 Ib
3 Ic
4 Ia
4 Ib
4 Ic
5 Ia
5 Ib
5 Ic
6 Ia
6 Ib
6 Ic
7 Ia
7 Ib
7 Ic
8 Ia
8 Ib
8 Ic
9 Ia
9 Ib
9 Ic
1 0 Ia
1 0 Ib
1 0 Ic
1 1 Ia
1 1 Ib
1 1 Ic
1 2 Ia
1 2 Ib
1 2 Ic
1 3 Ia
1 3 Ib
1 3 Ic
1 4 Ia
1 4 Ib
1 4 Ic
1 5 Ia
1 5 Ib
1 5 Ic
1 6 Ia
1 6 Ib
1 6 Ic
1 7 Ia
1 7 Ib
1 7 Ic
1 8 Ia
1 8 Ib
1 8 Ic
1 9 Ia
1 9 Ib
1 9 Ic
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
A-phas e
B-phas e
C - p h a se
N o.
v o lta g e
v o lta g e
vo l ta g e
v o lta g e
v o lta g e
vo l ta g e
v o lta g e
v o lta g e
vo l ta g e
v o lta g e
v o lta g e
vo l ta g e
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
c u r re n t
c u r re n t
cu r r e n t
of Z oneA
of Z oneA
o f Zo n e A
of Z oneB
of Z oneB
o f Zo n e B
of Z oneC
of Z oneC
o f Zo n e C
of Z oneD
of Z oneD
o f Zo n e D
of C H 1
of C H 1
of C H 1
of C H 2
of C H 2
of C H 2
of C H 3
of C H 3
of C H 3
of C H 4
of C H 4
of C H 4
of C H 5
of C H 5
of C H 5
of C H 6
of C H 6
of C H 6
of C H 7
of C H 7
of C H 7
of C H 8
of C H 8
of C H 8
of C H 9
of C H 9
of C H 9
of C H 10
of C H 10
of C H 10
of C H 11
of C H 11
of C H 11
of C H 12
of C H 12
of C H 12
of C H 13
of C H 13
of C H 13
of C H 14
of C H 14
of C H 14
of C H 15
of C H 15
of C H 15
of C H 16
of C H 16
of C H 16
of C H 17
of C H 17
of C H 17
of C H 18
of C H 18
of C H 18
of C H 19
of C H 19
of C H 19
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
N am e
C o n te n ts
2 0 Ia
2 0 Ib
2 0 Ic
2 1 Ia
2 1 Ib
2 1 Ic
2 2 Ia
2 2 Ib
2 2 Ic
2 3 Ia
2 3 Ib
2 3 Ic
2 4 Ia
2 4 Ib
2 4 Ic
2 5 Ia
2 5 Ib
2 5 Ic
2 6 Ia
2 6 Ib
2 6 Ic
2 7 Ia
2 7 Ib
2 7 Ic
2 8 Ia
2 8 Ib
2 8 Ic
2 9 Ia
2 9 Ib
2 9 Ic
3 0 Ia
3 0 Ib
3 0 Ic
3 1 Ia
3 1 Ib
3 1 Ic
3 2 Ia
3 2 Ib
3 2 Ic
3 3 Ia
3 3 Ib
3 3 Ic
3 4 Ia
3 4 Ib
3 4 Ic
3 5 Ia
3 5 Ib
3 5 Ic
3 6 Ia
3 6 Ib
3 6 Ic
3 7 Ia
3 7 Ib
3 7 Ic
3 8 Ia
3 8 Ib
3 8 Ic
3 9 Ia
3 9 Ib
3 9 Ic
4 0 Ia
4 0 Ib
4 0 Ic
4 1 Ia
4 1 Ib
4 1 Ic
4 2 Ia
4 2 Ib
4 2 Ic
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
A -p h a se
B -p h a se
C -phas e
N o.
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
c u r re n t
c u r re n t
cu rr e n t
⎯ 312 ⎯
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
of
C H 20
C H 20
C H2 0
C H 21
C H 21
C H2 1
C H 22
C H 22
C H2 2
C H 23
C H 23
C H2 3
C H 24
C H 24
C H2 4
C H 25
C H 25
C H2 5
C H 26
C H 26
C H2 6
C H 27
C H 27
C H2 7
C H 28
C H 28
C H2 8
C H 29
C H 29
C H2 9
C H 30
C H 30
C H3 0
C H 31
C H 31
C H3 1
C H 32
C H 32
C H3 2
C H 33
C H 33
C H3 3
C H 34
C H 34
C H3 4
C H 35
C H 35
C H3 5
C H 36
C H 36
C H3 6
C H 37
C H 37
C H3 7
C H 38
C H 38
C H3 8
C H 39
C H 39
C H3 9
C H 40
C H 40
C H4 0
C H 41
C H 41
C H4 1
C H 42
C H 42
C H4 2
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
N am e
C o n te n ts
4 3 Ia
4 3 Ib
4 3 Ic
4 4 Ia
4 4 Ib
4 4 Ic
4 5 Ia
4 5 Ib
4 5 Ic
4 6 Ia
4 6 Ib
4 6 Ic
4 7 Ia
4 7 Ib
4 7 Ic
4 8 Ia
4 8 Ib
4 8 Ic
4 9 Ia
4 9 Ib
4 9 Ic
5 0 Ia
5 0 Ib
5 0 Ic
5 1 Ia
5 1 Ib
5 1 Ic
5 2 Ia
5 2 Ib
5 2 Ic
5 3 Ia
5 3 Ib
5 3 Ic
5 4 Ia
5 4 Ib
5 4 Ic
5 5 Ia
5 5 Ib
5 5 Ic
5 6 Ia
5 6 Ib
5 6 Ic
5 7 Ia
5 7 Ib
5 7 Ic
5 8 Ia
5 8 Ib
5 8 Ic
5 9 Ia
5 9 Ib
5 9 Ic
6 0 Ia
6 0 Ib
6 0 Ic
6 1 Ia
6 1 Ib
6 1 Ic
6 2 Ia
6 2 Ib
6 2 Ic
6 3 Ia
6 3 Ib
6 3 Ic
6 4 Ia
6 4 Ib
6 4 Ic
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
A - p h a se
B - p h a se
C -phas e
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
cu r r e n t
cu r r e n t
c u rr e n t
of C H 43
of C H 43
o f C H 43
of C H 44
of C H 44
o f C H 44
of C H 45
of C H 45
o f C H 45
of C H 46
of C H 46
o f C H 46
of C H 47
of C H 47
o f C H 47
of C H 48
of C H 48
o f C H 48
of C H 49
of C H 49
o f C H 49
of C H 50
of C H 50
o f C H 50
of C H 51
of C H 51
o f C H 51
of C H 52
of C H 52
o f C H 52
of C H 53
of C H 53
o f C H 53
of C H 54
of C H 54
o f C H 54
of C H 55
of C H 55
o f C H 55
of C H 56
of C H 56
o f C H 56
of C H 57
of C H 57
o f C H 57
of C H 58
of C H 58
o f C H 58
of C H 59
of C H 59
o f C H 59
of C H 60
of C H 60
o f C H 60
of C H 61
of C H 61
o f C H 61
of C H 62
of C H 62
o f C H 62
of C H 63
of C H 63
o f C H 63
of C H 64
of C H 64
o f C H 64
6 F 2 S 0 8 8 2
Binary signals
N o. Na m e
C on te nts
N o. N am e
C ontents
1 DIFC H -A
A -pha se o utp ut o f D IF C H
7 1 39O C BF -OR
OR output of 39 OC BF -A , -B an d -C el em ents
2 DIFC H -B
3 DIFC H -C
B -pha se o utp ut o f D IF C H
C -p hase output of D IFC H
7 2 40O C BF -OR
7 3 41O C BF -OR
OR output of 40 OC BF -A , -B an d -C el em ents
OR output of 41 OC BF -A , -B an d -C el em ents
4 DIFZA -A
5 DIFZA -B
A -pha se o utp ut o f D IF Z A
B -pha se o utp ut o f D IF Z A
7 4 42O C BF -OR
7 5 43O C BF -OR
OR output of 42 OC BF -A , -B an d -C el em ents
OR output of 43 OC BF -A , -B an d -C el em ents
6 DIFZA -C
7 DIFZB -A
C -p hase output of D IFZ A
A -pha se o utp ut o f D IF Z B
7 6 44O C BF -OR
7 7 45O C BF -OR
OR output of 44 OC BF -A , -B an d -C el em ents
OR output of 45 OC BF -A , -B an d -C el em ents
8 DIFZB -B
9 DIFZB -C
B -pha se o utp ut o f D IF Z B
C -p hase output of D IFZ B
7 8 46O C BF -OR
7 9 47O C BF -OR
OR output of 46 OC BF -A , -B an d -C el em ents
OR output of 47 OC BF -A , -B an d -C el em ents
10 DIFZC -A
11 DIFZC -B
12 DIFZC -C
A -pha se o utp ut o f D IF Z C
B -pha se o utp ut o f D IF Z C
C -p hase output of D IFZ C
8 0 48O C BF -OR
8 1 49O C BF -OR
8 2 50O C BF -OR
OR output of 48 OC BF -A , -B an d -C el em ents
OR output of 49 OC BF -A , -B an d -C el em ents
OR output of 50 OC BF -A , -B an d -C el em ents
13 DIFZD -A
14 DIFZD -B
A -pha se o utp ut o f D IF Z D
B -pha se o utp ut o f D IF Z D
8 3 51O C BF -OR
8 4 52O C BF -OR
OR output of 51 OC BF -A , -B an d -C el em ents
OR output of 52 OC BF -A , -B an d -C el em ents
15 DIFZD -C
C -p hase output of D IFZ D
8 5 53O C BF -OR
OR output of 53 OC BF -A , -B an d -C el em ents
16 DIF-C H _T R IP
17 DIF-Z A_T R IP
18 DIF-Z B_T R IP
D IF- CH trip
B usbar pro te ction Z on e A trip
B usbar pro te ction Z on e B trip
8 6 54O C BF -OR
8 7 55O C BF -OR
8 8 56O C BF -OR
OR output of 54 OC BF -A , -B an d -C el em ents
OR output of 55 OC BF -A , -B an d -C el em ents
OR output of 56 OC BF -A , -B an d -C el em ents
19 DIF=Z C _T R IP
20 DIF-Z D_ T R IP
B usbar pro te ction Z on e C trip
B usbar pro te ction Z on e D trip
8 9 57O C BF -OR
9 0 58O C BF -OR
OR output of 57 OC BF -A , -B an d -C el em ents
OR output of 58 OC BF -A , -B an d -C el em ents
21 CB F -R ET R IP
C B F retrip (O R o utp ut o f C H 1 to C H 32)
9 1 59O C BF -OR
OR output of 59 OC BF -A , -B an d -C el em ents
22 CB F -T R IP
C B F trip (OR outpu t of C H 1 to C H3 2)
23 CB F -T R AN SF E R C B F transfer tri p (OR output of C H 1 to C H 32 )
24 DIFC H -BLK -OR O R ou tp ut of D IF C H -BL K-A, -B and -C ele m ents
9 2 60O C BF -OR
9 3 61O C BF -OR
9 4 62O C BF -OR
OR output of 60 OC BF -A , -B an d -C el em ents
OR output of 61 OC BF -A , -B an d -C el em ents
OR output of 62 OC BF -A , -B an d -C el em ents
25 DIFZA -BL K-O R
26 DIFZB -BL K-O R
O R ou tp ut of D IF Z A-B LK-A , -B a nd -C e lem en ts
O R ou tp ut of D IF Z B-B LK-A , -B a nd -C e lem en ts
9 5 63O C BF -OR
9 6 64O C BF -OR
OR output of 63 OC BF -A , -B an d -C el em ents
OR output of 64 OC BF -A , -B an d -C el em ents
27 DIFZC -B LK -OR
28 DIFZD -B LK -OR
O R ou tp ut of D IF Z C -BLK -A, -B and -C ele m ents
O R ou tp ut of D IF Z D -BLK -A, -B and -C ele m ents
9 7 C H 1 T RIP
9 8 C H 2 T RIP
C H2 trip (d itto)
29 UV Z A
30 UV Z B
O R ou tp ut of U VG- ZA a nd U VS -ZA
O R ou tp ut of U VG- ZB a nd U VS -ZB
9 9 C H 3 T RIP
10 0 C H 4 T RIP
C H3 trip (d itto)
C H4 trip (d itto)
31 UV Z C
32 UV Z D
O R ou tp ut of U VG- ZC and U V S-Z C
O R ou tp ut of U VG- ZD and U V S-Z D
10 1 C H 5 T RIP
10 2 C H 6 T RIP
C H5 trip (d itto)
C H6 trip (d itto)
33 1OC B F-O R
34 2OC B F-O R
O R ou tp ut of 1OC B F -BLK -A, -B and -C ele m ents
O R ou tp ut of 2OC B F -BLK -A, -B and -C ele m ents
10 3 C H 7 T RIP
10 4 C H 8 T RIP
C H7 trip (d itto)
C H8 trip (d itto)
35 3OC B F-O R
36 4OC B F-O R
O R ou tp ut of 3OC B F -BLK -A, -B and -C ele m ents
O R ou tp ut of 4OC B F -BLK -A, -B and -C ele m ents
10 5 C H 9 T RIP
10 6 C H 10 T R IP
C H9 trip (d itto)
C H1 0 tri p ( ditto)
37
38
39
40
OR
OR
OR
OR
10 7
10 8
10 9
11 0
C H1 1
C H1 2
C H1 3
C H1 4
5OC B F-O R
6OC B F-O R
7OC B F-O R
8OC B F-O R
ou tp ut
ou tp ut
ou tp ut
ou tp ut
of
of
of
of
5OC B F -BLK -A,
6OC B F -BLK -A,
7OC B F -BLK -A,
8OC B F -BLK -A,
-B
-B
-B
-B
and
and
and
and
-C
-C
-C
-C
ele m ents
ele m ents
ele m ents
ele m ents
C H 11
C H 12
C H 13
C H 14
T R IP
T R IP
T R IP
T R IP
CH 1 t rip (O R o u p p u t of B P t rip , CB F re trip a n d C B F trip )
tri p ( ditto)
tri p ( ditto)
tri p ( ditto)
tri p ( ditto)
41 9OC B F-O R
42 10OC B F -OR
O R ou tp ut of 9OC B F -BLK -A, -B and -C ele m ents
O R ou tp ut of 10O C BF -BL K-A , -B an d - C el em ents
11 1 C H 15 T R IP
11 2 C H 16 T R IP
C H1 5 tri p ( ditto)
C H1 6 tri p ( ditto)
43
44
45
46
OR
OR
OR
OR
11 3
11 4
11 5
11 6
C H1 7
C H1 8
C H1 9
C H2 0
11OC B F -OR
12OC B F -OR
13OC B F -OR
14OC B F -OR
ou tp ut
ou tp ut
ou tp ut
ou tp ut
of
of
of
of
11O C BF -BL K-A ,
12O C BF -BL K-A ,
13O C BF -BL K-A ,
14O C BF -BL K-A ,
-B
-B
-B
-B
an d - C
an d - C
an d - C
an d - C
el em ents
el em ents
el em ents
el em ents
C H 17
C H 18
C H 19
C H 20
T R IP
T R IP
T R IP
T R IP
tri p ( ditto)
tri p ( ditto)
tri p ( ditto)
tri p ( ditto)
47 15OC B F -OR
48 16OC B F -OR
O R ou tp ut of 15O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 16O C BF -BL K-A , -B an d - C el em ents
11 7 C H 21 T R IP
11 8 C H 22 T R IP
C H2 1 tri p ( ditto)
C H2 2 tri p ( ditto)
49 17OC B F -OR
50 18OC B F -OR
O R ou tp ut of 17O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 18O C BF -BL K-A , -B an d - C el em ents
11 9 C H 23 T R IP
12 0 C H 24 T R IP
C H2 3 tri p ( ditto)
C H2 4 tri p ( ditto)
51 19OC B F -OR
52 20OC B F -OR
O R ou tp ut of 19O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 20O C BF -BL K-A , -B an d - C el em ents
12 1 C H 25 T R IP
12 2 C H 26 T R IP
C H2 5 tri p ( ditto)
C H2 6 tri p ( ditto)
53 21OC B F -OR
54 22OC B F -OR
55 23OC B F -OR
O R ou tp ut of 21O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 22O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 23O C BF -BL K-A , -B an d - C el em ents
12 3 C H 27 T R IP
12 4 C H 28 T R IP
12 5 C H 29 T R IP
C H2 7 tri p ( ditto)
C H2 8 tri p ( ditto)
C H2 9 tri p ( ditto)
56 24OC B F -OR
O R ou tp ut of 24O C BF -BL K-A , -B an d - C el em ents
12 6 C H 30 T R IP
C H3 0 tri p ( ditto)
57 25OC B F -OR
58 26OC B F -OR
O R ou tp ut of 25O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 26O C BF -BL K-A , -B an d - C el em ents
12 7 C H 31 T R IP
12 8 C H 32 T R IP
C H3 1 tri p ( ditto)
C H3 2 tri p ( ditto)
59 27OC B F -OR
60 28OC B F -OR
61 29OC B F -OR
O R ou tp ut of 27O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 28O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 29O C BF -BL K-A , -B an d - C el em ents
12 9 C H 33 T R IP
13 0 C H 34 T R IP
13 1 C H 35 T R IP
C H3 3 tri p ( ditto)
C H3 4 tri p ( ditto)
C H3 5 tri p ( ditto)
62 30OC B F -OR
63 31OC B F -OR
O R ou tp ut of 20O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 31O C BF -BL K-A , -B an d - C el em ents
13 2 C H 36 T R IP
13 3 C H 37 T R IP
C H3 6 tri p ( ditto)
C H3 7 tri p ( ditto)
64 32OC B F -OR
O R ou tp ut of 32O C BF -BL K-A , -B an d - C el em ents
13 4 C H 38 T R IP
C H3 8 tri p ( ditto)
65 33OC B F -OR
66 34OC B F -OR
67 35OC B F -OR
O R ou tp ut of 33O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 34O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 35O C BF -BL K-A , -B an d - C el em ents
13 5 C H 39 T R IP
13 6 C H 40 T R IP
13 7 C H 41 T R IP
C H3 9 tri p ( ditto)
C H4 0 tri p ( ditto)
C H4 1 tri p ( ditto)
68 36OC B F -OR
69 37OC B F -OR
O R ou tp ut of 36O C BF -BL K-A , -B an d - C el em ents
O R ou tp ut of 37O C BF -BL K-A , -B an d - C el em ents
13 8 C H 42 T R IP
13 9 C H 43 T R IP
C H4 2 tri p ( ditto)
C H4 3 tri p ( ditto)
70 38OC B F -OR
O R ou tp ut of 38O C BF -BL K-A , -B an d - C el em ents
14 0 C H 44 T R IP
C H4 4 tri p ( ditto)
(Note): No.1 to No.32 binary signals are settable and default settings.
No.33 to No.224 binary signals are fixed.
⎯ 313 ⎯
6 F 2 S 0 8 8 2
N o. N am e
C on te n ts
N o. Na me
C on te n ts
14 1 C H45 TRIP
14 2 C H46 TRIP
14 3 C H47 TRIP
C H4 5 trip (dit to )
C H4 6 trip (dit to )
C H4 7 trip (dit to )
1 8 3 CH 23 CB F-TR
1 8 4 CH 24 CB F-TR
1 8 5 CH 25 CB F-TR
C H2 3 CB F t ra n sf er s ign a l
C H2 4 CB F t ra n sf er s ign a l
C H2 5 CB F t ra n sf er s ign a l
14 4 C H48 TRIP
14 5 C H49 TRIP
C H4 8 trip (dit to )
C H4 9 trip (dit to )
1 8 6 CH 26 CB F-TR
1 8 7 CH 27 CB F-TR
C H2 6 CB F t ra n sf er s ign a l
C H2 7 CB F t ra n sf er s ign a l
14 6 C H50 TRIP
14 7 C H51 TRIP
14 8 C H52 TRIP
C H5 0 trip (dit to )
C H5 1 trip (dit to )
C H5 2 trip (dit to )
1 8 8 CH 28 CB F-TR
1 8 9 CH 29 CB F-TR
1 9 0 CH 30 CB F-TR
C H2 8 CB F t ra n sf er s ign a l
C H2 9 CB F t ra n sf er s ign a l
C H3 0 CB F t ra n sf er s ign a l
14 9 C H53 TRIP
15 0 C H54 TRIP
15 1 C H55 TRIP
C H5 3 trip (dit to )
C H5 4 trip (dit to )
C H5 5 trip (dit to )
1 9 1 CH 31 CB F-TR
1 9 2 CH 32 CB F-TR
1 9 3 CH 33 CB F-TR
C H3 1 CB F t ra n sf er s ign a l
C H3 2 CB F t ra n sf er s ign a l
C H3 3 CB F t ra n sf er s ign a l
15 2 C H56 TRIP
15 3 C H57 TRIP
15 4 C H58 TRIP
C H5 6 trip (dit to )
C H5 7 trip (dit to )
C H5 8 trip (dit to )
1 9 4 CH 34 CB F-TR
1 9 5 CH 35 CB F-TR
1 9 6 CH 36 CB F-TR
C H3 4 CB F t ra n sf er s ign a l
C H3 5 CB F t ra n sf er s ign a l
C H3 6 CB F t ra n sf er s ign a l
15 5 C H59 TRIP
15 6 C H60 TRIP
15 7 C H61 TRIP
C H5 9 trip (dit to )
C H6 0 trip (dit to )
C H6 1 trip (dit to )
1 9 7 CH 37 CB F-TR
1 9 8 CH 38 CB F-TR
1 9 9 CH 39 CB F-TR
C H3 7 CB F t ra n sf er s ign a l
C H3 8 CB F t ra n sf er s ign a l
C H3 9 CB F t ra n sf er s ign a l
15 8 C H62 TRIP
15 9 C H63 TRIP
16 0 C H64 TRIP
C H6 2 trip (dit to )
C H6 3 trip (dit to )
C H6 4 trip (dit to )
2 0 0 CH 40 CB F-TR
2 0 1 CH 41 CB F-TR
2 0 2 CH 42 CB F-TR
C H4 0 CB F t ra n sf er s ign a l
C H4 1 CB F t ra n sf er s ign a l
C H4 2 CB F t ra n sf er s ign a l
16 1 C H1 CB F-TR
16 2 C H2 CB F-TR
C H1 CB F t ran sf e r sig na l
C H2 CB F t ran sf e r sig na l
2 0 3 CH 43 CB F-TR
2 0 4 CH 44 CB F-TR
C H4 3 CB F t ra n sf er s ign a l
C H4 4 CB F t ra n sf er s ign a l
16 3 C H3 CB F-TR
16 4 C H4 CB F-TR
16 5 C H5 CB F-TR
C H3 CB F t ran sf e r sig na l
C H4 CB F t ran sf e r sig na l
C H5 CB F t ran sf e r sig na l
2 0 5 CH 45 CB F-TR
2 0 6 CH 46 CB F-TR
2 0 7 CH 47 CB F-TR
C H4 5 CB F t ra n sf er s ign a l
C H4 6 CB F t ra n sf er s ign a l
C H4 7 CB F t ra n sf er s ign a l
16 6 C H6 CB F-TR
16 7 C H7 CB F-TR
16 8 C H8 CB F-TR
C H6 CB F t ran sf e r sig na l
C H7 CB F t ran sf e r sig na l
C H8 CB F t ran sf e r sig na l
2 0 8 CH 48 CB F-TR
2 0 9 CH 49 CB F-TR
2 1 0 CH 50 CB F-TR
C H4 8 CB F t ra n sf er s ign a l
C H4 9 CB F t ra n sf er s ign a l
C H5 0 CB F t ra n sf er s ign a l
16 9 C H9 CB F-TR
17 0 C H10 CB F-TR
17 1 C H11 CB F-TR
C H9 CB F t ran sf e r sig na l
C H1 0 CB F t ra n sf er s ign a l
C H1 1 CB F t ra n sf er s ign a l
2 1 1 CH 51 CB F-TR
2 1 2 CH 52 CB F-TR
2 1 3 CH 53 CB F-TR
C H5 1 CB F t ra n sf er s ign a l
C H5 2 CB F t ra n sf er s ign a l
C H5 3 CB F t ra n sf er s ign a l
17 2 C H12 CB F-TR
17 3 C H13 CB F-TR
17 4 C H14 CB F-TR
C H1 2 CB F t ra n sf er s ign a l
C H1 3 CB F t ra n sf er s ign a l
C H1 4 CB F t ra n sf er s ign a l
2 1 4 CH 54 CB F-TR
2 1 5 CH 55 CB F-TR
2 1 6 CH 56 CB F-TR
C H5 4 CB F t ra n sf er s ign a l
C H5 5 CB F t ra n sf er s ign a l
C H5 6 CB F t ra n sf er s ign a l
17 5 C H15 CB F-TR
17 6 C H16 CB F-TR
C H1 5 CB F t ra n sf er s ign a l
C H1 6 CB F t ra n sf er s ign a l
2 1 7 CH 57 CB F-TR
2 1 8 CH 58 CB F-TR
C H5 7 CB F t ra n sf er s ign a l
C H5 8 CB F t ra n sf er s ign a l
17 7 C H17 CB F-TR
17 8 C H18 CB F-TR
17 9 C H19 CB F-TR
C H1 7 CB F t ra n sf er s ign a l
C H1 8 CB F t ra n sf er s ign a l
C H1 9 CB F t ra n sf er s ign a l
2 1 9 CH 59 CB F-TR
2 2 0 CH 60 CB F-TR
2 2 1 CH 61 CB F-TR
C H5 9 CB F t ra n sf er s ign a l
C H6 0 CB F t ra n sf er s ign a l
C H6 1 CB F t ra n sf er s ign a l
18 0 C H20 CB F-TR
18 1 C H21 CB F-TR
18 2 C H22 CB F-TR
C H2 0 CB F t ra n sf er s ign a l
C H2 1 CB F t ra n sf er s ign a l
C H2 2 CB F t ra n sf er s ign a l
2 2 2 CH 62 CB F-TR
2 2 3 CH 63 CB F-TR
2 2 4 CH 64 CB F-TR
C H6 2 CB F t ra n sf er s ign a l
C H6 3 CB F t ra n sf er s ign a l
C H6 4 CB F t ra n sf er s ign a l
⎯ 314 ⎯
6 F 2 S 0 8 8 2
Appendix G
Details of Relay Menu and
LCD & Operation Button Instruction
⎯ 315 ⎯
6 F 2 S 0 8 8 2
MENU
1=Record
2=Status
3=Setting(View) 4=Setting(change)
5=Test
/1 Record
1=Fault record
2=Event record
3=Disturbance record
/2 Fault record
1=Display
2=Clear
/3
#1
#2
#3
Fault record
2/*
16/Oct/1998 23:18:03.913
12/Feb/1998 03:51:37.622
30/Jan/1997 15:06:11.835
/2 Fault record
Clear all fault records?
ENTER=Yes CANCEL=No
/2 Event record
1=Display
2=Clear
/3 Event record
2/***
16/Oct/1998 23:18:04.294 BP block On
16/Oct/1998 23:18:03.913 BP block Off
12/Feb/1998 03:51:37.622 Rly.set change
/2 Event record
Clear all event records?
ENTER=Yes CANCEL=No
/2 Disturbance record
1=Display
2=Clear
/3
#1
#2
#3
Disturbance record
1/ **
16/Oct/1998 23:18:03.913
12/Feb/1998 03:51:37.622
30/Jan/1997 15:06:11.835
/2 Disturbance record
Clear all disturbance records?
ENTER=Yes CANCEL=No
a-1
⎯ 316 ⎯
/4 Fault record #1
16/Oct/1998 23:18:03.913
Phase BC
DIF
3/**
6 F 2 S 0 8 8 2
a-1
/1 Status
1=Metering
2=Binary I/O
3=Relay element
4=Time sync source
5=Clock adjustment
/2 Metering
Ida ***** %
Idb ***** %
Idc ***** %
12/Feb/1998 22:56 3/***
******** A Ira ******** A
******** A Irb ******** A
******** A Irc ******** A
/2 Binary input
Input (CU-IO#1)
Input (CU-IO#2)
Input (BU-CH1)
& output
3/ **
[000 000 000 000 ]
[000
]
[000 000 000 0
]
/2 Relay element
DIFCH
[000 000
DIFZA
[000 000
DIFZB
[000 000
3/ **
]
]
]
/2 Time synchronization source
*IRIG: Active
RSM: Inactive
IEC: Inactive
1/ 4
/2 12/Feb/1998 22:56:19 [local] 1/ 5
Minute ( 0 - 59) : 56 _
Hour
( 0 - 23) : 22
Day
( 1 - 31) : 12
/1 Setting(view)
1=Version 2=Description 3=Comm.
4=Record 5=Status
6=Protection
7=Binary input 8=Binary output 9=LED
/2 Relay version
Relay Type:
********************
Serial no.:
********************
Main software: *******************
/2 Description
2/ 2
Plant name:
********************
Description: ********************
/2 Communication
1=Address/Parameter
2=Switch
/3 Address/Parameter
1/ 1
HDLC (
1
) IEC (
2
)
SYADJ(
0 ms) IP-1 ( 10 )
IP-2 ( 245 ) IP-3 ( 105 )
/3 Switch
3/ 3
PRTCL1 1=HDLC 2=IEC103
2
232C
1=9.6 2=19.2 3=38.4 4=57.6 1
IECBR 1=9.6 2=19.2
2
a-1, b-1
⎯ 317 ⎯
6 F 2 S 0 8 8 2
a-1, b-1
/2 Record
1=Event record
2=Disturbance record
/4 Signal no.
BITRN (
128
/3 Event record
1=Signal no.
2=Event name
3=CH BI
1/**
3071
)
) EV1 (
/4 Event name
3/***
Event name1 [ Event record name1 ]
Event name2 [ Event record name2 ]
Event name3 [ Event record name3 ]
/4 CH BI
CH1 BI
CH2 BI
CH3 BI
/3 Disturbance record
1=Record time & starter
2=Scheme switch
3=Binary signal
4=Signal name
0=None
1=Operate
1=Operate
1=Operate
/4 Record time
Time ( 1.0 s
1OCS ( 10.0
2OCS ( 10.0
&
)
)
)
3=Both 3/***
2=Reset 3
2=Reset 3
2=Reset 3
starter
3/**
1OCG ( 10.0 )
2OCG ( 10.0 )
3OCG ( 10.0 )
/4 Scheme switch
TRIP
0=Off 1=On
OCG
0=Off 1=On
OCS
0=Off 1=On
/4 Binary signal
SIG1 ( 128 )
SIG3 (
0 )
SIG5 (
1 )
/4 Signal name
Signal name1 [
Signal name2 [
Signal name3 [
/2 Status
1=Metering
2=Time synchronization
3=Time zone
/3 Metering
1/ 1
Display value 1=Primary 2=Secondary 1
/3 Time synchronization
1/ 1
0=Off 1=IRIG 2=RSM 3=IEC 4=SNTP
Current No. = 2
/3 Time zone
GMT (
+9 hrs )
GMTm (
a-1, b-1
⎯ 318 ⎯
1/ 1
**min )
SIG2
SIG4
SIG6
3/ 3
0
0
0
3/ **
( 3071 )
(
1 )
(
2 )
3/ **
Signal name1
]
Signal name2
]
Signal name3
]
6 F 2 S 0 8 8 2
a-1, b-1
/2 Protection
(Active group= *)
1=Group1 2=Group2 3=Group3 4=Group4
5=Group5 6=Group6 7=Group7 8=Group8
/3 Protection
1=Busbar parameter
2=Trip
(Group 1)
/4 Busbar parameter
1=CH name
2=VT ratio
/5 CH name
CH1 name :
CH2 name :
CH3 name :
(Group 1)
3/**
********************
********************
********************
*2=VT is displayed for Model C400 series.
/5 VT ratio
VTA ( 2000
VTC ( 2000
1/ 2
) VTB ( 2000 )
) VTD ( 2000 )
* /5 VT ratio is displayed for Model C400 series.
/4 Trip
(Group 1)
1=Scheme switch
2=Protection element
/5 Scheme switch
3/**
C.TP 0=BLK 1=Trip
0
IDSV 0=Off 1=ALM&BLK 2=ALM 3=BBP 2
AISV 0=Off 1=ALM&BLK 2=ALM 3=BBP 1
/5 Protection element
(Group 1)
1=DIF
2=OC
3=FD
/6 DIF
3/**
DIFCH ( 3000 A ) DIFZ ( 3000 A )
SLPCH ( 0.30
) SLPZ ( 0.30
)
DIFSV ( 1000 A ) TIDSV (
20 s )
*3=FD is displayed for Model C400 series.
/3 Protection
1=Busbar parameter
2=Trip
/6 OC
3/**
1OCB ( 0.5
) T1B1 ( 50 ms )
T1B2 ( 150 ms ) 2OCB ( 0.5
)
T2B1 ( 50 ms ) T2B2 ( 150 ms )
(Group 2)
/6 FD
UVSF (
OVGF (
/3 Protection
1=Busbar parameter
2=Trip
/2 Binary input
BISW 1
1=Norm 2=Inv
BISW 2
1=Norm 2=Inv
BISW 3
1=Norm 2=Inv
2/2
80V
) UVGF ( 46V )
10.0V )
(Group 8)
*/6 FD is displayed for Model C400 series.
3/ **
1
1
1
/2 Binary output
1=CU-IO#1 2=CU-IO#2 3=BU-BO1 4=BU-BO2
/3 Binary output
(CU-IO#1) 3/3
BO1 ( 1, 309, 0, 0, 0, 0)AND,
BO2 ( 0, 0, 0, 0, 0, 0) OR,
BO3 ( 15, 16, 17, 0, 0, 0) OR,D
/3 Binary output
(BU-BO2) 3/**
CH1 ( 1, 100, 0, 0, 0, 0)AND,
CH2 ( 0, 0, 0, 0, 0, 0) OR,
CH3 ( 1, 2, 3, 4, 5, 6) OR,D
/2 LED
2/ 4
LED1 ( 1, 309, 0, 0) AND, I
LED2 ( 1,
0, 0, 0) OR, I
LED3 ( 15, 16, 17, 0) OR, L
a-1,
⎯ 319 ⎯
6 F 2 S 0 8 8 2
a-1
: Password trap
Password
Input password [_ ]
/1 Setting(change)
1=Password 2=Description 3=Comm.
4=Record 5=Status
6=Protection
7=Binary input 8=Binary output 9=LED
/2 Password
1=Setting
2=Test
/2 Description
1=Plant name 2=Description
: Confirmation trap
/3 Setting
Input new password
Retype new password
[_ ]
[ ]
/3 Test
Input new password
Retype new password
[_ ]
[ ]
/2 *************
Change settings?
ENTER=Yes CANCEL=No
/3 Plant name [ _
]
ABCDEFGHIJKLMNOPQRSTUVWXYZ()[]@_ ← →
abcdefghijklmnopqrstuvwxyz{}*/+-<=>← →
0123456789!”#$%&’:;,.^ `
← →
/3 Description [ _
]
ABCDEFGHIJKLMNOPQRSTUVWXYZ()[]@_ ← →
abcdefghijklmnopqrstuvwxyz{}*/+-<=>← →
0123456789!”#$%&’:;,.^ `
← →
/2 Communication
1=Address/Parameter
2=Switch
/3 Address/Parameter
HDLC (
132) :
IEC (
0254) :
SYADJ (-9999- 9999) :
1/ **
1 _
2
0
ms
/3 Switch
1/ *
PRTCL1 1=HDLC 2=IEC103
2 _
232C 1=9.6 2=19.2 3=38.4 4=57.6 1
IECBR 1=9.6 2=19.2
2
/2 Record
1=Event record
2=Disturbance record
/3 Event record
1=Signal no.
2=CH BI
/4 Signal no.
BITRN (
0EV1
(
0EV2
(
0-
/4 CH BI
CH1 BI
CH2 BI
CH3 BI
0=None
1=Operate
1=Operate
1=Operate
3=Both
2=Reset
2=Reset
2=Reset
/4 Scheme switch
TRIP
0=Off 1=On
OCG
0=Off 1=On
OCS
0=Off 1=On
/3 Metering
1/ 1
Display value 1=Primary 2=Secondary 1_
/3 Time synchronization
1/ 1
0=Off 1=IRIG 2=RSM 3=IEC 4=SNTP
Current No. = 0
/3 Time zone
GMT ( -12 - +12):
GMTm ( -59 - +59):
Select No. = _
+9 _
+0
a-1, b-2
⎯ 320 ⎯
1/**
3 _
3
3
/4 Record time & starter
1/***
Time ( 0.1- 2.0):
2.0 _ s
1OCG ( 0.1- 10.0): 10.0
1OCS ( 0.1- 10.0): 10.0
/3 Disturbance record
1=Record time & starter
2=Scheme switch
3=Binary signal
/2 Status
1=Metering
2=Time synchronization
3=Time zone
1/***
128 _
0
1
128):
7167):
7167):
1/ 2
hrs
min
/4 Binary signal
SIG1 (
07167):
SIG2 (
07167):
SIG3 (
07167):
1/*
1 _
1
1
1/**
1 _
2
3
6 F 2 S 0 8 8 2
a-1, b-2
/2 Protection
1=Change active group
2=Change setting
3=Copy group
/3Change active group(Active group= *)
1=Group1 2=Group2 3=Group3 4=Group4
5=Group5 6=Group6 7=Group7 8=Group8
Current No.= *
Select No.= _
/3 Change setting (Active group= *)
1=Group1 2=Group2 3=Group3 4=Group4
5=Group5 6=Group6 7=Group7 8=Group8
/4 Protection
1=Busbar parameter
2=Trip
(Group 1)
/5 Busbar parameter
1=CH name
2=VT ratio
(Group 1)
/6 CH name
Select CH
/7 CH** name [ _
]
ABCDEFGHIJKLMNOPQRSTUVWXYZ()[]@_ ← →
abcdefghijklmnopqrstuvwxyz{}*/+-<=>← →
0123456789 !”#$%&’:;,.^ `
← →
( 1- 64)
Select No.= _
*2=VT is displayed for Model C400 series.
/6 VT ratio
VTA (
1- 20000):
VTB (
1- 20000):
VTC (
1- 20000):
1/ 4
2000 _
2000
2000
*/6 VT ratio is displayed for Model C400 series.
/5 Trip
(Group 1)
1=Scheme switch
2=Protection element
/6 Scheme switch
1/***
C.TP 0=BLK 1=Trip
IDSV 0=Off 1=ALM&BLK 2=ALM 3=BBP
AISV 0=Off 1=ALM&BLK 2=ALM 3=BBP
/6 Protection element
1=DIF
2=OC
3=FD
0_
2
1
(Group= 1)
/7 DIF
1/**
DIFCH ( 500- 3000): 3000 _
DIFZ ( 500- 3000): 3000
SLCPH ( 0.30- 0.90): 0.30
A
A
*3=FD is displayed for Model C400 series.
/7 OC
1/**
1OCB ( 0.1- 2.0): 0.5 _
T1B1 (
0- 500):
50
ms
T1B2 (
0- 500): 150
ms
/4 Protection
1=Busbar parameter
2=Trip
(Group 2)
/4 Protection
1=Busbar parameter
2=Trip
(Group 8)
/7 FD
1/**
UVSF ( 60- 100):
80
V
UVGF ( 2060):
46
V
OVGF ( 0.1- 10.0): 10.0
V
*/7 FD is displayed for Model C400 series.
/3 Copy group A to B (Active group= *)
A ( 1- 8):
_
B ( 1- 8):
/2 Binary
BISW 1
BISW 2
BISW 3
input
1=Norm 2=Inv
1=Norm 2=Inv
1=Norm 2=Inv
1/ **
1 _
1
1
a-1, b-2
⎯ 321 ⎯
6 F 2 S 0 8 8 2
a-1, b-2
When 1 or 2 is selected:
/2 Binary output
1=CU-IO#1 2=CU-IO#2 3=BU-BO1 4=BU-BO2
/3 Binary output
(CU-IO#1)
Select BO
( 1- **)
Select No.= _
/4 Setting
(BO 1 of IO#1)
1=Logic gate type & delay timer
2=Input to logic gate
/5 Logic gate type & delay timer 1/ 2
Logic 1=OR 2=AND
1 _
BOTD
0=Off 1=On
1
/4 Setting
(BO ** of IO#2)
1=Logic gate type & delay timer
2=Input to logic gate
/5
In
In
In
Input to logic gate
#1 (
0 - 7167):
#2 (
0 - 7167):
#3 (
0 - 7167):
1/ 6
21 _
4
67
When 3 or 4 is selected:
/3 Binary output
(BU-BO*)
Select CH
( 1- 64)
Select No.= _
/2 LED
Selectb LED
(
1-
4)
/4 Setting
(BO 1 of CH**)
1=Logic gate type & delay timer
2=Input to logic gate
/5 Logic gate type & delay timer 1/ 2
Logic 1=OR 2=AND
1 _
BOTD 0=Off 1=On
1
/4 Setting
(BO ** of CH**)
1=Logic gate type & delay timer
2=Input to logic gate
/5
In
In
In
/3 Setting
(LED*)
1=Logic gate type & reset
2=Input to logic gate
Input to logic gate
#1 (
0 - 7167):
#2 (
0 - 7167):
#3 (
0 - 7167):
/4 Logic gate type & reset
Logic
1=OR
2=AND
1 _
Reset
0=Inst 1=Latch
1
1/ 6
21 _
4
67
1/2
Select No. = _
/4
In
In
In
a-1
⎯ 322 ⎯
Input to logic gate
#1 (
0- 7167):
#2 (
0- 7167):
#3 (
0- 7167):
1/4
21 _
4
67
6 F 2 S 0 8 8 2
a-1
/1 Test
1=Switch
3=Timer
5=BU out
2=Binary output
4=Logic circuit
/2 Switch
1/**
A.M.F. 0=Off 1=On
1 _
1DS1
0=Normal 1=Open 2=Close 0
1DS2
0=Normal 1=Open 2=Close 0
/2 Binary output
1=CU-IO#1 2=CU-IO#2 3=BU
/3 BO
(0=Disable 1=Enable) 1/3
IO#1 BO1
1 _
IO#1 BO2
1
IO#1 BO3
1
/3 BO
Keep pressing 1 to operate.
Press CANCEL to cancel.
/3 BO
(0=Disable 1=Enable) 1/14
IO#2 BO1
1 _
IO#2 BO2
1
IO#2 BO3
1
/3 BO
CH1 TP1
CH1 TP2
CH1 BO1
/2 Timer
Timer(
1 -
(0=Disable 1=Enable) 1/***
1 _
0
0
200):
1/ 1
1 _
/2 Timer
Press ENTER to operate.
1/ 1
Press CANCEL to cancel.
/2 Timer
Operating . . .
Press END to reset.
Press CANCEL to cancel.
/2 Logic circuit
TermA(
0 - 7167):
TermB(
0 - 7167):
/2 BU
BU1
BU2
BU3
out
0=Out 1=In
0=Out 1=In
0=Out 1=In
1/ 2
1 _
48
1/**
1 _
1
1
⎯ 323 ⎯
1/ 1
6 F 2 S 0 8 8 2
LCD AND BUTTON OPERATION INSTRUCTION
MANUAL
MODE
1. PRESS ARROW KEY TO MOVE TO EACH DISPLAYED
ITEMS
NORMAL
(DISPLAY OFF)
VIEW
PRESS ANY
BUTTON
EXCEPT FOR
"VIEW" AND
"RESET"
2. PRESS "END" KEY TO BACK TO PREVIOUS SCREEN
1=RECORD
MENU
( DISPLAY ON )
1=FAULT RECORD
2=EVENT RECORD
3=DISTURBANCE RECORD
METERING 1
( DISPLAY ON )
2=STATUS
VIEW
RESET
1=METERING
2=BINARY INPUT&OUTPUT
METERING 4
( DISPLAY ON )
VIEW
AUTOMODE 1
3=RELAY ELELMENT
TRIP OUTPUT
ISSUED !
5=CLOCK ADJUSTMENT
4=TIME SYNC SOURCE
RESET
TRIP
( LED ON )
3=SETTING
(VIEW)
1=RELAY VERSION
LATEST FAULT *
( DISPLAY ON )
2=DESCRIPTION
AUTOMODE 2
3=RSM COMMUNICATION
4=RECORD
RELAY
FAILED !
VIEW
5=STATUS
RESET
ALARM
( LED ON )
6=PROTECTION
7=BINARY INPUT
8=BINARY OUTPUT
AUTO SUPERVISON *
( DISPLAY ON )
9=LED
*. "LATEST FAULT" AND "AUTO
SUPERVISION" SCREEN IS
DISPLAYED ONLY IF DATA
IS STORED
VIEW
RESET
4=SETTING
(CHANGE)
Same as SETTING (VIEW) menu
5=TEST
1=SWITCH
2=BINARY OUTPUT
3=TIMER
4=LOGIC CIRCUIT
5=BU OUT
⎯ 324 ⎯
6 F 2 S 0 8 8 2
Appendix H
Case Outline and Rack Mounting
• Central unit
• Bay unit for centralized installation
• How to mount attachment kit for rack-mounting
⎯ 325 ⎯
6 F 2 S 0 8 8 2
266
2
A(*)
28
Front View
32
Side view
4-φ5.5
The number of OPT terminal depends
on the model.
TB2
276.2
TB1
E
190.5 260
TB3
CN1
6.2
D(*)
34.75
E(*)
B(*)
C(*)
(∗) 3/4 x 19” size (Models Cx10D, Cx20D, Cx3xD, Cx40D): A=364, B=326, C=330
1/1 x 19” size (Models Cx60D, Cx80D): A=483, B=445, C=449
(∗) 3/4 x 19” size: (Models Cx10D, Cx20D, Cx3xD, Cx40D) D=333, E=345.4
1/1 x 19” size: (Models Cx60D, Cx80D) D=452, E=464.4
Rear View
Panel Cutout
TB1 – TB2
A1 B1
TB1-TB2:
M3.5 Ring
terminal
TB3
1
2
17
18
TB3:
M3.5 Ring
terminal
A18 B18
Terminal Block
Case Outline : Central unit
⎯ 326 ⎯
6 F 2 S 0 8 8 2
BUSBAR PROTECTION
BAY UNIT
POWER
266
254
2
28
Front View
276.2
32
Side view
4-φ5.5
TB3
TB4
A1
A1
OPT1
B1
B1
E
190.5
TB2
A1
E
B1
TB1
1
A18
B18
B18 BUM5
BUM5
A10
A18
2
B10
BUM1
13
14
6.2
VCT
223
235.4
Rear view
TB3, 4
A1 B1
Panel cut-out
TB2
A1 B1
TB3:
M3.5 Ring
terminal
A10 B10
TB1
1
2
13
14
TB1:
M3.5 Ring
terminal
A18 B18
Terminal block
Case Outline: Bay unit
⎯ 327 ⎯
34.75
260
279
6 F 2 S 0 8 8 2
Attachment kit
(top bar)
Attachment kit EP-101
(large bracket)
Attachment kit
(small bracket)
Top View
4 HOLES - 6.8x10.3
3 7. 7
2 6 5. 9
POWER
465.1
483.0
Front View
Case Outline: Rack Mount for BU
⎯ 328 ⎯
279
6 F 2 S 0 8 8 2
Attachment kit
(top bar)
Attachment kit
(small bracket)
Attachment kit EP107
(large bracket)
Top View
BUSBAR
PROTECTION
BAY UNIT
190.5
265.9
POWER
465.1
483.0
Front View
Case Outline: Rack Mount for BU
⎯ 329 ⎯
279
6 F 2 S 0 8 8 2
Attachment kit
(top bar)
Attachment kit EP-102
(large bracket)
Attachment kit
(small bracket)
Top View
4 HOLES - 6.8x10.3
PROTECTION
2 6 5. 9
BUSBAR
GRB100
C420 D- 22- 10
1A
1 00/1 10/11 5/12 0V
3 7. 7
1 10/1 25v dc
465.1
483.0
Front View
Case Outline: Rack Mount for CU (3/4 x 19” size)
⎯ 330 ⎯
265.9
265.9
136
6 F 2 S 0 8 8 2
247.8
19.4
(b) Small Bracket
18
(a) Large Bracket
216
(c) Bar for Top and Bottom of Relay
Parts
(a)
1 Large bracket, 5 Round head screws with spring washers and washers (M4x8)
(b)
1 Small bracket, 3 Countersunk head screws (M4x6)
(c)
2 Bars, 4 Countersunk head screws (M3x8)
Dimensions of Attachment Kit EP-101
⎯ 331 ⎯
18.8
265.9
265.9
136
6 F 2 S 0 8 8 2
19.4
137.8
(a) Large Bracket
18.8
18
(b) Small Bracket
326
(c) Bar for Top and Bottom of Relay
Parts
(a)
1 Large bracket, 5 Round head screws with spring washers and washers (M4x8)
(b)
1 Small bracket, 3 Countersunk head screws (M4x6)
(c)
2 Bars, 4 Countersunk head screws (M3x8)
Dimensions of Attachment Kit EP-102
⎯ 332 ⎯
258
265.9
6 F 2 S 0 8 8 2
18.2
19.4
18.8
(b) Small Bracket
39
(a) Spacer
66
13
246
189.4
(c) Link Panel for the Rear
18
(d) Link Panel for the Bottom
445
(e) Bar for the Top and Bottom
Parts
(a)
1 Spacer, 3 Round head screws with spring washers and washers (M4x8)
(b)
2 Small bracket, 6 Countersunk head screws (M4x6)
(c)
1 Link panel for the rear, 8 Round head screws with spring washers and washers (M4x10)
(d)
1 Link panel for the bottom, 6 Round head screws with spring washers and washers (M4x10)
(e)
2 Bars, 8 Countersunk head screws (M3x8)
Dimensions of Attachment Kit EP-103 for Linking Two relays
⎯ 333 ⎯
265.9
265.9
248
6 F 2 S 0 8 8 2
247.8
18
(a) Large Bracket
216
53
(c) Bar for Top and Bottom of Relay
189.4
(d) Link panel for Bottom of Relay and Bracket
Parts
(a)
1 Large bracket, 3 Countersunk head screws (M4x6)
(b)
1 Small bracket, 3 Countersunk head screws (M4x6)
(c)
2 Bars, 4 Countersunk head screws (M3x8)
(d)
1 Link, 6 Round head screws with spring washers and washers (M4x10)
Dimensions of Attachment Kit EP-107
⎯ 334 ⎯
19.4
18.8
(b) Small Bracket
6 F 2 S 0 8 8 2
How to Mount Attachment Kit for Rack-Mounting
Caution: Be careful that the relay modules or terminal blocks, etc., are not damage while mounting.
Tighten screws to the specified torque according to the size of screw.
Step 1.
Remove case cover.
GPS ALARM
SYNC. ALARM
MODE 2A
CF
Right bracket
Left bracket
Step 2.
Seal
Screw
Remove the left and right brackets by
unscrewing the three screws respectively,
then remove two screws on left side of
the relay.
And then, remove four seals on the top
and bottom of the relay.
GPS ALARM
SYNC. ALARM
MODE 2A
CF
Seal
Step 3
Top bar
Mount the small bracket by screwing three
countersunk head screws(M4x6) and apply
adhesives to the screws to prevent them
from loosening.
Mount the large bracket by five round head
screws(M4x8) with washer and spring
washer.
And then, mount the top and bottom bars
by two countersunk head screws(M3x8)
respectively.
GPS ALARM
SYNC. ALARM
MODE 2A
CF
Small bracket
Large bracket
Bottom bar
Step 4
Completed.
Note: EP-102 and EP-103 are to attach the kit at
left side. EP-107 is to attach the kit at
right side. EP-101 and EP-107 are
attachment kits for BU, and EP-102 is for
CU.
GPS ALARM
SYNC. ALARM
MODE 2A
CF
⎯ 335 ⎯
6 F 2 S 0 8 8 2
How to link two relays (units) together for rack-mounting
Two relays (units) with 1/2 size (type A case size) can be housed in one rack to be linked together.
Step 1.
BUSBAR
PROTECTION
BAY UNIT
Remove case cover.
POWER
Right bracket
Left bracket
Step 2.
Seal
Remove the left and right brackets by
unscrewing the three screws respectively,
in both relays.
And then, remove four seals on the top
and bottom of the relay.
BUSBAR
PROTECTION
BAY UNIT
POWER
Step 3.
Mount the spacer on one relay by
screwing three round head screws
(M4x8) with spring washer and washer.
BUSBAR
PROTECTION
BAY UNIT
POWER
Seal
Spacer
Step 4
BUSBAR
PROTECTION
BAY UNIT
POWER
Place another relay next to the relay.
And then, mount the link panel on the rear
of relays by eight round head screws
(M4x10) with washer and spring washer,
and also mount the link panel on the
bottom of relays by six round head screws
(M4x10) with washer and spring washer
after removing six seals as follows.
BUSBAR
PROTECTION
BAY UNIT
POWER
⎯ 336 ⎯
6 F 2 S 0 8 8 2
Don’t remove the six seals.
Rear View
Bottom View
Link panel for bottom of the
relay
Link panel for rear of the relay
Mount the link panel by attached screws
after removing seals.
Step 5
Top bar
BUSBAR
PROTECTION
BAY UNIT
POWER
Mount the small bracket on the both sides
by screwing three countersunk head
screws(M4x6) respectively, and apply
adhesives to the screws to prevent them
from loosening.
And then, mount the top and bottom bars
by four countersunk head screws(M3x8)
respectively.
BUSBAR
PROTECTION
BAY UNIT
POWER
Small bracket
Small bracket
Bottom bar
Step 6
Completed.
BUSBAR
PROTECTION
BAY UNIT
POWER
BUSBAR
PROTECTION
BAY UNIT
POWER
⎯ 337 ⎯
6 F 2 S 0 8 8 2
⎯ 338 ⎯
6 F 2 S 0 8 8 2
Appendix I
Typical External Connections
⎯ 339 ⎯
6 F 2 S 0 8 8 2
External Connection for Bay Unit
BUSBAR
BS
ZONE-A
ZONE-C
ZONE-B
1DS-1
-2
ZONE-D
mDS-1
-2
m+1DS-1
VT-A
1CB
NDS-1
-2
VT-C
VT-B
mCB
To CU
nCT
m+1CT
mCT
VT-D
nCB
m+1CB
To CU
1CT
-2
Bay unit (BU)
TB1
TB1
TB1
TB1
TB1
TB1
-1
-2
-3
-4
-5
-6
OPT1
TP1-1
TB1 -14
(∗1)
(FRAME EARTH)
(+)
1DS1-1 aux. contact
(N/O)
(N/C)
TB3- A3
B3
A4
B4
(N/O)
1DS1-2 aux. contact
A5
B5
A6
B6
(N/C)
A14
B14
A15
B15
Command trip
(Gas Press Low)
External trip
signals
(CBF Initiation)
A-ph
TB2- A1
B-ph
A2
C-ph
B1
B2
TB3-A1
TP1-2
B1
TP1-3
A2
TB3-A1
TP1
B2
B2
BI1
TP2
BI5
TP2-1
BI2
TP2-2
BI6
TP2-3
TB3-A17
B18
TB3-A17
B17
TB3-A7
A18
BO3
B7
B18
BI3
TB3-A7
BI7
BO3
A16
B16
From/To OPT terminal
of CU through optical
cable
B7
BI4
BO4-1
BI11
BO4-2
BI12
BO4-3
BI13
TB3-A8
B9
TB3-A10
BO5-1
B10
A11
BO5-2
B11
B10
B11
TB3-A12
BO6-1
A9
BO4-3
TB3-A12
A11
BO5-2
B8
BO4-2
A9
TB3-A10
BO5-1
TB3-A8
B8
B9
(-)
BO4-1
BO6-1
B12
A13
BO6-2
B12
B13
A13
BO6-2
DC
SUPPLY
TB2- A9
(+)
B9
TB2-A5
BO1
+5Vdc
DC-DC
(-)
(∗)
B13
B10
A10
0V
TB2-A5
BO1
E CASE EARTH
BO2
(∗)This connection is connected by
short-link before shipment.
BO2
B5
TB2-A6
B6
B5
TB3
OPT1
TB2-A6
E
B6
TB2
A1
TB1
GRB100-B301:
Binary outputs
Other circuits are
same as Model B311.
B1
1
A10
BUM5
2
B10
13
BUM1
14
VCT
BU: Model GRB100-B301B, 311B
Terminal Block Arrangement (Rear view)
External connections for GRB100-B301B, B311B
⎯ 340 ⎯
6 F 2 S 0 8 8 2
BUS BAR
BS
Z ONE-A
Z ONE-C
ZONE-B
1DS-1
-2
ZONE- D
mDS-1
-2
m+1DS-1
VT-A
1CB
-2
N DS-1
VT-C
VT- B
mCB
To CU
nCT
m+1C T
mCT
V T-D
nCB
m+1CB
To CU
1CT
-2
Bay uni t (B U)
TB1
TB1
TB1
TB1
TB1
TB1
-1
-2
-3
-4
-5
-6
OPT1
TP1-1
TB1 -14
(∗1)
(FRAME EARTH)
(+)
1 DS1-1 au x. contac t
(N/O)
(N/C)
(N/O)
1 DS1-2 au x. contac t
(N/C)
TB3
TB3
TB3
TB3
-A3
-B3
-A4
-B4
TB3
TB3
TB3
TB3
-A5
-B5
-A6
-B6
TB3
TB3
TB3
TB3
-A14
-B14
-A15
-B15
TB3
BI1
LED1
BI5
LED2
BI2
LED3
BI6
LED4
TB3-B1
TP 1-3
TB3-A2
TP 2-1
BI3
LED 9
BI7
LED 10
Ex ternal t rip
signals
(C BF Initiati on)
A-ph
TB3 -A16
TB3 -B16
BI4
TB2 -A1
TB2
BI11
B-ph
TB2 -A2
C-ph
TB2 -B1
TB2 -B2
LED 11
TB3-B17
TB3-A18
LED14
LED15
BO4-3
LED16
(-)
TB3-B18
TB3-A7
BO4-2
BI13
TB3-A17
TP2-3
BO4-1
BI12
TB3-B2
TP2-2
B O3
Command t rip
(Gas Pres s Low)
TB3-A1
TP 1-2
LED13
Fr om/To OPT termina l
of CU th rough opti cal
ca ble
TB3-B7
TB3-A8
TB3-B8
TB3-A9
TB3-B9
TB3-A10
TB4
TB4
TB4
TB4
-A3
-B3
-A4
-B4
TB4
TB4
TB4
TB4
-A5
-B5
-A6
-B6
TB4
B O5-1
BI1
LED5
BI5
LED6
BI2
LED 7
BI6
LED 8
LED17
BO5-2
LED rese t
LED test
TB4
TB4
TB4
TB4
-A15
-B15
-A16
-B16
BI3
LED 12
LED1 8
B O6- 2
BI7
TB3-A11
TB3-B11
TB3-A12
BO6-1
TB4 -A14
TB4 -B14
TB3-B10
TB3-B12
TB3-A13
TB3-B13
BI4
A1
TB4
B1
TB3
OPT1
TB2-A5
B O1
DC
SUPP LY
(∗) This connection is connected by
short-link before shipment.
TB2 -A9
(+)
TB2 -B9 D C-DC
(-)
TB2 -B10
(∗) TB2-A10
+5Vdc
0V
E
TB2
TB2-B5
A1
TB1
TB2-A6
B O2
B1
1
2
TB2-B6
A 18
B 18
BUM 5
BUM5
A 10
B 10
13
BUM1
14
VCT
BU: Model GRB100-B411L
E (CASE EARTH)
Terminal Block Arrangement (Rear view)
Typical external connections for GRB100-B411L with LED indication (option)
⎯ 341 ⎯
LED Circuit of GRB100-B411L
6 F 2 S 0 8 8 2
⎯ 342 ⎯
6 F 2 S 0 8 8 2
Application Example: BI, BO, LED of GRB100-B411L
BUSBAR
(+)
(N/O)
1DS1-1 aux. contact
(N/C)
TB3
TB3
TB3
TB3
-A3
-B3
-A4
-B4
TB3
TB3
TB3
TB3
-A5
-B5
-A6
-B6
TB3
TB3
TB3
TB3
-A14
-B14
-A15
-B15
TB3
BI1
LED1
BI5
LED2
BI2
LED3
BI6
LED4
BI3
LED9
BI7
LED10
1DS1-2
1DS1-1
(N/O)
1DS1-2 aux. contact
(N/C)
1CB
1DS2
External trip
signals
(CBF Initiation)
A-ph
TB3 -A16
TB3 -B16
BI4
TB2 -A1
TB2
BI11
B-ph
TB2 -A2
C-ph
TB2 -B1
TB2 -B2
LED11
TP1-1
TB3-A1
TP1-2
TB3-B1
TP1-3
TB3-A2
LED13
TP2-1
TB3-B2
TB3-A17
TP2-2
TB3-B17
TP2-3
TB3-A18
LED14
BI13
TB3-B18
TB3-A7
LED15
1DS2 aux. contact
(N/C)
(N/O)
1CB aux. contact
(N/C)
TB4
TB4
TB4
TB4
-A3
-B3
-A4
-B4
TB4
TB4
TB4
TB4
-A5
-B5
-A6
-B6
TB4 -A14
TB4 -B14
LED reset
LED test
TB4
TB4
TB4
TB4
-A15
-B15
-A16
-B16
CB trip command
(to trip coil)
BI12
BO3
(N/O)
CB trip command
(to trip coil)
TB3-B7
TB4
BI1
LED5
BO4-1
BI5
LED6
BO4-2
TB3-B8
LED7
BO4-3
TB3-A9
BI2
BI6
LED8
BI3
LED12
LED16
TB3-A8
TB3-B9
TB3-A10
BO5-1
LED17
BI7
BO5-2
BI4
TB3-B10
BO6-1
LED18
BO6-2
BP(End zone prot.)
trip signal
(for alarm)
TB3-A11
TB3-B11
TB3-A12
(-)
BP(87) trip signal
(for alarm)
TB3-B12
BP trip signal
(to lockout relay)
TB3-A13
TB3-B13
TB2-A5
BO1
TB2-B5
TB2-A6
BO2
⎯ 343 ⎯
TB2-B6
BP trip signal
(for autoreclose block)
6 F 2 S 0 8 8 2
External Connection for Central Unit
Central unit (CU)
TB1- A3
IO#1(IO8)
B3
BO1
A1
BO2
A2
BO3
B2
IO#2(IO2)
TB2- A2
BO1
A1
BO2
B1
BO3
B2
TB2-A3
BO4
B3
A4
BO5
B4
A5
BO6
B5
(+)
Indication
reset
Bus
protection
block
CBF
protection
block
TB1- B4
A4
B5
A5
B6
A6
B7
A7
B8
A8
B9
A9
B10
A10
B11
A11
B12
A12
B13
A13
B14
A14
B15
A15
A6
BI1
BO7
B6
BI2
A7
BI3
BO8
BI4
B7
BI5
IO#1:IO8 module
IO#2:IO2A module
A8
BO9
BI6
B8
BI7
TB2
A9
BI8
BO10
A1
E
BI10
BO11
BI11
B10
A11
BI12
A18
B11
BO13
BI13
BI14
IO#2
B12
COM-A
B18
B17
+5Vdc
A16
0V
B16
(*1) specified when order
RJ45
E
RS485 I/F(*1)
A17
COM-B
0V
RELAY
FAILURE
TB2-A18
≧1
DC-DC
*
Terminal Block Arrangement (Rear view)
A12
FAIL
DD FAIL.
B18
IO#1
CU: Model GRB100-C3 D
B13
BI15
RELAY FAIL.
TB1 -A16
(+)
DC
B16
(∗)
SUPPLY
A17
(-)
B17
(∗)
A18
B18
(∗)
CN1
(IRIG-B)
B9
A13
A15
B15
OPT
A10
(-)
B14
OPT
B1
BI9
BO12
TB2- A14
TB1
CASE EARTH
ST
SC
(∗)This connection is connected
by short link before shipment.
Ethernet LAN I/F
(100Base-TX)(*1)
Opt. interface for
IEC103(*1)
Ethernet LAN I/F
(100Base-FX)(*1)
OPT
From/To OPT1 of BU1
through optical cable
OPT
From/To other BU throu
optical cable
OPT
IRIG-B
Typical External Connections for GRB100-C3∗0D
⎯ 344 ⎯
6 F 2 S 0 8 8 2
C e n t ral u n it ( C U )
IO#1 (IO8)
TB1- A3
B3
TB 3- 1
VT- A from Bus bar
2
BO 1
3
4
BO 2
5
A1
A2
BO 3
B2
6
For VT-B
7
8
9
IO#2( IO2)
10
Fo r VT-C
TB2- A2
BO 1
A1
BO 2
11
12
B1
BO 3
B2
13
14
For V T-D
T B2-A3
15
16
BO 4
B3
18
(∗)
A4
(F RA ME EA RT H)
BO 5
B4
A5
BO 6
(+)
Indication
reset
B us
protect ion
b lock
CBF
pr otection
blo ck
TB1- B4
A4
B5
A5
B6
A6
B7
A7
B8
A8
B9
A9
B10
A10
B11
A11
B12
A12
B13
A13
B14
A14
B15
A15
B5
A6
BI1
BO 7
BI2
B6
BI3
A7
BO 8
BI4
B7
BI5
A8
BI6
BO 9
IO#1:IO8 module
IO#2:IO2A module
B8
BI7
A9
BI8
TB2
A1
B O1 0
BI9
B O1 1
B I11
E
TB3
B I12
1
A18
B1 1
BI13
BO 13
IO#2
C OM -A
RELAY FA IL.
DD FAIL.
A16
0V
B16
(*1) specified when orde r.
RJ45
E
RS485 I/ F(*1)
B1 7
+5 Vdc
0V
RE LAY
FA ILURE
B18
A17
C OM -B
DC-DC
*
TB2-A18
≧1
C ASE EARTH
ST
SC
Ether net LAN I/ F
(100B ase-TX)(*1 )
Opt. interface for
IEC103(* 1)
Ethernet LAN I/F
(100Base -FX)(*1)
( ∗)T h is co n ne ctio n is co nn e cted
by sho r t lin k b ef or e sh ip m en t.
O PT
From/To OPT1 of BU1 thr ough
optical c able
O PT
From/To other BU through
optical cable
O PT
IRI G-B
Typical External Connections for GRB100-C4∗0D
⎯ 345 ⎯
18
VCT
Terminal Block Arrangement (Rear view)
A12
F A IL
BI15
17
B18
IO#1
CU: Model GRB100-C4 D
B1 3
BI14
B12
TB1 - A16
( +)
DC
B1 6
(∗)
SUPPLY
A17
(-)
B17
(∗)
A18
B18
(∗)
2
A1 1
A1 3
A15
B15
CN1
(IRIG-B)
OPT
B1 0
B O1 2
B14
OPT
B1
A1 0
B I10
(-)
TB2- A14
TB1
B9
6 F 2 S 0 8 8 2
⎯ 346 ⎯
6 F 2 S 0 8 8 2
Appendix J
Relay Setting Sheet
1. Relay Identification
2. Contacts Setting
3. Relay and Protection Scheme Setting Sheet
⎯ 347 ⎯
6 F 2 S 0 8 8 2
Relay Setting Sheets
1. Relay Identification
Date:
Relay type
Serial Number
Frequency
CT rating
VT rating
dc supply voltage
Password
Active setting group
2. Contacts Setting
(1) CU-IO#1
BO1
BO2
BO3
(2) CU-IO#2
BO1
BO2
BO3
BO4
BO5
BO6
BO7
BO8
BO9
BO10
BO11
BO12
BO13
(3) BU-CHn
BO1
BO2
BO3
BO4
BO5
BO6
⎯ 348 ⎯
6 F 2 S 0 8 8 2
3.
Relay and Protection Scheme Setting Sheet
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Contents
Units
1A rating
without voltage fail-safe
320 330 340 360
310
380
with voltage fail-safe
420 430 440 460
410
1
21000
Active group
1-8
－
Active setting group
1
2
3
5000
5001
CH1 name
CH2 name
Specified by user
Specified by user
CH name
--
ditto
4
5
5002
5003
CH3 name
CH4 name
Specified by user
Specified by user
－
－
－
---
5004
5005
CH5 name
CH6 name
Specified by user
Specified by user
－
－
ditto
6
7
5006
5007
5008
CH7 name
CH8 name
CH9 name
Specified by user
Specified by user
Specified by user
－
－
ditto
8
9
10
ditto
11
12
5009
5010
CH10 name
CH11 name
Specified by user
Specified by user
－
－
－
ditto
13
14
5011
5012
CH12 name
CH13 name
Specified by user
Specified by user
－
－
ditto
15
16
17
5013
5014
5015
CH14 name
CH15 name
CH16 name
Specified by user
Specified by user
Specified by user
－
－
ditto
18
19
5016
5017
CH17 name
CH18 name
Specified by user
Specified by user
－
－
－
ditto
20
21
5018
5019
CH19 name
CH20 name
Specified by user
Specified by user
－
－
ditto
22
23
24
5020
5021
5022
CH21 name
CH22 name
CH23 name
Specified by user
Specified by user
Specified by user
－
－
－
－
ditto
25
26
5023
5024
CH24 name
CH25 name
Specified by user
Specified by user
27
28
5025
5026
CH26 name
CH27 name
Specified by user
Specified by user
－
－
－
ditto
29
30
31
5027
5028
5029
CH28 name
CH29 name
CH30 name
Specified by user
Specified by user
Specified by user
－
－
－
－
ditto
32
33
5030
5031
CH31 name
CH32 name
Specified by user
Specified by user
ditto
34
35
5032
5033
CH33 name
CH34 name
Specified by user
Specified by user
－
－
－
ditto
36
37
5034
5035
CH35 name
CH36 name
Specified by user
Specified by user
－
－
ditto
38
39
40
5036
5037
5038
CH37 name
CH38 name
CH39 name
Specified by user
Specified by user
Specified by user
－
－
ditto
41
42
5039
5040
CH40 name
CH41 name
Specified by user
Specified by user
－
－
－
ditto
43
44
5041
5042
CH42 name
CH43 name
Specified by user
Specified by user
－
－
ditto
45
46
47
5043
5044
5045
CH44 name
CH45 name
CH46 name
Specified by user
Specified by user
Specified by user
－
－
ditto
48
49
5046
5047
CH47 name
CH48 name
Specified by user
Specified by user
－
－
－
ditto
50
51
5048
5049
CH49 name
CH50 name
Specified by user
Specified by user
－
－
ditto
--
--
ditto
52
53
54
5050
5051
5052
CH51 name
CH52 name
CH53 name
Specified by user
Specified by user
Specified by user
－
－
ditto
----
55
56
5053
5054
CH54 name
CH55 name
Specified by user
Specified by user
－
－
－
------
---
5055
5056
CH56 name
CH57 name
Specified by user
Specified by user
－
－
ditto
57
58
---
---
5057
5058
5059
CH58 name
CH59 name
CH60 name
Specified by user
Specified by user
Specified by user
－
－
ditto
59
60
61
ditto
----
62
63
5060
5061
CH61 name
CH62 name
Specified by user
Specified by user
－
－
－
------
---
5062
5063
CH63 name
CH64 name
Specified by user
Specified by user
－
－
ditto
64
65
ditto
----
66
67
68
6000
6001
6002
VTA
VTB
VTC
1 -　20000
1 -　20000
1 -　20000
－
－
----
VT primary value of zone A
--
－
－
VT primary value of zone B
VT primary value of zone C
---
2000
2000
2000
69
6003
VTD
1 -　20000
－
VT primary value of zone D
--
2000
ditto
---
ditto
----
ditto
ditto
--
--
ditto
---
---
---
---
----
----
ditto
ditto
ditto
---
---
---
---
ditto
----
----
ditto
--
ditto
ditto
ditto
--
ditto
--
--
ditto
---
---
----
----
---
---
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
⎯ 349 ⎯
---
---
---
---
----
----
---
---
---
---
----
----
---
---
480
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.)
Setting Device
Name
5A rating
(Offset No.)
Default Setting of Relay Series(5A rating / 1A rating)
Range
Units
Contents
1A rating
without voltage fail-safe
310
69
1001
C.TP
BLK - Trip
－
70
1002
IDSV
Off - ALM&BLK - ALM - BBP
－
320
330
340
360
Under brige condition, coupler CB
410
420
430
440
460
BLK
triped or not
ALM
Id monitoring control
AC input imbalance monitoring
71
1003
AISV
Off - ALM&BLK - ALM - BBP
－
72
1102
AIFDSV
Off - ALM&BLK - ALM - BBP
－
73
1004
DSSV
Off - ALM&BLK - ALM - BBP
－
DS monitoring control
ALM
ALM&BLK
control
AC input imbalance of FD monitoring
--
control
ALM
74
1005
CBSV
Off - ALM&BLK - ALM - BBP
－
CB monitoring control
ALM
75
1108
BFLOGIC
BF1 - BF2
－
CBF logic option
BF1
76
1006
1BF1
Off - T - TOC
－
CBF re-trip
Off
77
1007
1BF2
Off - On
－
CBF related trip
Off
78
1008
1BFEXT
Off - On
－
CBF initiation by ext. trip
Off
79
1009
2BF1
Off - T - TOC
－
CBF re-trip
Off
80
1010
2BF2
Off - On
－
CBF related trip
Off
81
1011
2BFEXT
Off - On
－
CBF initiation by ext. trip
Off
82
1012
3BF1
Off - T - TOC
－
CBF re-trip
Off
83
1013
3BF2
Off - On
－
CBF related trip
Off
84
1014
3BFEXT
Off - On
－
CBF initiation by ext. trip
Off
85
1015
4BF1
Off - T - TOC
－
CBF re-trip
Off
86
1016
4BF2
Off - On
－
CBF related trip
Off
87
1017
4BFEXT
Off - On
－
CBF initiation by ext. trip
Off
88
1018
5BF1
Off - T - TOC
－
CBF re-trip
Off
89
1019
5BF2
Off - On
－
CBF related trip
Off
90
1020
5BFEXT
Off - On
－
CBF initiation by ext. trip
Off
91
1021
6BF1
Off - T - TOC
－
CBF re-trip
Off
92
1022
6BF2
Off - On
－
CBF related trip
Off
93
1023
6BFEXT
Off - On
－
CBF initiation by ext. trip
Off
94
1024
7BF1
Off - T - TOC
－
CBF re-trip
Off
95
1025
7BF2
Off - On
－
CBF related trip
Off
96
1026
7BFEXT
Off - On
－
CBF initiation by ext. trip
Off
97
1027
8BF1
Off - T - TOC
－
CBF re-trip
Off
98
1028
8BF2
Off - On
－
CBF related trip
Off
99
1029
8BFEXT
Off - On
－
CBF initiation by ext. trip
100
1030
9BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
101
1031
9BF2
Off - On
－
CBF related trip
--
Off
--
Off
102
1032
9BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
103
1033
10BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
104
1034
10BF2
Off - On
－
CBF related trip
--
Off
--
Off
105
1035
10BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
106
1036
11BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
107
1037
11BF2
Off - On
－
CBF related trip
--
Off
--
Off
108
1038
11BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
109
1039
12BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
110
1040
12BF2
Off - On
－
CBF related trip
--
Off
--
Off
111
1041
12BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
112
1042
13BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
113
1043
13BF2
Off - On
－
CBF related trip
--
Off
--
Off
114
1044
13BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
115
1045
14BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
116
1046
14BF2
Off - On
－
CBF related trip
--
Off
--
Off
117
1047
14BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
118
1048
15BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
119
1049
15BF2
Off - On
－
CBF related trip
--
Off
--
Off
120
1050
15BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
121
1051
16BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
122
1052
16BF2
Off - On
－
CBF related trip
--
Off
--
Off
123
1053
16BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
124
1054
17BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
125
1055
17BF2
Off - On
－
CBF related trip
--
Off
--
Off
126
1056
17BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
127
1057
18BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
128
1058
18BF2
Off - On
－
CBF related trip
--
Off
--
Off
129
1059
18BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
130
1060
19BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
131
1061
19BF2
Off - On
－
CBF related trip
--
Off
--
Off
132
1062
19BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
133
1063
20BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
134
1064
20BF2
Off - On
－
CBF related trip
--
Off
--
Off
135
1065
20BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
136
1066
21BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
137
1067
21BF2
Off - On
－
CBF related trip
--
Off
--
Off
⎯ 350 ⎯
User
setting
with voltage fail-safe
380
Off
Off
480
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.)
Setting Device
Name
5A rating
(Offset No.)
Default Setting of Relay Series(5A rating / 1A rating)
Range
Units
Contents
1A rating
without voltage fail-safe
310
320
330
340
User
setting
with voltage fail-safe
360
380
410
420
430
440
460
480
138
1067
21BF2
Off - On
－
CBF related trip
--
Off
--
Off
139
1068
21BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
140
1069
22BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
141
1070
22BF2
Off - On
－
CBF related trip
--
Off
--
Off
142
1071
22BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
143
1072
23BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
144
1073
23BF2
Off - On
－
CBF related trip
--
Off
--
Off
145
1074
23BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
146
1075
24BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
147
1076
24BF2
Off - On
－
CBF related trip
--
Off
--
Off
148
1077
24BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
149
1078
25BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
150
1079
25BF2
Off - On
－
CBF related trip
--
Off
--
Off
151
1080
25BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
152
1081
26BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
153
1082
26BF2
Off - On
－
CBF related trip
--
Off
--
Off
154
1083
26BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
155
1084
27BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
156
1085
27BF2
Off - On
－
CBF related trip
--
Off
--
Off
157
1086
27BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
158
1087
28BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
159
1088
28BF2
Off - On
－
CBF related trip
--
Off
--
Off
160
1089
28BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
161
1090
29BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
162
1091
29BF2
Off - On
－
CBF related trip
--
Off
--
Off
163
1092
29BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
164
1093
30BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
165
1094
30BF2
Off - On
－
CBF related trip
--
Off
--
Off
166
1095
30BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
167
1096
31BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
168
1097
31BF2
Off - On
－
CBF related trip
--
Off
--
Off
169
1098
31BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
170
1099
32BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
171
1100
32BF2
Off - On
－
CBF related trip
--
Off
--
Off
172
1101
32BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
173
1109
33BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
174
1110
33BF2
Off - On
－
CBF related trip
--
Off
--
Off
175
1111
33BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
176
1112
34BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
177
1113
34BF2
Off - On
－
CBF related trip
--
Off
--
Off
178
1114
34BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
179
1115
35BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
180
1116
35BF2
Off - On
－
CBF related trip
--
Off
--
Off
181
1117
35BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
182
1118
36BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
183
1119
36BF2
Off - On
－
CBF related trip
--
Off
--
Off
184
1120
36BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
185
1121
37BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
186
1122
37BF2
Off - On
－
CBF related trip
--
Off
--
Off
187
1123
37BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
188
1124
38BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
189
1125
38BF2
Off - On
－
CBF related trip
--
Off
--
Off
190
1126
38BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
191
1127
39BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
192
1128
39BF2
Off - On
－
CBF related trip
--
Off
--
Off
193
1129
39BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
194
1130
40BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
195
1131
40BF2
Off - On
－
CBF related trip
--
Off
--
Off
196
1132
40BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
197
1133
41BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
198
1134
41BF2
Off - On
－
CBF related trip
--
Off
--
Off
199
1135
41BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
200
1136
42BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
201
1137
42BF2
Off - On
－
CBF related trip
--
Off
--
Off
202
1138
42BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
203
1139
43BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
204
1140
43BF2
Off - On
－
CBF related trip
--
Off
--
Off
205
1141
43BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
206
1142
44BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
207
1143
44BF2
Off - On
－
CBF related trip
--
Off
--
Off
208
1144
44BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
209
1145
45BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
210
1146
45BF2
Off - On
－
CBF related trip
--
Off
--
Off
⎯ 351 ⎯
Off
Off
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.)
Setting Device
Name
5A rating
(Offset No.)
Default Setting of Relay Series(5A rating / 1A rating)
Range
Units
Contents
1A rating
without voltage fail-safe
310
320
330
340
User
setting
with voltage fail-safe
360
380
410
420
430
440
460
480
211
1147
45BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
212
1148
46BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
213
1149
46BF2
Off - On
－
CBF related trip
--
Off
--
Off
214
1150
46BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
215
1151
47BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
216
1152
47BF2
Off - On
－
CBF related trip
--
Off
--
Off
217
1153
47BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
218
1154
48BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
219
1155
48BF2
Off - On
－
CBF related trip
--
Off
--
Off
220
1156
48BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
221
1157
49BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
222
1158
49BF2
Off - On
－
CBF related trip
--
Off
--
Off
223
1159
49BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
224
1160
50BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
225
1161
50BF2
Off - On
－
CBF related trip
--
Off
--
Off
226
1162
50BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
227
1163
51BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
228
1164
51BF2
Off - On
－
CBF related trip
--
Off
--
Off
229
1165
51BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
230
1166
52BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
231
1167
52BF2
Off - On
－
CBF related trip
--
Off
--
Off
232
1168
52BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
233
1169
53BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
234
1170
53BF2
Off - On
－
CBF related trip
--
Off
--
Off
235
1171
53BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
236
1172
54BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
237
1173
54BF2
Off - On
－
CBF related trip
--
Off
--
Off
238
1174
54BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
239
1175
55BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
240
1176
55BF2
Off - On
－
CBF related trip
--
Off
--
Off
241
1177
55BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
242
1178
56BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
243
1179
56BF2
Off - On
－
CBF related trip
--
Off
--
Off
244
1180
56BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
245
1181
57BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
246
1182
57BF2
Off - On
－
CBF related trip
--
Off
--
Off
247
1183
57BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
248
1184
58BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
249
1185
58BF2
Off - On
－
CBF related trip
--
Off
--
Off
250
1186
58BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
251
1187
59BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
252
1188
59BF2
Off - On
－
CBF related trip
--
Off
--
Off
253
1189
59BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
254
1190
60BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
255
1191
60BF2
Off - On
－
CBF related trip
--
Off
--
Off
256
1192
60BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
257
1193
61BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
258
1194
61BF2
Off - On
－
CBF related trip
--
Off
--
Off
259
1195
61BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
260
1196
62BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
261
1197
62BF2
Off - On
－
CBF related trip
--
Off
--
Off
262
1198
62BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
263
1199
63BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
264
1200
63BF2
Off - On
－
CBF related trip
--
Off
--
Off
265
1201
63BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
266
1202
64BF1
Off - T - TOC
－
CBF re-trip
--
Off
--
Off
267
1203
64BF2
Off - On
－
CBF related trip
--
Off
--
Off
268
1204
64BFEXT
Off - On
－
CBF initiation by ext. trip
--
Off
--
Off
269
1103
BFTRIO
Off - On
－
CBF transfer operating time control
Off
270
1104
COMTP
Off - On
－
Command trip enable
Off
271
1105
EFPTR
Off - On
－
End fault transfer trip enable
272
1106
CTFEN
Off - On - OPT-On
-
CT F detect.function use or not
--
273
1107
CTFCNT
NA - BLK
-
Control by CTF detectinon
--
274
3000
DIFCH
500 - 3000
A
Minimum operating current of DIFCH
2000
275
3001
DIFZ
500 - 3000
A
Minimum operating current of DIFDZ
2000
276
3035
SLPCH
0.30 - 0.90
-
Slope of DIFCH relay characteristic
0.30
277
3036
SLPZ
0.30 - 0.90
-
Slope of DIFDZ relay characteristic
0.30
278
3002
DIFSV
20 - 3000
A
Minimum operating current of DIFSV
200
279
12064
TIDSV
0 - 60
s
Id err detected timer
10
280
12065
TBRDG
0 - 60
s
bridge timer
60
281
12068
TDSSV
0 - 60
s
DS failure detected timer
60
282
12069
TCBSV
0 - 60
s
CB failure detected timer
283
6004
1CT
100 - 10000
A
CT primary value
⎯ 352 ⎯
Off
Off
Off
NA
10
2000
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.)
Setting Device
Name
5A rating
(Offset No.)
Default Setting of Relay Series(5A rating / 1A rating)
Range
Units
Contents
1A rating
without voltage fail-safe
310
320
330
340
User
setting
with voltage fail-safe
360
380
410
420
430
440
460
480
284
6005
2CT
100 - 10000
A
ditto
2000
285
6006
3CT
100 - 10000
A
ditto
2000
286
6007
4CT
100 - 10000
A
ditto
2000
287
6008
5CT
100 - 10000
A
ditto
2000
288
6009
6CT
100 - 10000
A
ditto
2000
289
6010
7CT
100 - 10000
A
ditto
2000
290
6011
8CT
100 - 10000
A
ditto
291
6012
9CT
100 - 10000
A
ditto
--
2000
--
2000
292
6013
10CT
100 - 10000
A
ditto
--
2000
--
2000
293
6014
11CT
100 - 10000
A
ditto
--
2000
--
2000
294
6015
12CT
100 - 10000
A
ditto
--
2000
--
2000
295
6016
13CT
100 - 10000
A
ditto
--
2000
--
2000
296
6017
14CT
100 - 10000
A
ditto
--
2000
--
2000
297
6018
15CT
100 - 10000
A
ditto
--
2000
--
2000
298
6019
16CT
100 - 10000
A
ditto
--
2000
--
299
6020
17CT
100 - 10000
A
ditto
--
2000
--
2000
300
6021
18CT
100 - 10000
A
ditto
--
2000
--
2000
301
6022
19CT
100 - 10000
A
ditto
--
2000
--
2000
302
6023
20CT
100 - 10000
A
ditto
--
2000
--
2000
303
6024
21CT
100 - 10000
A
ditto
--
2000
--
2000
304
6025
22CT
100 - 10000
A
ditto
--
2000
--
2000
305
6026
23CT
100 - 10000
A
ditto
--
2000
--
2000
306
6027
24CT
100 - 10000
A
ditto
--
2000
--
307
6028
25CT
100 - 10000
A
ditto
--
2000
--
2000
308
6029
26CT
100 - 10000
A
ditto
--
2000
--
2000
309
6030
27CT
100 - 10000
A
ditto
--
2000
--
2000
310
6031
28CT
100 - 10000
A
ditto
--
2000
--
2000
311
6032
29CT
100 - 10000
A
ditto
--
2000
--
2000
312
6033
30CT
100 - 10000
A
ditto
--
2000
--
2000
313
6034
31CT
100 - 10000
A
ditto
--
2000
--
2000
314
6035
32CT
100 - 10000
A
ditto
--
2000
--
315
6036
33CT
100 - 10000
A
ditto
--
2000
--
2000
316
6037
34CT
100 - 10000
A
ditto
--
2000
--
2000
317
6038
35CT
100 - 10000
A
ditto
--
2000
--
2000
318
6039
36CT
100 - 10000
A
ditto
--
2000
--
2000
319
6040
37CT
100 - 10000
A
ditto
--
2000
--
2000
320
6041
38CT
100 - 10000
A
ditto
--
2000
--
2000
321
6042
39CT
100 - 10000
A
ditto
--
2000
--
2000
322
6043
40CT
100 - 10000
A
ditto
--
2000
--
2000
323
6044
41CT
100 - 10000
A
ditto
--
2000
--
2000
324
6045
42CT
100 - 10000
A
ditto
--
2000
--
2000
325
6046
43CT
100 - 10000
A
ditto
--
2000
--
2000
326
6047
44CT
100 - 10000
A
ditto
--
2000
--
2000
327
6048
45CT
100 - 10000
A
ditto
--
2000
--
2000
328
6049
46CT
100 - 10000
A
ditto
--
2000
--
2000
329
6050
47CT
100 - 10000
A
ditto
--
2000
--
2000
330
6051
48CT
100 - 10000
A
ditto
--
2000
--
331
6052
49CT
100 - 10000
A
ditto
--
2000
--
2000
332
6053
50CT
100 - 10000
A
ditto
--
2000
--
2000
333
6054
51CT
100 - 10000
A
ditto
--
2000
--
2000
334
6055
52CT
100 - 10000
A
ditto
--
2000
--
2000
335
6056
53CT
100 - 10000
A
ditto
--
2000
--
2000
336
6057
54CT
100 - 10000
A
ditto
--
2000
--
2000
337
6058
55CT
100 - 10000
A
ditto
--
2000
--
2000
338
6059
56CT
100 - 10000
A
ditto
--
2000
--
2000
339
6060
57CT
100 - 10000
A
ditto
--
2000
--
2000
340
6061
58CT
100 - 10000
A
ditto
--
2000
--
2000
341
6062
59CT
100 - 10000
A
ditto
--
2000
--
2000
342
6063
60CT
100 - 10000
A
ditto
--
2000
--
2000
343
6064
61CT
100 - 10000
A
ditto
--
2000
--
2000
344
6065
62CT
100 - 10000
A
ditto
--
2000
--
2000
345
6066
63CT
100 - 10000
A
ditto
--
2000
--
2000
346
6067
64CT
100 - 10000
A
ditto
--
2000
--
347
3050
CFID
50 - 3000
A
Id level of CT F scheme
--
200
348
3051
CFUV
20 - 60
V
UV level of CTF scheme
--
20
349
3052
CFDV
1 - 10
%
--
7
350
3053
CFOVG
0.1 - 10.0
V
UVD level of CT F scheme
Zero pahse overvoltage of CT F
--
351
3003
1OCB
0.1 - 2.0
－
scheme
Minimum operating　current
1.0
0.8
352
12000
T1B1
0 - 500
ms
CBF timer for re-trip
150
353
12001
T1B2
0 - 500
ms
CBF timer for related trip
200
354
3004
2OCB
0.1 - 2.0
－
Minimum operating　current
0.8
355
12002
T2B1
0 - 500
ms
CBF timer for re-trip
150
356
12003
T2B2
0 - 500
ms
CBF timer for related trip
200
2000
⎯ 353 ⎯
2000
2000
2000
2000
2000
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
3OCB
T3B1
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
1A rating
357
358
3005
12004
359
12005
360
3006
361
362
12006
12007
T4B1
T4B2
0 - 500
0 - 500
without voltage fail-safe
310
320
330
340
360
with voltage fail-safe
380
410
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
0.8
150
T3B2
0 - 500
ms CBF timer for related trip
200
4OCB
0.1 - 2.0
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
150
200
－ Minimum operating　current
ms CBF timer for re-trip
150
420
430
440
0.8
363
3007
5OCB
0.1 - 2.0
364
12008
T5B1
0 - 500
365
366
12009
3008
T5B2
6OCB
0 - 500
0.1 - 2.0
367
12010
T6B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
368
12011
T6B2
0 - 500
ms CBF timer for related trip
200
369
370
3009
12012
7OCB
T7B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
0.8
150
371
12013
T7B2
0 - 500
ms CBF timer for related trip
200
372
373
3010
12014
8OCB
T8B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
0.8
150
374
12015
T8B2
0 - 500
ms CBF timer for related trip
375
3011
9OCB
0.1 - 2.0
--
0.8
--
0.8
376
377
12016
12017
T9B1
T9B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
150
200
---
150
200
378
3012
10OCB
0.1 - 2.0
0.8
--
0.8
12018
T10B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
379
--
150
--
150
380
381
12019
3013
T10B2
11OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
---
200
0.8
---
200
0.8
382
12020
T11B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
150
--
150
383
12021
T11B2
0 - 500
ms CBF timer for related trip
--
200
--
200
384
385
3014
12022
12OCB
T12B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
---
0.8
150
---
0.8
150
386
12023
T12B2
0 - 500
ms CBF timer for related trip
--
200
--
200
387
3015
13OCB
0.1 - 2.0
--
0.8
--
0.8
388
389
12024
12025
T13B1
T13B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
150
200
---
150
200
390
3016
14OCB
0.1 - 2.0
0.8
--
0.8
12026
12027
T14B1
T14B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
--
391
392
---
150
200
---
150
200
393
3017
15OCB
0.1 - 2.0
0.8
--
0.8
12028
T15B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
394
--
150
--
150
395
396
12029
3018
T15B2
16OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
---
200
0.8
---
200
0.8
397
12030
T16B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
150
--
150
398
12031
T16B2
0 - 500
ms CBF timer for related trip
--
200
--
399
400
3019
12032
17OCB
T17B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
401
12033
T17B2
0 - 500
ms CBF timer for related trip
402
3020
18OCB
0.1 - 2.0
403
404
12034
12035
T18B1
T18B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
405
3021
19OCB
0.1 - 2.0
406
12036
T19B1
0 - 500
407
408
12037
3022
T19B2
20OCB
0 - 500
0.1 - 2.0
409
12038
T20B1
0 - 500
410
411
12039
3023
T20B2
21OCB
0 - 500
0.1 - 2.0
460
0.8
ms CBF timer for related trip
200
0.8
150
200
200
0.8
150
--
---
200
---
200
--
150
200
--
150
200
--
0.8
---
0.8
150
--
0.8
0.8
---
--
150
--
150
ms CBF timer for related trip
----
200
0.8
--
－ Minimum operating　current
ms CBF timer for re-trip
200
0.8
ms CBF timer for related trip
---
－ Minimum operating　current
ms CBF timer for re-trip
150
0.8
---
150
200
0.8
--
---
150
---
150
0.8
150
--
0.8
150
---
200
200
0.8
--
412
12040
T21B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
413
12041
T21B2
0 - 500
ms CBF timer for related trip
414
415
3024
12042
22OCB
T22B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
416
12043
T22B2
0 - 500
ms CBF timer for related trip
3025
23OCB
0.1 - 2.0
418
419
12044
12045
T23B1
T23B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
200
417
--
150
200
---
150
200
420
3026
24OCB
0.1 - 2.0
0.8
421
12046
T24B1
0 - 500
---
150
422
423
12047
3027
T24B2
25OCB
0 - 500
0.1 - 2.0
200
--
0.8
--
－ Minimum operating　current
ms CBF timer for re-trip
---
ms CBF timer for related trip
--
150
---
200
0.8
200
--
0.8
0.8
--
200
0.8
424
12048
T25B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
150
---
425
12049
T25B2
0 - 500
ms CBF timer for related trip
--
200
--
200
426
427
3028
12050
26OCB
T26B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
--
0.8
150
428
12051
T26B2
0 - 500
ms CBF timer for related trip
---
0.8
150
429
3029
27OCB
0.1 - 2.0
－
--
Minimum operating　current
⎯ 354 ⎯
200
---
0.8
--
150
200
0.8
480
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
1A rating
310
430
431
12052
12053
T27B1
T27B2
0 - 500
0 - 500
ms CBF timer for re-trip
ms CBF timer for related trip
432
433
434
3030
12054
12055
28OCB
T28B1
T28B2
0.1 - 2.0
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
435
436
3031
12056
29OCB
T29B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
437
438
12057
3032
T29B2
30OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
439
440
12058
12059
T30B1
T30B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
441
442
443
3033
12060
12061
31OCB
T31B1
T31B2
0.1 - 2.0
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
444
445
3034
12062
32OCB
T32B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
446
447
12063
3055
T32B2
33OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
448
449
450
12070
12071
3056
T33B1
T33B2
34OCB
0 - 500
0 - 500
0.1 - 2.0
451
452
12072
12073
T34B1
T34B2
453
454
3057
12074
455
456
457
without voltage fail-safe
320 330 340 360
-150
----
0.8
150
200
---
----
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
35OCB
T35B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
12075
3058
12076
T35B2
36OCB
T36B1
0 - 500
0.1 - 2.0
0 - 500
ms CBF timer for related trip
458
459
12077
3059
T36B2
37OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
460
461
12078
12079
T37B1
T37B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
462
463
464
3060
12080
12081
38OCB
T38B1
T38B2
0.1 - 2.0
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
465
466
3061
12082
39OCB
T39B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
467
468
12083
3062
T39B2
40OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
469
470
12084
12085
T40B1
T40B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
471
472
473
3063
12086
12087
41OCB
T41B1
T41B2
0.1 - 2.0
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
474
475
3064
12088
42OCB
T42B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
476
477
12089
3065
T42B2
43OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
---
478
479
480
12090
12091
3066
T43B1
T43B2
44OCB
0 - 500
0 - 500
0.1 - 2.0
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
----
481
482
12092
12093
T44B1
T44B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
483
484
3067
12094
45OCB
T45B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
485
486
487
12095
3068
12096
T45B2
46OCB
T46B1
0 - 500
0.1 - 2.0
0 - 500
ms CBF timer for related trip
488
489
12097
3069
T46B2
47OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
490
491
12098
12099
T47B1
T47B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
492
493
3070
12100
48OCB
T48B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
494
495
496
12101
3071
12102
T48B2
49OCB
T49B1
0 - 500
0.1 - 2.0
0 - 500
ms CBF timer for related trip
497
498
12103
3072
T49B2
50OCB
0 - 500
0.1 - 2.0
ms CBF timer for related trip
499
500
12104
12105
T50B1
T50B2
0 - 500
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
501
502
3073
12106
51OCB
T51B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
－ Minimum operating　current
ms CBF timer for re-trip
－ Minimum operating　current
ms CBF timer for re-trip
⎯ 355 ⎯
200
0.8
150
200
0.8
150
200
---
0.8
150
----
200
0.8
150
---
200
0.8
---
150
200
---
0.8
150
200
----
0.8
150
---
200
0.8
---
150
200
----
0.8
150
200
---
0.8
150
200
0.8
150
200
0.8
150
200
---
0.8
150
---
200
0.8
150
----
200
0.8
---
150
200
---
0.8
150
-----------
200
0.8
150
200
0.8
150
200
---
0.8
150
---
0.8
150
----
0.8
150
200
---
0.8
150
200
---
150
200
----
200
0.8
150
200
0.8
150
200
0.8
150
480
200
---
200
0.8
---
with voltage fail-safe
420 430 440 460
-150
---
0.8
150
---
410
----
200
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
－ Minimum operating　current
ms CBF timer for re-trip
380
0.8
150
---
200
0.8
----
150
200
0.8
---
150
200
---
0.8
150
----
200
0.8
150
---
200
0.8
---
150
200
---
0.8
150
200
----
0.8
150
---
200
0.8
---
150
200
----
0.8
150
200
---
0.8
150
---
200
0.8
----
150
200
0.8
---
150
200
---
0.8
150
---
200
0.8
150
----
200
0.8
---
150
200
---
0.8
150
-----------
200
0.8
150
200
0.8
150
200
0.8
150
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
1A rating
310
503
504
12107
3074
T51B2
52OCB
0 - 500
0.1 - 2.0
505
12108
T52B1
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
506
12109
T52B2
0 - 500
ms CBF timer for related trip
507
508
3075
12110
53OCB
T53B1
0.1 - 2.0
0 - 500
509
12111
T53B2
510
3076
54OCB
511
512
12112
12113
T54B1
T54B2
0 - 500
0 - 500
513
3077
55OCB
0.1 - 2.0
514
12114
T55B1
0 - 500
515
516
12115
3078
T55B2
56OCB
0 - 500
0.1 - 2.0
517
12116
T56B1
0 - 500
518
519
12117
3079
T56B2
57OCB
0 - 500
0.1 - 2.0
520
12118
T57B1
521
12119
T57B2
522
523
3080
12120
58OCB
T58B1
524
12121
525
3081
526
527
12122
12123
T59B1
T59B2
0 - 500
0 - 500
528
3082
60OCB
0.1 - 2.0
529
12124
T60B1
0 - 500
530
531
12125
3083
T60B2
61OCB
0 - 500
0.1 - 2.0
532
12126
T61B1
533
12127
T61B2
534
535
3084
12128
62OCB
T62B1
536
12129
537
538
3085
12130
539
12131
540
3086
541
542
12132
12133
T64B1
T64B2
0 - 500
0 - 500
TBFDO
0.00 - 10.00
s
CBF operatin drop-off timer
543
12066
without voltage fail-safe
ms CBF timer for related trip
320
330
--
340
360
with voltage fail-safe
380
410
200
0.8
--
420
430
--
440
460
480
200
0.8
----
150
0.8
150
--
0.8
150
---
200
---
200
--
150
200
---
150
200
0.8
---
150
---
150
－ Minimum operating　current
ms CBF timer for re-trip
--
0 - 500
ms CBF timer for related trip
0.1 - 2.0
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
200
--
---
ms CBF timer for related trip
--
－ Minimum operating　current
ms CBF timer for re-trip
---
ms CBF timer for related trip
---
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
0 - 500
ms CBF timer for related trip
0.1 - 2.0
0 - 500
T58B2
59OCB
--
0.8
--
－ Minimum operating　current
ms CBF timer for re-trip
200
150
0.8
0.8
--
200
0.8
200
0.8
---
150
150
200
0.8
--
---
150
---
150
－ Minimum operating　current
ms CBF timer for re-trip
--
0.8
150
--
0.8
150
0 - 500
ms CBF timer for related trip
---
200
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
---
200
0.1 - 2.0
--
150
200
---
150
200
0.8
---
150
200
--
200
--
0.8
--
200
0.8
--
0.8
－ Minimum operating　current
ms CBF timer for re-trip
---
ms CBF timer for related trip
--
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
---
150
---
0 - 500
ms CBF timer for related trip
--
200
--
200
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
0.8
150
--
0.8
150
T62B2
0 - 500
ms CBF timer for related trip
63OCB
T63B1
0.1 - 2.0
0 - 500
－ Minimum operating　current
ms CBF timer for re-trip
--
T63B2
0 - 500
ms CBF timer for related trip
64OCB
0.1 - 2.0
－ Minimum operating　current
ms CBF timer for re-trip
ms CBF timer for related trip
150
--
200
0.8
---
0.8
200
0.8
150
---
200
200
0.8
150
--
---
200
---
200
--
150
200
--
150
200
--
0.8
--
0.8
150
--
0.8
--
0.10
1.00
544
545
12067
3048
TCBO
UVSF
0.00 - 10.00
60 - 100
s
V
CB opened timer for EFP-TR
Phase-to-phase undervoltage
--
80
546
3049
UVGF
20 - 60
V
Phase-to-earth undervoltage
547
3054
OVGF
0.1 - 10.0
V
Zero-phase overvoltage
---
10.0
548
549
22000
22001
BISW1
BISW2
Norm - Inv
Norm - Inv
－
Binary input
－
ditto
Norm
Norm
550
22002
BISW3
Norm - Inv
Norm
22003
BISW4
Norm - Inv
－
－
ditto
551
ditto
Norm
552
553
22004
22005
BISW5
BISW6
Norm - Inv
Norm - Inv
－
ditto
－
ditto
Norm
Norm
554
22006
BISW7
Norm - Inv
Norm
22007
22008
BISW8
BISW9
Norm - Inv
Norm - Inv
－
－
ditto
555
556
ditto
－
ditto
Norm
Norm
557
22009
BISW10
Norm - Inv
－
ditto
Norm
558
22010
BISW11
Norm - Inv
ditto
Norm
559
560
22011
22012
BISW12
BISW13
Norm - Inv
Norm - Inv
－
－
ditto
－
ditto
Norm
Norm
561
22013
BISW14
Norm - Inv
－
ditto
Norm
562
22014
BISW15
Norm - Inv
ditto
Norm
563
564
23032
23033
－
－
－
LED* Reset operation
565
－
－
LED Functions
0
566
ditto
0
0
0
LED1
46
Logic
Reset
OR - AND
Inst - Latch
23000
In #1
0 - 7167
23004
In #2
0 - 7167
567
568
23008
23012
In #3
In #4
0 - 7167
0 - 7167
－
ditto
－
ditto
－
－
LED* Logic Gate Type
OR
LED* Reset operation
Inst
LED2
LED* Logic Gate Type
OR
Inst
569
23034
Logic
OR - AND
570
23035
Reset
Inst - Latch
571
572
23001
23005
In #1
In #2
0 - 7167
0 - 7167
－
LED Functions
－
ditto
0
0
573
23006
In #3
0 - 7167
0
23007
In #4
0 - 7167
－
－
ditto
574
ditto
0
⎯ 356 ⎯
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
575
23036
Setting Device
Name
LED3
Logic
Range
5A rating
1A rating
OR - AND
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
without voltage fail-safe
310
320
330
340
360
with voltage fail-safe
380 410
OR
－
LED* Logic Gate Type
576
577
23037
23002
Reset
In #1
Inst - Latch
0 - 7167
－
－
LED* Reset operation
578
23009
In #2
0 - 7167
0
23010
23011
In #3
In #4
0 - 7167
0 - 7167
－
－
ditto
579
580
ditto
－
ditto
0
0
－
－
LED* Logic Gate Type
OR
LED* Reset operation
－
－
LED Functions
Inst
0
－
ditto
－
－
ditto
－
－
Memorandum for user
581
23038
Logic
OR - AND
582
583
23039
23003
LED4
Reset
In #1
Inst - Latch
0 - 7167
584
585
23013
23014
In #2
In #3
0 - 7167
0 - 7167
586
23015
587
588
17000
17001
Plant name
Description
Specified by user
ditto
589
590
19000
19001
HDLC(注)
IEC(注)
1 - 32
0 - 254
591
19024
SYADJ
-9999 - 9999
592
593
19096
19097
IP1-1
IP1-2
0 - 254
0 - 254
594
595
19098
19099
IP1-3
IP1-4
0 - 254
0 - 254
596
19100
SM1-1
0 - 255
597
598
19101
19102
SM1-2
SM1-3
0 - 255
0 - 255
599
600
19103
19104
SM1-4
GW1-1
0 - 255
0 - 254
In #4
0 - 7167
601
19105
GW1-2
0 - 254
602
603
19106
19107
GW1-3
GW1-4
0 - 254
0 - 254
604
605
19084
19085
IP2-1
IP2-2
0 - 254
0 - 254
LED Functions
0
0
ditto
0
Plant name
Relay ID No. for RSM
－ Station address for IEC103
ms Time sync. Compensation
－
CH1 IP address
－
－
CH1 Subnet mask
CH1 Gateway
0
192
168
255
0
192
168
－
－
－
－
1
2
255
255
－
－
－
no-name
no-data
19
172
－
－
－
Inst
0
19
1
IP Address of CH#2
－
192
168
606
19086
IP2-3
0 - 254
607
608
19087
19088
IP2-4
SM2-1
0 - 254
0 - 255
－
609
610
19089
19090
SM2-2
SM2-3
0 - 255
0 - 255
－
－
611
19091
SM2-4
0 - 255
612
613
19092
19093
GW2-1
GW2-2
0 - 254
0 - 254
－
－
－
192
168
614
615
19094
19095
GW2-3
GW2-4
0 - 254
0 - 254
－
－
19
1
616
19108
SI1-1
0 - 254
617
618
19109
19110
SI1-2
SI1-3
0 - 254
0 - 254
－
－
619
19111
SI1-4
0 - 254
620
621
19112
19113
SI2-1
SI2-2
0 - 254
0 - 254
622
623
19114
19115
SI2-3
SI2-4
0 - 254
0 - 254
624
19116
SI3-1
0 - 254
625
626
19117
19118
SI3-2
SI3-3
0 - 254
0 - 254
627
628
19119
19120
SI3-4
SI4-1
0 - 254
0 - 254
629
19121
SI4-2
0 - 254
630
631
19122
19123
SI4-3
SI4-4
0 - 254
0 - 254
632
633
19124
19042
SMODE
DEADT
0-1
1 - 120
634
19025
GOINT
1 - 60
s
635
636
19076
19077
PG1-1
PG1-2
0 - 254
0 - 254
－
637
638
19078
19079
PG1-3
PG1-4
0 - 254
0 - 254
639
19080
PG2-1
0 - 254
640
641
19081
19082
PG2-2
PG2-3
0 - 254
0 - 254
642
643
19083
19040
PG2-4
PRTCL1
0 - 254
HDLC - IEC103
644
19032
232C
9.6 - 19.2 - 38.4 - 57.6
645
646
19034
19035
IECBR
IECBLK
9.6 - 19.2
Normal - Blocked
647
19036
850BLK
Normal - Blocked
19
－
－
Subnet Mask of CH#2
255
255
0
Gateway Address of CH#2
SNTP Server1 Address
0
SNTP Server2 Address
－
－
SNTP Server3 Address
SNTP Server4 Address
0
0
0
－
－
－
－
min TCP KeepAlive Time
0
0
0
120
60
Ping check addrs port#1
－
－
0
0
0
0
－
－
－
0
0
0
－
－
－
0
0
0
0
－
－
－
0
0
0
－
－
－
173
255
Ping check addrs port#2
0
0
0
－
－
0
HDLC
－
CH1 Communication protocol
－
－
RS-232C baud rate
－
－
Monitor direction blocked
19.2
Normal
IEC61850 Block
Normal
IEC103 baud rate
⎯ 357 ⎯
9.6
420
430
440
460
480
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Units
Default Setting of Relay Series(5A rating / 1A rating)
without voltage fail-safe
with voltage fail-safe
Contents
1A rating
310
320
330
340
360
380
410
420
430
440
648
19037
850AUT
Off - On
－
IEC61850 Authorize
Off
649
19038
TSTMOD
Off - On
－
IEC61850 Test mode
Off
650
19039
GSECHK
Off - On
GOOSE receive check
Off
651
19041
PINGCHK
Off - On
－
－
652
653
18000
18001
BITRN
CH1 BI
0 - 128
None - Operate - Reset - Both
－
Number of bi-trigger (on/off) events
－
ditto
100
Both
654
18002
CH2 BI
None - Operate - Reset - Both
－
ditto
Both
655
18003
CH3 BI
None - Operate - Reset - Both
－
ditto
Both
656
18004
CH4 BI
None - Operate - Reset - Both
－
ditto
Both
657
18005
CH5 BI
None - Operate - Reset - Both
ditto
Both
658
18006
CH6 BI
None - Operate - Reset - Both
－
－
ditto
Both
659
18007
CH7 BI
None - Operate - Reset - Both
－
ditto
Both
660
661
18008
18009
CH8 BI
CH9 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
－
ditto
--
Both
--
Both
662
18010
CH10 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
663
18011
CH11 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
664
18012
CH12 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
665
18013
CH13 BI
None - Operate - Reset - Both
ditto
--
Both
--
Both
666
18014
CH14 BI
None - Operate - Reset - Both
－
－
ditto
--
Both
--
Both
667
668
18015
18016
CH15 BI
CH16 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
－
ditto
---
Both
Both
---
Both
Both
460
480
Off
Ping check
Both
669
18017
CH17 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
670
18018
CH18 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
671
18019
CH19 BI
None - Operate - Reset - Both
－
ditto
Both
18020
CH20 BI
None - Operate - Reset - Both
ditto
Both
673
18021
CH21 BI
None - Operate - Reset - Both
－
－
---
Both
672
---
ditto
--
Both
--
Both
674
18022
CH22 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
675
676
18023
18024
CH23 BI
CH24 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
--
--
－
ditto
--
Both
Both
Both
Both
Both
--
677
18025
CH25 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
678
18026
CH26 BI
None - Operate - Reset - Both
－
ditto
Both
18027
CH27 BI
None - Operate - Reset - Both
－
ditto
Both
---
Both
679
---
680
18028
CH28 BI
None - Operate - Reset - Both
ditto
--
Both
--
Both
681
18029
CH29 BI
None - Operate - Reset - Both
－
－
ditto
--
Both
--
Both
682
683
18030
18031
CH30 BI
CH31 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
--
--
－
ditto
--
Both
Both
Both
Both
684
18032
CH32 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
685
18033
CH33 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
686
18034
CH34 BI
None - Operate - Reset - Both
－
ditto
Both
18035
CH35 BI
None - Operate - Reset - Both
－
ditto
Both
---
Both
687
---
688
18036
CH36 BI
None - Operate - Reset - Both
ditto
--
Both
--
Both
689
18037
CH37 BI
None - Operate - Reset - Both
－
－
ditto
--
Both
--
Both
690
691
18038
18039
CH38 BI
CH39 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
--
--
－
ditto
--
Both
Both
--
Both
Both
692
18040
CH40 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
693
18041
CH41 BI
None - Operate - Reset - Both
－
ditto
Both
18042
CH42 BI
None - Operate - Reset - Both
－
ditto
Both
---
Both
694
---
695
18043
CH43 BI
None - Operate - Reset - Both
ditto
--
Both
--
Both
696
18044
CH44 BI
None - Operate - Reset - Both
－
－
ditto
--
Both
--
Both
697
18045
CH45 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
698
699
18046
18047
CH46 BI
CH47 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
--
--
－
ditto
--
Both
Both
Both
Both
700
18048
CH48 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
701
18049
CH49 BI
None - Operate - Reset - Both
－
ditto
702
18050
CH50 BI
None - Operate - Reset - Both
－
703
18051
CH51 BI
None - Operate - Reset - Both
704
18052
CH52 BI
None - Operate - Reset - Both
705
706
18053
18054
CH53 BI
CH54 BI
707
18055
708
18056
709
Both
--
Both
Both
Both
--
Both
ditto
---
－
－
ditto
None - Operate - Reset - Both
None - Operate - Reset - Both
CH55 BI
CH56 BI
18057
710
Both
Both
Both
---
--
Both
--
Both
ditto
--
Both
--
Both
－
ditto
--
--
－
ditto
--
Both
Both
--
Both
Both
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
None - Operate - Reset - Both
－
ditto
Both
None - Operate - Reset - Both
－
ditto
Both
---
Both
CH57 BI
---
18058
CH58 BI
None - Operate - Reset - Both
ditto
--
Both
--
Both
711
18059
CH59 BI
None - Operate - Reset - Both
－
－
ditto
--
Both
--
Both
712
18060
CH60 BI
None - Operate - Reset - Both
－
ditto
--
Both
--
Both
713
714
18061
18062
CH61 BI
CH62 BI
None - Operate - Reset - Both
None - Operate - Reset - Both
－
ditto
--
--
－
ditto
--
Both
Both
Both
Both
715
18063
CH63 BI
None - Operate - Reset - Both
－
ditto
18064
CH64 BI
None - Operate - Reset - Both
－
ditto
---
Both
716
---
717
18256
718
18000
719
18257
1OCG
720
18258
1OCS
Time
0.1 - 2.0
1.0
--
1.0
--
--
Disturbance record
0.1 - 10.0
-
OC element for disturbance
1.0
0.1 - 10.0
-
ditto
2.0
0.1 - 1.0
⎯ 358 ⎯
1.0
Both
--
Both
s
Both
Both
Both
-1.0
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
1A rating
without voltage fail-safe
320 330 340 360
310
721
722
18259
18260
2OCG
2OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
723
724
725
18261
18262
18263
3OCG
3OCS
4OCG
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
726
727
18264
18265
4OCS
5OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
728
729
18266
18267
5OCS
6OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
730
731
18268
18269
6OCS
7OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
732
733
734
18270
18271
18272
7OCS
8OCG
8OCS
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
735
736
18273
18274
9OCG
9OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
737
738
18275
18276
10OCG
10OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
739
740
741
18277
18278
18279
11OCG
11OCS
12OCG
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
742
743
18280
18281
12OCS
13OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
744
745
18282
18283
13OCS
14OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
746
747
748
18284
18285
18286
14OCS
15OCG
15OCS
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
749
750
18287
18288
16OCG
16OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
751
752
18289
18290
17OCG
17OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
--
ditto
753
754
755
18291
18292
18293
18OCG
18OCS
19OCG
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
---
756
757
18294
18295
19OCS
20OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
758
759
18296
18297
20OCS
21OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
760
761
18298
18299
21OCS
22OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
762
763
764
18300
18301
18302
22OCS
23OCG
23OCS
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
765
766
18303
18304
24OCG
24OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
---
ditto
--
767
768
18305
18306
25OCG
25OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
--
ditto
769
770
771
18307
18308
18309
26OCG
26OCS
27OCG
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
----
772
773
18310
18311
27OCS
28OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
774
775
18312
18313
28OCS
29OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
776
777
778
18314
18315
18316
29OCS
30OCG
30OCS
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
779
780
18317
18318
31OCG
31OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
781
782
18319
18320
32OCG
32OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
---
ditto
--
783
784
18321
18322
33OCG
33OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
--
ditto
785
786
787
18323
18324
18325
34OCG
34OCS
35OCG
0.1 - 10.0
0.1 - 10.0
0.1 - 10.0
-
ditto
----
788
789
18326
18327
35OCS
36OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
790
791
18328
18329
36OCS
37OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
792
793
18330
18331
37OCS
38OCG
0.1 - 10.0
0.1 - 10.0
-
ditto
380
with voltage fail-safe
420 430 440 460
410
480
1.0
2.0
ditto
1.0
2.0
1.0
ditto
ditto
2.0
1.0
ditto
2.0
1.0
ditto
2.0
1.0
ditto
2.0
1.0
2.0
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
---
1.0
2.0
---
1.0
2.0
---
1.0
2.0
---
1.0
2.0
----
1.0
2.0
1.0
----
1.0
2.0
1.0
---
2.0
1.0
---
2.0
1.0
---
2.0
1.0
---
2.0
1.0
----
2.0
1.0
2.0
----
2.0
1.0
2.0
---
1.0
2.0
---
1.0
2.0
ditto
ditto
ditto
ditto
ditto
ditto
ditto
ditto
⎯ 359 ⎯
2.0
1.0
---
2.0
1.0
---
2.0
1.0
2.0
2.0
1.0
2.0
----
1.0
2.0
1.0
2.0
---
1.0
2.0
----
ditto
1.0
2.0
1.0
---
2.0
1.0
---
ditto
1.0
2.0
----
2.0
1.0
---
ditto
--
1.0
2.0
1.0
----
ditto
1.0
2.0
-1.0
2.0
---
ditto
2.0
1.0
2.0
---
1.0
2.0
---
ditto
2.0
1.0
----
2.0
1.0
2.0
---
ditto
2.0
1.0
---
2.0
1.0
----
ditto
2.0
1.0
---
2.0
1.0
---
ditto
1.0
2.0
1.0
----
2.0
1.0
---
ditto
1.0
2.0
---
1.0
2.0
1.0
----
ditto
--
1.0
2.0
1.0
2.0
-1.0
2.0
1.0
2.0
1.0
2.0
1.0
2.0
1.0
2.0
1.0
------------
1.0
2.0
1.0
2.0
1.0
2.0
1.0
2.0
1.0
2.0
1.0
User
setting
6 F 2 S 0 8 8 2
Relay and Protection Scheme Setting Sheet
№
(No.) (Offset No.)
Setting Device
Name
Range
5A rating
Default Setting of Relay Series(5A rating / 1A rating)
Units
Contents
1A rating
without voltage fail-safe
310
320
330
340
with voltage fail-safe
360
380
410
420
430
440
460
480
794
18332
38OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
795
18333
39OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
796
18334
39OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
797
18335
40OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
798
18336
40OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
799
18337
41OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
800
18338
41OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
801
18339
42OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
802
18340
42OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
803
18341
43OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
804
18342
43OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
805
18343
44OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
806
18344
44OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
807
18345
45OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
808
18346
45OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
809
18347
46OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
810
18348
46OCS
0.1 - 10.0
-
ditto
2.0
18349
47OCG
0.1 - 10.0
-
ditto
1.0
---
2.0
811
---
812
18350
47OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
813
18351
48OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
814
18352
48OCS
0.1 - 10.0
-
ditto
--
2.0
--
815
18353
49OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
816
18354
49OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
817
18355
50OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
818
18356
50OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
819
18357
51OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
820
18358
51OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
821
18359
52OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
822
18360
52OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
823
18361
53OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
824
18362
53OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
825
18363
54OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
826
18364
54OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
827
18365
55OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
828
18366
55OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
829
18367
56OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
830
18368
56OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
831
18369
57OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
832
18370
57OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
833
18371
58OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
834
18372
58OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
835
18373
59OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
836
18374
59OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
837
18375
60OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
838
18376
60OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
839
18377
61OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
840
18378
61OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
841
842
18379
18380
62OCG
62OCS
0.1 - 10.0
0.1 - 10.0
-
ditto
--
--
ditto
--
1.0
2.0
--
1.0
2.0
843
18381
63OCG
0.1 - 10.0
-
ditto
--
1.0
--
1.0
844
18382
63OCS
0.1 - 10.0
-
ditto
--
2.0
--
2.0
845
18383
64OCG
0.1 - 10.0
-
ditto
1.0
18384
64OCS
0.1 - 10.0
-
ditto
---
1.0
846
---
847
18065
TRIP
Off - On
－
Disturbance trigger
On
848
18066
OCG
Off - On
－
ditto
Off
849
18067
OCS
Off - On
－
ditto
850
20000 Display value
Primary - Secondary
－
Metering
851
20008
Sync
Off - IRIG - RSM - IEC - SNTP
20009
GMT
-12 - +12
－ Time
hrs Time
Off
852
853
20010
GMTm
-59 - +59
min Time
0
2.0
Off
Primary
0
⎯ 360 ⎯
1.0
2.0
2.0
User
setting
6 F 2 S 0 8 8 2
Event record
Setting Device Name
No.
Signal No.
Default Setting of Relay Series(5A rating / 1A rating)
Signal Name
Contents
Signal
No.
Signal Name
Range
without voltage fail-safe
with voltage fail-safe
Model
Model
Type
1
EV1
0 - 7167
Event name1
Event record signal
1600
ZA trip
310 320 330 340 360 380 410 420 430 440 460 480
X
On/Off
2
EV2
0 - 7167
Event name2
ditto
1601
ZB trip
X
On/Off
3
EV3
0 - 7167
Event name3
ditto
1602
ZC trip
X
On/Off
4
EV4
0 - 7167
Event name4
ditto
1603
ZD trip
X
On/Off
5
EV5
0 - 7167
Event name5
ditto
1599
Trip
X
On/Off
6
EV6
0 - 7167
Event name6
ditto
1595
CBF-retrip
X
On/Off
7
EV7
0 - 7167
Event name7
ditto
1596
CBF-trip
On/Off
8
EV8
0 - 7167
Event name8
ditto
1597
CBF-TR
X
X
9
EV9
0 - 7167
Event name9
ditto
1608
COM-trip
X
On/Off
10
EV10
0 - 7167
Event name10
ditto
1615
EFP-TR
X
On/Off
11
EV11
0 - 7167
Event name11
ditto
1583
Bus bridge
X
On/Off
12
EV12
0 - 7167
Event name12
ditto
1577
Trans. bus
X
On/Off
13
EV13
0 - 7167
Event name13
ditto
4609
BP block
X
On/Off
14
EV14
0 - 7167
Event name14
ditto
4610
CBF block
X
On/Off
15
EV15
0 - 7167
Event name15
ditto
4608
Ind.reset
On/Off
16
EV16
0 - 7167
Event name16
ditto
2826
Relay fail
X
X
17
EV17
0 - 7167
Event name17
ditto
2842
CT err
X
18
EV18
0 - 7167
Event name18
ditto
2843
V0 err
--
19
EV19
0 - 7167
Event name19
ditto
2844
V2 err
--
20
EV20
0 - 7167
Event name20
ditto
2832
Id err
X
On/Off
21
EV21
0 - 7167
Event name21
ditto
2829
DS fail
X
On/Off
22
EV22
0 - 7167
Event name22
ditto
2830
CB fail
X
23
EV23
0 - 7167
Event name23
ditto
2872
CTF
--
X
On/Off
24
EV24
0 - 7167
Event name24
ditto
2868
CTF-ZA
--
X
On/Off
25
EV25
0 - 7167
Event name25
ditto
2869
CTF-ZB
--
X
On/Off
26
EV26
0 - 7167
Event name26
ditto
2870
CTF-ZC
--
X
On/Off
CTF-ZD
--
X
On/Off
On/Off
On/Off
On/Off
X
On/Off
X
On/Off
On/Off
27
EV27
0 - 7167
Event name27
ditto
2871
28
EV28
0 - 7167
Event name28
ditto
0
On/Off
29
EV29
0 - 7167
Event name29
ditto
0
On/Off
30
EV30
0 - 7167
Event name30
ditto
0
On/Off
31
EV31
0 - 7167
Event name31
ditto
0
On/Off
32
EV32
0 - 7167
Event name32
ditto
0
On/Off
33
EV33
0 - 7167
Event name33
ditto
0
On/Off
34
EV34
0 - 7167
Event name34
ditto
0
On/Off
35
EV35
0 - 7167
Event name35
ditto
0
On/Off
36
EV36
0 - 7167
Event name36
ditto
0
On/Off
37
EV37
0 - 7167
Event name37
ditto
0
On/Off
38
39
EV38
EV39
0 - 7167
0 - 7167
Event name38
Event name39
ditto
ditto
0
0
On/Off
On/Off
40
EV40
0 - 7167
Event name40
ditto
0
On/Off
41
EV41
0 - 7167
Event name41
ditto
0
On/Off
42
EV42
0 - 7167
Event name42
ditto
0
On/Off
43
EV43
0 - 7167
Event name43
ditto
0
On/Off
44
EV44
0 - 7167
Event name44
ditto
0
On/Off
45
EV45
0 - 7167
Event name45
ditto
0
On/Off
46
EV46
0 - 7167
Event name46
ditto
0
On/Off
47
EV47
0 - 7167
Event name47
ditto
0
On/Off
48
EV48
0 - 7167
Event name48
ditto
0
49
EV49
0 - 7167
Event name49
ditto
2833
Relay fail-A
X
On/Off
50
EV50
0 - 7167
Event name50
ditto
3112
Data lost
X
On/Off
51
EV51
0 - 7167
Event name51
ditto
0
On/Off
52
EV52
0 - 7167
Event name52
ditto
0
On/Off
53
EV53
0 - 7167
Event name53
ditto
0
On/Off
54
EV54
0 - 7167
Event name54
ditto
0
On/Off
55
56
EV55
EV56
0 - 7167
0 - 7167
Event name55
Event name56
ditto
ditto
0
0
On/Off
On/Off
57
EV57
0 - 7167
Event name57
ditto
0
On/Off
58
EV58
0 - 7167
Event name58
ditto
0
On/Off
59
EV59
0 - 7167
Event name59
ditto
0
On/Off
60
EV60
0 - 7167
Event name60
ditto
0
On/Off
61
EV61
0 - 7167
Event name61
ditto
0
On/Off
62
EV62
0 - 7167
Event name62
ditto
0
On/Off
63
EV63
0 - 7167
Event name63
ditto
0
On/Off
64
EV64
0 - 7167
Event name64
ditto
0
On/Off
On/Off
⎯ 361 ⎯
6 F 2 S 0 8 8 2
Event record
Setting Device Name
No.
Signal No.
Default Setting of Relay Series(5A rating / 1A rating)
Signal Name
Contents
Range
Signal
No.
Signal Name
without voltage fail-safe
with voltage fail-safe
Model
Model
Type
310 320 330 340 360 380 410 420 430 440 460 480
65
EV65
0 - 7167
Event name65
ditto
0
On/Off
66
EV66
0 - 7167
Event name66
ditto
0
On/Off
67
EV67
0 - 7167
Event name67
ditto
0
On/Off
68
EV68
0 - 7167
Event name68
ditto
0
On/Off
69
EV69
0 - 7167
Event name69
ditto
0
On/Off
70
EV70
0 - 7167
Event name70
ditto
0
On/Off
71
EV71
0 - 7167
Event name71
ditto
0
On/Off
72
EV72
0 - 7167
Event name72
ditto
0
On/Off
73
EV73
0 - 7167
Event name73
ditto
0
On/Off
74
EV74
0 - 7167
Event name74
ditto
0
On/Off
75
EV75
0 - 7167
Event name75
ditto
0
On/Off
76
EV76
0 - 7167
Event name76
ditto
0
On/Off
77
EV77
0 - 7167
Event name77
ditto
0
On/Off
78
EV78
0 - 7167
Event name78
ditto
0
On/Off
79
EV79
0 - 7167
Event name79
ditto
0
On/Off
80
EV80
0 - 7167
Event name80
ditto
0
On/Off
81
EV81
0 - 7167
Event name81
ditto
0
On/Off
82
EV82
0 - 7167
Event name82
ditto
0
On/Off
83
EV83
0 - 7167
Event name83
ditto
0
On/Off
84
EV84
0 - 7167
Event name84
ditto
0
On/Off
85
EV85
0 - 7167
Event name85
ditto
0
On/Off
86
EV86
0 - 7167
Event name86
ditto
0
On/Off
87
EV87
0 - 7167
Event name87
ditto
0
On/Off
88
EV88
0 - 7167
Event name88
ditto
0
On/Off
89
EV89
0 - 7167
Event name89
ditto
0
On/Off
90
EV90
0 - 7167
Event name90
ditto
0
On/Off
91
EV91
0 - 7167
Event name91
ditto
0
On/Off
92
EV92
0 - 7167
Event name92
ditto
0
On/Off
93
EV93
0 - 7167
Event name93
ditto
0
On/Off
94
EV94
0 - 7167
Event name94
ditto
0
On/Off
95
EV95
0 - 7167
Event name95
ditto
0
On/Off
96
EV96
0 - 7167
Event name96
ditto
0
On/Off
97
EV97
0 - 7167
Event name97
ditto
0
On/Off
98
EV98
0 - 7167
Event name98
ditto
0
On/Off
99
EV99
0 - 7167
Event name99
ditto
0
On/Off
100
EV100
0 - 7167
Event name100
ditto
0
101
EV101
0 - 7167
Event name101
ditto
6176
SET.GROUP1
X
On
102
103
EV102
EV103
0 - 7167
0 - 7167
Event name102
Event name103
ditto
ditto
6177
6178
SET.GROUP2
SET.GROUP3
On
On
104
EV104
0 - 7167
Event name104
ditto
6179
SET.GROUP4
X
X
X
105
EV105
0 - 7167
Event name105
ditto
6180
SET.GROUP5
X
On
106
EV106
0 - 7167
Event name106
ditto
6181
SET.GROUP6
X
On
107
EV107
0 - 7167
Event name107
ditto
6182
SET.GROUP7
X
On
108
EV108
0 - 7167
Event name108
ditto
6183
SET.GROUP8
X
On
109
EV109
0 - 7167
Event name109
ditto
3122
Sys. Set change
X
On
110
EV110
0 - 7167
Event name110
ditto
3123
Rly. Set change
X
On
111
EV111
0 - 7167
Event name111
ditto
3124
Grp. Set change
X
On
112
113
EV112
EV113
0 - 7167
0 - 7167
Event name112
Event name113
ditto
ditto
0
0
On
On
114
EV114
0 - 7167
Event name114
ditto
0
On
115
EV115
0 - 7167
Event name115
ditto
0
On
116
EV116
0 - 7167
Event name116
ditto
0
On
117
EV117
0 - 7167
Event name117
ditto
0
On
118
EV118
0 - 7167
Event name118
ditto
0
119
EV119
0 - 7167
Event name119
ditto
3119
120
EV120
0 - 7167
Event name120
ditto
0
121
EV121
0 - 7167
Event name121
ditto
122
EV122
0 - 7167
Event name122
123
EV123
0 - 7167
124
EV124
125
On/Off
On
On
PLC data CHG
X
3083
LED RST
X
On
ditto
3109
F.record_CLR
X
On
Event name123
ditto
0
0 - 7167
Event name124
ditto
3110
E.record_CLR
X
On
EV125
0 - 7167
Event name125
ditto
3111
D.record_CLR
X
On
126
EV126
0 - 7167
Event name126
ditto
0
On
127
EV127
0 - 7167
Event name127
ditto
0
On
128
EV128
0 - 7167
Event name128
ditto
0
On
On
On
On
⎯ 362 ⎯
6 F 2 S 0 8 8 2
Disturbance record
Setting Device Name
No.
Signal No.
Default Setting of Relay Series(5A rating / 1A rating)
Signal Name
Contents
Range
Signal
No.
without voltage fail-safe
Model
DIFCH-A
310 320 330 340 360 380 410 420 430 440 460 480
X
1073
DIFCH-B
X
1074
DIFCH-C
X
ditto
1075
DIFZA-A
X
Signal name5
ditto
1076
DIFZA-B
X
0 - 7167
Signal name6
ditto
1077
DIFZA-C
X
SIG7
0 - 7167
Signal name7
ditto
1078
DIFZB-A
SIG8
0 - 7167
Signal name8
ditto
1079
DIFZB-B
X
X
1
SIG1
0 - 7167
Signal name1
Disturbance record signal
1072
2
SIG2
0 - 7167
Signal name2
ditto
3
SIG3
0 - 7167
Signal name3
ditto
4
SIG4
0 - 7167
Signal name4
5
SIG5
0 - 7167
6
SIG6
7
8
Signal Name
with voltage fail-safe
Model
9
SIG9
0 - 7167
Signal name9
ditto
1080
DIFZB-C
X
10
SIG10
0 - 7167
Signal name10 ditto
1081
DIFZC-A
X
11
SIG11
0 - 7167
Signal name11 ditto
1082
DIFZC-B
X
12
SIG12
0 - 7167
Signal name12 ditto
1083
DIFZC-C
X
13
SIG13
0 - 7167
Signal name13 ditto
1084
DIFZD-A
X
14
SIG14
0 - 7167
Signal name14 ditto
1085
DIFZD-B
X
15
16
SIG15
SIG16
0 - 7167
0 - 7167
Signal name15 ditto
Signal name16 ditto
1086
1599
DIFZD-C
DIF-CH_TRIP
X
X
17
SIG17
0 - 7167
Signal name17 ditto
1600
DIF-ZA_TRIP
X
18
SIG18
0 - 7167
Signal name18 ditto
1601
DIF-ZB-TRIP
X
19
SIG19
0 - 7167
Signal name19 ditto
1602
DIF-ZC_TRIP
X
20
SIG20
0 - 7167
Signal name20 ditto
1603
DIF-ZD_TRIP
X
21
SIG21
0 - 7167
Signal name21 ditto
1595
CBF-RETRIP
X
22
SIG22
0 - 7167
Signal name22 ditto
1596
CBF-TRIP
X
23
SIG23
0 - 7167
Signal name23 ditto
1597
CBF-TRANSFER
24
SIG24
0 - 7167
Signal name24 ditto
1134
DIFCH-BLK-OR
X
X
25
SIG25
0 - 7167
Signal name25 ditto
1135
DIFZA-BLK-OR
X
26
SIG26
0 - 7167
Signal name26 ditto
1136
DIFZB-BLK-OR
X
27
SIG27
0 - 7167
Signal name27 ditto
1137
DIFZC-BLK-OR
X
28
SIG28
0 - 7167
Signal name28 ditto
1138
DIFZD-BLK-OR
29
SIG29
0 - 7167
Signal name29 ditto
1144
UVZA
--
30
SIG30
0 - 7167
Signal name30 ditto
1145
UVZB
--
X
31
SIG31
0 - 7167
Signal name31 ditto
1146
UVZC
--
X
32
SIG32
0 - 7167
Signal name32 ditto
1147
UVZD
--
X
⎯ 363 ⎯
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
3584
3585
3586
3587
3588
3589
3590
3591
3592
3593
3594
3595
3596
3597
3598
3599
3600
3601
3602
3603
3604
3605
3606
3607
3608
3609
3610
3611
3612
3613
3614
3615
3616
3617
3618
3619
3620
3621
3622
3623
3624
3625
3626
3627
3628
3629
3630
3631
3632
3633
3634
3635
3636
3637
3638
3639
3640
3641
3642
3643
3644
3645
3646
3647
3648
3649
3650
3651
3652
3653
3654
3655
3656
3657
3658
3659
3660
3661
3662
3663
3664
3665
3666
3667
3668
3669
3670
Timing
Cycle
Signal
30
90 User
Logic expression
Turn
CH1-DS2 N/O
CH1-DS2 N/C
CH1-DS3 N/O
CH1-DS3 N/C
CH1-DS4 N/O
CH1-DS4 N/C
CH1-CB N/O
CH1-CB N/C
X
X
0
0
X
X
0
0
CH2-DS2 N/O
CH2-DS2 N/C
CH2-DS3 N/O
CH2-DS3 N/C
CH2-DS4 N/O
CH2-DS4 N/C
CH2-CB N/O
CH2-CB N/C
X
X
1
1
X
X
1
1
CH3-DS2 N/O
CH3-DS2 N/C
CH3-DS3 N/O
CH3-DS3 N/C
CH3-DS4 N/O
CH3-DS4 N/C
CH3-CB N/O
CH3-CB N/C
X
X
2
2
X
X
2
2
CH4-DS2 N/O
CH4-DS2 N/C
CH4-DS3 N/O
CH4-DS3 N/C
CH4-DS4 N/O
CH4-DS4 N/C
CH4-CB N/O
CH4-CB N/C
X
X
0
0
X
X
0
0
CH5-DS2 N/O
CH5-DS2 N/C
CH5-DS3 N/O
CH5-DS3 N/C
CH5-DS4 N/O
CH5-DS4 N/C
CH5-CB N/O
CH5-CB N/C
X
X
1
1
X
X
1
1
CH6-DS2
CH6-DS2
CH6-DS3
CH6-DS3
CH6-DS4
X
X
2
2
N/O
N/C
N/O
N/C
N/O
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[13]CH1-BI2
[14]CH1-BI6
----[15]CH1-BI3
[16]CH1-BI7
X
X
[29]CH2-BI2
[30]CH2-BI6
----[31]CH2-BI3
[32]CH2-BI7
X
X
[45]CH3-BI2
[46]CH3-BI6
----[47]CH3-BI3
[48]CH3-BI7
X
X
[61]CH4-BI2
[62]CH4-BI6
----[63]CH4-BI3
[64]CH4-BI7
X
X
[77]CH5-BI2
[78]CH5-BI6
----[79]CH5-BI3
[80]CH5-BI7
X
X
[93]CH6-BI2
[94]CH6-BI6
----
X
X
⎯ 364 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
3671
3672
3673
3674
3675
3676
3677
3678
3679
3680
3681
3682
3683
3684
3685
3686
3687
3688
3689
3690
3691
3692
3693
3694
3695
3696
3697
3698
3699
3700
3701
3702
3703
3704
3705
3706
3707
3708
3709
3710
3711
3712
3713
3714
3715
3716
3717
3718
3719
3720
3721
3722
3723
3724
3725
3726
3727
3728
3729
3730
3731
3732
3733
3734
3735
3736
3737
3738
3739
3740
3741
3742
3743
3744
3745
3746
3747
3748
3749
3750
3751
3752
3753
3754
3755
3756
Signal
CH6-DS4 N/C
CH6-CB N/O
CH6-CB N/C
Timing
Cycle
30
90 User
Logic expression
Turn
X
X
2
2
CH7-DS2 N/O
CH7-DS2 N/C
CH7-DS3 N/O
CH7-DS3 N/C
CH7-DS4 N/O
CH7-DS4 N/C
CH7-CB N/O
CH7-CB N/C
X
X
0
0
X
X
0
0
CH8-DS2 N/O
CH8-DS2 N/C
CH8-DS3 N/O
CH8-DS3 N/C
CH8-DS4 N/O
CH8-DS4 N/C
CH8-CB N/O
CH8-CB N/C
X
X
1
1
X
X
1
1
CH9-DS2 N/O
CH9-DS2 N/C
CH9-DS3 N/O
CH9-DS3 N/C
CH9-DS4 N/O
CH9-DS4 N/C
CH9-CB N/O
CH9-CB N/C
X
X
2
2
X
X
2
2
CH10-DS2 N/O
CH10-DS2 N/C
CH10-DS3 N/O
CH10-DS3 N/C
CH10-DS4 N/O
CH10-DS4 N/C
CH10-CB N/O
CH10-CB N/C
X
X
0
0
X
X
0
0
CH11-DS2 N/O
CH11-DS2 N/C
CH11-DS3 N/O
CH11-DS3 N/C
CH11-DS4 N/O
CH11-DS4 N/C
CH11-CB N/O
CH11-CB N/C
X
X
1
1
X
X
1
1
Model 300s
Model 400s
-[95]CH6-BI3
[96]CH6-BI7
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
[109]CH7-BI2
[110]CH7-BI6
----[111]CH7-BI3
[112]CH7-BI7
X
X
[125]CH8-BI2
[126]CH8-BI6
----[127]CH8-BI3
[128]CH8-BI7
X
X
[141]CH9-BI2
[142]CH9-BI6
----[143]CH9-BI3
[144]CH9-BI7
X
X
[157]CH10-BI2
[158]CH10-BI6
----[159]CH10-BI3
[160]CH10-BI7
X
X
[173]CH11-BI2
[174]CH11-BI6
----[175]CH11-BI3
[176]CH11-BI7
X
X
⎯ 365 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
3757
3758
3759
3760
3761
3762
3763
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782
3783
3784
3785
3786
3787
3788
3789
3790
3791
3792
3793
3794
3795
3796
3797
3798
3799
3800
3801
3802
3803
3804
3805
3806
3807
3808
3809
3810
3811
3812
3813
3814
3815
3816
3817
3818
3819
3820
3821
3822
3823
3824
3825
3826
3827
3828
3829
3830
3831
3832
3833
3834
3835
3836
3837
3838
3839
3840
3841
3842
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH12-DS2 N/O
CH12-DS2 N/C
CH12-DS3 N/O
CH12-DS3 N/C
CH12-DS4 N/O
CH12-DS4 N/C
CH12-CB N/O
CH12-CB N/C
X
X
2
2
X
X
2
2
CH13-DS2 N/O
CH13-DS2 N/C
CH13-DS3 N/O
CH13-DS3 N/C
CH13-DS4 N/O
CH13-DS4 N/C
CH13-CB N/O
CH13-CB N/C
X
X
0
0
X
X
0
0
CH14-DS2 N/O
CH14-DS2 N/C
CH14-DS3 N/O
CH14-DS3 N/C
CH14-DS4 N/O
CH14-DS4 N/C
CH14-CB N/O
CH14-CB N/C
X
X
1
1
X
X
1
1
CH15-DS2 N/O
CH15-DS2 N/C
CH15-DS3 N/O
CH15-DS3 N/C
CH15-DS4 N/O
CH15-DS4 N/C
CH15-CB N/O
CH15-CB N/C
X
X
2
2
X
X
2
2
CH16-DS2 N/O
CH16-DS2 N/C
CH16-DS3 N/O
CH16-DS3 N/C
CH16-DS4 N/O
CH16-DS4 N/C
CH16-CB N/O
CH16-CB N/C
X
X
0
0
X
X
CH17-DS2 N/O
X
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[189]CH12-BI2
[190]CH12-BI6
----[191]CH12-BI3
[192]CH12-BI7
X
X
[205]CH13-BI2
[206]CH13-BI6
----[207]CH13-BI3
[208]CH13-BI7
X
X
[221]CH14-BI2
[222]CH14-BI6
----[223]CH14-BI3
[224]CH14-BI7
X
X
[237]CH15-BI2
[238]CH15-BI6
----[239]CH15-BI3
[240]CH15-BI7
X
X
X
X
0
0
[253]CH16-BI2
[254]CH16-BI6
----[255]CH16-BI3
[256]CH16-BI7
1
[269]CH17-BI2
X
⎯ 366 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
3843
3844
3845
3846
3847
3848
3849
3850
3851
3852
3853
3854
3855
3856
3857
3858
3859
3860
3861
3862
3863
3864
3865
3866
3867
3868
3869
3870
3871
3872
3873
3874
3875
3876
3877
3878
3879
3880
3881
3882
3883
3884
3885
3886
3887
3888
3889
3890
3891
3892
3893
3894
3895
3896
3897
3898
3899
3900
3901
3902
3903
3904
3905
3906
3907
3908
3909
3910
3911
3912
3913
3914
3915
3916
3917
3918
3919
3920
3921
3922
3923
3924
3925
3926
3927
3928
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH17-DS2 N/C
CH17-DS3 N/O
CH17-DS3 N/C
CH17-DS4 N/O
CH17-DS4 N/C
CH17-CB N/O
CH17-CB N/C
X
1
X
X
1
1
CH18-DS2 N/O
CH18-DS2 N/C
CH18-DS3 N/O
CH18-DS3 N/C
CH18-DS4 N/O
CH18-DS4 N/C
CH18-CB N/O
CH18-CB N/C
X
X
2
2
X
X
2
2
CH19-DS2 N/O
CH19-DS2 N/C
CH19-DS3 N/O
CH19-DS3 N/C
CH19-DS4 N/O
CH19-DS4 N/C
CH19-CB N/O
CH19-CB N/C
X
X
0
0
X
X
0
0
CH20-DS2 N/O
CH20-DS2 N/C
CH20-DS3 N/O
CH20-DS3 N/C
CH20-DS4 N/O
CH20-DS4 N/C
CH20-CB N/O
CH20-CB N/C
X
X
1
1
X
X
1
1
CH21-DS2 N/O
CH21-DS2 N/C
CH21-DS3 N/O
CH21-DS3 N/C
CH21-DS4 N/O
CH21-DS4 N/C
CH21-CB N/O
CH21-CB N/C
X
X
2
2
X
X
2
2
CH22-DS2 N/O
CH22-DS2 N/C
CH22-DS3 N/O
CH22-DS3 N/C
CH22-DS4 N/O
CH22-DS4 N/C
CH22-CB N/O
X
X
0
0
X
0
Model 300s
Model 400s
[270]CH17-BI6
----[271]CH17-BI3
[272]CH17-BI7
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
X
[285]CH18-BI2
[286]CH18-BI6
----[287]CH18-BI3
[288]CH18-BI7
X
X
[301]CH19-BI2
[302]CH19-BI6
----[303]CH19-BI3
[304]CH19-BI7
X
X
[317]CH20-BI2
[318]CH20-BI6
----[319]CH20-BI3
[320]CH20-BI7
X
X
[333]CH21-BI2
[334]CH21-BI6
----[335]CH21-BI3
[336]CH21-BI7
X
X
[349]CH22-BI2
[350]CH22-BI6
----[351]CH22-BI3
X
X
⎯ 367 ⎯
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
3929
3930
3931
3932
3933
3934
3935
3936
3937
3938
3939
3940
3941
3942
3943
3944
3945
3946
3947
3948
3949
3950
3951
3952
3953
3954
3955
3956
3957
3958
3959
3960
3961
3962
3963
3964
3965
3966
3967
3968
3969
3970
3971
3972
3973
3974
3975
3976
3977
3978
3979
3980
3981
3982
3983
3984
3985
3986
3987
3988
3989
3990
3991
3992
3993
3994
3995
3996
3997
3998
3999
4000
4001
4002
4003
4004
4005
4006
4007
4008
4009
4010
4011
4012
4013
4014
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
CH22-CB N/C
X
0
[352]CH22-BI7
CH23-DS2 N/O
CH23-DS2 N/C
CH23-DS3 N/O
CH23-DS3 N/C
CH23-DS4 N/O
CH23-DS4 N/C
CH23-CB N/O
CH23-CB N/C
X
X
1
1
X
X
X
X
1
1
[365]CH23-BI2
[366]CH23-BI6
----[367]CH23-BI3
[368]CH23-BI7
CH24-DS2 N/O
CH24-DS2 N/C
CH24-DS3 N/O
CH24-DS3 N/C
CH24-DS4 N/O
CH24-DS4 N/C
CH24-CB N/O
CH24-CB N/C
X
X
2
2
X
X
X
X
2
2
[381]CH24-BI2
[382]CH24-BI6
----[383]CH24-BI3
[384]CH24-BI7
CH25-DS2 N/O
CH25-DS2 N/C
CH25-DS3 N/O
CH25-DS3 N/C
CH25-DS4 N/O
CH25-DS4 N/C
CH25-CB N/O
CH25-CB N/C
X
X
0
0
X
X
X
X
0
0
[397]CH25-BI2
[398]CH25-BI6
----[399]CH25-BI3
[400]CH25-BI7
CH26-DS2 N/O
CH26-DS2 N/C
CH26-DS3 N/O
CH26-DS3 N/C
CH26-DS4 N/O
CH26-DS4 N/C
CH26-CB N/O
CH26-CB N/C
X
X
1
1
X
X
X
X
1
1
[413]CH26-BI2
[414]CH26-BI6
----[415]CH26-BI3
[416]CH26-BI7
CH27-DS2 N/O
CH27-DS2 N/C
CH27-DS3 N/O
CH27-DS3 N/C
CH27-DS4 N/O
CH27-DS4 N/C
CH27-CB N/O
CH27-CB N/C
X
X
2
2
X
X
X
X
2
2
[429]CH27-BI2
[430]CH27-BI6
----[431]CH27-BI3
[432]CH27-BI7
⎯ 368 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4015
4016
4017
4018
4019
4020
4021
4022
4023
4024
4025
4026
4027
4028
4029
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
4043
4044
4045
4046
4047
4048
4049
4050
4051
4052
4053
4054
4055
4056
4057
4058
4059
4060
4061
4062
4063
4064
4065
4066
4067
4068
4069
4070
4071
4072
4073
4074
4075
4076
4077
4078
4079
4080
4081
4082
4083
4084
4085
4086
4087
4088
4089
4090
4091
4092
4093
4094
4095
4096
4097
4098
4099
4100
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH28-DS2 N/O
CH28-DS2 N/C
CH28-DS3 N/O
CH28-DS3 N/C
CH28-DS4 N/O
CH28-DS4 N/C
CH28-CB N/O
CH28-CB N/C
X
X
0
0
X
X
0
0
CH29-DS2 N/O
CH29-DS2 N/C
CH29-DS3 N/O
CH29-DS3 N/C
CH29-DS4 N/O
CH29-DS4 N/C
CH29-CB N/O
CH29-CB N/C
X
X
1
1
X
X
1
1
CH30-DS2 N/O
CH30-DS2 N/C
CH30-DS3 N/O
CH30-DS3 N/C
CH30-DS4 N/O
CH30-DS4 N/C
CH30-CB N/O
CH30-CB N/C
X
X
2
2
X
X
2
2
CH31-DS2 N/O
CH31-DS2 N/C
CH31-DS3 N/O
CH31-DS3 N/C
CH31-DS4 N/O
CH31-DS4 N/C
CH31-CB N/O
CH31-CB N/C
X
X
0
0
X
X
0
0
CH32-DS2 N/O
CH32-DS2 N/C
CH32-DS3 N/O
CH32-DS3 N/C
CH32-DS4 N/O
CH32-DS4 N/C
CH32-CB N/O
CH32-CB N/C
X
X
1
1
X
X
1
1
CH33-DS2 N/O
CH33-DS2 N/C
CH33-DS3 N/O
X
X
2
2
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[445]CH28-BI2
[446]CH28-BI6
----[447]CH28-BI3
[448]CH28-BI7
X
X
[461]CH29-BI2
[462]CH29-BI6
----[463]CH29-BI3
[464]CH29-BI7
X
X
[477]CH30-BI2
[478]CH30-BI6
----[479]CH30-BI3
[480]CH30-BI7
X
X
[493]CH31-BI2
[494]CH31-BI6
----[495]CH31-BI3
[496]CH31-BI7
X
X
[509]CH32-BI2
[510]CH32-BI6
----[511]CH32-BI3
[512]CH32-BI7
X
X
[525]CH33-BI2
[526]CH33-BI6
--
X
X
⎯ 369 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4101
4102
4103
4104
4105
4106
4107
4108
4109
4110
4111
4112
4113
4114
4115
4116
4117
4118
4119
4120
4121
4122
4123
4124
4125
4126
4127
4128
4129
4130
4131
4132
4133
4134
4135
4136
4137
4138
4139
4140
4141
4142
4143
4144
4145
4146
4147
4148
4149
4150
4151
4152
4153
4154
4155
4156
4157
4158
4159
4160
4161
4162
4163
4164
4165
4166
4167
4168
4169
4170
4171
4172
4173
4174
4175
4176
4177
4178
4179
4180
4181
4182
4183
4184
4185
4186
Signal
CH33-DS3 N/C
CH33-DS4 N/O
CH33-DS4 N/C
CH33-CB N/O
CH33-CB N/C
Timing
Cycle
30
90 User
Logic expression
Turn
X
X
2
2
CH34-DS2 N/O
CH34-DS2 N/C
CH34-DS3 N/O
CH34-DS3 N/C
CH34-DS4 N/O
CH34-DS4 N/C
CH34-CB N/O
CH34-CB N/C
X
X
0
0
X
X
0
0
CH35-DS2 N/O
CH35-DS2 N/C
CH35-DS3 N/O
CH35-DS3 N/C
CH35-DS4 N/O
CH35-DS4 N/C
CH35-CB N/O
CH35-CB N/C
X
X
1
1
X
X
1
1
CH36-DS2 N/O
CH36-DS2 N/C
CH36-DS3 N/O
CH36-DS3 N/C
CH36-DS4 N/O
CH36-DS4 N/C
CH36-CB N/O
CH36-CB N/C
X
X
2
2
X
X
2
2
CH37-DS2 N/O
CH37-DS2 N/C
CH37-DS3 N/O
CH37-DS3 N/C
CH37-DS4 N/O
CH37-DS4 N/C
CH37-CB N/O
CH37-CB N/C
X
X
0
0
X
X
0
0
CH38-DS2 N/O
CH38-DS2 N/C
CH38-DS3 N/O
CH38-DS3 N/C
CH38-DS4 N/O
CH38-DS4 N/C
CH38-CB N/O
CH38-CB N/C
X
X
1
1
X
X
1
1
Model 300s
Model 400s
---[527]CH33-BI3
[528]CH33-BI7
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Time Value
Norm
Up
Signal Delay Delay Shot
X
X
[541]CH34-BI2
[542]CH34-BI6
----[543]CH34-BI3
[544]CH34-BI7
X
X
[557]CH35-BI2
[558]CH35-BI6
----[559]CH35-BI3
[560]CH35-BI7
X
X
[573]CH36-BI2
[574]CH36-BI6
----[575]CH36-BI3
[576]CH36-BI7
X
X
[589]CH37-BI2
[590]CH37-BI6
----[591]CH37-BI3
[592]CH37-BI7
X
X
[605]CH38-BI2
[606]CH38-BI6
----[607]CH38-BI3
[608]CH38-BI7
X
X
⎯ 370 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4187
4188
4189
4190
4191
4192
4193
4194
4195
4196
4197
4198
4199
4200
4201
4202
4203
4204
4205
4206
4207
4208
4209
4210
4211
4212
4213
4214
4215
4216
4217
4218
4219
4220
4221
4222
4223
4224
4225
4226
4227
4228
4229
4230
4231
4232
4233
4234
4235
4236
4237
4238
4239
4240
4241
4242
4243
4244
4245
4246
4247
4248
4249
4250
4251
4252
4253
4254
4255
4256
4257
4258
4259
4260
4261
4262
4263
4264
4265
4266
4267
4268
4269
4270
4271
4272
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH39-DS2 N/O
CH39-DS2 N/C
CH39-DS3 N/O
CH39-DS3 N/C
CH39-DS4 N/O
CH39-DS4 N/C
CH39-CB N/O
CH39-CB N/C
X
X
2
2
X
X
2
2
CH40-DS2 N/O
CH40-DS2 N/C
CH40-DS3 N/O
CH40-DS3 N/C
CH40-DS4 N/O
CH40-DS4 N/C
CH40-CB N/O
CH40-CB N/C
X
X
0
0
X
X
0
0
CH41-DS2 N/O
CH41-DS2 N/C
CH41-DS3 N/O
CH41-DS3 N/C
CH41-DS4 N/O
CH41-DS4 N/C
CH41-CB N/O
CH41-CB N/C
X
X
1
1
X
X
1
1
CH42-DS2 N/O
CH42-DS2 N/C
CH42-DS3 N/O
CH42-DS3 N/C
CH42-DS4 N/O
CH42-DS4 N/C
CH42-CB N/O
CH42-CB N/C
X
X
2
2
X
X
2
2
CH43-DS2 N/O
CH43-DS2 N/C
CH43-DS3 N/O
CH43-DS3 N/C
CH43-DS4 N/O
CH43-DS4 N/C
CH43-CB N/O
CH43-CB N/C
X
X
0
0
X
X
0
0
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[621]CH39-BI2
[622]CH39-BI6
----[623]CH39-BI3
[624]CH39-BI7
X
X
[637]CH40-BI2
[638]CH40-BI6
----[639]CH40-BI3
[640]CH40-BI7
X
X
[653]CH41-BI2
[654]CH41-BI6
----[655]CH41-BI3
[656]CH41-BI7
X
X
[669]CH42-BI2
[670]CH42-BI6
----[671]CH42-BI3
[672]CH42-BI7
X
X
[685]CH43-BI2
[686]CH43-BI6
----[687]CH43-BI3
[688]CH43-BI7
X
X
⎯ 371 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4273
4274
4275
4276
4277
4278
4279
4280
4281
4282
4283
4284
4285
4286
4287
4288
4289
4290
4291
4292
4293
4294
4295
4296
4297
4298
4299
4300
4301
4302
4303
4304
4305
4306
4307
4308
4309
4310
4311
4312
4313
4314
4315
4316
4317
4318
4319
4320
4321
4322
4323
4324
4325
4326
4327
4328
4329
4330
4331
4332
4333
4334
4335
4336
4337
4338
4339
4340
4341
4342
4343
4344
4345
4346
4347
4348
4349
4350
4351
4352
4353
4354
4355
4356
4357
4358
Timing
Cycle
Signal
30
90 User
Logic expression
Turn
CH44-DS2 N/O
CH44-DS2 N/C
CH44-DS3 N/O
CH44-DS3 N/C
CH44-DS4 N/O
CH44-DS4 N/C
CH44-CB N/O
CH44-CB N/C
X
X
1
1
X
X
1
1
CH45-DS2 N/O
CH45-DS2 N/C
CH45-DS3 N/O
CH45-DS3 N/C
CH45-DS4 N/O
CH45-DS4 N/C
CH45-CB N/O
CH45-CB N/C
X
X
2
2
X
X
2
2
CH46-DS2 N/O
CH46-DS2 N/C
CH46-DS3 N/O
CH46-DS3 N/C
CH46-DS4 N/O
CH46-DS4 N/C
CH46-CB N/O
CH46-CB N/C
X
X
0
0
X
X
0
0
CH47-DS2 N/O
CH47-DS2 N/C
CH47-DS3 N/O
CH47-DS3 N/C
CH47-DS4 N/O
CH47-DS4 N/C
CH47-CB N/O
CH47-CB N/C
X
X
1
1
X
X
1
1
CH48-DS2 N/O
CH48-DS2 N/C
CH48-DS3 N/O
CH48-DS3 N/C
CH48-DS4 N/O
CH48-DS4 N/C
CH48-CB N/O
CH48-CB N/C
X
X
2
2
X
X
2
2
CH49-DS2
CH49-DS2
CH49-DS3
CH49-DS3
CH49-DS4
X
X
0
0
N/O
N/C
N/O
N/C
N/O
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[701]CH44-BI2
[702]CH44-BI6
----[703]CH44-BI3
[704]CH44-BI7
X
X
[717]CH45-BI2
[718]CH45-BI6
----[719]CH45-BI3
[720]CH45-BI7
X
X
[733]CH46-BI2
[734]CH46-BI6
----[735]CH46-BI3
[736]CH46-BI7
X
X
[749]CH47-BI2
[750]CH47-BI6
----[751]CH47-BI3
[752]CH47-BI7
X
X
[765]CH48-BI2
[766]CH48-BI6
----[767]CH48-BI3
[768]CH48-BI7
X
X
[781]CH49-BI2
[782]CH49-BI6
----
X
X
⎯ 372 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4359
4360
4361
4362
4363
4364
4365
4366
4367
4368
4369
4370
4371
4372
4373
4374
4375
4376
4377
4378
4379
4380
4381
4382
4383
4384
4385
4386
4387
4388
4389
4390
4391
4392
4393
4394
4395
4396
4397
4398
4399
4400
4401
4402
4403
4404
4405
4406
4407
4408
4409
4410
4411
4412
4413
4414
4415
4416
4417
4418
4419
4420
4421
4422
4423
4424
4425
4426
4427
4428
4429
4430
4431
4432
4433
4434
4435
4436
4437
4438
4439
4440
4441
4442
4443
4444
Signal
CH49-DS4 N/C
CH49-CB N/O
CH49-CB N/C
Timing
Cycle
30
90 User
Logic expression
Turn
X
X
0
0
CH50-DS2 N/O
CH50-DS2 N/C
CH50-DS3 N/O
CH50-DS3 N/C
CH50-DS4 N/O
CH50-DS4 N/C
CH50-CB N/O
CH50-CB N/C
X
X
1
1
X
X
1
1
CH51-DS2 N/O
CH51-DS2 N/C
CH51-DS3 N/O
CH51-DS3 N/C
CH51-DS4 N/O
CH51-DS4 N/C
CH51-CB N/O
CH51-CB N/C
X
X
2
2
X
X
2
2
CH52-DS2 N/O
CH52-DS2 N/C
CH52-DS3 N/O
CH52-DS3 N/C
CH52-DS4 N/O
CH52-DS4 N/C
CH52-CB N/O
CH52-CB N/C
X
X
0
0
X
X
0
0
CH53-DS2 N/O
CH53-DS2 N/C
CH53-DS3 N/O
CH53-DS3 N/C
CH53-DS4 N/O
CH53-DS4 N/C
CH53-CB N/O
CH53-CB N/C
X
X
1
1
X
X
1
1
CH54-DS2 N/O
CH54-DS2 N/C
CH54-DS3 N/O
CH54-DS3 N/C
CH54-DS4 N/O
CH54-DS4 N/C
CH54-CB N/O
CH54-CB N/C
X
X
2
2
X
X
2
2
Model 300s
Model 400s
-[783]CH49-BI3
[784]CH49-BI7
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Time Value
Norm
Up
Signal Delay Delay Shot
X
X
[797]CH50-BI2
[798]CH50-BI6
----[799]CH50-BI3
[800]CH50-BI7
X
X
[813]CH51-BI2
[814]CH51-BI6
----[815]CH51-BI3
[816]CH51-BI7
X
X
[829]CH52-BI2
[830]CH52-BI6
----[831]CH52-BI3
[832]CH52-BI7
X
X
[845]CH53-BI2
[846]CH53-BI6
----[847]CH53-BI3
[848]CH53-BI7
X
X
[861]CH54-BI2
[862]CH54-BI6
----[863]CH54-BI3
[864]CH54-BI7
X
X
⎯ 373 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4445
4446
4447
4448
4449
4450
4451
4452
4453
4454
4455
4456
4457
4458
4459
4460
4461
4462
4463
4464
4465
4466
4467
4468
4469
4470
4471
4472
4473
4474
4475
4476
4477
4478
4479
4480
4481
4482
4483
4484
4485
4486
4487
4488
4489
4490
4491
4492
4493
4494
4495
4496
4497
4498
4499
4500
4501
4502
4503
4504
4505
4506
4507
4508
4509
4510
4511
4512
4513
4514
4515
4516
4517
4518
4519
4520
4521
4522
4523
4524
4525
4526
4527
4528
4529
4530
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH55-DS2 N/O
CH55-DS2 N/C
CH55-DS3 N/O
CH55-DS3 N/C
CH55-DS4 N/O
CH55-DS4 N/C
CH55-CB N/O
CH55-CB N/C
X
X
0
0
X
X
0
0
CH56-DS2 N/O
CH56-DS2 N/C
CH56-DS3 N/O
CH56-DS3 N/C
CH56-DS4 N/O
CH56-DS4 N/C
CH56-CB N/O
CH56-CB N/C
X
X
1
1
X
X
1
1
CH57-DS2 N/O
CH57-DS2 N/C
CH57-DS3 N/O
CH57-DS3 N/C
CH57-DS4 N/O
CH57-DS4 N/C
CH57-CB N/O
CH57-CB N/C
X
X
2
2
X
X
2
2
CH58-DS2 N/O
CH58-DS2 N/C
CH58-DS3 N/O
CH58-DS3 N/C
CH58-DS4 N/O
CH58-DS4 N/C
CH58-CB N/O
CH58-CB N/C
X
X
0
0
X
X
0
0
CH59-DS2 N/O
CH59-DS2 N/C
CH59-DS3 N/O
CH59-DS3 N/C
CH59-DS4 N/O
CH59-DS4 N/C
CH59-CB N/O
CH59-CB N/C
X
X
1
1
X
X
CH60-DS2 N/O
X
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
[877]CH55-BI2
[878]CH55-BI6
----[879]CH55-BI3
[880]CH55-BI7
X
X
[893]CH56-BI2
[894]CH56-BI6
----[895]CH56-BI3
[896]CH56-BI7
X
X
[909]CH57-BI2
[910]CH57-BI6
----[911]CH57-BI3
[912]CH57-BI7
X
X
[925]CH58-BI2
[926]CH58-BI6
----[927]CH58-BI3
[928]CH58-BI7
X
X
X
X
1
1
[941]CH59-BI2
[942]CH59-BI6
----[943]CH59-BI3
[944]CH59-BI7
2
[957]CH60-BI2
X
⎯ 374 ⎯
X
X
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4531
4532
4533
4534
4535
4536
4537
4538
4539
4540
4541
4542
4543
4544
4545
4546
4547
4548
4549
4550
4551
4552
4553
4554
4555
4556
4557
4558
4559
4560
4561
4562
4563
4564
4565
4566
4567
4568
4569
4570
4571
4572
4573
4574
4575
4576
4577
4578
4579
4580
4581
4582
4583
4584
4585
4586
4587
4588
4589
4590
4591
4592
4593
4594
4595
4596
4597
4598
4599
4600
4601
4602
4603
4604
4605
4606
4607
4608
4609
4610
4611
4612
4613
4614
4615
4616
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
CH60-DS2 N/C
CH60-DS3 N/O
CH60-DS3 N/C
CH60-DS4 N/O
CH60-DS4 N/C
CH60-CB N/O
CH60-CB N/C
X
2
X
X
2
2
CH61-DS2 N/O
CH61-DS2 N/C
CH61-DS3 N/O
CH61-DS3 N/C
CH61-DS4 N/O
CH61-DS4 N/C
CH61-CB N/O
CH61-CB N/C
X
X
0
0
X
X
0
0
CH62-DS2 N/O
CH62-DS2 N/C
CH62-DS3 N/O
CH62-DS3 N/C
CH62-DS4 N/O
CH62-DS4 N/C
CH62-CB N/O
CH62-CB N/C
X
X
1
1
X
X
1
1
CH63-DS2 N/O
CH63-DS2 N/C
CH63-DS3 N/O
CH63-DS3 N/C
CH63-DS4 N/O
CH63-DS4 N/C
CH63-CB N/O
CH63-CB N/C
X
X
2
2
X
X
2
2
CH64-DS2 N/O
CH64-DS2 N/C
CH64-DS3 N/O
CH64-DS3 N/C
CH64-DS4 N/O
CH64-DS4 N/C
CH64-CB N/O
CH64-CB N/C
X
X
0
0
X
X
IND.RESET
BP BLOCK-A
CBF BLOCK-A
BP BLOCK-B
CBF BLOCK-B
X
X
X
X
X
Model 300s
Model 400s
[958]CH60-BI6
----[959]CH60-BI3
[960]CH60-BI7
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
X
[973]CH61-BI2
[974]CH61-BI6
----[975]CH61-BI3
[976]CH61-BI7
X
X
[989]CH62-BI2
[990]CH62-BI6
----[991]CH62-BI3
[992]CH62-BI7
X
X
[1005]CH63-BI2
[1006]CH63-BI6
----[1007]CH63-BI3
[1008]CH63-BI7
X
X
X
X
0
0
[1021]CH64-BI2
[1022]CH64-BI6
----[1023]CH64-BI3
[1024]CH64-BI7
0
1
2
1
2
[1040]CU-BI1
[1041]CU-BI2
[1042]CU-BI3
[1043]CU-BI4
[1044]CU-BI5
X
X
X
X
X
⎯ 375 ⎯
X
X
X
X
X
X
X
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4617
4618
4619
4620
4621
4622
4623
4624
4625
4626
4627
4628
4629
4630
4631
4632
4633
4634
4635
4636
4637
4638
4639
Timing
Cycle
Signal
30
DIFFS-ZA
DIFFS-ZB
DIFFS-ZC
DIFFS-ZD
DIFFS
DIFCH CHARA
90 User
Logic expression
Turn
Model 300s
Model 400s
X
X
X
X
X
[1]CONSTANT
[1]CONSTANT
[1]CONSTANT
[1]CONSTANT
4640 CBFFS-ZA
X
[1]CONSTANT_1
4641 CBFFS-ZB
X
[1]CONSTANT_1
4642 CBFFS-ZC
X
[1]CONSTANT_1
4643 CBFFS-ZD
X
[1]CONSTANT_1
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
4655
1 [1384]UVGZA + [1385]UVSZA + [1353]OVGZA
1 [1387]UVGZB + [1388]UVSZB + [1363]OVGZB
1 [1390]UVGZC + [1391]UVSZC + [1373]OVGZC
1 [1393]UVGZD + [1394]UVSZD + [1383]OVGZD
[1]CONSTANT 1
--
CBFFS-NOUSE
COMTP-ZA COM
COMTP-ZB COM
COMTP-ZC COM
COMTP-ZD COM
CTF BLOCK
X
[1]CONSTANT_1
4657 CBFTRFS-ZB
X
[1]CONSTANT_1
4658 CBFTRFS-ZC
X
[1]CONSTANT_1
4659 CBFTRFS-ZD
X
[1]CONSTANT_1
CBFTRFS-NOUSE
DIFZA DELAY
DIFZB DELAY
DIFZC DELAY
DIFZD DELAY
DIF DELAY
C1-CUR.BLK
C2-CUR.BLK
C3-CUR.BLK
C4-CUR.BLK
X
X
X
X
X
[1384]UVGZA + [1385]UVSZA + [1386]UVDZA
+ [1353]OVGZA
[1387]UVGZB + [1388]UVSZB + [1389]UVDZB
+ [1363]OVGZB
[1390]UVGZC + [1391]UVSZC + [1392]UVDZC
+ [1373]OVGZC
[1393]UVGZD + [1394]UVSZD + [1395]UVDZD
+ [1383]OVGZD
--
X
X
X
X
------
4656 CBFTRFS-ZA
4660
4661
4662
4663
4664
4665
4666
4667
4668
4669
4670
4671
4672
4673
4674
4675
4676
4677
4678
4679
4680
4681
4682
4683
4684
4685
4686
4687
4688
4689
4690
4691
4692
4693
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
X
X
X
0
0
0
0
0
[1384]UVGZA + [1385]UVSZA + [1386]UVDZA
+ [1353]OVGZA
[1387]UVGZB + [1388]UVSZB + [1389]UVDZB
+ [1363]OVGZB
[1390]UVGZC + [1391]UVSZC + [1392]UVDZC
+ [1373]OVGZC
X
X
X
[1393]UVGZD + [1394]UVSZD + [1395]UVDZD
+ [1383]OVGZD
--
[1585]DIFZA-OPERATE
[1586]DIFZB-OPERATE
[1587]DIFZC-OPERATE
[1588]DIFZD-OPERATE
[1584]DIFCH-OPERATE
S
S
S
S
-----
CH1-EXT-BPTP
CH2-EXT-BPTP
CH3-EXT-BPTP
CH4-EXT-BPTP
CH5-EXT-BPTP
CH6-EXT-BPTP
-------
⎯ 376 ⎯
X
X
X
X
X
X
60
60
60
60
60
ms
ms
ms
ms
ms
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4694
4695
4696
4697
4698
4699
4700
4701
4702
4703
4704
4705
4706
4707
4708
4709
4710
4711
4712
4713
4714
4715
4716
4717
4718
4719
4720
4721
4722
4723
4724
4725
4726
4727
4728
4729
4730
4731
4732
4733
4734
4735
4736
4737
4738
4739
4740
4741
4742
4743
4744
4745
4746
4747
4748
4749
4750
4751
4752
4753
4754
4755
4756
4757
4758
4759
4760
4761
4762
4763
4764
4765
4766
4767
4768
4769
4770
4771
4772
4773
4774
4775
4776
4777
4778
4779
Signal
CH7-EXT-BPTP
CH8-EXT-BPTP
CH9-EXT-BPTP
CH10-EXT-BPTP
CH11-EXT-BPTP
CH12-EXT-BPTP
CH13-EXT-BPTP
CH14-EXT-BPTP
CH15-EXT-BPTP
CH16-EXT-BPTP
CH17-EXT-BPTP
CH18-EXT-BPTP
CH19-EXT-BPTP
CH20-EXT-BPTP
CH21-EXT-BPTP
CH22-EXT-BPTP
CH23-EXT-BPTP
CH24-EXT-BPTP
CH25-EXT-BPTP
CH26-EXT-BPTP
CH27-EXT-BPTP
CH28-EXT-BPTP
CH29-EXT-BPTP
CH30-EXT-BPTP
CH31-EXT-BPTP
CH32-EXT-BPTP
CH33-EXT-BPTP
CH34-EXT-BPTP
CH35-EXT-BPTP
CH36-EXT-BPTP
CH37-EXT-BPTP
CH38-EXT-BPTP
CH39-EXT-BPTP
CH40-EXT-BPTP
CH41-EXT-BPTP
CH42-EXT-BPTP
CH43-EXT-BPTP
CH44-EXT-BPTP
CH45-EXT-BPTP
CH46-EXT-BPTP
CH47-EXT-BPTP
CH48-EXT-BPTP
CH49-EXT-BPTP
CH50-EXT-BPTP
CH51-EXT-BPTP
CH52-EXT-BPTP
CH53-EXT-BPTP
CH54-EXT-BPTP
CH55-EXT-BPTP
CH56-EXT-BPTP
CH57-EXT-BPTP
CH58-EXT-BPTP
CH59-EXT-BPTP
CH60-EXT-BPTP
CH61-EXT-BPTP
CH62-EXT-BPTP
CH63-EXT-BPTP
CH64-EXT-BPTP
CH1-CBFIO
CH2-CBFIO
CH3-CBFIO
CH4-CBFIO
CH5-CBFIO
CH6-CBFIO
CH7-CBFIO
CH8-CBFIO
CH9-CBFIO
CH10-CBFIO
CH11-CBFIO
CH12-CBFIO
CH13-CBFIO
CH14-CBFIO
CH15-CBFIO
CH16-CBFIO
CH17-CBFIO
CH18-CBFIO
CH19-CBFIO
CH20-CBFIO
CH21-CBFIO
CH22-CBFIO
CH23-CBFIO
CH24-CBFIO
CH25-CBFIO
CH26-CBFIO
CH27-CBFIO
CH28-CBFIO
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 377 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4780
4781
4782
4783
4784
4785
4786
4787
4788
4789
4790
4791
4792
4793
4794
4795
4796
4797
4798
4799
4800
4801
4802
4803
4804
4805
4806
4807
4808
4809
4810
4811
4812
4813
4814
4815
4816
4817
4818
4819
4820
4821
4822
4823
4824
4825
4826
4827
4828
4829
4830
4831
4832
4833
4834
4835
4836
4837
4838
4839
4840
4841
4842
4843
4844
4845
4846
4847
4848
4849
4850
4851
4852
4853
4854
4855
4856
4857
4858
4859
4860
4861
4862
4863
4864
4865
Signal
CH29-CBFIO
CH30-CBFIO
CH31-CBFIO
CH32-CBFIO
CH33-CBFIO
CH34-CBFIO
CH35-CBFIO
CH36-CBFIO
CH37-CBFIO
CH38-CBFIO
CH39-CBFIO
CH40-CBFIO
CH41-CBFIO
CH42-CBFIO
CH43-CBFIO
CH44-CBFIO
CH45-CBFIO
CH46-CBFIO
CH47-CBFIO
CH48-CBFIO
CH49-CBFIO
CH50-CBFIO
CH51-CBFIO
CH52-CBFIO
CH53-CBFIO
CH54-CBFIO
CH55-CBFIO
CH56-CBFIO
CH57-CBFIO
CH58-CBFIO
CH59-CBFIO
CH60-CBFIO
CH61-CBFIO
CH62-CBFIO
CH63-CBFIO
CH64-CBFIO
CH1-COM.TP
CH2-COM.TP
CH3-COM.TP
CH4-COM.TP
CH5-COM.TP
CH6-COM.TP
CH7-COM.TP
CH8-COM.TP
CH9-COM.TP
CH10-COM.TP
CH11-COM.TP
CH12-COM.TP
CH13-COM.TP
CH14-COM.TP
CH15-COM.TP
CH16-COM.TP
CH17-COM.TP
CH18-COM.TP
CH19-COM.TP
CH20-COM.TP
CH21-COM.TP
CH22-COM.TP
CH23-COM.TP
CH24-COM.TP
CH25-COM.TP
CH26-COM.TP
CH27-COM.TP
CH28-COM.TP
CH29-COM.TP
CH30-COM.TP
CH31-COM.TP
CH32-COM.TP
CH33-COM.TP
CH34-COM.TP
CH35-COM.TP
CH36-COM.TP
CH37-COM.TP
CH38-COM.TP
CH39-COM.TP
CH40-COM.TP
CH41-COM.TP
CH42-COM.TP
CH43-COM.TP
CH44-COM.TP
CH45-COM.TP
CH46-COM.TP
CH47-COM.TP
CH48-COM.TP
CH49-COM.TP
CH50-COM.TP
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 378 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4866
4867
4868
4869
4870
4871
4872
4873
4874
4875
4876
4877
4878
4879
4880
4881
4882
4883
4884
4885
4886
4887
4888
4889
4890
4891
4892
4893
4894
4895
4896
4897
4898
4899
4900
4901
4902
4903
4904
4905
4906
4907
4908
4909
4910
4911
4912
4913
4914
4915
4916
4917
4918
4919
4920
4921
4922
4923
4924
4925
4926
4927
4928
4929
4930
4931
4932
4933
4934
4935
4936
4937
4938
4939
4940
4941
4942
4943
4944
4945
4946
4947
4948
4949
4950
4951
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
CH51-COM.TP
CH52-COM.TP
CH53-COM.TP
CH54-COM.TP
CH55-COM.TP
CH56-COM.TP
CH57-COM.TP
CH58-COM.TP
CH59-COM.TP
CH60-COM.TP
CH61-COM.TP
CH62-COM.TP
CH63-COM.TP
CH64-COM.TP
---------------
S1-ZAC.RESET
S2-ZAC.RESET
S3-ZAC.RESET
S4-ZAC.RESET
C1-ZAC.RESET
C2-ZAC.RESET
C3-ZAC.RESET
--------
E1-ZAC.RESET
E2-ZAC.RESET
E3-ZAC.RESET
E4-ZAC.RESET
-----
CH1-CBFCB
CH2-CBFCB
CH3-CBFCB
CH4-CBFCB
CH5-CBFCB
CH6-CBFCB
CH7-CBFCB
CH8-CBFCB
CH9-CBFCB
CH10-CBFCB
CH11-CBFCB
CH12-CBFCB
CH13-CBFCB
CH14-CBFCB
CH15-CBFCB
CH16-CBFCB
CH17-CBFCB
CH18-CBFCB
CH19-CBFCB
CH20-CBFCB
CH21-CBFCB
CH22-CBFCB
CH23-CBFCB
CH24-CBFCB
CH25-CBFCB
CH26-CBFCB
CH27-CBFCB
CH28-CBFCB
CH29-CBFCB
CH30-CBFCB
CH31-CBFCB
CH32-CBFCB
CH33-CBFCB
CH34-CBFCB
CH35-CBFCB
CH36-CBFCB
CH37-CBFCB
CH38-CBFCB
CH39-CBFCB
CH40-CBFCB
CH41-CBFCB
CH42-CBFCB
CH43-CBFCB
CH44-CBFCB
CH45-CBFCB
CH46-CBFCB
CH47-CBFCB
CH48-CBFCB
CH49-CBFCB
CH50-CBFCB
CH51-CBFCB
CH52-CBFCB
CH53-CBFCB
CH54-CBFCB
CH55-CBFCB
CH56-CBFCB
---------------------------------------------------------
⎯ 379 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
4952
4953
4954
4955
4956
4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
4969
4970
4971
4972
4973
4974
4975
4976
4977
4978
4979
4980
4981
4982
4983
4984
4985
4986
4987
4988
4989
4990
4991
4992
4993
4994
4995
4996
4997
4998
4999
5000
5001
5002
5003
5004
5005
5006
5007
5008
5009
5010
5011
5012
5013
5014
5015
5016
5017
5018
5019
5020
5021
5022
5023
5024
5025
5026
5027
5028
5029
5030
5031
5032
5033
5034
5035
5036
5037
Signal
CH57-CBFCB
CH58-CBFCB
CH59-CBFCB
CH60-CBFCB
CH61-CBFCB
CH62-CBFCB
CH63-CBFCB
CH64-CBFCB
BU1-OUT
BU2-OUT
BU3-OUT
BU4-OUT
BU5-OUT
BU6-OUT
BU7-OUT
BU8-OUT
BU9-OUT
BU10-OUT
BU11-OUT
BU12-OUT
BU13-OUT
BU14-OUT
BU15-OUT
BU16-OUT
BU17-OUT
BU18-OUT
BU19-OUT
BU20-OUT
BU21-OUT
BU22-OUT
BU23-OUT
BU24-OUT
BU25-OUT
BU26-OUT
BU27-OUT
BU28-OUT
BU29-OUT
BU30-OUT
BU31-OUT
BU32-OUT
BU33-OUT
BU34-OUT
BU35-OUT
BU36-OUT
BU37-OUT
BU38-OUT
BU39-OUT
BU40-OUT
BU41-OUT
BU42-OUT
BU43-OUT
BU44-OUT
BU45-OUT
BU46-OUT
BU47-OUT
BU48-OUT
BU49-OUT
BU50-OUT
BU51-OUT
BU52-OUT
BU53-OUT
BU54-OUT
BU55-OUT
BU56-OUT
BU57-OUT
BU58-OUT
BU59-OUT
BU60-OUT
BU61-OUT
BU62-OUT
BU63-OUT
BU64-OUT
CH1-EFPTR R
CH2-EFPTR R
CH3-EFPTR R
CH4-EFPTR R
CH5-EFPTR R
CH6-EFPTR R
CH7-EFPTR R
CH8-EFPTR R
CH9-EFPTR R
CH10-EFPTR R
CH11-EFPTR R
CH12-EFPTR R
CH13-EFPTR R
CH14-EFPTR R
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 380 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Time Value
Norm
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047
5048
5049
5050
5051
5052
5053
5054
5055
5056
5057
5058
5059
5060
5061
5062
5063
5064
5065
5066
5067
5068
5069
5070
5071
5072
5073
5074
5075
5076
5077
5078
5079
5080
5081
5082
5083
5084
5085
5086
5087
5088
5089
5090
5091
5092
5093
5094
5095
5096
5097
5098
5099
5100
5101
5102
5103
5104
5105
5106
5107
5108
5109
5110
5111
5112
5113
5114
5115
5116
5117
5118
5119
5120
5121
5122
5123
Signal
CH15-EFPTR R
CH16-EFPTR R
CH17-EFPTR R
CH18-EFPTR R
CH19-EFPTR R
CH20-EFPTR R
CH21-EFPTR R
CH22-EFPTR R
CH23-EFPTR R
CH24-EFPTR R
CH25-EFPTR R
CH26-EFPTR R
CH27-EFPTR R
CH28-EFPTR R
CH29-EFPTR R
CH30-EFPTR R
CH31-EFPTR R
CH32-EFPTR R
CH33-EFPTR R
CH34-EFPTR R
CH35-EFPTR R
CH36-EFPTR R
CH37-EFPTR R
CH38-EFPTR R
CH39-EFPTR R
CH40-EFPTR R
CH41-EFPTR R
CH42-EFPTR R
CH43-EFPTR R
CH44-EFPTR R
CH45-EFPTR R
CH46-EFPTR R
CH47-EFPTR R
CH48-EFPTR R
CH49-EFPTR R
CH50-EFPTR R
CH51-EFPTR R
CH52-EFPTR R
CH53-EFPTR R
CH54-EFPTR R
CH55-EFPTR R
CH56-EFPTR R
CH57-EFPTR R
CH58-EFPTR R
CH59-EFPTR R
CH60-EFPTR R
CH61-EFPTR R
CH62-EFPTR R
CH63-EFPTR R
CH64-EFPTR R
CH1-EFPTR ON
CH2-EFPTR ON
CH3-EFPTR ON
CH4-EFPTR ON
CH5-EFPTR ON
CH6-EFPTR ON
CH7-EFPTR ON
CH8-EFPTR ON
CH9-EFPTR ON
CH10-EFPTR ON
CH11-EFPTR ON
CH12-EFPTR ON
CH13-EFPTR ON
CH14-EFPTR ON
CH15-EFPTR ON
CH16-EFPTR ON
CH17-EFPTR ON
CH18-EFPTR ON
CH19-EFPTR ON
CH20-EFPTR ON
CH21-EFPTR ON
CH22-EFPTR ON
CH23-EFPTR ON
CH24-EFPTR ON
CH25-EFPTR ON
CH26-EFPTR ON
CH27-EFPTR ON
CH28-EFPTR ON
CH29-EFPTR ON
CH30-EFPTR ON
CH31-EFPTR ON
CH32-EFPTR ON
CH33-EFPTR ON
CH34-EFPTR ON
CH35-EFPTR ON
CH36-EFPTR ON
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 381 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5124
5125
5126
5127
5128
5129
5130
5131
5132
5133
5134
5135
5136
5137
5138
5139
5140
5141
5142
5143
5144
5145
5146
5147
5148
5149
5150
5151
5152
5153
5154
5155
5156
5157
5158
5159
5160
5161
5162
5163
5164
5165
5166
5167
5168
5169
5170
5171
5172
5173
5174
5175
5176
5177
5178
5179
5180
5181
5182
5183
5184
5185
5186
5187
5188
5189
5190
5191
5192
5193
5194
5195
5196
5197
5198
5199
5200
5201
5202
5203
5204
5205
5206
5207
5208
5209
Timing
Cycle
Signal
CH37-EFPTR
CH38-EFPTR
CH39-EFPTR
CH40-EFPTR
CH41-EFPTR
CH42-EFPTR
CH43-EFPTR
CH44-EFPTR
CH45-EFPTR
CH46-EFPTR
CH47-EFPTR
CH48-EFPTR
CH49-EFPTR
CH50-EFPTR
CH51-EFPTR
CH52-EFPTR
CH53-EFPTR
CH54-EFPTR
CH55-EFPTR
CH56-EFPTR
CH57-EFPTR
CH58-EFPTR
CH59-EFPTR
CH60-EFPTR
CH61-EFPTR
CH62-EFPTR
CH63-EFPTR
CH64-EFPTR
CH1-TP1
CH1-TP2
CH1-BO3
CH1-BO4
CH1-BO5
CH1-BO6
CH2-TP1
CH2-TP2
CH2-BO3
CH2-BO4
CH2-BO5
CH2-BO6
CH3-TP1
CH3-TP2
CH3-BO3
CH3-BO4
CH3-BO5
CH3-BO6
CH4-TP1
CH4-TP2
CH4-BO3
CH4-BO4
CH4-BO5
CH4-BO6
CH5-TP1
CH5-TP2
CH5-BO3
CH5-BO4
CH5-BO5
CH5-BO6
CH6-TP1
CH6-TP2
CH6-BO3
CH6-BO4
CH6-BO5
CH6-BO6
CH7-TP1
CH7-TP2
CH7-BO3
CH7-BO4
CH7-BO5
CH7-BO6
CH8-TP1
CH8-TP2
30
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
----------------------------[2272]CH1-BPTP
[2528]CH1-CBF/RE
X
X
X
X
----[2273]CH2-BPTP
[2529]CH2-CBF/RE
X
X
X
X
----[2274]CH3-BPTP
[2530]CH3-CBF/RE
X
X
X
X
----[2275]CH4-BPTP
[2531]CH4-CBF/RE
X
X
X
X
----[2276]CH5-BPTP
[2532]CH5-CBF/RE
X
X
X
X
----[2277]CH6-BPTP
[2533]CH6-CBF/RE
X
X
X
X
----[2278]CH7-BPTP
[2534]CH7-CBF/RE
X
X
X
X
----[2279]CH8-BPTP
[2535]CH8-CBF/RE
X
X
⎯ 382 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5210
5211
5212
5213
5214
5215
5216
5217
5218
5219
5220
5221
5222
5223
5224
5225
5226
5227
5228
5229
5230
5231
5232
5233
5234
5235
5236
5237
5238
5239
5240
5241
5242
5243
5244
5245
5246
5247
5248
5249
5250
5251
5252
5253
5254
5255
5256
5257
5258
5259
5260
5261
5262
5263
5264
5265
5266
5267
5268
5269
5270
5271
5272
5273
5274
5275
5276
5277
5278
5279
5280
5281
5282
5283
5284
5285
5286
5287
5288
5289
5290
5291
5292
5293
5294
5295
Signal
CH8-BO3
CH8-BO4
CH8-BO5
CH8-BO6
CH9-TP1
CH9-TP2
CH9-BO3
CH9-BO4
CH9-BO5
CH9-BO6
CH10-TP1
CH10-TP2
CH10-BO3
CH10-BO4
CH10-BO5
CH10-BO6
CH11-TP1
CH11-TP2
CH11-BO3
CH11-BO4
CH11-BO5
CH11-BO6
CH12-TP1
CH12-TP2
CH12-BO3
CH12-BO4
CH12-BO5
CH12-BO6
CH13-TP1
CH13-TP2
CH13-BO3
CH13-BO4
CH13-BO5
CH13-BO6
CH14-TP1
CH14-TP2
CH14-BO3
CH14-BO4
CH14-BO5
CH14-BO6
CH15-TP1
CH15-TP2
CH15-BO3
CH15-BO4
CH15-BO5
CH15-BO6
CH16-TP1
CH16-TP2
CH16-BO3
CH16-BO4
CH16-BO5
CH16-BO6
CH17-TP1
CH17-TP2
CH17-BO3
CH17-BO4
CH17-BO5
CH17-BO6
CH18-TP1
CH18-TP2
CH18-BO3
CH18-BO4
CH18-BO5
CH18-BO6
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
----[2280]CH9-BPTP
[2536]CH9-CBF/RE
X
X
X
X
----[2281]CH10-BPTP
[2537]CH10-CBF/RE
X
X
X
X
----[2282]CH11-BPTP
[2538]CH11-CBF/RE
X
X
X
X
----[2283]CH12-BPTP
[2539]CH12-CBF/RE
X
X
X
X
----[2284]CH13-BPTP
[2540]CH13-CBF/RE
X
X
X
X
----[2285]CH14-BPTP
[2541]CH14-CBF/RE
X
X
X
X
----[2286]CH15-BPTP
[2542]CH15-CBF/RE
X
X
X
X
----[2287]CH16-BPTP
[2543]CH16-CBF/RE
X
X
X
X
----[2288]CH17-BPTP
[2544]CH17-CBF/RE
X
X
X
X
----[2289]CH18-BPTP
[2545]CH18-CBF/RE
X
X
-----
⎯ 383 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5296
5297
5298
5299
5300
5301
5302
5303
5304
5305
5306
5307
5308
5309
5310
5311
5312
5313
5314
5315
5316
5317
5318
5319
5320
5321
5322
5323
5324
5325
5326
5327
5328
5329
5330
5331
5332
5333
5334
5335
5336
5337
5338
5339
5340
5341
5342
5343
5344
5345
5346
5347
5348
5349
5350
5351
5352
5353
5354
5355
5356
5357
5358
5359
5360
5361
5362
5363
5364
5365
5366
5367
5368
5369
5370
5371
5372
5373
5374
5375
5376
5377
5378
5379
5380
5381
Signal
CH19-TP1
CH19-TP2
CH19-BO3
CH19-BO4
CH19-BO5
CH19-BO6
CH20-TP1
CH20-TP2
CH20-BO3
CH20-BO4
CH20-BO5
CH20-BO6
CH21-TP1
CH21-TP2
CH21-BO3
CH21-BO4
CH21-BO5
CH21-BO6
CH22-TP1
CH22-TP2
CH22-BO3
CH22-BO4
CH22-BO5
CH22-BO6
CH23-TP1
CH23-TP2
CH23-BO3
CH23-BO4
CH23-BO5
CH23-BO6
CH24-TP1
CH24-TP2
CH24-BO3
CH24-BO4
CH24-BO5
CH24-BO6
CH25-TP1
CH25-TP2
CH25-BO3
CH25-BO4
CH25-BO5
CH25-BO6
CH26-TP1
CH26-TP2
CH26-BO3
CH26-BO4
CH26-BO5
CH26-BO6
CH27-TP1
CH27-TP2
CH27-BO3
CH27-BO4
CH27-BO5
CH27-BO6
CH28-TP1
CH28-TP2
CH28-BO3
CH28-BO4
CH28-BO5
CH28-BO6
CH29-TP1
CH29-TP2
CH29-BO3
CH29-BO4
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
X
X
[2290]CH19-BPTP
[2546]CH19-CBF/RE
X
X
----[2291]CH20-BPTP
[2547]CH20-CBF/RE
X
X
X
X
----[2292]CH21-BPTP
[2548]CH21-CBF/RE
X
X
X
X
----[2293]CH22-BPTP
[2549]CH22-CBF/RE
X
X
X
X
----[2294]CH23-BPTP
[2550]CH23-CBF/RE
X
X
X
X
----[2295]CH24-BPTP
[2551]CH24-CBF/RE
X
X
X
X
----[2296]CH25-BPTP
[2552]CH25-CBF/RE
X
X
X
X
----[2297]CH26-BPTP
[2553]CH26-CBF/RE
X
X
X
X
----[2298]CH27-BPTP
[2554]CH27-CBF/RE
X
X
X
X
----[2299]CH28-BPTP
[2555]CH28-CBF/RE
X
X
X
X
----[2300]CH29-BPTP
[2556]CH29-CBF/RE
X
X
---
⎯ 384 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5382
5383
5384
5385
5386
5387
5388
5389
5390
5391
5392
5393
5394
5395
5396
5397
5398
5399
5400
5401
5402
5403
5404
5405
5406
5407
5408
5409
5410
5411
5412
5413
5414
5415
5416
5417
5418
5419
5420
5421
5422
5423
5424
5425
5426
5427
5428
5429
5430
5431
5432
5433
5434
5435
5436
5437
5438
5439
5440
5441
5442
5443
5444
5445
5446
5447
5448
5449
5450
5451
5452
5453
5454
5455
5456
5457
5458
5459
5460
5461
5462
5463
5464
5465
5466
5467
Signal
CH29-BO5
CH29-BO6
CH30-TP1
CH30-TP2
CH30-BO3
CH30-BO4
CH30-BO5
CH30-BO6
CH31-TP1
CH31-TP2
CH31-BO3
CH31-BO4
CH31-BO5
CH31-BO6
CH32-TP1
CH32-TP2
CH32-BO3
CH32-BO4
CH32-BO5
CH32-BO6
CH33-TP1
CH33-TP2
CH33-BO3
CH33-BO4
CH33-BO5
CH33-BO6
CH34-TP1
CH34-TP2
CH34-BO3
CH34-BO4
CH34-BO5
CH34-BO6
CH35-TP1
CH35-TP2
CH35-BO3
CH35-BO4
CH35-BO5
CH35-BO6
CH36-TP1
CH36-TP2
CH36-BO3
CH36-BO4
CH36-BO5
CH36-BO6
CH37-TP1
CH37-TP2
CH37-BO3
CH37-BO4
CH37-BO5
CH37-BO6
CH38-TP1
CH38-TP2
CH38-BO3
CH38-BO4
CH38-BO5
CH38-BO6
CH39-TP1
CH39-TP2
CH39-BO3
CH39-BO4
CH39-BO5
CH39-BO6
CH40-TP1
CH40-TP2
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
--[2301]CH30-BPTP
[2557]CH30-CBF/RE
X
X
X
X
----[2302]CH31-BPTP
[2558]CH31-CBF/RE
X
X
X
X
----[2303]CH32-BPTP
[2559]CH32-CBF/RE
X
X
X
X
----[2304]CH33-BPTP
[2560]CH33-CBF/RE
X
X
X
X
----[2305]CH34-BPTP
[2561]CH34-CBF/RE
X
X
X
X
----[2306]CH35-BPTP
[2562]CH35-CBF/RE
X
X
X
X
----[2307]CH36-BPTP
[2563]CH36-CBF/RE
X
X
X
X
----[2308]CH37-BPTP
[2564]CH37-CBF/RE
X
X
X
X
----[2309]CH38-BPTP
[2565]CH38-CBF/RE
X
X
X
X
----[2310]CH39-BPTP
[2566]CH39-CBF/RE
X
X
X
X
----[2311]CH40-BPTP
[2567]CH40-CBF/RE
X
X
⎯ 385 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5468
5469
5470
5471
5472
5473
5474
5475
5476
5477
5478
5479
5480
5481
5482
5483
5484
5485
5486
5487
5488
5489
5490
5491
5492
5493
5494
5495
5496
5497
5498
5499
5500
5501
5502
5503
5504
5505
5506
5507
5508
5509
5510
5511
5512
5513
5514
5515
5516
5517
5518
5519
5520
5521
5522
5523
5524
5525
5526
5527
5528
5529
5530
5531
5532
5533
5534
5535
5536
5537
5538
5539
5540
5541
5542
5543
5544
5545
5546
5547
5548
5549
5550
5551
5552
5553
Signal
CH40-BO3
CH40-BO4
CH40-BO5
CH40-BO6
CH41-TP1
CH41-TP2
CH41-BO3
CH41-BO4
CH41-BO5
CH41-BO6
CH42-TP1
CH42-TP2
CH42-BO3
CH42-BO4
CH42-BO5
CH42-BO6
CH43-TP1
CH43-TP2
CH43-BO3
CH43-BO4
CH43-BO5
CH43-BO6
CH44-TP1
CH44-TP2
CH44-BO3
CH44-BO4
CH44-BO5
CH44-BO6
CH45-TP1
CH45-TP2
CH45-BO3
CH45-BO4
CH45-BO5
CH45-BO6
CH46-TP1
CH46-TP2
CH46-BO3
CH46-BO4
CH46-BO5
CH46-BO6
CH47-TP1
CH47-TP2
CH47-BO3
CH47-BO4
CH47-BO5
CH47-BO6
CH48-TP1
CH48-TP2
CH48-BO3
CH48-BO4
CH48-BO5
CH48-BO6
CH49-TP1
CH49-TP2
CH49-BO3
CH49-BO4
CH49-BO5
CH49-BO6
CH50-TP1
CH50-TP2
CH50-BO3
CH50-BO4
CH50-BO5
CH50-BO6
CH51-TP1
CH51-TP2
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
----[2312]CH41-BPTP
[2568]CH41-CBF/RE
X
X
X
X
----[2313]CH42-BPTP
[2569]CH42-CBF/RE
X
X
X
X
----[2314]CH43-BPTP
[2570]CH43-CBF/RE
X
X
X
X
----[2315]CH44-BPTP
[2571]CH44-CBF/RE
X
X
X
X
----[2316]CH45-BPTP
[2572]CH45-CBF/RE
X
X
X
X
----[2317]CH46-BPTP
[2573]CH46-CBF/RE
X
X
X
X
----[2318]CH47-BPTP
[2574]CH47-CBF/RE
X
X
X
X
----[2319]CH48-BPTP
[2575]CH48-CBF/RE
X
X
X
X
----[2320]CH49-BPTP
[2576]CH49-CBF/RE
X
X
X
X
----[2321]CH50-BPTP
[2577]CH50-CBF/RE
X
X
X
X
----[2322]CH51-BPTP
[2578]CH51-CBF/RE
X
X
⎯ 386 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5554
5555
5556
5557
5558
5559
5560
5561
5562
5563
5564
5565
5566
5567
5568
5569
5570
5571
5572
5573
5574
5575
5576
5577
5578
5579
5580
5581
5582
5583
5584
5585
5586
5587
5588
5589
5590
5591
5592
5593
5594
5595
5596
5597
5598
5599
5600
5601
5602
5603
5604
5605
5606
5607
5608
5609
5610
5611
5612
5613
5614
5615
5616
5617
5618
5619
5620
5621
5622
5623
5624
5625
5626
5627
5628
5629
5630
5631
5632
5633
5634
5635
5636
5637
5638
5639
Signal
CH51-BO3
CH51-BO4
CH51-BO5
CH51-BO6
CH52-TP1
CH52-TP2
CH52-BO3
CH52-BO4
CH52-BO5
CH52-BO6
CH53-TP1
CH53-TP2
CH53-BO3
CH53-BO4
CH53-BO5
CH53-BO6
CH54-TP1
CH54-TP2
CH54-BO3
CH54-BO4
CH54-BO5
CH54-BO6
CH55-TP1
CH55-TP2
CH55-BO3
CH55-BO4
CH55-BO5
CH55-BO6
CH56-TP1
CH56-TP2
CH56-BO3
CH56-BO4
CH56-BO5
CH56-BO6
CH57-TP1
CH57-TP2
CH57-BO3
CH57-BO4
CH57-BO5
CH57-BO6
CH58-TP1
CH58-TP2
CH58-BO3
CH58-BO4
CH58-BO5
CH58-BO6
CH59-TP1
CH59-TP2
CH59-BO3
CH59-BO4
CH59-BO5
CH59-BO6
CH60-TP1
CH60-TP2
CH60-BO3
CH60-BO4
CH60-BO5
CH60-BO6
CH61-TP1
CH61-TP2
CH61-BO3
CH61-BO4
CH61-BO5
CH61-BO6
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
----[2323]CH52-BPTP
[2579]CH52-CBF/RE
X
X
X
X
----[2324]CH53-BPTP
[2580]CH53-CBF/RE
X
X
X
X
----[2325]CH54-BPTP
[2581]CH54-CBF/RE
X
X
X
X
----[2326]CH55-BPTP
[2582]CH55-CBF/RE
X
X
X
X
----[2327]CH56-BPTP
[2583]CH56-CBF/RE
X
X
X
X
----[2328]CH57-BPTP
[2584]CH57-CBF/RE
X
X
X
X
----[2329]CH58-BPTP
[2585]CH58-CBF/RE
X
X
X
X
----[2330]CH59-BPTP
[2586]CH59-CBF/RE
X
X
X
X
----[2331]CH60-BPTP
[2587]CH60-CBF/RE
X
X
X
X
----[2332]CH61-BPTP
[2588]CH61-CBF/RE
X
X
-----
⎯ 387 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
5640
5641
5642
5643
5644
5645
5646
5647
5648
5649
5650
5651
5652
5653
5654
5655
5656
5657
5658
5659
5660
5661
5662
5663
5664
5665
5666
5667
5668
5669
5670
5671
5672
5673
5674
5675
5676
5677
5678
5679
5680
5681
5682
5683
5684
5685
5686
5687
5688
5689
5690
5691
5692
5693
5694
5695
5696
5697
5698
5699
5700
5701
5702
5703
5704
5705
5706
5707
5708
5709
5710
5711
5712
5713
5714
5715
5716
5717
5718
5719
5720
5721
5722
5723
5724
5725
Signal
CH62-TP1
CH62-TP2
CH62-BO3
CH62-BO4
CH62-BO5
CH62-BO6
CH63-TP1
CH63-TP2
CH63-BO3
CH63-BO4
CH63-BO5
CH63-BO6
CH64-TP1
CH64-TP2
CH64-BO3
CH64-BO4
CH64-BO5
CH64-BO6
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
X
X
X
[2333]CH62-BPTP
[2589]CH62-CBF/RE
X
X
----[2334]CH63-BPTP
[2590]CH63-CBF/RE
X
X
X
X
----[2335]CH64-BPTP
[2591]CH64-CBF/RE
X
X
-----
⎯ 388 ⎯
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
5726
5727
5728
5729
5730
5731
5732
5733
5734
5735
5736
5737
5738
5739
5740
5741
5742
5743
5744
5745
5746
5747
5748
5749
5750
5751
5752
5753
5754
5755
5756
5757
5758
5759
5760
5761
5762
5763
5764
5765
5766
5767
5768
5769
5770
5771
5772
5773
5774
5775
5776
5777
5778
5779
5780
5781
5782
5783
5784
5785
5786
5787
5788
5789
5790
5791
5792
5793
5794
5795
5796
5797
5798
5799
5800
5801
5802
5803
5804
5805
5806
5807
5808
5809
5810
5811
⎯ 389 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
5812
5813
5814
5815
5816
5817
5818
5819
5820
5821
5822
5823
5824
5825
5826
5827
5828
5829
5830
5831
5832
5833
5834
5835
5836
5837
5838
5839
5840
5841
5842
5843
5844
5845
5846
5847
5848
5849
5850
5851
5852
5853
5854
5855
5856
5857
5858
5859
5860
5861
5862
5863
5864
5865
5866
5867
5868
5869
5870
5871
5872
5873
5874
5875
5876
5877
5878
5879
5880
5881
5882
5883
5884
5885
5886
5887
5888
5889
5890
5891
5892
5893
5894
5895
5896
5897
⎯ 390 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
5898
5899
5900
5901
5902
5903
5904
5905
5906
5907
5908
5909
5910
5911
5912
5913
5914
5915
5916
5917
5918
5919
5920
5921
5922
5923
5924
5925
5926
5927
5928
5929
5930
5931
5932
5933
5934
5935
5936
5937
5938
5939
5940
5941
5942
5943
5944
5945
5946
5947
5948
5949
5950
5951
5952
5953
5954
5955
5956
5957
5958
5959
5960
5961
5962
5963
5964
5965
5966
5967
5968
5969
5970
5971
5972
5973
5974
5975
5976
5977
5978
5979
5980
5981
5982
5983
⎯ 391 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
5984
5985
5986
5987
5988
5989
5990
5991
5992
5993
5994
5995
5996
5997
5998
5999
6000
6001
6002
6003
6004
6005
6006
6007
6008
6009
6010
6011
6012
6013
6014
6015
6016
6017
6018
6019
6020
6021
6022
6023
6024
6025
6026
6027
6028
6029
6030
6031
6032
6033
6034
6035
6036
6037
6038
6039
6040
6041
6042
6043
6044
6045
6046
6047
6048
6049
6050
6051
6052
6053
6054
6055
6056
6057
6058
6059
6060
6061
6062
6063
6064
6065
6066
6067
6068
6069
⎯ 392 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6070
6071
6072
6073
6074
6075
6076
6077
6078
6079
6080
6081
6082
6083
6084
6085
6086
6087
6088
6089
6090
6091
6092
6093
6094
6095
6096
6097
6098
6099
6100
6101
6102
6103
6104
6105
6106
6107
6108
6109
6110
6111
6112
6113
6114
6115
6116
6117
6118
6119
6120
6121
6122
6123
6124
6125
6126
6127
6128
6129
6130
6131
6132
6133
6134
6135
6136
6137
6138
6139
6140
6141
6142
6143
6144
6145
6146
6147
6148
6149
6150
6151
6152
6153
6154
6155
⎯ 393 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
6156
6157
6158
6159
6160
6161
6162
6163
6164
6165
6166
6167
6168
6169
6170
6171
6172
6173
6174
6175
6176
6177
6178
6179
6180
6181
6182
6183
6184
6185
6186
6187
6188
6189
6190
6191
6192
6193
6194
6195
6196
6197
6198
6199
6200
6201
6202
6203
6204
6205
6206
6207
6208
6209
6210
6211
6212
6213
6214
6215
6216
6217
6218
6219
6220
6221
6222
6223
6224
6225
6226
6227
6228
6229
6230
6231
6232
6233
6234
6235
6236
6237
6238
6239
6240
6241
Signal
F.RECORD1
F.RECORD2
F.RECORD3
F.RECORD4
F.RCD MODE
Timing
Cycle
30
X
90 User
Logic expression
Turn
Model 300s
Model 400s
----[1608]COM-TRIP
D.RECORD1
D.RECORD2
D.RECORD3
D.RECORD4
-----
SET.GROUP1
SET.GROUP2
SET.GROUP3
SET.GROUP4
SET.GROUP5
SET.GROUP6
SET.GROUP7
SET.GROUP8
---------
CON
CON
CON
CON
CON
CON
CON
CON
TPMD1
TPMD2
TPMD3
TPMD4
TPMD5
TPMD6
TPMD7
TPMD8
---------
PROT COM RECV
--
TPLED RST RCV
--
⎯ 394 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
X
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6242
6243
6244
6245
6246
6247
6248
6249
6250
6251
6252
6253
6254
6255
6256
6257
6258
6259
6260
6261
6262
6263
6264
6265
6266
6267
6268
6269
6270
6271
6272
6273
6274
6275
6276
6277
6278
6279
6280
6281
6282
6283
6284
6285
6286
6287
6288
6289
6290
6291
6292
6293
6294
6295
6296
6297
6298
6299
6300
6301
6302
6303
6304
6305
6306
6307
6308
6309
6310
6311
6312
6313
6314
6315
6316
6317
6318
6319
6320
6321
6322
6323
6324
6325
6326
6327
⎯ 395 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6328
6329
6330
6331
6332
6333
6334
6335
6336
6337
6338
6339
6340
6341
6342
6343
6344
6345
6346
6347
6348
6349
6350
6351
6352
6353
6354
6355
6356
6357
6358
6359
6360
6361
6362
6363
6364
6365
6366
6367
6368
6369
6370
6371
6372
6373
6374
6375
6376
6377
6378
6379
6380
6381
6382
6383
6384
6385
6386
6387
6388
6389
6390
6391
6392
6393
6394
6395
6396
6397
6398
6399
6400
6401
6402
6403
6404
6405
6406
6407
6408
6409
6410
6411
6412
6413
⎯ 396 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6414
6415
6416
6417
6418
6419
6420
6421
6422
6423
6424
6425
6426
6427
6428
6429
6430
6431
6432
6433
6434
6435
6436
6437
6438
6439
6440
6441
6442
6443
6444
6445
6446
6447
6448
6449
6450
6451
6452
6453
6454
6455
6456
6457
6458
6459
6460
6461
6462
6463
6464
6465
6466
6467
6468
6469
6470
6471
6472
6473
6474
6475
6476
6477
6478
6479
6480
6481
6482
6483
6484
6485
6486
6487
6488
6489
6490
6491
6492
6493
6494
6495
6496
6497
6498
6499
⎯ 397 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6500
6501
6502
6503
6504
6505
6506
6507
6508
6509
6510
6511
6512
6513
6514
6515
6516
6517
6518
6519
6520
6521
6522
6523
6524
6525
6526
6527
6528
6529
6530
6531
6532
6533
6534
6535
6536
6537
6538
6539
6540
6541
6542
6543
6544
6545
6546
6547
6548
6549
6550
6551
6552
6553
6554
6555
6556
6557
6558
6559
6560
6561
6562
6563
6564
6565
6566
6567
6568
6569
6570
6571
6572
6573
6574
6575
6576
6577
6578
6579
6580
6581
6582
6583
6584
6585
⎯ 398 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6586
6587
6588
6589
6590
6591
6592
6593
6594
6595
6596
6597
6598
6599
6600
6601
6602
6603
6604
6605
6606
6607
6608
6609
6610
6611
6612
6613
6614
6615
6616
6617
6618
6619
6620
6621
6622
6623
6624
6625
6626
6627
6628
6629
6630
6631
6632
6633
6634
6635
6636
6637
6638
6639
6640
6641
6642
6643
6644
6645
6646
6647
6648
6649
6650
6651
6652
6653
6654
6655
6656
6657
6658
6659
6660
6661
6662
6663
6664
6665
6666
6667
6668
6669
6670
6671
⎯ 399 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6672
6673
6674
6675
6676
6677
6678
6679
6680
6681
6682
6683
6684
6685
6686
6687
6688
6689
6690
6691
6692
6693
6694
6695
6696
6697
6698
6699
6700
6701
6702
6703
6704
6705
6706
6707
6708
6709
6710
6711
6712
6713
6714
6715
6716
6717
6718
6719
6720
6721
6722
6723
6724
6725
6726
6727
6728
6729
6730
6731
6732
6733
6734
6735
6736
6737
6738
6739
6740
6741
6742
6743
6744
6745
6746
6747
6748
6749
6750
6751
6752
6753
6754
6755
6756
6757
⎯ 400 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
Signal
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
6758
6759
6760
6761
6762
6763
6764
6765
6766
6767
6768
6769
6770
6771
6772
6773
6774
6775
6776
6777
6778
6779
6780
6781
6782
6783
6784
6785
6786
6787
6788
6789
6790
6791
6792
6793
6794
6795
6796
6797
6798
6799
6800
6801
6802
6803
6804
6805
6806
6807
6808
6809
6810
6811
6812
6813
6814
6815
6816
6817
6818
6819
6820
6821
6822
6823
6824
6825
6826
6827
6828
6829
6830
6831
6832
6833
6834
6835
6836
6837
6838
6839
6840
6841
6842
6843
⎯ 401 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
6844
6845
6846
6847
6848
6849
6850
6851
6852
6853
6854
6855
6856
6857
6858
6859
6860
6861
6862
6863
6864
6865
6866
6867
6868
6869
6870
6871
6872
6873
6874
6875
6876
6877
6878
6879
6880
6881
6882
6883
6884
6885
6886
6887
6888
6889
6890
6891
6892
6893
6894
6895
6896
6897
6898
6899
6900
6901
6902
6903
6904
6905
6906
6907
6908
6909
6910
6911
6912
6913
6914
6915
6916
6917
6918
6919
6920
6921
6922
6923
6924
6925
6926
6927
6928
6929
Signal
TEMP001
TEMP002
TEMP003
TEMP004
TEMP005
TEMP006
TEMP007
TEMP008
TEMP009
TEMP010
TEMP011
TEMP012
TEMP013
TEMP014
TEMP015
TEMP016
TEMP017
TEMP018
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
-------------------
⎯ 402 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
6930
6931
6932
6933
6934
6935
6936
6937
6938
6939
6940
6941
6942
6943
6944
6945
6946
6947
6948
6949
6950
6951
6952
6953
6954
6955
6956
6957
6958
6959
6960
6961
6962
6963
6964
6965
6966
6967
6968
6969
6970
6971
6972
6973
6974
6975
6976
6977
6978
6979
6980
6981
6982
6983
6984
6985
6986
6987
6988
6989
6990
6991
6992
6993
6994
6995
6996
6997
6998
6999
7000
7001
7002
7003
7004
7005
7006
7007
7008
7009
7010
7011
7012
7013
7014
7015
Signal
TEMP019
TEMP020
TEMP021
TEMP022
TEMP023
TEMP024
TEMP025
TEMP026
TEMP027
TEMP028
TEMP029
TEMP030
TEMP031
TEMP032
TEMP033
TEMP034
TEMP035
TEMP036
TEMP037
TEMP038
TEMP039
TEMP040
TEMP041
TEMP042
TEMP043
TEMP044
TEMP045
TEMP046
TEMP047
TEMP048
TEMP049
TEMP050
TEMP051
TEMP052
TEMP053
TEMP054
TEMP055
TEMP056
TEMP057
TEMP058
TEMP059
TEMP060
TEMP061
TEMP062
TEMP063
TEMP064
TEMP065
TEMP066
TEMP067
TEMP068
TEMP069
TEMP070
TEMP071
TEMP072
TEMP073
TEMP074
TEMP075
TEMP076
TEMP077
TEMP078
TEMP079
TEMP080
TEMP081
TEMP082
TEMP083
TEMP084
TEMP085
TEMP086
TEMP087
TEMP088
TEMP089
TEMP090
TEMP091
TEMP092
TEMP093
TEMP094
TEMP095
TEMP096
TEMP097
TEMP098
TEMP099
TEMP100
TEMP101
TEMP102
TEMP103
TEMP104
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 403 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
7016
7017
7018
7019
7020
7021
7022
7023
7024
7025
7026
7027
7028
7029
7030
7031
7032
7033
7034
7035
7036
7037
7038
7039
7040
7041
7042
7043
7044
7045
7046
7047
7048
7049
7050
7051
7052
7053
7054
7055
7056
7057
7058
7059
7060
7061
7062
7063
7064
7065
7066
7067
7068
7069
7070
7071
7072
7073
7074
7075
7076
7077
7078
7079
7080
7081
7082
7083
7084
7085
7086
7087
7088
7089
7090
7091
7092
7093
7094
7095
7096
7097
7098
7099
7100
7101
Signal
TEMP105
TEMP106
TEMP107
TEMP108
TEMP109
TEMP110
TEMP111
TEMP112
TEMP113
TEMP114
TEMP115
TEMP116
TEMP117
TEMP118
TEMP119
TEMP120
TEMP121
TEMP122
TEMP123
TEMP124
TEMP125
TEMP126
TEMP127
TEMP128
TEMP129
TEMP130
TEMP131
TEMP132
TEMP133
TEMP134
TEMP135
TEMP136
TEMP137
TEMP138
TEMP139
TEMP140
TEMP141
TEMP142
TEMP143
TEMP144
TEMP145
TEMP146
TEMP147
TEMP148
TEMP149
TEMP150
TEMP151
TEMP152
TEMP153
TEMP154
TEMP155
TEMP156
TEMP157
TEMP158
TEMP159
TEMP160
TEMP161
TEMP162
TEMP163
TEMP164
TEMP165
TEMP166
TEMP167
TEMP168
TEMP169
TEMP170
TEMP171
TEMP172
TEMP173
TEMP174
TEMP175
TEMP176
TEMP177
TEMP178
TEMP179
TEMP180
TEMP181
TEMP182
TEMP183
TEMP184
TEMP185
TEMP186
TEMP187
TEMP188
TEMP189
TEMP190
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
---------------------------------------------------------------------------------------
⎯ 404 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
PLC Default Setting
Output
№
7102
7103
7104
7105
7106
7107
7108
7109
7110
7111
7112
7113
7114
7115
7116
7117
7118
7119
7120
7121
7122
7123
7124
7125
7126
7127
7128
7129
7130
7131
7132
7133
7134
7135
7136
7137
7138
7139
7140
7141
7142
7143
7144
7145
7146
7147
7148
7149
7150
7151
7152
7153
7154
7155
7156
7157
7158
7159
7160
7161
7162
7163
7164
7165
7166
7167
Signal
TEMP191
TEMP192
TEMP193
TEMP194
TEMP195
TEMP196
TEMP197
TEMP198
TEMP199
TEMP200
TEMP201
TEMP202
TEMP203
TEMP204
TEMP205
TEMP206
TEMP207
TEMP208
TEMP209
TEMP210
TEMP211
TEMP212
TEMP213
TEMP214
TEMP215
TEMP216
TEMP217
TEMP218
TEMP219
TEMP220
TEMP221
TEMP222
TEMP223
TEMP224
TEMP225
TEMP226
TEMP227
TEMP228
TEMP229
TEMP230
TEMP231
TEMP232
TEMP233
TEMP234
TEMP235
TEMP236
TEMP237
TEMP238
TEMP239
TEMP240
TEMP241
TEMP242
TEMP243
TEMP244
TEMP245
TEMP246
TEMP247
TEMP248
TEMP249
TEMP250
TEMP251
TEMP252
TEMP253
TEMP254
TEMP255
TEMP256
Timing
Cycle
30
90 User
Logic expression
Turn
Model 300s
Model 400s
-------------------------------------------------------------------
⎯ 405 ⎯
Delay Time / Flip Flop
Flip Flop
Timer
None
Back Release Off
On One
Norm
Time Value
Up
Signal Delay Delay Shot
6 F 2 S 0 8 8 2
⎯ 406 ⎯
6 F 2 S 0 8 8 2
Appendix K
Commissioning Test Sheet (sample)
1. Relay identification
2. Preliminary check
3. Hardware check
3.1 User interface check
3.2 Binary input/binary output circuit check
3.3 AC input circuit check
4. Function test
4.1 Current differential element test
4.2 Overcurrent element test
4.3 FD element test
5. Protection scheme test
6. Metering and recording check
⎯ 407 ⎯
6 F 2 S 0 8 8 2
1.
Relay identification
Type
Serial number
Model
System frequency
Station
Date
Circuit
Engineer
Protection scheme
Witness
Active settings group number
2.
Preliminary check
Relay AC ratings
DC power supply
Wiring
Calendar and clock
3.
Hardware check
User interface check
Binary input/binary output circuit check
Binary input circuit
Binary output circuit
3.3 AC input circuit check
⎯ 408 ⎯
6 F 2 S 0 8 8 2
4.
Function test
4.1 Current differential element test
(1)Minimum operating value test
Element
Tap setting
Measured current
DIFCH
DIFZA
DIFZB
DIFZC
DIFZD
DIFSV
(2) Percentage restraining characteristic test
DIFCH
Tap setting
I
Measured current (Iout)
× Tap
× Tap
× Tap
DIFZA
Tap setting
I
Measured current (Iout)
× Tap
× Tap
× Tap
DIFZB
Tap setting
I
Measured current (Iout)
× Tap
× Tap
× Tap
DIFZC
Tap setting
I
Measured current (Iout)
× Tap
× Tap
× Tap
⎯ 409 ⎯
6 F 2 S 0 8 8 2
DIFZD
Tap setting
I
Measured current (Iout)
× Tap
× Tap
× Tap
4.2 Overcurrent element test
Element
Tap setting
1OCBF
2OCBF
3OCBF
4OCBF
5OCBF
6OCBF
7OCBF
8OCBF
9OCBF
10OCBF
11OCBF
12OCBF
13OCBF
14OCBF
15OCBF
16OCBF
17OCBF
18OCBF
19OCBF
20OCBF
21OCBF
22OCBF
23OCBF
24OCBF
25OCBF
26OCBF
27OCBF
28OCBF
29OCBF
⎯ 410 ⎯
Measured current
6 F 2 S 0 8 8 2
30OCBF
31OCBF
32OCBF
33OCBF
34OCBF
35OCBF
36OCBF
37OCBF
38OCBF
39OCBF
40OCBF
41OCBF
42OCBF
43OCBF
44OCBF
45OCBF
46OCBF
47OCBF
48OCBF
49OCBF
50OCBF
51OCBF
52OCBF
53OCBF
54OCBF
55OCBF
56OCBF
57OCBF
58OCBF
59OCBF
60OCBF
61OCBF
62OCBF
63OCBF
64OCBF
⎯ 411 ⎯
6 F 2 S 0 8 8 2
4.3 FD element test
Element
Measured value
UVSFA
UVSFB
UVSFC
UVSFD
UVGFA
UVGFB
UVGFC
UVGFD
OVGF
5.
Protection scheme test
6.
Metering and recording check
⎯ 412 ⎯
6 F 2 S 0 8 8 2
Appendix L
Return Repair Form
⎯ 413 ⎯
6 F 2 S 0 8 8 2
RETURN / REPAIR FORM
Please fill in this form and return it to Toshiba Corporation with the GRB100 to be repaired.
TOSHIBA CORPORATION
Fuchu Complex
1,Toshiba-cho, Fuchu-shi, Tokyo, Japan
For: Power Systems Protection & Control Department
Quality Assurance Section
Central Unit
Type:
GRB100
(Example: Type:
Model:
GRB100
Model: C420D-30-A0)
Product No.:
Serial No. :
Date:
Bay Unit
Type:
GRB100
(Example: Type:
Model:
GRB100
Model: B310B-21-10)
Product No.:
Serial No. :
Date:
1.
Why the relay is being returned ?
† mal-operation
† does not operate
† increased error
† investigation
† others
⎯ 414 ⎯
6 F 2 S 0 8 8 2
2.
Fault records, event records or disturbance records stored in the relay and relay settings are
very helpful information to investigate the incident.
So please inform us the information concerned in the incident with Floppy Disk, or filling
up the Fault Record sheet and Relay Setting sheet attached.
⎯ 415 ⎯
6 F 2 S 0 8 8 2
Fault Record
Date/Month/Year
/
:
Time
/
:
/
.
(Example: 04/ Nov./ 2001
15:09:58.442)
Faulty phase:
Tripping mode:
Tripped channel:
Fault values
Ida:
Idb:
Idc:
IdaA:
IdbA:
IdcA:
IdaC:
IdbC:
IdcC:
VaA:
VbA:
VcA:
VaB:
VbB:
VcB:
VaC:
VbC:
VcC:
VaD:
VbD:
VcD:
CH1
Ia:
Ib :
Ic:
CH2
Ia:
Ib :
Ic:
CH3
Ia:
Ib :
Ic:
CH3
Ia:
Ib :
Ic:
CH4
Ia:
Ib :
Ic:
(VT ratio:
%
%
%
%
%
%
%
%
%
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV/:
V)
°
°
°
°
°
°
°
°
°
°
°
°
IdaB:
IdbB:
IdcB:
IdaD:
IdbD:
IdcD:
V1A:
V2A:
V0A:
V1B:
V2B:
V0B:
V1C:
V2C:
V0C:
V1D:
V2D:
V0D:
%
%
%
%
%
%
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
°
°
°
°
°
°
°
°
°
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 416 ⎯
6 F 2 S 0 8 8 2
CH5
Ia:
Ib :
Ic:
CH6
Ia:
Ib :
Ic:
CH7
Ia:
Ib :
Ic:
CH8
Ia:
Ib :
Ic:
CH9
Ia:
Ib :
Ic:
CH10
Ia:
Ib :
Ic:
CH11
Ia:
Ib :
Ic:
CH12
Ia:
Ib :
Ic:
CH13
Ia:
Ib :
Ic:
CH14
Ia:
Ib :
Ic:
CH15
Ia:
Ib :
Ic:
CH16
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 417 ⎯
6 F 2 S 0 8 8 2
CH17
Ia:
Ib :
Ic:
CH18
Ia:
Ib :
Ic:
CH19
Ia:
Ib :
Ic:
CH20
Ia:
Ib :
Ic:
CH21
Ia:
Ib :
Ic:
CH22
Ia:
Ib :
Ic:
CH23
Ia:
Ib :
Ic:
CH22
Ia:
Ib :
Ic:
CH23
Ia:
Ib :
Ic:
CH24
Ia:
Ib :
Ic:
CH25
Ia:
Ib :
Ic:
CH26
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 418 ⎯
6 F 2 S 0 8 8 2
CH27
Ia:
Ib :
Ic:
CH28
Ia:
Ib :
Ic:
CH29
Ia:
Ib :
Ic:
CH30
Ia:
Ib :
Ic:
CH31
Ia:
Ib :
Ic:
CH32
Ia:
Ib :
Ic:
CH33
Ia:
Ib :
Ic:
CH34
Ia:
Ib :
Ic:
CH35
Ia:
Ib :
Ic:
CH36
Ia:
Ib :
Ic:
CH37
Ia:
Ib :
Ic:
CH38
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 419 ⎯
6 F 2 S 0 8 8 2
CH39
Ia:
Ib :
Ic:
CH40
Ia:
Ib :
Ic:
CH41
Ia:
Ib :
Ic:
CH42
Ia:
Ib :
Ic:
CH43
Ia:
Ib :
Ic:
CH44
Ia:
Ib :
Ic:
CH45
Ia:
Ib :
Ic:
CH46
Ia:
Ib :
Ic:
CH47
Ia:
Ib :
Ic:
CH48
Ia:
Ib :
Ic:
CH49
Ia:
Ib :
Ic:
CH50
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 420 ⎯
6 F 2 S 0 8 8 2
CH51
Ia:
Ib :
Ic:
CH52
Ia:
Ib :
Ic:
CH53
Ia:
Ib :
Ic:
CH54
Ia:
Ib :
Ic:
CH55
Ia:
Ib :
Ic:
CH56
Ia:
Ib :
Ic:
CH57
Ia:
Ib :
Ic:
CH58
Ia:
Ib :
Ic:
CH59
Ia:
Ib :
Ic:
CH60
Ia:
Ib :
Ic:
CH61
Ia:
Ib :
Ic:
CH62
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 421 ⎯
6 F 2 S 0 8 8 2
CH63
Ia:
Ib :
Ic:
CH64
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
Prefault values (VT ratio:
%
Ida:
%
Idb:
%
Idc:
:
%
IdaA
%
IdbA:
%
IdcA:
%
IdaC:
%
IdbC:
:
%
IdcC
VaA:
kV∠
VbA:
kV∠
VcA:
kV∠
VaB:
kV∠
VbB:
kV∠
VcB:
kV∠
VaC:
kV∠
VbC:
kV∠
VcC:
kV∠
VaD:
kV∠
VbD:
kV∠
VcD:
kV∠
CH1
Ia:
kA or A∠
Ib :
kA or A∠
Ic:
kA or A∠
CH2
Ia:
kA or A∠
Ib :
kA or A∠
Ic:
kA or A∠
CH3
Ia:
kA or A∠
Ib :
kA or A∠
Ic:
kA or A∠
CH3
Ia:
kA or A∠
Ib :
kA or A∠
Ic:
kA or A∠
CH4
Ia:
kA or A∠
Ib :
kA or A∠
Ic:
kA or A∠
kV/:
V)
°
°
°
°
°
°
°
°
°
°
°
°
IdaB:
IdbB:
IdcB:
IdaD:
IdbD:
IdcD:
V1A:
V2A:
V0A:
V1B:
V2B:
V0B:
V1C:
V2C:
V0C:
V1D:
V2D:
V0D:
%
%
%
%
%
%
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
kV∠
°
°
°
°
°
°
°
°
°
°
°
°
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 422 ⎯
6 F 2 S 0 8 8 2
CH5
Ia:
Ib :
Ic:
CH6
Ia:
Ib :
Ic:
CH7
Ia:
Ib :
Ic:
CH8
Ia:
Ib :
Ic:
CH9
Ia:
Ib :
Ic:
CH10
Ia:
Ib :
Ic:
CH11
Ia:
Ib :
Ic:
CH12
Ia:
Ib :
Ic:
CH13
Ia:
Ib :
Ic:
CH14
Ia:
Ib :
Ic:
CH15
Ia:
Ib :
Ic:
CH16
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 423 ⎯
6 F 2 S 0 8 8 2
CH17
Ia:
Ib :
Ic:
CH18
Ia:
Ib :
Ic:
CH19
Ia:
Ib :
Ic:
CH20
Ia:
Ib :
Ic:
CH21
Ia:
Ib :
Ic:
CH22
Ia:
Ib :
Ic:
CH23
Ia:
Ib :
Ic:
CH22
Ia:
Ib :
Ic:
CH23
Ia:
Ib :
Ic:
CH24
Ia:
Ib :
Ic:
CH25
Ia:
Ib :
Ic:
CH26
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 424 ⎯
6 F 2 S 0 8 8 2
CH27
Ia:
Ib :
Ic:
CH28
Ia:
Ib :
Ic:
CH29
Ia:
Ib :
Ic:
CH30
Ia:
Ib :
Ic:
CH31
Ia:
Ib :
Ic:
CH32
Ia:
Ib :
Ic:
CH33
Ia:
Ib :
Ic:
CH34
Ia:
Ib :
Ic:
CH35
Ia:
Ib :
Ic:
CH36
Ia:
Ib :
Ic:
CH37
Ia:
Ib :
Ic:
CH38
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 425 ⎯
6 F 2 S 0 8 8 2
CH39
Ia:
Ib :
Ic:
CH40
Ia:
Ib :
Ic:
CH41
Ia:
Ib :
Ic:
CH42
Ia:
Ib :
Ic:
CH43
Ia:
Ib :
Ic:
CH44
Ia:
Ib :
Ic:
CH45
Ia:
Ib :
Ic:
CH46
Ia:
Ib :
Ic:
CH47
Ia:
Ib :
Ic:
CH48
Ia:
Ib :
Ic:
CH49
Ia:
Ib :
Ic:
CH50
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 426 ⎯
6 F 2 S 0 8 8 2
CH51
Ia:
Ib :
Ic:
CH52
Ia:
Ib :
Ic:
CH53
Ia:
Ib :
Ic:
CH54
Ia:
Ib :
Ic:
CH55
Ia:
Ib :
Ic:
CH56
Ia:
Ib :
Ic:
CH57
Ia:
Ib :
Ic:
CH58
Ia:
Ib :
Ic:
CH59
Ia:
Ib :
Ic:
CH60
Ia:
Ib :
Ic:
CH61
Ia:
Ib :
Ic:
CH62
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
⎯ 427 ⎯
6 F 2 S 0 8 8 2
CH63
Ia:
Ib :
Ic:
CH64
Ia:
Ib :
Ic:
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
kA or A∠
kA or A∠
kA or A∠
°
°
°
I1 :
I2 :
I0:
kA or A∠
kA or A∠
kA or A∠
°
°
°
3.
What was the message on the LCD display at the time of the incident.
4.
Please write the detail of the incident.
5.
Date of the incident occurred.
Day/ Month/ Year:
/
/
(Example: 10/ July/ 2001)
6.
Please write any comments on the GRB100, including the document.
⎯ 428 ⎯
/
6 F 2 S 0 8 8 2
Customer
Name:
Company Name:
Address:
Telephone No.:
Facsimile No.:
Signature:
⎯ 429 ⎯
6 F 2 S 0 8 8 2
⎯ 430 ⎯
6 F 2 S 0 8 8 2
Appendix M
Technical Data
⎯ 431 ⎯
6 F 2 S 0 8 8 2
Technical Data
Ratings
AC current In:
AC voltage Vn:
Frequency:
DC power supply:
AC ripple on DC supply IEC60255-11
DC supply interruption IEC60255-11
Permissive duration of DC supply voltage
interruption to maintain normal operation:
Restart time:
Binary input circuit DC voltage
Overload Ratings
AC current input
AC voltage input
Burden
Central unit (CU):
AC voltage circuit:
DC power supply:
Bay unit (BU):
AC current circuit:
DC power supply:
1 BU per 1bay:
Binary input circuit:
1A or 5A
100V, 110V, 115V, 120V
50Hz or 60Hz
110Vdc/125Vdc (Operative range: 88 - 150Vdc),
220Vdc/250Vdc (Operative range: 176 - 300Vdc),
48Vdc/54Vdc/60Vdc (Operative range: 38.4 - 72Vdc)
maximum 12%
less than 50ms at 110V
less than 10s
110Vdc/125Vdc,
220Vdc/250Vdc,
48Vdc/54Vdc/60Vdc
4 times rated continuous
100 times rated for 1s
2 times rated continuous
2.5 times rated for 1s
0.1VA (at rated voltage)
less than 50W (quiescent)
0.3VA per phase (at rated 5A)
0.1VA per phase (at rated 1A)
less than 8W (quiescent)
less than 12W (operating)
≤ 0.5W/input at 110Vdc
Current Differential Protection
500 to 3000A in 1A steps (CT primary amps)
Minimum operating current (DIFCH, DIFZ):
0.30 to 0.90 in 0.1 steps
% slope (SLPCH, SLPZ):
100 to 10000A in 1A steps
Primary rating of CT:
Operating Time and Accuracy of Current Differential Element
Typical operating time:
Typical 1 cycle
Accuracy:
±5% (±7% at I < 0.3×In)
Breaker Failure (BF) Protection
0.1 to 2.0 times of current rating in 0.1 steps
Overcurrent element (OCB):
0 to 500ms in 1ms steps
BF timer for retrip of failed breaker:
50 to 500ms in 1ms steps
BF timer for related breaker trip:
less than 20ms at 50Hz or less than 17ms at 60Hz
Operating time of overcurrent element
less than 15ms at 50Hz or less than 13ms at 60Hz
Resetting time of overcurrent element
Accuracy of overcurrent element:
±5% (±10% at I < 0.5×In)
DO/PU ratio:
0.8
Voltage Check Function
20 to 60V in 1V steps
Undervoltage element (UVGF):
60 to 100V in 1V steps
Undervoltage element (UVSF):
0.1 to 10.0V in 0.1V steps
Zero-phase overvoltage element (OVGF):
0.07 times voltage before fault
Undervoltage change detection element (UVDF)
Disturbance Record Initiation
Overcurrent element:
0.1 to 10.0 times of current rating in 0.1 steps
⎯ 432 ⎯
6 F 2 S 0 8 8 2
CU to BU communication
Type (for GRB100−∗∗∗∗∗−∗∗−∗0-(J)):
Connector:
Cable with connector and length
Type (for GRB100−∗∗∗∗∗−∗∗−∗2-(J)):
Connector:
Cable:
Communication Port of Central Unit
Front communication port (local PC)
Connection
Cable type
Cable length
Connector
Rear communication port (remote PC or Substation
Automation System)
Plastic optical fibre
RFA4012GV, Specify the length when ordering.
GI optical fibre
ST connector
Graded-index multi-mode 50/125μm or 62.5/125μm
Point to point
Multi-core (straight)
15m (max.)
RS232C 9-pin D-sub miniature connector female
RS485 I/F:
Transmission data rate for RSM system
64kbps
Connection
Multidrop mode (max. 32 relays)
Connector
Screw terminals
Cable and length
Twisted pair cable with shield, max. 1200m
Isolation
2kVac for 1min.
Fibre optic I/F:
ST connector, graded-index multi-mode 62.5/125μm type
optical fibres
Ethernet LAN I/F:
100BASE-TX: RJ-45 connector
100BASE-FX: SC connector, Multimode 62.5/125μm type
optical fibres
IRIG-B Port on Central Unit
IRIG Time Code
Input impedance
Input voltage range
Connector type
Cable type
Binary Inputs
Operating voltage
Contact Ratings
Trip contacts (heavy duty contacts)
Make and carry
Break
Auxiliary contacts
Make and carry
Break
Mechanical design
Weight
Central Unit
Bay Unit
Case colour
Installation
IRIG-B122
4k-ohm
4Vp-p to 10Vp-p
BNC connector
50 ohm coaxial cable
Typical 74Vdc(min.70Vdc) for 110V/125Vdc rating
Typical 138Vdc(min.125Vdc) for 220V/250Vdc rating
Typical 31Vdc(min.28Vdc) for 48V/54V/60Vdc rating
5A continuously,
30A, 290Vdc for 0.5s (L/R=10ms)
0.15A, 290Vdc (L/R=40ms)
4A continuously,
10A, 220Vdc for 0.5s (L/R 5ms)
0.1A, 220Vdc (L/R=40ms)
12kg
9.5kg
10YR8/1
Flush mounting or rack mounting
⎯ 433 ⎯
6 F 2 S 0 8 8 2
ENVIRONMENTAL PERFORMANCE CLAIMS
Test
Atmospheric Environment
Temperature
Standards
Details
Operating range: -10°C to +55°C.
Storage / Transit: -25°C to +70°C.
56 days at 40°C and 93% relative humidity.
IP51 (Rear: IP20)
I1EC60068-2-1/2
Humidity
IEC60068-2-78
Enclosure Protection
IEC60529
Mechanical Environment
Vibration
IEC60255-21-1
Shock and Bump
IEC60255-21-2
Seismic
Electrical Environment
Dielectric Withstand
IEC60255-21-3
High Voltage Impulse
IEC60255-5
Response - Class 1
Endurance - Class 1
Shock Response Class 1
Shock Withstand Class 1
Bump Class 1
Class 1
IEC60255-5
2kVrms for 1 minute between all terminals and earth.
2kVrms for 1 minute between independent circuits.
1kVrms for 1 minute across normally open contacts.
Three positive and three negative impulses of 5kV(peak),
1.2/50μs, 0.5J between all terminals and between all terminals
and earth.
Electromagnetic Environment
High Frequency
IEC60255-22-1 Class 3,
Disturbance / Damped
IEC61000-4-12 /
Oscillatory Wave
EN61000-4-12
Electrostatic Discharge
IEC60255-22-2 Class 3,
IEC61000-4-2 / EN61000-4-2
Radiated RF
IEC60255-22-3 Class 3,
IEC61000-4-3 / EN61000-4-3
Electromagnetic
Disturbance
Fast Transient
IEC60255-22-4, IEC61000-4-4
Disturbance
/ EN61000-4-4
Surge Immunity
IEC60255-22-5,
IEC61000-4-5 / EN61000-4-5
Conducted RF
Electromagnetic
Disturbance
Power Frequency
Disturbance
Conducted and Radiated
Emissions
IEC60255-22-6 Class 3,
IEC61000-4-6 / EN61000-4-6
IEC60255-22-7,
IEC61000-4-16 /
EN61000-4-16
IEC60255-25,
EN55022 Class A,
IEC61000-6-4 / EN61000-6-4
1MHz 2.5kV applied to all ports in common mode.
1MHz 1.0kV applied to all ports in differential mode.
6kV contact discharge, 8kV air discharge.
Field strength 10V/m for frequency sweeps of 80MHz to 1GHz
and 1.7GHz to 2.2GHz. Additional spot tests at 80, 160, 450, 900
and 1890MHz.
4kV, 2.5kHz, 5/50ns applied to HV, I/O ports.
2kV, 5kHz, 5/50ns applied to RS485 port, LAN port.
1.2/50μs surge in common/differential modes:
HV ports: 2kV/1kV (peak)
PSU and I/O ports: 2kV/1kV (peak)
RS485 port: 1kV (peak)
10Vrms applied over frequency range 150kHz to 80MHz.
Additional spot tests at 27 and 68MHz.
300V 50Hz for 10s applied to ports in common mode.
150V 50Hz for 10s applied to ports in differential mode.
Not applicable to AC inputs.
Conducted emissions:
0.15 to 0.50MHz: <79dB (peak) or <66dB (mean)
0.50 to 30MHz: <73dB (peak) or <60dB (mean)
Radiated emissions (at 30m):
30 to 230MHz: <30dB
230 to 1000MHz: <37dB
⎯ 434 ⎯
6 F 2 S 0 8 8 2
Appendix N
Symbols Used in Scheme Logic
⎯ 435 ⎯
6 F 2 S 0 8 8 2
Symbols used in the scheme logic and their meanings are as follows:
Signal names
Marked with
: Measuring element output signal
Marked with
: Binary signal input from or output to the external equipment
Marked with [
Marked with "
Unmarked
]
"
: Scheme switch
: Scheme switch position
: Internal scheme logic signal
AND gates
A
B
Output
A
1
B
C
1
1
Other cases
Output
1
0
&
Output
A
1
B
C
1
0
Other cases
Output
1
0
&
Output
A
1
B
C
0
0
Other cases
Output
1
0
≥1
Output
A
0
B
C
0
0
Other cases
Output
0
1
≥1
Output
A
0
B
C
0
1
Other cases
Output
0
1
≥1
Output
A
0
B
C
1
1
Other cases
Output
0
1
&
C
A
B
C
A
B
C
OR gates
A
B
C
A
B
C
A
B
C
⎯ 436 ⎯
6 F 2 S 0 8 8 2
Signal inversion
1
A
A
0
1
Output
Output
1
0
Timer
t
Delaye pick-up timer with fixed setting
0
XXX:
Set time
XXX
0
Delayed drop-off timer with fixed setting
t
XXX:
Set time
XXX
t
Delaye pick-up timer with variable setting
0
XXX - YYY: Setting range
XXX - YYY
0
Delayed drop-off timer with variable setting
t
XXX - YYY: Setting range
XXX - YYY
One-shot timer
A
Output
A
Output
XXX - YYY
XXX - YYY: Setting range
Flip-flop
S
0
1
0
1
S
F/F
Output
R
R
0
0
1
1
Output
No change
1
0
0
Scheme switch
A
Output
ON
+
Output
ON
⎯ 437 ⎯
A
Switch
1
ON
Other cases
Switch
ON
OFF
Output
1
0
Output
1
0
6 F 2 S 0 8 8 2
⎯ 438 ⎯
6 F 2 S 0 8 8 2
Appendix O
Sample of Setting Calculation
⎯ 439 ⎯
6 F 2 S 0 8 8 2
1.
Power System Data
Example
• VT Ratio:
154kV/115V
• CT Ratio:
2000A/5A
•
Minimum fault current:
2000A (Assumption)
•
Number of feeder :
8 feeders (10 channels)
10 feeders
(12 channels)
12 feeders
(14 channels)
2. Relay Setting
- Relay application:
Relay type:
GRB100
⎯ 440 ⎯
6 F 2 S 0 8 8 2
Setting Calculation
3.1
DIF setting
The setting of DIF (DIFCH and DIFZ) is determined from the minimum fault IFmin current that
can occur on the busbar fault.
DIF setting < 0.8 x IFmin
0.8 : Margin
The setting is based on the primary circuit value, so IFmin is a primary value. The CT ratios or
the difference of the CT ratios between the channels can be disregarded in the setting.
If the minimum operating current is set too low when the CT primary rating is high, the
operation error of the differential element is increased as shown in Figure 3.1.1. If it is required
to keep the accuracy of minimum operating current less than 5%, the following condition must
be checked for the DIFCH and DIFZ setting obtained above depending on the total number of
channels.
0.64 × CT primary rating < DIF setting for 49 - 64 channels
0.50 × CT primary rating < DIF setting for 33 - 48 channels
0.40 × CT primary rating < DIF setting for 25 - 32 channels
0.34 × CT primary rating < DIF setting for 17- 24 channels
0.28 × CT primary rating < DIF setting for 9 - 16 channels
0.23 × CT primary rating < DIF setting for 1 - 8 channels
10
9
64 Channels
48 Channels
32 Channels
24 Channels
16 Channels
8 Channels
8
7
Error (%)
3.
6
5
4
3
2
1
0
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
DIF Setting/CT Primary Rating
Figure 3.1.1 Accuracy Check
⎯ 441 ⎯
0.8
0.9
1
6 F 2 S 0 8 8 2
DIFCH, DIFZ = 0.8 x IFmin
= 0.8 x 2,000A
= 1,600A
Checking for accuracy of minimum operating current less than 5%.
When the number of feeder is 8 – 12, the number of channel is 10 – 14 channels.
0.28 x CT primary rating < DIF setting for 9 – 16 channels
0.28 x 2,000A < 1,600A
560A < 1,600A
(Example)
3.2
Element
Setting
DIFCH
1,600A
DIFZ
1,600A
DIF setting (Slope setting)
This slope is set to a ratio of 50% (ratio of incoming to outgoing), considering the maximum
outgoing current 1/2 (2 is incoming and 1 is outgoing) in the event of a busbar fault as shown in
Figure 3.2.1 below.
Id / IR = 1/3
Id
Operate
CB
3
CB
Iko
CB
IR
10
Id: Differential current, IR: Restraint current, Iko: Min. operating current
Figure
3.2.1
Percentage Restraining Characteristic
In the above case, Differential current(Id) is 1 and Restraint current(IR) is 3.
So,
SLPCH, SLPZ = 0.3 < Id / IR = 1/3
Element
Setting
SLPCH
0.3
SLPZ
0.3
⎯ 442 ⎯
Id = 1
IR = 3
CB
OPEN
6 F 2 S 0 8 8 2
3.3
nOCBF setting
The overcurrent element nOCBF checks that the breaker has opened and the current has
disappeared. Therefore, since it is allowed to respond to the load current, it can be set from 10 to
200% of the rated current.
The setting of TnB2 are determined by the opening time of the original breaker (Tcb in Figure
3.3.1) and the reset time of the overcurrent element (Toc in Figure 3.3.1).
TnB2
= Breaker opening time + nOCBF reset time + Margin
= 50ms + 10ms +20ms
= 80ms
(Example)
Element
Setting
nOCB
0.8
TnB2
80ms
nBFEXT
ON
nBF1
OFF
nBF2
ON
Remark
Retrip is no used
n: 1 to 64
Fault
Start CBF
Trip
Adjacent
breakers Closed
Open
TRIP
Retrip
Normal trip
Original
breaker Closed
Open
Tcb
Open
Tcb
nOCBF
Toc
Toc
TB1
TnB1
RETRIP
TB2
TnB2
nCBFTRIP
Tcb: operating time of the original breaker
Toc: reset time of the overcurrent element nOCBF
Figure 3.3.1 Sequence Diagram
⎯ 443 ⎯
6 F 2 S 0 8 8 2
3.4
Undervoltage elements setting
The undervoltage element (UVSF, UVGF) is set to about 70% of the rated voltage.
(Example)
3.5
Element
Setting
UVSF
80V
UVGF
46V
DIFSV setting
The setting of DIFSV for differential current monitoring is determined from the maximum
erroneous differential current during normal service condition.
(Example 1)
DIFSV setting >
maximum erroneous differential current
ε×
=
n
× ILmax
ε:
CT error
n:
Number of channel
ILmax: Maximum load current (assumed to be
max. CT primary rating current)
DIFSV
= 1.2 × 0.05 ×
× 2000A
10
= 1.2 × 320A
= 384A
ε = 5%, n = 10, ILmax = 2000 (Primary rating)
1.2 = Margin
Element
Setting
DIFSV
380A
(Example 2)
DIFSV setting = 1.2 × (2 times of the differential current measured in normal service
condition)
1.2 = Margin
When the differential current measured in normal service condition is 10% of DIF setting,
DIFSV
= 1.2 × 1600A × 0.1 × 2
= 1.2 × 320A
= 384A
Element
Setting
DIFSV
380A
⎯ 444 ⎯
6 F 2 S 0 8 8 2
3.6
UVDF setting
The sensitivity of UVDF is fixed. The UVDF operates if a voltage drops by 7% compared to
that of two cycles before. The UVDF can detect the voltage drop in the system condition
SIR≥0.1 as a fault detector for CBF initiation as described below.
(Description)
ZL
ZF
ZB
I
UVDF
F
V
ZB : Back source impedance
ZL : Line impedance
ZF : Fault point impedance
I : Relay input current
V: Relay input voltage
I=
V
Z B + ZF
V
ZL(ZB/ZL + ZF/ZL)
=
SIR
I=
E
ZL(SIR + %) ,
When SIR = 0.1 and
V=
V=
SIR : Source Impedance Ratio
%
E
SIR + %
E : Rated voltage
% = 1(ZL = ZF), the voltage drop V is as follows:
E
0.1 + 1 = 0.91E
Therefore, the UVDF with 7% fixed setting can detect the voltage drop in the system condition
SIR≥0.1.
The following table shows the voltage drop depending on SIR.
SIR
V (pu)
0.1
0.3
0.5
1
0.91
0.77
0.67
0.50
⎯ 445 ⎯
6 F 2 S 0 8 8 2
⎯ 446 ⎯
6 F 2 S 0 8 8 2
Appendix P
IEC60870-5-103: Interoperability
⎯ 447 ⎯
6 F 2 S 0 8 8 2
IEC60870-5-103 Configurator
IEC103 configurator software is included in a same CD as RSM100, and can be installed easily
as follows:
Installation of IEC103 Configurator
Insert the CD-ROM (RSM100) into a CDROM drive to install this software on a PC.
Double click the “Setup.exe” of the folder “¥IEC103Conf” under the root directory, and operate
it according to the message.
When installation has been completed, the IEC103 Configurator will be registered in the start
menu.
Starting IEC103 Configurator
Click [Start]→[Programs]→[IEC103 Configurator]→[IECConf] to the IEC103 Configurator
software.
Note: The instruction manual of IEC103 Configurator can be viewed by clicking
[Help]→[Manual] on IEC103 Configurator.
IEC60870-5-103: Interoperability
1. Physical Layer
1.1 Electrical interface: EIA RS-485
Number of loads, 32 for one protection equipment
1.2 Optical interface
Glass fibre (option)
ST type connector (option)
1.3 Transmission speed
User setting: 9600 or 19200 bit/s
2. Application Layer
COMMON ADDRESS of ASDU
One COMMON ADDRESS OF ASDU (identical with station address)
3. List of Information
The following items can be customized with the original software tool “IEC103 configurator”.
(For details, refer to “IEC103 configurator” manual No.6F2S0839.)
-
Items for “Time-tagged message”: Type ID(1/2), INF, FUN, Transmission condition(Signal
number), COT
-
Items for “Time-tagged measurands”: INF, FUN, Transmission condition(Signal number),
COT, Type of measurand quantities
-
Items for “General command”: INF, FUN, Control condition(Signal number)
-
Items for “Measurands”: Type ID(3/9), INF, FUN, Number of measurand, Type of
measurand quantities
-
Common setting
• Transmission cycle of Measurand frame
• FUN of System function
• Test mode, etc.
⎯ 448 ⎯
6 F 2 S 0 8 8 2
Note:
To be effective the setting data written via the RS232C, turn off the DC supply of the relay
and turn on again.
3. 1 IEC60870-5-103 Interface
3.1.1 Spontaneous events
The events created by the relay will be sent using Function type (FUN) / Information numbers
(INF) to the IEC60870-5-103 master station.
3.1.2 General interrogation
The GI request can be used to read the status of the relay, the Function types and Information
numbers that will be returned during the GI cycle are shown in the table below.
For details, refer to the standard IEC60870-5-103 section 7.4.3.
3.1.3 Cyclic measurements
The relay will produce measured values using Type ID=3 or 9 on a cyclical basis, this can be
read from the relay using a Class 2 poll. The rate at which the relay produces new measured
values can be customized.
3.1.4 Commands
The supported commands can be customized. The relay will respond to non-supported
commands with a cause of transmission (COT) of negative acknowledgement of a command.
For details, refer to the standard IEC60870-5-103 section 7.4.4.
3.1.5 Test mode
In test mode, both spontaneous messages and polled measured values, intended for processing in
the control system, are designated by means of the CAUSE OF TRANSMISSION ‘test mode’.
This means that CAUSE OF TRANSMISSION = 7 ‘test mode’ is used for messages normally
transmitted with COT=1 (spontaneous) or COT=2 (cyclic).
For details, refer to the standard IEC60870-5-103 section 7.4.5.
3.1.6 Blocking of monitor direction
If the blocking of the monitor direction is activated in the protection equipment, all indications
and measurands are no longer transmitted.
For details, refer to the standard IEC60870-5-103 section 7.4.6.
3.2 List of Information
The followings are the default settings.
⎯ 449 ⎯
6 F 2 S 0 8 8 2
List of Information
IEC103 Configurator Default setting
INF
Description
Contents
GI Type
ID
COT
FUN
DPI
Signal No. OFF ON
Standard Information numbers in monitor direction
System Function
0 End of General Interrogation
Transmission completion of GI items.
--
8
10
255
--
--
--
0 Time Synchronization
Time Synchronization ACK.
--
6
8
255
--
--
--
2 Reset FCB
Reset FCB(toggle bit) ACK
--
5
3
220
--
--
--
3 Reset CU
Reset CU ACK
--
5
4
220
--
--
--
4 Start/Restart
Relay start/restart
--
5
5
220
5
Relay power on.
Power On
Not supported
--
--
--
--
--
--
Status Indications
16 Auto-recloser active
17 Teleprotection active
18 Protection active
19 LED reset
20 Monitor direction blocked
21 Test mode
22 Local parameter Setting
If it is possible to use auto-recloser, this item is set
active, if impossible, inactive.
If protection using telecommunication is available,
this item is set to active. If not, set to inactive.
If the protection is available, this item is set to
active. If not, set to inactive.
Reset of latched LEDs
Block the 103 transmission from a relay to control
system. IECBLK: "Blocked" settimg.
Transmission of testmode situation from a relay to
control system. IECTST "ON" setting.
When a setting change has done at the local, the
event is sent to control system.
Not supported
Not supported
GI
1
1, , 9, 12
220
3087
1
2
--
1
1, 11, 12
220
3083
--
2
GI
1
9, 11
220
2816
1
2
GI
1
9, 11
220
2817
1
2
Not supported
23 Characteristic1
Setting group 1 active
GI
1
1, 9, 11, 12
220
2818
1
2
24 Characteristic2
Setting group 2 active
GI
1
1, 9, 11, 12
220
2819
1
2
25 Characteristic3
Setting group 3 active
GI
1
1, 9, 11, 12
220
2820
1
2
26 Characteristic4
Setting group 4 active
GI
1
1, 9, 11, 12
220
2821
1
2
27 Auxiliary input1
Binary input 1
No set
28 Auxiliary input2
Binary input 2
No set
29 Auxiliary input3
Binary input 3
No set
30 Auxiliary input4
Binary input 4
No set
Supervision Indications
32 Measurand supervision I
Zero sequence current supervision
GI
1
1, 9
220
2842
1
2
33 Measurand supervision V
Zero sequence voltage supervision
GI
1
1, 9
220
2843
1
2
35 Phase sequence supervision
Negative sequence voltage supevision
GI
1
1, 9
220
2844
1
2
36 Trip circuit supervision
Output circuit supervision
GI
1
1, 9
220
2834
1
2
37 I>>backup operation
Not supported
38 VT fuse failure
VT failure
Not supported
39 Teleprotection disturbed
CF(Communication system Fail) supervision
Not supported
46 Group warning
Only alarming
GI
1
1, 9
220
2833
1
2
47 Group alarm
Trip blocking and alarming
GI
1
1, 9
220
2827
1
2
Earth Fault Indications
48 Earth Fault L1
A phase earth fault
Not set
49 Earth Fault L2
B phase earth fault
Not set
50 Earth Fault L3
C phase earth fault
Not set
51 Earth Fault Fwd
Earth fault forward
Not supported
52 Earth Fault Rev
Earth fault reverse
Not supported
⎯ 450 ⎯
6 F 2 S 0 8 8 2
IEC103 Configurator Default setting
INF
Description
Contents
GI
Type
ID
COT
FUN
DPI
Signal NO. OFF ON
Fault Indications
64
Start/pick-up L1
A phase, A-B phase or C-A phase element pick-up
65
Start/pick-up L2
B phase, A-B phase or B-C phase element pick-up
No set
No set
66
Start/pick-up L3
C phase, B-C phase or C-A phase element pick-up
No set
67
Start/pick-up N
Earth fault element pick-up
68
General trip
Any trip
69
Trip L1
A phase, A-B phase or C-A phase trip
70
Trip L2
B phase, A-B phase or B-C phase trip
No set
71
Trip L3
C phase, B-C phase or C-A phase trip
No set
72
Trip I>>(back-up)
Back up trip
Not supported
73
Fault location X In ohms
Fault location
Not supported
74
Fault forward/line
Forward fault
Not supported
75
Fault reverse/Busbar
Reverse fault
Not supported
76
Teleprotection Signal
transmitted
Carrier signal sending
Not supported
Not supported
--
2
1
220
No set
77
Teleprotection Signal received Carrier signal receiving
Not supported
78
Zone1
Zone 1 trip
Not supported
79
Zone2
Zone 2 trip
Not supported
80
Zone3
Zone 3 trip
Not supported
81
Zone4
Zone 4 trip
Not supported
82
Zone5
Zone 5 trip
Not supported
83
Zone6
Zone 6 trip
Not supported
84
General Start/Pick-up
Any elements pick-up
85
Breaker Failure
CBF trip or CBF retrip
86
Trip measuring system L1
Not supported
87
Trip measuring system L2
Not supported
88
Trip measuring system L3
Not supported
89
Trip measuring system E
90
Trip I>
No set
No set
Not supported
Inverse time OC trip
Not supported
91
Trip I>>
Definite time OC trip
Not supported
92
Trip IN>
Inverse time earth fault OC trip
Not supported
93
Trip IN>>
Definite time earth fault OC trip
Not supported
CB close command output
Not supported
Autoreclose indications
128 CB 'ON' by Autoreclose
CB 'ON' by long-time
129
Autoreclose
130 Autoreclose Blocked
Not supported
Autoreclose block
Not supported
⎯ 451 ⎯
2855
--
2
6 F 2 S 0 8 8 2
IEC103 configurator Default setting
INF
Description
Contents
GI
Type
COT
ID
FUN
Max. No.
Measurands
144 Measurand I
<meaurand I>
No
0
145 Measurand I,V
<meaurand I>
No
0
146 Measurand I,V,P,Q
<meaurand I>
No
0
147 Measurand IN,VEN
<meaurand I>
No
0
Measurand IL1,2,3, VL1,2,3,
148
P,Q,f
CH1-Ia, CH2-Ib, CH3-Ic, f measurand <meaurand
II>
--
9
2, 7
220
Generic Function
240 Read Headings
Not supported
Read attributes of all entries
241
of a group
Not supported
243 Read directory of entry
Not supported
244 Real attribute of entry
Not supported
245 End of GGI
Not supported
249 Write entry with confirm
Not supported
250 Write entry with execute
Not supported
251 Write entry aborted
Not supported
Details of MEA settings in IEC103 configurator
INF MEA
148
Tbl
Offset Data type
Limit
Coeff
Lower
Upper
CH1-Ia
1
96
short
0
4096
4.266666
CH1-Ib
1
100
short
0
4096
4.266666
CH1-Ic
1
104
short
0
4096
4.266666
2
0
short
0
4096
0.34133
(empty)
(empty)
(empty)
(empty)
(empty)
f
⎯ 452 ⎯
9
6 F 2 S 0 8 8 2
IEC103 Configurator Default setting
INF
Description
Contents
Control
direction
Type
ID
COT
FUN
--
7
9
255
--
6
8
255
Selection of standard information numbers in control direction
System functions
Initiation of general
0
interrogation
0
Time synchronization
General commands
16
Auto-recloser on/off
17
Teleprotection on/off
Not supported
18
Protection on/off
(*1)
19
LED reset
23
24
Not supported
ON/OFF
20
20
220
Reset indication of latched LEDs.
ON
20
20
220
Activate characteristic 1
Setting Group 1
ON
20
20
220
Activate characteristic 2
Setting Group 2
ON
20
20
220
25
Activate characteristic 3
Setting Group 3
ON
20
20
220
26
Activate characteristic 4
Setting Group 4
ON
20
20
220
Generic functions
Read headings of all defined
240
groups
Read values or attributes of all
241
entries of one group
Read directory of a single
243
entry
Read values or attributes of a
244
single entry
General Interrogation of
245
generic data
Not supported
Not supported
Not supported
Not supported
Not supported
248 Write entry
Not supported
249 Write entry with confirmation
Not supported
250 Write entry with execution
Not supported
(∗1) Note: While the relay receives the "Protection off" command, " IN SERVICE LED" is off.
Details of Command settings in IEC103 configurator
DCO
INF
Sig off
Sig on
Rev
18
2686
2686
✓
19
0
2688
200
23
0
2640
1000
24
0
2641
1000
25
0
2642
1000
26
0
2643
1000
Valid time
0
✓: signal reverse
⎯ 453 ⎯
6 F 2 S 0 8 8 2
Description
GRB100
supported
Contents
Basic application functions
Test mode
Yes
Blocking of monitor direction
Yes
Disturbance data
No
Generic services
No
Private data
Yes
Miscellaneous
Max. MVAL = rated
value times
Measurand
Current L1
Ia
Configurable
Current L2
Ib
Configurable
Current L3
Ic
Configurable
Voltage L1-E
Va
No set
Voltage L2-E
Vb
No set
Voltage L3-E
Vc
No set
Active power P
P
No set
Reactive power Q
Q
No set
Frequency f
f
Configurable
Voltage L1 - L2
Vab
No set
Details of Common settings in IEC103 configurator
- Setting file’s remark:
IGRB100DA001
- Remote operation valid time [ms]:
4000
- Local operation valid time [ms]:
4000
- Measurand period [s]:
2
- Function type of System functions: 220
- Signal No. of Test mode:
2817
- Signal No. for Real time and Fault number: 2854
⎯ 454 ⎯
Comment
6 F 2 S 0 8 8 2
[Legend]
GI: General Interrogation (refer to IEC60870-5-103 section 7.4.3)
Type ID: Type Identification (refer to IEC60870-5-103 section 7.2.1)
1 : time-tagged message
2 : time-tagged message with relative time
3 : measurands I
4 : time-tagged measurands with relative time
5 : identification
6 : time synchronization
8 : general interrogation termination
9 : measurands II
10: generic data
11: generic identification
20: general command
23: list of recorded disturbances
26: ready for transmission for disturbance data
27: ready for transmission of a channel
28: ready for transmission of tags
29: transmission of tags
30: transmission of disturbance values
31: end of transmission
COT: Cause of Transmission (refer to IEC60870-5-103 section 7.2.3)
1: spontaneous
2: cyclic
3: reset frame count bit (FCB)
4: reset communication unit (CU)
5: start / restart
6: power on
7: test mode
8: time synchronization
9: general interrogation
10: termination of general interrogation
11: local operation
12: remote operation
20: positive acknowledgement of command
21: negative acknowledgement of command
31: transmission of disturbance data
40: positive acknowledgement of generic write command
41: negative acknowledgement of generic write command
42: valid data response to generic read command
43: invalid data response to generic read command
44: generic write confirmation
FUN: Function type (refer to IEC60870-5-103 section 7.2.5.1)
DPI: Double-point Information (refer to IEC60870-5-103 section 7.2.6.5)
DCO: Double Command (refer to IEC60870-5-103 section 7.2.6.4)
⎯ 455 ⎯
6 F 2 S 0 8 8 2
IEC103 setting data is recommended to be saved as follows:
(1) Naming for IEC103setting data
The file extension of IEC103 setting data is “.csv”. The version name is recommended to be
provided with a revision number in order to be changed in future as follows:
First draft:
∗∗∗∗∗∗_01.csv
Second draft:
∗∗∗∗∗∗_02.csv
Third draft:
∗∗∗∗∗∗_03.csv
Revision number
The name “∗∗∗∗∗∗” is recommended to be able to discriminate the relay type such as GRZ100
or GRL100, etc. The setting files remark field of IEC103 is able to enter up to 12 one-byte
characters. It is utilized for control of IEC103 setting data.
(2) Saving theIEC103 setting data
The IEC103 setting data is recommended to be saved in external media such as FD (floppy disk)
or CD-R, not to remain in the folder.
⎯ 456 ⎯
6 F 2 S 0 8 8 2
Troubleshooting
No.
Phenomena
Supposed causes
Check / Confirmation
Object
1
Communication
trouble (IEC103
communication is
not available.)
Address setting is incorrect.
Procedure
BCU
Match address setting between BCU and relay.
RY
Avoid duplication of address with other relay.
Transmission baud rate setting is
incorrect.
BCU
Match transmission baud rate setting between
BCU and relay.
Start bit, stop bit and parity settings of
data that BCU transmits to relay is
incorrect.
BCU
Go over the following settings by BCU. Relay
setting is fixed as following settings.
- Start bit: 1bit
- Stop bit: 1bit
- Parity setting: even
The PRTCL1 setting is incorrect. (The
model with PRTCL1 setting.)
RY
Change the PRTCL1 setting. Relation between
PRTCL1 setting and available transmission
protocol is referred to the following table.
RY
RS485 port at the
back of the relay
PRTCL1
=HDLC
PRTCL1
=IEC
COM
HDLC
IEC
RS485 or optical cable interconnection
is incorrect.
Cable
- Check the connection port.(CH1)
- Check the interconnection of RS485 A/B/COM
- Check the send and received interconnection of
optical cable.
The setting of converter is incorrect.
(RS485/optic conversion is executed
with the transmission channel, etc.)
Converter
In the event of using G1IF2, change the DIPSW
setting in reference to INSTRUCTION MANUAL
(6F2S0794).
The relationship between logical “0/1”
of the signal and Sig.on/off is incorrect.
(In the event of using optical cable)
BCU
Check the following;
Logical0 : Sig.on
Logical1:Sig.off
Terminal resistor is not offered.
(Especially when RS485 cable is long.)
cable
Impose terminal resistor (150[ohms]) to both
ends of RS 485 cable.
Relay cannot receive the requirement
frame from BCU.
BCU
Check to secure the margin more than 15ms
between receiving the reply frame from the relay
and transmitting the next requirement frame on
BCU.
BCU
Check to set the time-out of reply frame from the
relay.
(The timing coordination of sending and
receiving switch control is irregular in
half-duplex communication.)
The requirement frame from BCU and
the reply frame from relay contend.
(The sending and receiving timing
coordination is irregular in half-duplex
communication.)
⎯ 457 ⎯
Time-out setting: more than 100ms (acceptable
value of response time 50ms
plus margin)
6 F 2 S 0 8 8 2
No.
Phenomena
Supposed causes
Check / Confirmation
Object
2
3
HMI does not
display IEC103
event on the SAS
side.
Time can be
synchronised with
IEC103
communication.
Procedure
The relevant event sending condition is
not valid.
RY
Change the event sending condition (signal
number) of IEC103 configurator if there is a
setting error. When the setting is correct, check
the signal condition by programmable LED, etc.
The relevant event Information Number
(INF) and/or Function Type (FUN) may
be different between the relay and SAS.
RY
Match the relevant event Information Number
(INF) or Function Type (FUN) between the relay
and SAS.
The relay is not initialised after writing
IEC103 configurator setting.
RY
Check the sum value of IEC103 setting data from
the LCD screen. When differing from the sum
value on IEC103 configurator, initialise the relay.
It changes to the block mode.
RY
Change the IECBR settling to Normal.
BCU does not transmit the frame of
time synchronisation.
BCU
Transmit the frame of time synchronisation.
The settling of time synchronisation
source is set to other than IEC.
RY
Change the settling of time synchronisation
source to IEC.
SAS
(Note) BCU: Bay control unit, RY: Relay
⎯ 458 ⎯
6 F 2 S 0 8 8 2
Appendix Q
IEC61850 : MICS & PICS Setting
⎯ 459 ⎯
6 F 2 S 0 8 8 2
MICS: IEC61850 Model Implementation Conformance Statement
The GRB100 relay supports IEC 61850 logical nodes and common data classes as indicated in the following
tables.
Logical nodes in IEC 61850-7-4
Logical Nodes
GRB100
L: System Logical Nodes
LPHD
Yes
Common Logical Node
Yes
LLN0
Yes
P: Logical Nodes for Protection functions
PDIF
Yes
PDIR
--PDIS
--PDOP
--PDUP
--PFRC
--PHAR
--PHIZ
--PIOC
--PMRI
--PMSS
--POPE
--PPAM
--PSCH
--PSDE
--PTEF
--PTOC
--PTOF
--PTOV
--PTRC
--PTRC_CHEX
Yes
PTTR
--PTUC
--PTUV
--PUPF
--PTUF
--PVOC
--PVPH
--PZSU
--R: Logical Nodes for protection related functions
RDRE
--RADR
--RBDR
--RDRS
--RBRF
--RBRF_EX
Yes
RBRF_CHEX
Yes
RDIR
--RFLO
--RPSB
--RREC
--RSYN
--C: Logical Nodes for Control
CALH
--CCGR
--CILO
--CPOW
--CSWI
--G: Logical Nodes for Generic references
GAPC
Yes
GGIO
Yes
GGIO_GOOSE
Yes
GSAL
--I: Logical Nodes for Interfacing and archiving
IARC
--IHMI
--ITCI
--ITMI
--A: Logical Nodes for Automatic control
ANCR
--ARCO
--ATCC
--AVCO
--M: Logical Nodes for Metering and measurement
MDIF
--MHAI
--MHAN
--MMTR
--MMXN
--MMXU
Yes
MMXU_CHEX
Yes
MSQI
Yes
MSQI_CHEX
Yes
MSTA
--S: Logical Nodes for Sensors and monitoring
SARC
--SIMG
--SIML
--SPDC
--X: Logical Nodes for Switchgear
XCBR
--XSWI
--T: Logical Nodes for Instrument transformers
TCTR
--TVTR
--Y: Logical Nodes for Power transformers
YEFN
--YLTC
--YPSH
--YPTR
--Z: Logical Nodes for Further power system equipment
ZAXN
--ZBAT
--ZCAB
--ZCAP
--ZCON
--ZGEN
--ZGIL
--ZLIN
--ZMOT
--ZREA
--ZRRC
--ZSAR
--ZTCF
--ZTCR
---
⎯ 460 ⎯
6 F 2 S 0 8 8 2
Common data classes in IEC61850-7-3
Common data classes
Status information
SPS
DPS
INS
ACT
ACT_ABC
ACD
ACD_ABC
SEC
BCR
Measured information
MV
CMV
SAV
WYE
WYE_ABCN
DEL
SEQ
HMV
HWYE
HDEL
Controllable status information
SPC
DPC
INC
BSC
ISC
Controllable analogue information
APC
Status settings
SPG
ING
Analogue settings
ASG
CURVE
Description information
DPL
LPL
CSD
GRB100
Yes
--Yes
Yes
--Yes
Yes
----Yes
Yes
--Yes
----Yes
------Yes
-Yes
----------Yes
--Yes
Yes
---
⎯ 461 ⎯
6 F 2 S 0 8 8 2
LPHD class
Attribute Name
LNName
Data
PhyName
PhyHealth
OutOv
Proxy
InOv
NumPwrUp
WrmStr
WacTrg
PwrUp
PwrDn
PwrSupAlm
RsStat
Attr. Type Explanation
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
DPL
INS
SPS
SPS
SPS
INS
INS
INS
SPS
SPS
SPS
SPC
Physical device name plate
Physical device health
Output communications buffer overflow
Indicates if this LN is a proxy
Input communications buffer overflow
Number of Power ups
Number of Warm Starts
Number of watchdog device resets detected
Power Up detected
Power Down detected
External power supply alarm
Reset device statistics
Common Logical Node class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Mandatory Logical Node Information (Shall be inherited by ALL LN but LPHD)
Mod
INC
Mode
Beh
INS
Behaviour
Health
INS
Health
NamPlt
LPL
Name plate
Optional Logical Node Information
Loc
SPS
Local operation
EEHealth
INS
External equipment health
EEName
DPL
External equipment name plate
OpCntRs
INC
Operation counter resetable
OpCnt
INS
Operation counter
OpTmh
INS
Operation time
Data Sets (see IEC 61850-7-2)
Inherited and ٛ pecialized from Logical Node class (see IEC 61850-7-2)
Control Blocks (see IEC 61850-7-2)
Inherited and ٛ pecialized from Logical Node class (see IEC 61850-7-2)
Services (see IEC 61850-7-2)
Inherited and ٛ pecialized from Logical Node class (see IEC 61850-7-2)
LLNO class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
T M/O GRB100
T
SPS
INS
Local operation for complete logical device
Operation time
SPC
SPC
Run Diagnostics
LED reset
M
M
M
M
Y
Y
Y
Y
O
O
O
O
O
O
N
N
N
N
N
N
T M/O GRB100
T
⎯ 462 ⎯
Y
Y
N
Y
N
N
N
N
N
N
N
N
T M/O GRB100
LN shall inherit all Mandatory Data from Common Logical Node Class
Loc
OpTmh
Cobtrols
Diag
LEDRs
M
M
O
M
O
O
O
O
O
O
O
O
M
O
O
Y
N
O
O
Y
Y
6 F 2 S 0 8 8 2
PDIF class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
T
LN shall inherit all Mandatory Data from Common Logical Node Class
OpCntRs
INC
Status Information
Str
ACD_ABC
Op
ACT
TmAst
CSD
Measured Values
DifAClc
WYE
RstA
WYE
Setting
LinCapac
ASG
LoSet
ING
HiSet
ING
MinOpTmms
ING
MaxOpTmms
ING
RstMod
ING
RsDlTmms
ING
TmACrv
CURVE
M
O
N
M
M
O
Y
Y
N
Differential Current
Restraint Current
O
O
Y
Y
Line capacitance (for load currents)
Low operate value, percentage of the nominal current
High operate value, percentage of the nominal current
Minimum Operate Time
Maximum Operate Time
Restraint Mode
Reset Delay Time
Operating Curve Type
O
O
O
O
O
O
O
O
N
N
N
N
N
N
N
N
Resetable operation counter
Start
Operate
Active curve characteristic
T
PTRC_CHEX class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
OpCntRs
INC
Status Information
Tr1
ACT
Tr2
ACT
Tr3
ACT
Tr4
ACT
Tr5
ACT
Tr6
ACT
Tr7
ACT
Tr8
ACT
Tr9
ACT
Tr10
ACT
M/O GRB100
T
M/O GRB100
Resetable operation counter
M
O
N
Trip CH1
Trip CH2
Trip CH3
Trip CH4
Trip CH5
Trip CH6
Trip CH7
Trip CH8
Trip CH9
Trip CH10
C
C
C
C
C
C
C
C
C
C
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
C
C
O
Y
N
N
O
O
N
N
:
:
:
Tr16
Op
Str
ACT
ACT
ACD
Trip CH16
Operate (combination of subscribed Op from protection functions)
Sum of all starts of all connected Logical Nodes
Settings
TrMod
ING
Trip Mode
TrPlsTmms
ING
Trip Pulse Time
Condition C: At least one of the two status information (Tr, Op) shall be used.
⎯ 463 ⎯
6 F 2 S 0 8 8 2
RBRF_EX class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
T
LN shall inherit all Mandatory Data from Common Logical Node Class
OpCntRs
INC
Status Information
Str
ACD
OpEx
ACT
OpIn
ACT
OpTr
ACT
Settings
Resetable operation counter
Start, timer running
Breaker failure trip (“external trip”)
Operate, retrip (“internal trip”)
Transfer trip
T
T
T
M/O GRB100
M
O
N
O
C
C
O
N
Y
Y
Y
Breaker Failure Detection Mode (current, breaker status, both,
O
other)
FailTmms
ING
Breaker Failure Time Delay for bus bar trip
O
SPlTrTmms
ING
Single Pole Retrip Time Delay
O
TPTrTmms
ING
Three Pole Retrip Time Delay
O
DetValA
ASG
Current Detector Value
O
ReTrMod
ING
Retrip Mode
O
Condition C: At least one of either data shall be used depending on the applied tripping schema.
FailMod
ING
⎯ 464 ⎯
N
N
N
N
N
N
6 F 2 S 0 8 8 2
RBRF_CHEX class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
T
LN shall inherit all Mandatory Data from Common Logical Node Class
OpCntRs
INC
Status Information
Str
ACD
OpEx1
ACT
OpEx2
ACT
OpEx3
ACT
OpEx4
ACT
OpEx5
ACT
OpEx16
OpIn1
OpIn2
OpIn3
OpIn4
OpIn5
ACT
ACT
ACT
ACT
ACT
ACT
OpIn16
OpTr1
OpTr2
OpTr3
OpTr4
OpTr5
ACT
ACT
ACT
ACT
ACT
ACT
OpTr16
Settings
ACT
M
O
N
T
T
T
T
T
O
C
C
C
C
C
N
Y
Y
Y
Y
Y
T
T
T
T
T
T
C
C
C
C
C
C
Y
Y
Y
Y
Y
Y
T
T
T
T
T
T
C
O
O
O
O
O
Y
Y
Y
Y
Y
Y
T
O
Y
Resetable operation counter
Start, timer running
Breaker failure trip (“external trip”) (CH1)
Breaker failure trip (“external trip”) (CH2)
Breaker failure trip (“external trip”) (CH3)
Breaker failure trip (“external trip”) (CH4)
Breaker failure trip (“external trip”) (CH5)
:
:
:
Breaker failure trip (“external trip”) (CH16)
Operate, retrip (“internal trip”) (CH1)
Operate, retrip (“internal trip”) (CH2)
Operate, retrip (“internal trip”) (CH3)
Operate, retrip (“internal trip”) (CH4)
Operate, retrip (“internal trip”) (CH5)
:
:
:
Operate, retrip (“internal trip”) (CH16)
Transfer trip (CH1)
Transfer trip (CH2)
Transfer trip (CH3)
Transfer trip (CH4)
Transfer trip (CH5)
:
:
:
Transfer trip (CH16)
M/O GRB100
Breaker Failure Detection Mode (current, breaker status, both,
O
other)
FailTmms
ING
Breaker Failure Time Delay for bus bar trip
O
SPlTrTmms
ING
Single Pole Retrip Time Delay
O
TPTrTmms
ING
Three Pole Retrip Time Delay
O
DetValA1
ASG
Current Detector Value (CH1)
O
DetValA2
ASG
Current Detector Value (CH2)
O
DetValA3
ASG
Current Detector Value (CH3)
O
DetValA4
ASG
Current Detector Value (CH4)
O
DetValA5
ASG
Current Detector Value (CH5)
O
:
:
:
DetValA16
ASG
Current Detector Value (CH16)
O
ReTrMod
ING
Retrip Mode
O
Condition C: At least one of either data shall be used depending on the applied tripping schema.
FailMod
ING
⎯ 465 ⎯
N
N
N
N
Y
Y
Y
Y
Y
Y
N
6 F 2 S 0 8 8 2
GAPC class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
T
LN shall inherit all Mandatory Data from Common Logical Node Class
Loc
OpCntRs
SPS
INC
Controls
SPCSO
SPC
DPCSO
DPC
ISCSO
INC
Status Information
Auto
SPS
Str
ACD
Op
ACT
Settings
StrVal
ASG
Local operation
Resetable operation counter
M
O
O
N
N
Single point controllable status output
Double point controllable status output
Integer status controllable status output
O
O
O
N
N
N
Automatic operation
Start
Operate
O
M
M
N
Y
Y
O
N
T
Start Value
GGIO class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
INS
EEName
DPL
Loc
SPS
OpCntRs
INC
Measured Values
AnIn
MV
Controls
SPCSO
SPC
DPCSO
DPC
ISCSO
INC
Status Information
IntIn
INS
Alm
SPS
Ind1
SPS
Ind2
SPS
Ind3
SPS
Ind4
SPS
Ind5
SPS
Ind6
SPS
Ind7
SPS
Ind8
SPS
Ind9
SPS
Ind10
SPS
Ind64
SPS
M/O GRB100
T
M/O GRB100
External equipment health (external sensor)
External equipment name plate
Local operation
Resetable operation counter
M
O
O
O
O
N
N
N
N
Analogue input
O
N
Single point controllable status output
Double point controllable status output
Integer status controllable status output
O
O
O
N
N
N
Integer status input
General single alarm
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
:
:
:
General indication (binary input)
O
O
O
O
O
O
O
O
O
O
O
O
N
N
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
O
Y
⎯ 466 ⎯
6 F 2 S 0 8 8 2
GGIO_GOOSE class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
INS
EEName
DPL
Loc
SPS
OpCntRs
INC
Measured Values
AnIn
MV
Controls
SPCSO
SPC
DPCSO
DPC
ISCSO
INC
Status Information
IntIn
INS
Alm
SPS
Ind1
SPS
Ind2
SPS
Ind3
SPS
Ind4
SPS
Ind5
SPS
Ind6
SPS
Ind7
SPS
Ind8
SPS
Ind9
SPS
Ind0
SPS
Ind11
SPS
Ind12
SPS
Ind13
SPS
Ind14
SPS
Ind15
SPS
Ind16
SPS
T
M/O GRB100
External equipment health (external sensor)
External equipment name plate
Local operation
Resetable operation counter
M
O
O
O
O
N
N
N
N
Analogue input
O
N
Single point controllable status output
Double point controllable status output
Integer status controllable status output
O
O
O
N
N
N
Integer status input
General single alarm
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
General indication (binary input)
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
N
N
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
⎯ 467 ⎯
6 F 2 S 0 8 8 2
MMXU class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
Measured Values
TotW
TotVAr
TotVA
TotPF
Hz
PPV
PhV
A
W
VAr
VA
PF
Z
T
M/O GRB100
INS
External equipment health (external sensor)
M
O
N
MV
MV
MV
MV
MV
DEL
WYE
WYE
WYE
WYE
WYE
WYE
WYE
Total Active Power (Total P)
Total Reactive Power (Total Q)
Total Apparent Power (Total S)
Average Power factor (Total PF)
Frequency
Phase to phase voltages (VL1VL2, …)
Phase to ground voltages (VL1ER, …)
Phase currents (IL1, IL2, IL3)
Phase active power (P)
Phase reactive power (Q)
Phase apparent power (S)
Phase power factor
Phase Impedance
O
O
O
O
O
O
O
O
O
O
O
O
O
N
N
N
N
Y
N
Y
N
N
N
N
N
N
⎯ 468 ⎯
6 F 2 S 0 8 8 2
MMXU class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
Measured Values
TotW
TotVAr
TotVA
TotPF
Hz
PPV
PhV
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
INS
External equipment health (external sensor)
MV
MV
MV
MV
MV
DEL
WYE
WYE
WYE
WYE
WYE
WYE
WYE
WYE
WYE
WYE
WYE
A16
W
VAr
VA
PF
Z
WYE
WYE
WYE
WYE
WYE
WYE
Total Active Power (Total P)
Total Reactive Power (Total Q)
Total Apparent Power (Total S)
Average Power factor (Total PF)
Frequency
Phase to phase voltages (VL1VL2, …)
Phase to ground voltages (VL1ER, …)
Phase currents (IL1, IL2, IL3) (CH1)
Phase currents (IL1, IL2, IL3) (CH2)
Phase currents (IL1, IL2, IL3) (CH3)
Phase currents (IL1, IL2, IL3) (CH4)
Phase currents (IL1, IL2, IL3) (CH5)
Phase currents (IL1, IL2, IL3) (CH6)
Phase currents (IL1, IL2, IL3) (CH7)
Phase currents (IL1, IL2, IL3) (CH8)
Phase currents (IL1, IL2, IL3) (CH9)
Phase currents (IL1, IL2, IL3) (CH10)
:
:
:
Phase currents (IL1, IL2, IL3) (CH16)
Phase active power (P)
Phase reactive power (Q)
Phase apparent power (S)
Phase power factor
Phase Impedance
⎯ 469 ⎯
T M/O GRB100
M
O
N
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
N
N
N
N
N
N
N
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
O
O
O
O
O
O
Y
N
N
N
N
N
6 F 2 S 0 8 8 2
MSQI class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
INS
External equipment health (external sensor)
EEName
DPL
External equipment name plate
Measured Values
SeqA
SEQ
Positive, Negative and Zero Sequence Current
SeqV
SEQ
Positive, Negative and Zero Sequence Voltage
DQ0Seq
SEQ
DQ0 Sequence
ImbA
WYE
Imbalance current
ImbNgA
MV
Imbalance negative sequence current
ImbNgV
MV
Imbalance negative sequence voltage
ImbPPV
DEL
Imbalance phase-phase voltage
ImbV
WYE
Imbalance voltage
ImbZroA
MV
Imbalance zero sequence current
ImbZroV
MV
Imbalance zero sequence voltage
MaxImbA
MV
Maximum imbalance current
MaxImbPPV
MV
Maximum imbalance phase-phase voltage
MaxImbV
MV
Maximum imbalance voltage
Condition C: At least one of either data shall be used.
⎯ 470 ⎯
T
M/O GRB100
M
O
O
N
N
C
C
O
O
O
O
O
O
O
O
O
O
O
N
Y
N
N
N
N
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
MSQI_CHEX class
Attribute Name Attr. Type Explanation
LNName
Shall be inherited from Logical-Node Class (see IEC 61850-7-2)
Data
Common Logical Node Information
LN shall inherit all Mandatory Data from Common Logical Node Class
EEHealth
EEName
INS
DPL
Measured values
SeqA1
SEQ
SeqA2
SEQ
SeqA3
SEQ
SeqA4
SEQ
SeqA5
SEQ
SeqA6
SEQ
SeqA7
SEQ
SeqA8
SEQ
SeqA9
SEQ
SeqA10
SEQ
External equipment health (external sensor)
External equipment name plate
Positive, Negative and Zero Sequence Current (CH1)
Positive, Negative and Zero Sequence Current (CH2)
Positive, Negative and Zero Sequence Current (CH3)
Positive, Negative and Zero Sequence Current (CH4)
Positive, Negative and Zero Sequence Current (CH5)
Positive, Negative and Zero Sequence Current (CH6)
Positive, Negative and Zero Sequence Current (CH7)
Positive, Negative and Zero Sequence Current (CH8)
Positive, Negative and Zero Sequence Current (CH9)
Positive, Negative and Zero Sequence Current (CH10)
:
:
:
SeqA16
SEQ
Positive, Negative and Zero Sequence Current (CH16)
SeqV
SEQ
Positive, Negative and Zero Sequence Voltage
DQ0Seq
SEQ
DQ0 Sequence
ImbA
WYE
Imbalance current
ImbNgA
MV
Imbalance negative sequence current
ImbNgV
MV
Imbalance negative sequence voltage
ImbPPV
DEL
Imbalance phase-phase voltage
ImbV
WYE
Imbalance voltage
ImbZroA
MV
Imbalance zero sequence current
ImbZroV
MV
Imbalance zero sequence voltage
MaxImbA
MV
Maximum imbalance current
MaxImbPPV
MV
Maximum imbalance phase-phase voltage
MaxImbV
MV
Maximum imbalance voltage
Condition C: At least one of either data shall be used.
⎯ 471 ⎯
T
M/O GRB100
M
O
O
N
N
C
C
C
C
C
C
C
C
C
C
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
C
C
O
O
O
O
O
O
O
O
O
O
O
Y
N
N
N
N
N
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
SPS class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
status
stVal
BOOLEAN
ST dchg
TRUE | FALSE
q
Quality
ST qchg
t
TimeStamp
ST
substitution
subEna
BOOLEAN
SV
subVal
BOOLEAN
SV
TRUE | FALSE
subQ
Quality
SV
subID
VISIBLE STRING64
SV
configuration, description and extension
d
VISIBLE STRING255
DC
Text
dU
UNICODE STRING255
DC
cdcNs
VISIBLE STRING255
EX
cdcName
VISIBLE STRING255
EX
dataNs
VISIBLE STRING255
EX
Services
As defined in Table 13
INS class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
status
stVal
INT32
ST dchg
q
Quality
ST qchg
t
TimeStamp
ST
Substitution
subEna
BOOLEAN
SV
subVal
INT32
SV
subQ
Quality
SV
subID
VISIBLE STRING64
SV
configuration, description and extension
d
VISIBLE STRING255
DC
Text
dU
UNICODE STRING255
DC
cdcNs
VISIBLE STRING255
EX
cdcName
VISIBLE STRING255
EX
dataNs
VISIBLE STRING255
EX
Services
As defined in Table 13
(*1): “ENUM” type is also used.
⎯ 472 ⎯
M/O/C
GRB100
M
M
M
Y
Y
Y
PICS_SUBST
PICS_SUBST
PICS_SUBST
PICS_SUBST
N
N
N
N
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
N
M/O/C
GRB100
M
M
M
Y(*1)
Y
Y
PICS_SUBST
PICS_SUBST
PICS_SUBST
PICS_SUBST
N
N
N
N
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
N
6 F 2 S 0 8 8 2
ACT class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
status
general
BOOLEAN
ST dchg
phsA
BOOLEAN
ST dchg
phsB
BOOLEAN
ST dchg
phsC
BOOLEAN
ST dchg
neut
BOOLEAN
ST dchg
q
Quality
ST qchg
t
TimeStamp
ST
configuration, description and extension
operTm
TimeStamp
CF
d
VISIBLE STRING255
DC
Text
dU
UNICODE STRING255
DC
cdcNs
VISIBLE STRING255
EX
cdcName
VISIBLE STRING255
EX
dataNs
VISIBLE STRING255
EX
Services
As defined in Table 13
⎯ 473 ⎯
M/O/C
GRB100
M
O
O
O
O
M
M
Y
N
N
N
N
Y
Y
O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
N
N
6 F 2 S 0 8 8 2
ACD class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
M/O/C
GRB100
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
status
general
BOOLEAN
ST dchg
M
Y
unknown | forward | backward | both
dirGeneral
ENUMERATED
ST dchg
M
Y
phsA
BOOLEAN
ST dchg
GC_2 (1)
N
unknown | forward | backward
dirPhsA
ENUMERATED
ST dchg
GC_2 (1)
N
phsB
BOOLEAN
ST dchg
GC_2 (2)
N
unknown | forward | backward
dirPhsB
ENUMERATED
ST dchg
GC_2 (2)
N
phsC
BOOLEAN
ST dchg
GC_2 (3)
N
unknown | forward | backward
dirPhsC
ENUMERATED
ST dchg
GC_2 (3)
N
neut
BOOLEAN
ST dchg
GC_2 (4)
N
unknown | forward | backward
dirNeut
ENUMERATED
ST dchg
GC_2 (4)
N
q
Quality
ST qchg
M
Y
t
TimeStamp
ST
M
Y
configuration, description and extension
d
VISIBLE STRING255
DC
Text
O
N
dU
UNICODE STRING255
DC
O
N
cdcNs
VISIBLE STRING255
EX
AC_DLNDA_M
N
cdcName
VISIBLE STRING255
EX
AC_DLNDA_M
N
dataNs
VISIBLE STRING255
EX
AC_DLN_M
N
Services
As defined in Table 13
ACD_ABC class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
M/O/C
GRB100
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
status
general
BOOLEAN
ST dchg
M
Y
unknown | forward | backward | both
dirGeneral
ENUMERATED
ST dchg
M
Y
phsA
BOOLEAN
ST dchg
GC_2 (1)
Y
unknown | forward | backward
dirPhsA
ENUMERATED
ST dchg
GC_2 (1)
Y
phsB
BOOLEAN
ST dchg
GC_2 (2)
Y
unknown | forward | backward
dirPhsB
ENUMERATED
ST dchg
GC_2 (2)
Y
phsC
BOOLEAN
ST dchg
GC_2 (3)
Y
unknown | forward | backward
dirPhsC
ENUMERATED
ST dchg
GC_2 (3)
Y
neut
BOOLEAN
ST dchg
GC_2 (4)
N
unknown | forward | backward
dirNeut
ENUMERATED
ST dchg
GC_2 (4)
N
q
Quality
ST qchg
M
Y
t
TimeStamp
ST
M
Y
configuration, description and extension
d
VISIBLE STRING255
DC
Text
O
N
dU
UNICODE STRING255
DC
O
N
cdcNs
VISIBLE STRING255
EX
AC_DLNDA_M
N
cdcName
VISIBLE STRING255
EX
AC_DLNDA_M
N
dataNs
VISIBLE STRING255
EX
AC_DLN_M
N
Services
As defined in Table 13
⎯ 474 ⎯
6 F 2 S 0 8 8 2
MV class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
M/O/C
GRB100
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
measured values
instMag
AnalogueValue
MX
O
N
mag
AnalogueValue
MX dchg
M
Y
normal | high | low | high-high | low-low |…
range
ENUMERATED
MX dchg
O
N
q
Quality
MX qchg
M
Y
t
TimeStamp
MX
M
Y
substitution
subEna
BOOLEAN
SV
PICS_SUBST
N
subVal
AnalogueValue
SV
PICS_SUBST
N
subQ
Quality
SV
PICS_SUBST
N
subID
VISIBLE STRING64
SV
PICS_SUBST
N
configuration, description and extension
units
Unit
CF
see Annex A
O
Y
db
INT32U
CF
0 … 100 000
O
N
zeroDb
INT32U
CF
0 … 100 000
O
N
sVC
ScaledValueConfig
CF
AC_SCAV
N
rangeC
RangeConfig
CF
GC_CON
N
smpRate
INT32U
CF
O
N
d
VISIBLE STRING255
DC
Text
O
N
dU
UNICODE STRING255
DC
O
N
cdcNs
VISIBLE STRING255
EX
AC_DLNDA_M
N
cdcName
VISIBLE STRING255
EX
AC_DLNDA_M
N
dataNs
VISIBLE STRING255
EX
AC_DLN_M
N
Services
As defined in Table 21
⎯ 475 ⎯
6 F 2 S 0 8 8 2
CMV class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
M/O/C
GRB100
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
measured values
instCVal
Vector
MX
O
N
cVal
Vector
MX dchg
M
Y
normal | high | low | high-high | low-low |…
range
ENUMERATED
MX dchg
O
N
q
Quality
MX qchg
M
Y
t
TimeStamp
MX
M
Y
substitution
subEna
BOOLEAN
SV
PICS_SUBST
N
subVal
Vector
SV
PICS_SUBST
N
subQ
Quality
SV
PICS_SUBST
N
subID
VISIBLE STRING64
SV
PICS_SUBST
N
configuration, description and extension
units
Unit
CF
see Annex A
O
Y
db
INT32U
CF
0 … 100 000
O
N
zeroDb
INT32U
CF
0 … 100 000
O
N
rangeC
RangeConfig
CF
GC_CON
N
magSVC
ScaledValueConfig
CF
AC_SCAV
N
angSVC
ScaledValueConfig
CF
AC_SCAV
N
angRef
ENUMERATED
CF
V | A | other …
O
N
smpRate
INT32U
CF
O
N
d
VISIBLE STRING255
DC
Text
O
N
dU
UNICODE STRING255
DC
O
N
cdcNs
VISIBLE STRING255
EX
AC_DLNDA_M
N
cdcName
VISIBLE STRING255
EX
AC_DLNDA_M
N
dataNs
VISIBLE STRING255
EX
AC_DLN_M
N
Services
As defined in Table 21
⎯ 476 ⎯
6 F 2 S 0 8 8 2
WYE class
Attribute
Name
DataName
Data
phsA
phsB
phsC
neut
net
res
DataAttribute
angRef
Attribute Type
seqT
TrgOp
Value/Value Range
M/O/C
GRB100
GC_1
GC_1
GC_1
GC_1
GC_1
GC_1
Y
Y
Y
N
N
N
O
N
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
N
M/O/C
GRB100
M
M
M
Y
Y
Y
M
Y
O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
N
N
Inherited from Data Class (see IEC 61850-7-2)
CMV
CMV
CMV
CMV
CMV
CMV
ENUMERATED
d
VISIBLE STRING255
dU
UNICODE STRING255
cdcNs
VISIBLE STRING255
cdcName
VISIBLE STRING255
dataNs
VISIBLE STRING255
Services
As defined in Table 21
SEQ class
Attribute
Name
DataName
Data
c1
c2
c3
DataAttribute
FC
Attribute Type
configuration, description and extension
Va | Vb | Vc | Aa | Ab | Ac | Vab | Vbc | Vca |
CF
Vother | Aother
DC
DC
EX
EX
EX
FC
Text
TrgOp
Value/Value Range
Inherited from Data Class (see IEC 61850-7-2)
CMV
CMV
CMV
measured attributes
MX
pos-neg-zero | dir-quad-zero
configuration, description and extension
ENUMERATED
CF
A|B|C|…
VISIBLE STRING255
DC
Text
UNICODE STRING255
DC
VISIBLE STRING255
EX
VISIBLE STRING255
EX
VISIBLE STRING255
EX
ENUMERATED
phsRef
d
dU
cdcNs
cdcName
dataNs
Services
As defined in Table 21
⎯ 477 ⎯
6 F 2 S 0 8 8 2
SPC class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
control and status
ctlVal
BOOLEAN
CO
off (FALSE) | on (TRUE)
operTm
TimeStamp
CO
origin
Originator_RO
CO, ST
ctlNum
INT8U_RO
CO, ST
0..255
SBO
VISIBLE STRING65
CO
SBOw
SBOW
CO
Oper
Oper
CO
Cancel
Cancel
CO
stVal
q
t
stSeld
subEna
subVal
subQ
subID
BOOLEAN
Quality
TimeStamp
BOOLEAN
ST
ST
ST
ST
dchg
qchg
FALSE | TRUE
dchg
substitution
SV
SV
FALSE | TRUE
SV
SV
configuration, description and extension
PulseConfig
CF
CtlModels
CF
INT32U
CF
SboClasses
CF
VISIBLE STRING255
DC
Text
UNICODE STRING255
DC
VISIBLE STRING255
EX
VISIBLE STRING255
EX
VISIBLE STRING255
EX
BOOLEAN
BOOLEAN
Quality
VISIBLE STRING64
pulseConfig
CtlModel
sboTimeout
sboClass
d
dU
cdcNs
cdcName
dataNs
Services
As defined in Table 31
⎯ 478 ⎯
M/O/C
GRB100
AC_CO_M
AC_CO_O
AC_CO_O
AC_CO_O
N
N
Y
N
N
N
Y
N
AC_CO_SBO_N_M
AC_CO_SBOW_E_M
AC_CO _M
AC_CO_SBO_N_M
and
AC_CO_SBOW_E_M
and
AC_CO_TA_E_M
AC_ST
AC_ST
AC_ST
AC_CO_O
Y
Y
Y
N
PICS_SUBST
PICS_SUBST
PICS_SUBST
PICS_SUBST
N
N
N
N
AC_CO_O
M
AC_CO_O
AC_CO_O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
Y
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
INC class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
control and status
ctlVal
INT32
CO
operTm
TimeStamp
CO
origin
Originator
CO, ST
ctlNum
INT8U
CO, ST
0..255
SBO
VISIBLE STRING65
CO
SBOw
SBOW
CO
Oper
Oper
CO
Cancel
Cancel
CO
stVal
Q
T
stSeld
subEna
subVal
subQ
subID
INT32
Quality
TimeStamp
BOOLEAN
ST
ST
ST
ST
dchg
qchg
dchg
substitution
SV
SV
FALSE | TRUE
SV
SV
configuration, description and extension
CtlModels
CF
INT32U
CF
SboClasses
CF
INT32
CF
INT32
CF
INT32U
CF
1 … (maxVal – minVal)
VISIBLE STRING255
DC
Text
UNICODE STRING255
DC
VISIBLE STRING255
EX
VISIBLE STRING255
EX
VISIBLE STRING255
EX
BOOLEAN
INT32
Quality
VISIBLE STRING64
CtlModel
sboTimeout
sboClass
minVal
maxVal
stepSize
D
dU
cdcNs
cdcName
dataNs
Services
As defined in Table 31
⎯ 479 ⎯
M/O/C
GRB100
AC_CO_M
AC_CO_O
AC_CO_O
AC_CO_O
N
N
N
N
N
N
N
N
AC_CO_SBO_N_M
AC_CO_SBOW_E_M
AC_CO _M
AC_CO_SBO_N_M
and
AC_CO_SBOW_E_M
and
AC_CO_TA_E_M
M
M
M
AC_CO_O
Y
Y
Y
N
PICS_SUBST
PICS_SUBST
PICS_SUBST
PICS_SUBST
N
N
N
N
M
AC_CO_O
AC_CO_O
O
O
O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
Y
N
N
N
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
ASG class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
Data Attribute
setting
setMag
AnalogueValue
SP
setMag
AnalogueValue
SG, SE
configuration, description and extension
units
Unit
CF
see Annex A
sVC
ScaledValueConfig
CF
minVal
AnalogueValue
CF
maxVal
AnalogueValue
CF
stepSize
AnalogueValue
CF
1 … (maxVal – minVal)
d
VISIBLE STRING255
DC
Text
dU
UNICODE STRING255
DC
cdcNs
VISIBLE STRING255
EX
cdcName
VISIBLE STRING255
EX
dataNs
VISIBLE STRING255
EX
Services
As defined in Table 42
⎯ 480 ⎯
M/O/C
GRB100
AC_NSG_M
AC_SG_M
Y
N
O
AC_SCAV
O
O
O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
Y
Y
N
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
DPL class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
configuration, description and extension
vendor
VISIBLE STRING255
DC
hwRev
VISIBLE STRING255
DC
swRev
VISIBLE STRING255
DC
serNum
VISIBLE STRING255
DC
model
VISIBLE STRING255
DC
location
VISIBLE STRING255
DC
cdcNs
VISIBLE STRING255
EX
cdcName
VISIBLE STRING255
EX
dataNs
VISIBLE STRING255
EX
Services
As defined in Table 45
LPL class
Attribute
Attribute Type
FC
TrgOp
Value/Value Range
Name
DataName
Inherited from Data Class (see IEC 61850-7-2)
DataAttribute
configuration, description and extension
vendor
VISIBLE STRING255
DC
swRev
VISIBLE STRING255
DC
d
VISIBLE STRING255
DC
dU
UNICODE STRING255
DC
configRev
VISIBLE STRING255
DC
shall be included in LLN0 only;
ldNs
VISIBLE STRING255
EX
for example "IEC 61850-7-4:2003"
lnNs
VISIBLE STRING255
cdcNs
VISIBLE STRING255
cdcName
VISIBLE STRING255
dataNs
VISIBLE STRING255
Services
As defined in Table 45
EX
EX
EX
EX
⎯ 481 ⎯
M/O/C
GRB100
M
O
O
O
O
O
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
Y
N
Y
N
Y
N
N
N
N
M/O/C
GRB100
M
M
M
O
AC_LN0_M
AC_LN0_EX
Y
Y
Y
N
Y
N
AC_DLD_M
AC_DLNDA_M
AC_DLNDA_M
AC_DLN_M
N
N
N
N
6 F 2 S 0 8 8 2
PICS: IEC61850 ASCI Conformance Statement
Client-server roles
B11
Server side (of TWO-PARTYAPPLICATION-ASSOCIATION)
B12
Client side of (TWO-PARTYAPPLICATION-ASSOCIATION)
SCSMs supported
B21
SCSM: IEC61850-8-1 used
B22
SCSM: IEC61850-9-1 used
B23
SCSM: IEC61850-9-2 used
B24
SCSM: other
Generic substation event model (GSE)
B31
Publisher side
B32
Subscriber side
Transmission of sampled value model (SVC)
B41
Publisher side
B42
Subscriber side
If Server side (B11) supported
M1
Logical device
M2
Logical node
M3
Data
M4
Data set
M5
Substitution
M6
Setting group control
Reporting
M7
Buffered report control
M7-1
sequence-number
M7-2
report-time-stamp
M7-3
reason-for-inclusion
M7-4
data-set-name
M7-5
data-reference
M7-6
buffer-overflow
M7-7
entryID
M7-8
BufTm
M7-9
IntgPd
M7-10
GI
Unbuffered report control
M8-1
sequence-number
M8-2
report-time-stamp
M8-3
reason-for-inclusion
M8-4
data-set-name
M8-5
data-reference
M8-6
BufTm
M8-7
IntgPd
M8-8
GI
Logging
M9
Log control
M9-1
IntgPd
M10
Log
M11
Control
If GSE (B31/B32) is supported
GOOSE
Client/
subscriber
Server/
publisher
GRB100
-
c1
Y
c1
-
-
Y
N
N
O
O
-
Y
Y
O
O
-
N
N
c2
c3
c4
c5
O
O
c2
c3
c4
c5
O
O
Y
Y
Y
Y
N
Y
O
O
O
O
O
O
O
O
O
M
O
M
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
N
N
N
N
Y
O
O
Y
⎯ 482 ⎯
Remarks
6 F 2 S 0 8 8 2
M12-1
entryID
M12-2
DataRefInc
M13
GSSE
If SVC (B41/B42) is supported
M14
Multicast SVC
M15
Unicast SVC
M16
Time
M17
File Transfer
Server
S1
ServerDirectory
Application association
S2
Associate
S3
Abort
S4
Release
Logical device
S5
LogicalDeviceDirectory
Logical node
S6
LogicalNodeDirectory
S7
GetAllDataValues
Data
S8
GetDataValues
S9
SetDataValues
S10
GetDataDirectory
S11
GetDataDefinition
Data set
S12
GetDataSetValues
S13
SetDataSetValues
S14
CreateDataSet
S15
DeleteDataSet
S16
GetDataSetDirectory
Substitution
S17
SetDataValues
Setting group control
S18
SelectActiveSG
S19
SelectEditSG
S20
SetSGValues
S21
ConfirmEditSGValues
S22
GetSGValues
S23
GetSGCBValues
Reporting
Buffered report control block (BRCB)
S24
Report
S24-1
data-change (dchg)
S24-2
quality-change (qchg)
S24-3
data-update (dupd)
S25
GetBRCBValues
S26
SetBRCBValues
Unbuffered report control block (BRCB)
S27
Report
S27-1
data-change (dchg)
S27-2
quality-change (qchg)
S27-3
data-update (dupd)
S28
GetURCBValues
S29
SetURCBValues
Logging
Log control block
O
O
N
O
O
M
O
O
O
M
O
N
N
Y
Y
M
Y
M
M
M
M
M
M
Y
Y
Y
M
M
Y
M
O
M
M
Y
Y
M
O
O
O
M
O
M
M
Y
N
Y
Y
O
O
O
O
O
M
O
O
O
O
Y
N
N
N
Y
M
M
N
O
O
O
O
O
O
O
O
O
O
O
O
Y
N
N
N
N
Y
c6
c6
c6
c6
c6
c6
Y
Y
Y
N
Y
Y
c6
c6
c6
c6
c6
c6
⎯ 483 ⎯
Y
Y
Y
N
Y
Y
6 F 2 S 0 8 8 2
S30
GetLCBValues
M
M
N
S31
SetLCBValues
O
M
N
Log
S32
QueryLogByTime
c7
M
N
S33
QueryLogAfter
c7
M
N
S34
GetLogStatusValues
M
M
N
Generic substation event model (GSE)
GOOSE-CONTROL-BLOCK
S35
SendGOOSEMessage
c8
c8
Y
S36
GetGoReference
O
c9
N
S37
GetGOOSEElementNumber
O
c9
N
S38
GetGoCBValues
O
O
Y
S39
SetGoCBValues
O
O
Y
GSSE-CONTROL-BLOCK
S40
SendGSSEMessage
c8
c8
N
S41
GetGsReference
O
c9
N
S42
GetGSSEElementNumber
O
c9
N
S43
GetGsCBValues
O
O
N
S44
SetGsCBValues
O
O
N
Transmission of sampled value model (SVC)
Multicast SVC
S45
SendMSVMessage
c10
c10
N
S46
GetMSVCBValues
O
O
N
S47
SetMSVCBValues
O
O
N
Unicast SVC
S48
SendUSVMessage
c10
c10
N
S49
GetUSVCBValues
O
O
N
S50
SetUSVCBValues
O
O
N
Control
S51
Select
M
O
N
S52
SelectWithValue
M
O
Y
S53
Cancel
O
O
Y
S54
Operate
M
M
Y
S55
CommandTermination
M
O
Y
S56
TimeActivatedOperate
O
O
N
File Transfer
S57
GetFile
O
M
Y
S58
SetFile
O
O
N
S59
DeleteFile
O
O
N
S60
GetFileAttributeValues
O
O
Y
Time
T1
Time resolution of internal clock
1ms
T2
Time accuracy of internal clock
1ms
T1
T3
Supported TimeStamp resolution
1ms
M – Mandatory
O – Optional
c1 – shall be ‘M’ if support for LOGICAL-DEVICE model has been declared.
c2 – shall be ‘M’ if support for LOGICAL-NODE model has been declared.
c3 – shall be ‘M’ if support for DATA model has been declared.
c4 – shall be ‘M’ if support for DATA-SET, Substitution, Report, Log Control, or Time model has been declared.
c5 – shall be ‘M’ if support for Report, GSE, or SV models has been declared.
c6 – shall declare support for at least one (BRCB or URCB)
c7 – shall declare support for at least one (QueryLogByTime or QueryLogAfter).
c8 – shall declare support for at least one (SendGOOSEMessage or SendGSSEMessage)
c9 – shall declare support if TWO-PARTY association is available.
c10 – shall declare support for at least one (SendMSVMessage or SendUSVMessage).
⎯ 484 ⎯
6 F 2 S 0 8 8 2
A-Profile Profile Description
shortcut
A1
Client/server A-Profile
A2
GOOSE/GSE
management A-Profile
A3
GSSE A-Profile
A4
TimeSync A-Profile
PICS for A-Profile support
Client
Server
F/S
F/S
c1
c1
c2
c2
c3
c4
c3
c4
GRB100 Remarks
Y
Y
N
Y
c1 Shall be ‘m’ if support for any service specified in Table 2 are declared within the ACSI basic conformance statement.
c2 Shall be ‘m’ if support for any service specified in Table 6 are declared within the ACSI basic conformance statement.
c3 Shall be ‘m’ if support for any service specified in Table 9 are declared within the ACSI basic conformance statement.
c4 Support for at least one other A-Profile shall be declared (e.g. in A1-A3) in order to claim conformance to IEC 61850-8-1.
A-Profile
shortcut
T1
T2
T3
T4
T5
c1
c2
c3
c4
Profile Description
TCP/IP T-Profile
OSI T-Profile
GOOSE/GSE T-Profile
GSSE T-Profile
TimeSync T-Profile
PICS for T-Profile support
Client
Server
F/S
F/S
c1
c1
c2
c2
c3
c3
c4
c4
o
o
Shall be ‘m’ if support for A1 is declared. Otherwise, shall be 'i'.
Shall be ‘o’ if support for A1 is declared. Otherwise, shall be 'i'.
Shall be ‘m’ if support for A2 is declared. Otherwise, shall be 'i'.
Shall be ‘m’ if support for A3 is declared. Otherwise, shall be 'i'.
⎯ 485 ⎯
GRB100 Remarks
Y
N
Y
N
Y
6 F 2 S 0 8 8 2
InitiateRequest
MMS InitiateRequest general parameters
Client-CR
Server-CR
Base F/S Value/range
Base F/S Value/range
InitiateRequest
localDetailCalling
proposedMaxServOutstandingCalling
proposedMaxServOustandingCalled
initRequestDetail
m
m
m
m
m
m
m
m
InitiateRequestDetail
proposedVersionNumber
proposedParameterCBB
servicesSupportedCalling
additionalSupportedCalling
additionalCbbSupportedCalling
privilegeClassIdentityCalling
m
m
m
c1
c1
c1
m
m
m
x
x
x
1 or greater
1 or greater
shall be 2.1
m
m
m
m
m
m
m
m
m
m
m
c1
c1
c1
m
m
m
x
x
x
1 or greater
1 or greater
shall be 2.1
GRB100
Y
Y
Y
Y
Y
Y
Y
N
N
N
c1 Conditional upon Parameter CBB CSPI
InitiateRequest
MMS InitiateResponse general parameters
Client-CR
Server-CR
Base F/S Value/range
Base F/S Value/range
InitiateResponse
localDetailCalled
negotiatedMaxServOutstandingCalling
negotiatedMaxServOustandingCalled
initResponseDetail
m
m
m
m
m
m
m
m
InitiateResponseDetail
negotiatedVersionNumber
negotiatedParameterCBB
servicesSupportedCalled
additionalSupportedCalled
additionalCbbSupportedCalled
privilegeClassIdentityCalled
m
m
m
c1
c1
c1
m
m
m
x
x
x
1 or greater
1 or greater
shall be 2.1
c1 Conditional upon Parameter CBB CSPI
⎯ 486 ⎯
m
m
m
m
m
m
m
m
m
m
m
c1
c1
c1
m
m
m
x
x
x
1 or greater
1 or greater
shall be 2.1
GRB100
Y
Y
Y
Y
Y
Y
Y
N
N
N
6 F 2 S 0 8 8 2
MMS service supported conformance table
Client-CR
Server-CR
MMS service supported CBB
Base F/S Value/range
Base F/S Value/range
status
o
o
o
m
getNameList
o
o
o
c1
identify
o
o
m
m
rename
o
o
o
o
read
o
o
o
c2
write
o
o
o
c3
getVariableAccessAttributes
o
o
o
c4
defineNamedVariable
o
o
o
o
defineScatteredAccess
o
i
o
i
getScatteredAccessAttributes
o
i
o
i
deleteVariableAccess
o
o
o
o
defineNamedVariableList
o
o
o
o
getNamedVariableListAttributes
o
o
o
c5
deleteNamedVariableList
o
o
o
c6
defineNamedType
o
i
o
i
getNamedTypeAttributes
o
i
o
i
deleteNamedType
o
i
o
i
input
o
i
o
i
output
o
i
o
i
takeControl
o
i
o
i
relinquishControl
o
i
o
i
defineSemaphore
o
i
o
i
deleteSemaphore
o
i
o
i
reportPoolSemaphoreStatus
o
i
o
i
reportSemaphoreStatus
o
i
o
i
initiateDownloadSequence
o
i
o
i
downloadSegment
o
i
o
i
terminateDownloadSequence
o
i
o
i
initiateUploadSequence
o
i
o
i
uploadSegment
o
i
o
i
terminateUploadSequence
o
i
o
i
requestDomainDownload
o
i
o
i
requestDomainUpload
o
i
o
i
loadDomainContent
o
i
o
i
storeDomainContent
o
i
o
i
deleteDomain
o
i
o
i
getDomainAttributes
o
o
o
c14
createProgramInvocation
o
i
o
i
⎯ 487 ⎯
GRB100
Y
Y
Y
N
Y
Y
Y
N
N
N
N
N
Y
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
Y
N
6 F 2 S 0 8 8 2
MMS service supported CBB
deleteProgramInvocation
start
stop
resume
reset
kill
getProgramInvocationAttributes
obtainFile
defineEventCondition
deleteEventCondition
getEventConditionAttributes
reportEventConditionStatus
alterEventConditionMonitoring
triggerEvent
defineEventAction
deleteEventAction
alterEventEnrollment
reportEventEnrollmentStatus
getEventEnrollmentAttributes
acknowledgeEventNotification
getAlarmSummary
getAlarmEnrollmentSummary
readJournal
writeJournal
initializeJournal
reportJournalStatus
createJournal
deleteJournal
fileOpen
fileRead
fileClose
fileRename
fileDelete
fileDirectory
unsolicitedStatus
informationReport
eventNotification
attachToEventCondition
attachToSemaphore
conclude
cancel
getDataExchangeAttributes
exchangeData
Base
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
m
o
o
o
Client-CR
F/S Value/range
i
i
i
i
i
i
i
c9
i
i
i
i
i
i
i
i
i
i
i
i
i
i
c13
o
o
i
i
i
c8
c8
c8
i
c9
c11
i
c7
i
i
i
m
o
c10
c10
⎯ 488 ⎯
Base
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
m
o
o
o
Server-CR
F/S Value/range
i
i
i
i
i
i
i
c9
i
i
i
i
i
i
i
i
i
i
i
i
i
i
c13
o
c12
i
i
i
c8
c8
c8
i
c9
c11
i
c7
i
i
i
m
m
c10
c10
GRB100
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
Y
Y
Y
N
N
Y
N
Y
N
N
N
N
N
N
N
6 F 2 S 0 8 8 2
MMS service supported CBB
defineAccessControlList
getAccessControlListAttributes
reportAccessControlledObjects
deleteAccessControlList
alterAccessControl
reconfigureProgramInvocation
Base
o
o
o
o
o
o
Client-CR
F/S Value/range
c10
c10
c10
c10
c10
c10
Base
o
o
o
o
o
o
Server-CR
F/S Value/range
c10
c10
c10
c10
c10
c10
GRB100
N
N
N
N
N
N
c1 Shall be ‘m’ if logical device or logical node model support is declared in ACSI basic conformance statement.
c2 Shall be ‘m’ if logical node model support is declared in ACSI basic conformance statement or if support for the MMS write
service is declared.
c3 Shall be ‘m’ if ACSI support for SetDataValues service is declared or implied.
c4 Shall be ‘m’ if logical node model support is declared in ACSI basic conformance statement.
c5 Shall be ‘m’ if data set support is declared in the ACSI basic conformance statement.
c6 Shall be ‘m’ if support for defineNamedVariableList is declared.
c7 Shall be 'm' if support for ACSI Report or ACSI command termination is declared.
c8 Shall be 'm' if support for ACSI GetFile is declared.
c9 Shall be 'm' if support for ACSI SetFile is declared.
c10 Shall not be present since MMS minor version is declared to be 1.
c11 Shall be 'm' if support for ACSI GetFileAttributeValues is declared.
c12 Shall be 'm' if support for the ACSI log model is declared.
c13 Shall be 'm' if support for the ACSI QueryLogByTime or QueryLogAfter is declared.
c14 Shall be 'm' if support for the ACSI logical device model is declared.
⎯ 489 ⎯
6 F 2 S 0 8 8 2
MMS parameter CBB
STR1
STR2
NEST
VNAM
VADR
VALT
bit
TPY
VLIS
bit
bit
CEI
ACO
SEM
CSR
CSNC
CSPLC
CSPI
Base
o
o
1
o
o
o
x
o
o
x
x
o
o
o
o
o
o
o
MMS Parameter CBB
Client-CR
F/S
Value/range
Base
o
o
o
o
1 or greater
1
o
o
o
o
o
o
x
x
o
o
c1
o
x
x
x
x
i
o
c4
o
c4
o
c4
o
c4
o
c4
o
c4
o
Server-CR
F/S
Value/range
c1
o
c2
c1
o
c1
x
o
c3
x
x
i
c4
c4
c4
c4
c4
c4
GRB100
Y
N
Y(10)
Y
N
Y
N
N
Y
N
N
N
N
N
N
N
N
N
c1 Shall be ‘m’ if ACSI logical node model support declared.
c2 Shall be five(5) or greater if ACSI logical node model support is declared.
c3 Shall be ‘m’ if ACSI data set, reporting, GOOSE, or logging model support is declared.
c4 Shall not be present. Receiving implementations shall assume not supported.
GetNameList
Request
ObjectClass
ObjectScope
DomainName
ContinueAfter
Response+
List Of Identifier
MoreFollows
ResponseError Type
Base
GetNameList conformance statement
Client-CR
Server-CR
F/S
Value/range
Base
F/S
Value/range
GRB100
m
m
o
o
m
m
o
m
m
m
m
m
m
m
m
m
Y
Y
Y
Y
m
m
m
m
m
m
m
m
Y
Y
m
m
m
m
Y
NOTE Object class ‘vmd' (formerly VMDSpecific in MMS V1.0) shall not appear. If a request contains this ObjectClass, an MMS
Reject shall be issued.
⎯ 490 ⎯
6 F 2 S 0 8 8 2
AlternateAccessSelection conformance statement
Not applicable.
VariableAccessSpecification conformance statement
Client-CR
Server-CR
VariableAccessSpecification
Base F/S
Value/range
Base
F/S Value/range
listOfVariable
o
o
o
c1
variableSpecification
o
o
o
c1
alternateAccess
o
o
o
c1
variableListName
o
o
o
c2
GRB100
Y
Y
Y
Y
c1 Shall be ‘m’ if ACSI support for Logical Node Model is declared.
c2 Shall be ‘m’ if ACSI support for ACSI DataSets, reporting, or logging is declared.
VariableSpecification
name
address
variableDescription
scatteredAccessDescription
invalidated
Read
Request
specificationWithResult
variableAccessSpecification
Response
variableAccessSpecification
listOfAccessResult
Write
VariableSpecification conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
o
o
o
m
o
o
o
i
o
o
o
i
o
x
o
x
o
x
o
x
Base
Read conformance statement
Client-CR
Server-CR
F/S
Value/range
Base
F/S Value/range
GRB100
Y
N
N
N
N
GRB100
o
m
o
m
o
m
m
m
Y
Y
o
m
o
m
o
m
m
m
Y
Y
Write conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
GRB100
Request
variableAccessSpecification
listOfData
Response
failure
success
m
m
m
m
m
m
m
m
Y
Y
m
m
m
m
m
m
m
m
Y
Y
⎯ 491 ⎯
6 F 2 S 0 8 8 2
InformationReport
InformationReport conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
GRB100
Request
variableAccessSpecification
listOfAccessResult
m
m
m
m
m
m
m
m
GetVariableAccessAttributes conformance statement
Client-CR
Server-CR
GetVariableAccessAttributes
Base F/S
Value/range
Base
F/S Value/range
Request
name
o
o
m
m
address
o
o
m
x
Response
mmsDeletable
m
m
m
m
address
o
x
o
x
typeSpecification
m
m
m
m
Y
Y
GRB100
Y
N
Y
N
Y
DefineNamedVariableList conformance statement
Not applicable.
GetNamedVariableListAttributes conformance statement
Client-CR
Server-CR
GetNamedVariableListAttributes
Base F/S
Value/range
Base
F/S Value/range
Request
ObjectName
m
m
m
m
Response
mmsDeletable
m
m
m
m
listOfVariable
m
m
m
m
variableSpecification
m
m
m
m
alternateAccess
o
m
o
i
DeleteNamedVariableList conformance statement
Not applicable.
ReadJournal conformance statement
Not applicable.
JournalEntry conformance statement
Not applicable.
InitializeJournal conformance statement
Not applicable.
⎯ 492 ⎯
GRB100
Y
Y
Y
Y
N
6 F 2 S 0 8 8 2
FileDirectory
Request
filespecification
continueAfter
Response+
listOfDirectoryEntry
MoreFollows
FileOpen
Request
filename
initialPosition
Response+
frsmID
fileAttributes
FileRead
Request
frsmID
Response+
fileData
MoreFollows
FileClose
Request
frsmID
Response+
FileDirectory conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
GRB100
o
o
o
o
m
m
m
m
Y
Y
m
m
m
m
m
m
m
m
Y
Y
FileOpen conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
GRB100
m
o
m
o
m
m
m
m
Y
Y
m
m
m
m
m
m
m
m
Y
Y
FileRead conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
GRB100
m
m
m
m
Y
m
m
m
m
m
m
m
m
Y
Y
FileClose conformance statement
Client-CR
Server-CR
Base F/S
Value/range
Base
F/S Value/range
m
m
m
m
m
m
⎯ 493 ⎯
m
m
GRB100
Y
Y
6 F 2 S 0 8 8 2
GOOSE Services
SendGOOSEMessage
GetGoReference
GetGOOSEElementNumber
GetGoCBValues
SetGoCBValues
GSENotSupported
GOOSE Control Block (GoCB)
c1
c2
c3
c4
c5
Subscriber
c1
m
o
o
o
o
c2
o
Publisher
c1
m
c3
c4
o
o
c5
o
Value/comment
GRB100
Y
Y
N
N
Y
Y
N
Y
Shall be ‘m’ if support is declared within ACSI basic conformance statement.
Shall be ‘m’ if ACSI basic conformance support for either GetGoReference or GetGOOSEElementNumber is declared.
Shall be ‘m’ if support for ACSI basic conformance of GetGoReference is declared.
Shall be ‘m’ if support for ACSI basic conformance of GetGOOSEElementNumber.
Shall be ‘m’ if no support for ACSI basic conformance of GetGOOSEElementNumber is declared.
GOOSE conformance statement
GSSE conformance statement
Not applicable.
⎯ 494 ⎯
6 F 2 S 0 8 8 2
Appendix R
Failed Module Tracing and Replacement
⎯ 495 ⎯
6 F 2 S 0 8 8 2
1. Failed module tracing and its replacement
If the “ALARM” LED is ON, the following procedure is recommended. If not repaired, contact
the vendor.
Procedure
“ALARM” LED ON?
Any LCD messages?
Countermeasure
No
No
No failure
Not displayed
Press [VIEW] key
Yes
Press [VIEW] key
Contact the vendor.
Yes
Not displayed
Contact the vendor.
Locate the failed module referring to Table Q-1.
Caution: Check that the replacement module has an
identical module name (VCT, SPM, IO1,
IO2, etc.) and hardware type-form as the
failed module. Furthermore, the SPM and
FEP modules must have the same software
name and version. Refer to Section 4.2.5.1.
Locate the failed module.
DC supply “OFF”
Module replacement
As shown in the table, some of the messages cannot
identify the fault location definitely but suggest plural
possible failure locations. In these cases, the failure
location is identified by replacing the suggested failed
modules with spare modules one by one until the
"ALARM" LED is turned off.
DC supply “ON”
“ALARM” LED OFF?
End
No
If both “IN SERVICE” LED and “ALARM” LED are OFF,
check the followings.
Check: Is DC supply voltage available with the correct
polarity and of adequate magnitude, and
connected to the correct terminals?
⎯ 496 ⎯
6 F 2 S 0 8 8 2
If any messages are shown on the LCD, the failed module or failed external circuits can be located
by referring to Table 6.7.1.
This table shows the relationship between messages displayed on the LCD and estimated failure
location. Locations marked with (1) have a higher probability than locations marked with (2) and
(3). Locations marked with (2) have a higher probability than locations marked with (3). The
monitoring of BU is performed by FEP module through XOP module in CU. The monitoring
result is displayed on LCD by SPM module. If an FEP module fails, therefore, the result displayed
on the LCD may be incorrect. The relationship between the FEP module number and the
monitored BUs is as follows:
FEP Module No.
BU
Model C∗1∗
Model C∗2∗
Model C∗3∗
Model C∗4∗
Model C∗6∗
Model C∗8∗
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
FEP3-2
x
x
XOP1-1
x
x
FEP3-1
XOP1-1
XOP1-2
XOP1-3
XOP1-2
x
XOP1-3
x
As shown in the table, some of the messages cannot identify the fault location definitely but
suggest plural possible failure locations. In these cases, the failure location is identified by
replacing the suggested failed modules with spare modules one by one until the "ALARM" LED
is turned off.
The replacement or investigation should be performed first for the module or circuit with higher
probability in the table.
If there is a failure and the LCD is not working such as a screen is frozen or not displayed, the
failure location is any one of SPM, FEP , XOP and HMI module.
If there is a failure and no message is shown on the LCD in the CU, it means that the failure
location is either in the DC power supply circuit or in the microprocessors mounted on the SPM
module. In this case, check the "ALARM" LED. If it is off, the failure is in the DC power supply
circuit. If it is lit, open the relay front panel and check the LEDs mounted on the SPM module. If
the LED on the SPM module is off, the failure is in the DC power supply circuit. If the LED is lit,
the failure is in the microprocessor.
In the former case, check if the correct DC voltage is applied to the relay. If it is, replace the IO#1
module mounting the DC/DC converter and confirm that the "ALARM" LED is turned off. In the
latter case, replace the SPM module mounting the processors and confirm that the "ALARM"
LED is turned off.
When the "POWER" LED in the BU is off, check if the correct DC voltage is applied to the BU.
If it is, replace the BUM1 module mounting the DC/DC converter and confirm that the "POWER"
LED is turned on.
When a failure is detected during regular testing, it will not be difficult to identify the failed
module to be replaced.
⎯ 497 ⎯
6 F 2 S 0 8 8 2
Note: When a failure or an abnormality is detected during the regular test, confirm the following first:
- Test circuit connections are correct.
- Modules are securely inserted in position.
- Correct DC power voltage with correct polarity is applied and connected to the correct
terminals.
- Correct AC inputs are applied and connected to the correct terminals.
- Test procedures comply with those stated in the manual.
⎯ 498 ⎯
6 F 2 S 0 8 8 2
Table 6.7.1
LCD Message and Failure Location
Failure location
Message or
Operation
CU
VCT
FEP
SPM
IO#1
BU
IO#2
HMI
VCT
or
BUM
BUM
1
5
AC
Optic
DS
AC
LAN
PLC,
BI
cable
cable
or
inputs
cable/
IEC
61850
Input
network
CB
data
XOP
Checksum err
×
ROM-RAM err
×
SRAM err
×
CPU err
×
Invalid err
×
NMI err
×
BU-RAM err
×
EEPROM err
×
ROM data err
×
A/D err
×
V0∗ err
× (2)
× (1)
× (2)
× (1)
V2∗ err
× (2)
× (1)
× (2)
× (1)
×
Sampling err
× (2)
DIO err
× (1)
× (1)
× (2)
DIDIS err
× (2)
LCD err
× (1)
× (1)
×
FEP∗:
Checksum err
×
FEP∗:
ROM-RAM err
FEP∗: SRAM
×
err
FEP∗: DPRAM
×
err
FEP∗: stopped
×
FEP∗:CPU err
×
FEP∗:Invalid
×
err
FEP∗:NMI err
×
FEP∗: Sampling
×
BU∗: COM err
× (3)
BU∗: A/D err
× (3)
BU∗: DIO err
× (3)
× (1)
BU∗: Address
× (3)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (1)
× (2)
× (2)
err
BU∗: EEPROM
err
BU∗: AI err
BU∗: Trip fail
× (3)
× (2)
× (1)
× (1)
× (2)
× (1)
⎯ 499 ⎯
6 F 2 S 0 8 8 2
Failure location
Message or
Operation
CU
VCT
FEP
SPM
IO#1
BU
IO#2
HMI
VCT
or
BUM
BUM
1
5
AC
Optic
DS
cable
cable
or
AC
LAN
PLC,
BI
inputs
cable/
IEC
61850
Input
network
CB
data
XOP
× (2)
CT∗ err
× (1)
× (2)
× (1)
DS∗ err
× (2)
× (2)
DS-Z* err
× (1)
× (2)
CB∗ err
× (2)
× (2)
× (1)
× (1)
Id-Z err
× (2)
× (1)
× (2)
× (1)
Id err
× (2)
× (1)
× (2)
× (1)
CT fail,
× (2)
× (1)
× (2)
× (1)
CT-Z∗ fail
×
DC supply off
RTC err
×
PCI err
×
×
LAN err
Goose stop
× (2)
× (1)
Ping err
× (2)
× (1)
PLC stop
×
×
MAP stop
×
×
No-working of
× (1)
× (1)
× (1)
LCD
Note *: The monitoring of BU is performed by FEP module through XOP module in CU. The monitoring result is
displayed on LCD by SPM module. If an FEP module fails, therefore, the result displayed on the LCD may be
incorrect.
⎯ 500 ⎯
6 F 2 S 0 8 8 2
2. Methods of Replacing the Modules
CAUTION
CAUTION
When handling a module, take anti-static measures such as wearing an earthed
wrist band and placing modules on an earthed conductive mat. Otherwise, many
of the electronic components could suffer damage.
After replacing the SPM module, check all of the settings including the data
related the PLC, IEC60870-5-103 and IEC61850, etc. are restored the original
settings.
The initial replacement procedure is as follows:
1). Switch off the DC power supply.
WARNING
Hazardous voltage may remain in the DC circuit just after switching off the
DC power supply. It takes about 30 seconds for the voltage to discharge.
2). Remove the front panel cover.
3). Open the front panel.
Open the front panel of the relay by unscrewing the binding screw located on the left side of
the front panel.
Case size: 1/2”inchs
4). Detach the holding bar.
Detach the module holding bar by unscrewing the binding screw located on the left side of
the bar.
⎯ 501 ⎯
6 F 2 S 0 8 8 2
5). Unplug the cables.
Unplug the ribbon cable running among the modules by nipping the catch (in case of black
connector) and by pushing the catch outside (in case of gray connector) on the connector.
Gray connector
Black connector
6). Pull out the module.
Pull out the failure module by pulling up or down the top and bottom levers (white).
SPM module
7). Insert the replacement module.
Insert the replacement module into the same slots where marked up.
.
8). Do the No.5 to No.1 steps in reverse order.
CAUTION
Supply DC power after checking that all the modules are in their original
positions and the ribbon cables are plugged in. If the ribbon cables are not
plugged in enough (especially the gray connectors), the module could suffer
damage.
Details of the gray connector on modules (top side)
×Not enough
⎯ 502 ⎯
○Enough
6 F 2 S 0 8 8 2
9). Lamp Test
•
•
RESET key is pushed 1 second or more by LCD display off.
It checks that all LCDs and LEDs light on.
10). Check the automatic supervision functions.
•
LCD not display “Auto-supervision” screens in turn, and Event Records
•
Checking the “IN SERVICE” LED light on and “ALARM LED” light off.
⎯ 503 ⎯
6 F 2 S 0 8 8 2
⎯ 504 ⎯
6 F 2 S 0 8 8 2
Appendix S
Ordering
⎯ 505 ⎯
6 F 2 S 0 8 8 2
Central unit (CU)
GRB100 −
Relay type:
Busbar protection relay
CU Model:
GRB100
-Model C310: max. 8 channels
-Model C320: max. 16 channels
-Model C330: max. 24 channels
-Model C340: max. 32 channels
-Model C360: max. 48 channels
-Model C380: max. 64 channels
-Model C410: max. 8 channels / With voltage inputs
-Model C420: max. 16 channels / With voltage inputs
-Model C430: max. 24 channels / With voltage inputs
-Model C440: max. 32 channels / With voltage inputs
-Model C460: max. 48 channels / With voltage inputs
-Model C480: max. 64 channels / With voltage inputs
C310
C320
C330
C340
C360
C380
C410
C420
C430
C440
C460
C480
Ratings:
1
2
3
4
5
6
7
8
A
B
C
D
1A, 50Hz, 110V/125Vdc
1A, 60Hz, 110V/125Vdc
5A, 50Hz, 110V/125Vdc
5A, 60Hz, 110V/125Vdc
1A, 50Hz, 220V/250Vdc
1A, 60Hz, 220V/250Vdc
5A, 50Hz, 220V/250Vdc
5A, 60Hz, 220V/250Vdc
1A, 50Hz, 48V/54V/60Vdc
1A, 60Hz, 48V/54V/60Vdc
5A, 50Hz, 48V/54V/60Vdc
5A, 60Hz, 48V/54V/60Vdc
Communications:
A
B
E
RS485 + 100BASE-TX
RS485 + 100BASE-FX
Fibre opt. + 100BASE-FX
Miscellaneous:
CU to BU communication
Plastic optical fibre
GI optical fibre
0
2
LED label:
Standard
Option: User configurable LED label
None
J
⎯ 506 ⎯
D−
0−
−
6 F 2 S 0 8 8 2
Bay unit (BU)
GRB100
Relay type:
Busbar protection relay
BU Model:
−
GRB100
-Model B301B: 1 channel provided. (2 HS contacts)
-Model B311B: 1 channel provided. (6 HS contacts)
-Model B411L: 1 channel provided. (6 HS contacts) / With LED
B301B
B311B
B411L
CT rating:
1A
5A
1
2
Frequency:
50Hz
60Hz
1
2
DC power supply rating:
1
2
3
110V/125V
220V/250V
48V
Miscellaneous:
CU to BU communication
Plastic optical fibre
GI optical fibre
0
2
Note:
Please inform us which is ordered panel surface mount type or 19-inch rack mount type.
In 19 inch rack mount type, please order attachment kit.
- for BU: attachment kit: EP-101(used to attach at left side), EP-103(used for linking two units),
EP-107(used to attach at right side)
- for CU: attachment kit: EP-102(used to attach at left side)
⎯ 507 ⎯
−
−
6 F 2 S 0 8 8 2
Version-up Records
Version
No.
0.0
1.0
2.0
2.1
Date
Revised Section
Oct. 29, 2008
Dec. 2, 2009
Aug. 25, 2010
Oct. 28, 2011
-Complete revision
Appendices
Precautions
2.5.4
Contents
First issue.
Modified Appendix M.
Modified the description of ‘Disposal’.
Modified Figures 2.5.4 and 2.5.6.
⎯ 508 ⎯