SOUTH INLAND RAW WATER PS
BOSSIER CITY PROJECT P14-02
SUBMITTAL FOR
Switchboards
D-16425-001-B
Submittal Number
9/17/14
Date
Bill Hussey
Max Foote Construction
Certification Statement: By this submittal, I hereby represent that I have determined and
verified all field measurements, field construction criteria, materials, dimensions, catalog
numbers and similar data and I have reviewed and approved this submittal and checked and
coordinated each item with other applicable approved shop drawings and all contract
requirements.
Re-submittal D-16425-001B
City of Bossier Project #P14-02
South Inland Raw Water Pump Station
Electrical
16425 Switchboards
Submittals
By
Feazel Electrical Contracting - Electrical Contractor
For
Max Foote Construction - General Contractor
Manchac Consulting Group - Engineers
GE Energy Management
Industrial Solutions
Manufacturer Responses to Submittal Review Comments
1. Provide/complete nameplate information for circuit breakers on the switchboard datasheet.
Complete
2. Provide information on CTs for power meter.
Please see attached CT information cat# 567TL-202
3. Confirm main and generator circuit breakers are 100% rated.
Confirmed
4. Confirm main and generator circuit breakers are provided with position indicating flags.
Confirmed
5. Confirm main and generator circuit breakers are provided with auxiliary contacts as specified.
Confirmed
6. Confirm main and generator circuit breaker trip units meet the specifications. Including trip indication
and display of time current curve.
Trip units include indication. Exception taken to display of time current curve; no current offering for
GE programmers show display of time current curve.
7. Mark-up the operating instruction and drawings to indicate that the closed transition option has not
been provided.
Confirmed that this is an open transition scheme being provided. Please see 9690885E02 DS for
reference to open scheme.
8.
The current description only indicates that the exerciser is able to be set for once a week. The
specifications require the exerciser to be selectable weekly, biweekly or monthly.
We are providing a Tork DZS400BP timer which has all the specified settings. Please see attached
literature in submittal package.
9. Clearly indicate on the drawings and provide dry contacts wired to field terminal blocks for the
following points. Currently the contacts indicated appear to be powered:
a. Generator Start Contact.
b. Transfer Controller in Auto
c. Utility Power Available.
d. Generator Power Available.
e. Utility Breaker Closed.
f. Utility Breaker Open.
g. Generator Breaker Closed.
h. Generator Breaker Open.
i. Transfer Controller Fail Alarm
Confirmed. Please see revised ATO drawings for the switchboard
10. Provide indicating lights to indicate the following:
a. Source 1 available
b. Source 2 available
Added, please see revised ATO drawings for the switchboard
11. Provide Hand-Off-Test-Automatic selector switch as specified.
Hand-off-test-Auto selection is completed via the HMI screen
12. Provide Time-current characteristic curves for overcurrent protective devices.
Please see attached.
13. Provide data sheet on the power meter. Confirm that all specified requirements have been met.
Confirmed. Please see attached.
14. Confirm that all circuit breakers can be locked in the off position.
Confirmed
SUBMITTAL TRANSMITTAL LETTER
Manchac Consulting Group, Inc
10542 S. Glenstone Place
Baton Rouge, LA 70810
Phone (225) 448 3972
Fax (225) 454 6065
To: Max Foote Construction
225 Antibes St. West – Suite 3
Mandeville, La. 70448
Attention:
Re:
Job Number:
Roy Thompson
Submittal Review
South Inland Raw Water PS, P14-02
We are sending you
Attached
Under Separate Cover
Shop Drawings
Prints
Plans
Copy of Letter
Change Order
Samples
Total Quantity
Reproducible
Specification
Quantity
Date
1
August 5, 2014
Submittal/O&M
Description
D-16425-001-A Switchboards
These are transmitted as checked below
For Approval
Not Approved
Approved as Noted /
For Your Use
Resubmit
As Requested
Other:
Returned for Corrections
For Review and Comment
Resubmit # copies for
Submit # copies for
distribution
Return # corrected prints
Revise and Resubmit/Work May Not Proceed
For Bids Due
Prints Returned after Loan
Code 5 - Not Approved
Copy to:
Record Document File
Engineer’s File
Signature
1
SUBMITTAL REVIEW COMMENTS
August 5, 2014
Manchac Consulting Group, Inc.
10542 S. Glenstone Place
Baton Rouge, LA 70810
Phone (225) 448-3972
Fax (225) 454-6065
Owner: City of Bossier City, Louisiana
Project: South Inland Raw Water Pump Station Project
Submittal No. & Description: D-16425-001-A Switchboards
Attention: Mr. Roy Thompson / Max Foote Construction
Reviewed By: Manchac Consulting Group, Inc.
Code 5: NOT APPROVED
1.
2.
3.
4.
5.
6.
Provide/complete nameplate information for circuit breakers on the switchboard datasheet.
Provide information on CTs for power meter.
Confirm main and generator circuit breakers are 100% rated.
Confirm main and generator circuit breakers are provided with position indicating flags.
Confirm main and generator circuit breakers are provided with auxiliary contacts as specified.
Confirm main and generator circuit breaker trip units meet the specifications. Including trip
indication and display of time current curve.
7. Mark-up the operating instruction and drawings to indicate that the closed transition option has not
been provided.
8. The current description only indicates that the exerciser is able to be set for once a week. The
specifications require the exerciser to be selectable weekly, biweekly or monthly.
9. Clearly indicate on the drawings and provide dry contacts wired to field terminal blocks for the
following points. Currently the contacts indicated appear to be powered:
a. Generator Start Contact.
b. Transfer Controller in Auto
c. Utility Power Available.
d. Generator Power Available.
e. Utility Breaker Closed.
f. Utility Breaker Open.
g. Generator Breaker Closed.
h. Generator Breaker Open.
i. Transfer Controller Fail Alarm
Page 1 of 2
10. Provide indicating lights to indicate the following:
a. Source 1 available
b. Source 2 available
11.
12.
13.
14.
Provide Hand-Off-Test-Automatic selector switch as specified.
Provide Time-current characteristic curves for overcurrent protective devices.
Provide data sheet on the power meter. Confirm that all specified requirements have been met.
Confirm that all circuit breakers can be locked in the off position.
Page 2 of 2
Spectra Series
Switchboard
TM
2.5
ACCESS TO: Front Only
CLASS: 2
PHASE: 3P4W
AMPERE: 2000
LABEL:U/L SE
VOLTAGE: 480Y/277V
STYLE: Bolt-On
BUS MTL: Cu 1000A / in²
PLATE: Silver Plate
RATING: Fully
NOTE: Drawing is a preliminary Print for Approval.
Not intended for manufacturing or construction
purposes. Any manual changes will void this drawing
and could affect layout and/or dimensions
65000 A
65000 A
BUS BRACING (RMS SYM)
DEV. MIN. INT. RATING (RMS SYM)
3.12
SEE PLAN VIEW
(For Specific Counduit Space)
Total Line Up Width:105
30
SE
30
UL
45
UL
UPS
UL
7
1X FILLER
ATO
16 H/C
6X FILLER
16 H/C
EPM 2200
8 H/C
HMI
1
2
3
4
5
6
7
90
28 H/C
SS
20
SS
2000A
10
2000A
Main
8
9
BLANK
6X FILLER
Gen
2X FILLER
20
20
TVSS
63
20
20
01
SBO
43X
14
02
03
Front View
2000A
2000A
C-20
2000A
Provision
for future
extensions
EPM
Main
Gen
ATO
ATO
Main - Line
(5) 600 MCM
Mech (1 Hole) AL
PER PH & N
Gen - Load
(5) 600 MCM
Mech (1 Hole) AL
PER PH & N
TVSS
G
N 2000A
Bussing Diagram
JOB NAME: Bossier City South Inland
WILL ADVISE WILL ADVISE W
XXXXXXXXXXXXXXX,
MADE BY: NollM
REL BY:NollM
HiRes 7.0.1065
ISSUED: 07/02/2014
CUSTOMER: REXEL
3514 INDUSTRIAL DR
BOSSIER CITY LA 7111,
CUST. ORDER NO:
REQN. NO: 417BOSS1-S1
ORDER NO: MEB9690885E
PLANT: MEBANE
P
07/02/14 PA Submittal.
NO DATE
REVISIONS
MARK: RWP-SWB-010
MTN
INITIALS
MEB9690885E
SHEET 02-FV1
ITEM 02
.625 DIA
(TYP)
TM
Spectra Series
Switchboard
2.5
ACCESS TO: Front Only
CLASS: 2
PHASE: 3P4W
AMPERE: 2000
LABEL:U/L SE
VOLTAGE: 480Y/277V
STYLE: Bolt-On
BUS MTL: Cu 1000A / in²
PLATE: Silver Plate
RATING: Fully
BUS BRACING (RMS SYM)
DEV. MIN. INT. RATING (RMS SYM)
65000 A
65000 A
NOTE: Drawing is a preliminary Print for Approval.
Not intended for manufacturing or construction
purposes. Any manual changes will void this drawing
and could affect layout and/or dimensions
3.12
SEE PLAN VIEW
(For Specific Counduit Space)
.625 DIA
(TYP)
Total Line Up Width:105
Switchboard/Device Information
Nameplates
Amps Poles
2000
3 P-RWP-GEN001-1
Circuit No.
Gen
Device
SS20
Main
SS20
2000
3
TVSS
0
0
1
2
3
SPD Type2 150K
SELA
SELA
SGLA6
100
80
500
3
3
3
P-RWP-SWB010-7
P-RWP-SWB010-1
4
SGLA6
500
3
P-RWP-SWB010-2
5
SGLA6
500
3
P-RWP-SWB010-3
6
SGLA6
500
3
7
SGLA6
500
3
8
SGLA6
500
3
Lugs
P-RWP-XF001-1
Al #12 - 3/0 AWG
Al #12 - 3/0 AWG
Al (2) 300 - 500
MCM
Al (2) 300 - 500
MCM
Al (2) 300 - 500
MCM
Al (2) 300 - 500
MCM
Al (2) 300 - 500
MCM
Al (2) 300 - 500
MCM
Al #8 - 350 MCM
Al #12 - 3/0 AWG
Notes
9,12,13,14,15,16
21,22,23
9,10,11,12,13,14
15,21,22,23
18
13
13
13
13
13
13
13
13
9
SFLA
225
3 P-RWP-SWB010-8
13
13
10
SELA
60
3
NOTES:
1 Copper ground bus furnished.
2 Equipment ground bus furnished.
3 Switchboard furnished with Nameplates.
4 Shipping splits between each section, ship each section separately.
5 Swtichboard furnished with standard 2-Breaker Automatic Throw-Over (ATO) system with HMI and
exercise timer. System operates as open-transition only.
6 ATO wired per drawing package 9690885E02_ATO.pdf.
7 ATO furnished with Universal Power Supply (UPS) for reserve control power.
8 Switchboard furnished with wire markers.
9 Device furnished with 120V AC undervoltage release.
10 Device is furnished with integral ground fault protection.
11 Device furnished with ETU (LSIG) programmer.
12 Device furnished with 120V AC/125V DC shunt trip.
13 Device furnished with padlocking provisions.
14 Device furnished with 120V AC Remote Close Solenoid.
15 Device furnished with Hidden On Button.
16 Device furnished with ETU (LSIA) programmer.
17 Switchboard furnished with fully rated panel.
18 Switchboard furnished with Type 2 TVSS/SPD HE 150kA per mode / 300kA per phase, 200kAIC. TVSS
SPD furnished with Indicating Lights, Alarm, Form C Contacts, Surge Counter & Disconnect Switch.
19 Provision For Future Extension.
20 EPM 2200 Meter installed in Switchboard. Wire per sheet 75C143500SH204.
21 Device furnished with (12) 240V AC/125-250 DC auxiliary switches (SPDT).
22 Device furnished with Limited Access Pushbutton Cover.
23 Device furnished with bell alarm switch and lockout. .
24 Current transformers furnished with shorting-type terminal boards.
25 Switchboard furnished with advanced exercise timer, for weekly, biweekly or monthly options.
JOB NAME: Bossier City South Inland
WILL ADVISE WILL ADVISE W
XXXXXXXXXXXXXXX,
MADE BY: NollM
REL BY:NollM
HiRes 7.0.1065
ISSUED: 07/02/2014
CUSTOMER: REXEL
3514 INDUSTRIAL DR
BOSSIER CITY LA 7111,
CUST. ORDER NO:
REQN. NO: 417BOSS1-S1
ORDER NO: MEB9690885E
PLANT:MEBANE
1
P
09/09/14 Revise & Resubmit #1.
07/02/14 PA Submittal.
NO DATE
REVISIONS
MARK: RWP-SWB-010
MTN
MTN
INITIALS
MEB9690885E
SHEET 02-DS1
ITEM 02
Spectra Series
Switchboard
Total Line Up Width:
2.5
Conduit Detail
TM
3.12
SEE PLAN VIEW
105
(For Specific Counduit Space)
Top Conduit Area
Section 01
30
Section 02
30
Section 03
45
3
Conduit Area
19D x 39W
3
3
35
35
13
Front Plan View
Bottom Conduit Area
30
30
6
6
Conduit Area
26D x 21W
35
6
45
6
Conduit Area
26D x 24W
3 3
Conduit Area
26D x 39W
3 3
3
35
Front Plan View
NOTE: Drawing is a preliminary Print for Approval.
Not intended for manufacturing or construction
purposes. Any manual changes will void this drawing
and could affect layout and/or dimensions
JOB NAME: Bossier City South Inland
WILL ADVISE WILL ADVISE W
XXXXXXXXXXXXXXX,
MADE BY:NollM
ISSUED: 07/02/2014
REL BY:NollM
HiRes 7.0.1065
CUSTOMER: REXEL
3514 INDUSTRIAL DR
BOSSIER CITY LA 7111,
CUST. ORDER NO:
REQN. NO: 417BOSS1-S1
P 07/02/14
ORDER NO: MEB9690885E
NO DATE
PLANT:MEBANE
PA Submittal.
REVISIONS
MARK: RWP-SWB-010
MTN
INITIALS
MEB9690885E
SHEET 02-CD1
ITEM 02
.625 DIA
(TYP)
Multilin™
EPM 2200
POWER METER
High Accuracy Power
and Energy Measurement
‡ Economical meter for Circuit Monitoring of Panels, Main
Feeds, Branch Circuits, & Gensets
‡ Ultra compact, easy to install, program and use
‡ Fits both ANSI and DIN cutout
‡ Large 3 line .56” bright LED display for better visibility and
longer life.
Digital Metering
KEY BENEFITS
‡ User programmable for different system voltages and
current measurements
‡ Optional Modbus Communications
APPLICATIONS
‡ Monitoring & metering of electrical loads such as generator
panels, feeders, switchgear etc.
‡ Low and medium voltage applications
FEATURES
FEATURES
Monitoring and Metering
Communications
‡ Future field Upgradeable for added functionality
(communications option required)
‡ 0.5% Accuracy
‡ Measures 3-phase real-time amps and volts
‡ 3 Line .56” Bright Red LED Display
‡ Intuitive faceplate programming
‡ Optional RS485 Modbus up to 57.6K Baud and Pulse output
‡ Optional support for Power, Energy, Frequency, and Power
Factor measurements
Cat# PL2200C1S
g
Digital Energy
1
EPM 2200 Power Meter
Cat# PL2200C1S
Features
Software Option
Measured Values
Max
Min
The EPM 2200 meter measures more than
40 electrical power parameters providing
a low-cost , multifunction monitoring
solution for industrial and power
generation applications. EPM 2200 can
easily be mounted in a panel for generator
monitoring, substation automation and
more. The meter can also provide data to
RTUs, PLCs and other control devices.
A1
Voltage and Current
Voltage L-N
‡
‡
‡
Voltage L-L
‡
‡
‡
Current Per Phase
‡
‡
‡
‡
Current Neutral
‡
% of Load Bar
‡
Voltage Angles
‡
Current Angles
‡
Watts
‡
‡
‡
‡
VAR
‡
‡
‡
‡
VA
‡
‡
‡
‡
PF
‡
‡
‡
‡
Frequency
‡
‡
‡
Metering
C1
The above plus:
Energy
+Watt-hr
‡
-Watt-hr
‡
Watt-hr Net
‡
+VAR-hr
‡
-VAR-hr
‡
VAR-hr Net
‡
VA-hr
‡
The following electrical parameters are
measured and displayed locally on the
LED display and can be remotely accessed
from the EPM 2200.
B1
The above plus:
Power and
Frequency
Real-Time
Avg
Universal Voltage and Current
Digital Metering
This meter allows voltage input
measurements up to 416 Volts Line to
Neutral and 721 volts Line to Line. This
insures proper meter safety when wiring
directly to high voltage systems. The unit
will perform to specification on 69 Volt,
120 Volt, 230 Volt, 277 Volt and 347 Volt
power systems.
Universal Voltage and Current
Inputs
The meter allows voltage inputs
measurements up to 416 Volts Line to
Neutral and 721 Volts Line to Line. This
insures proper meter safety when wiring
directly to high voltage systems. The unit
will perform to specification on 69 Volt,
120 Volt, 230 Volt, 277 Volt and 347 Volt
power systems.
Unique Current Input Connections
EPM 2200 meter uses two current input
wiring methods.
‡ 0HWKRG2QH&7SDVVWKURXJK'LUHFWO\
pass the CT through the meter without
any physical termination on the meter.
This insures that the meter cannot be a
point of failure on the CT circuit. This is
preferable to utility users when sharing
relay class CTs. No Burden is added to
the secondary CT circuit.
‡ 0HWKRG7ZR&XUUHQW´*LOOVµ7KHPHWHU
additionally provides ultra-rugged
termination pass through bars allowing
the CT leads to be terminated on the
meter. This also eliminates any possible
point of failure at the meter. This
method is also a preferred technique
for ensuring relay class CT integrity
does not get compromised. No terminal
blocks are required and this stud based
design ensures that CTs will not open
under a fault condition.
Communications
Through an optional high speed Modbus
communications interface, the meter can
also provide data to RTUs, PLCs and other
control devices at Baud rates ranging from
9600 baud to 57.6 kbaud.
Current Input Connections
Method One
Method Two
Nickel Plated Brass
&XUUHQW´*LOOµ
Inherently
Safe Design
2
CT wires
pass through meter
(dia. 0.77” / 4.5mm)
www.GEDigitalEnergy.com
CT wires terminate
to meter
EPM 2200 Power Meter
Cat# PL2200C1S
Solid Construction with Mounting
Versatility
The EPM 2200 has a rugged design for
harsh environment . This is especially
important in power generation, utility
substation, and critical user applications.
The structural and electrical design of
this meter was developed based on the
recommendations and approvals of many
of our utility customers.
EPM 2200 can easily be mounted in a
panel for generator monitoring, substation
automation and more. The unique dual
design combines ANSI and DIN mounting
structure and allows easy installation for
both new metering applications and retrofit
of existing analog meters.
The unit mounts directly in an ANSI C39.1
(4” Round form) or an IEC 92 mm DIN
square form.
Simple Installation and
Programming
EPM 2200 is intuitive so that a new
user can easily program and set-up the
meter. All wiring inputs are color coded
with clear labeling to avoid cross wiring
mistakes by installers. The meter has built
in programmable auto scroll features to
display multiple values without having to
press keys.
Digital Metering
RS485 COM Port and Pulse Counter
EPM2200 with RS485 and KYZ pulse output
Dimensions and Mounting
www.GEDigitalEnergy.com
3
EPM 2200 Power Meter
Cat# PL2200C1S
User Interface
Only 3.25”
Large .56” LEDs
Reading Type
Designator
Tx Rx Indicator LEDs
Screen
Selectors
RS 485
Communication
Vh Pulse
% Load
Bar
Auto Scale Indicator
Current
´*LOOVµ
Digital Metering
Technical Specifications
VOLTAGE INPUTS
Universal Voltage Input
‡ 9ROWV/LQH7R1HXWUDO
0-721 Volts Line To Line
‡,QSXWZLWKVWDQGFDSDELOLW\²0HHWV,(((&
(surge withstand Capability)
‡3URJUDPPDEOHYROWDJHUDQJHWRDQ\37UDWLR
‡6XSSRUWVHOHPHQW:<(HOHPHQW:<(
2 Element Delta, 4 Wire Delta Systems
‡%XUGHQ9$3KDVHDW9ROWV
‡,QSXWZLUHJDXJHPD[$:*PP
CURRENT INPUTS
‡ &ODVV$PSV1RPLQDO$PSV0D[
‡ )DXOW&XUUHQW:LWKVWDQG
100 Amps for 10 Seconds
300 Amps for 3 Seconds
500 Amps for 1 Second.
‡ 3URJUDPPDEOH&XUUHQWWR$Q\&75DWLR
‡ %XUGHQ9$SHUSKDVH0D[DW$PSV
‡ P$3LFNXS&XUUHQW
‡ )UHTXHQF\+]RU+]+]DERYHDQGEHORZ
nominal range
‡ 3DVVWKURXJKZLUHJDXJHGLPHQVLRQµPP
ISOLATION
‡ $OO,QSXWVDQG2XWSXWVDUHJDOYDQLFDOO\LVRODWHGWR
2500 Volts AC.
SENSING METHOD
‡7UXH506
‡6DPSOLQJDW6DPSOHVSHU&\FOHRQDOOFKDQQHOV
measured readings simultaneously
Cat# PL2200C1S
Universal
Voltage Inputs
UPDATE RATE
‡ $OOSDUDPHWHUVXSWRVHFRQG
PULSE OUTPUT
‡2SWLRQDO.<=SXOVHRQEDFNSODWH
POWER SUPPLY
‡ 9$&#+]
‡ &RQVXPSWLRQ9$
DIMENSIONS & SHIPPING
‡:HLJKWOEV
‡ %DVLF8QLW+[:[/
‡ 0RXQWVLQPP',1DQG$16,&5RXQG&XWRXWV
‡ 6KLSSLQJ&RQWDLQHU'LPHQVLRQVµFXEH
COMMUNICATIONS
‡ 2SWLRQDO56&RPPXQLFDWLRQV3RUW
- Through Backplate
- Protocol Modbus RTU or ASCII
- Com Port Baud Rate: 9600 to 57.6K
- Com Port Addresses: 001-247
- 8 Bit, No Parity
ENVIRONMENTAL
Storage:
Operating:
Humidity:
Faceplate Rating:
METERING ACCURACY
Measured
Parameters
Accuracy%
of Reading
Voltage L-N
Voltage L-L
Current
+/- Watts
0.2%
0.4%
0.2%
0.5%
+/-Wh
0.5%
+/-VARs
1.0%
+/-VARh
1.0%
VA
VAh
1.0%
1.0%
PF
Frequency
% Load
1.0%
+]
+/- 1 segment
Display Range
0-9999 V or kV
0-9999 V or kV
0-9999 Amps or kAmps
0-9999 Watts, kWatts,
MWatts
5 to 8 Digits
Programmable
0-9999 VARs, kVARs,
MVARs
5 to 8 Digits
Programmable
0-9999 VA, kVA, MVA
5 to 8 Digits
Programmable
+/- 0.5 - 1.0
+]
10 Segment Scale
-20° C to +70° C
-10° C to +60° C
to 95% RH Non-Condensing
NEMA12 (Water Resistant) Mounting
Gasket Included
COMPLIANCE
‡,(&$FFXUDF\
‡$16,&$FFXUDF\
‡$16,,(((&6XUJH:LWKVWDQG
‡$16,&%XUVW
‡,(&(6'
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‡,(&)DVW7UDQVLHQW
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APPROVALS
ISO:
Manufactured to an ISO9001 registered program
UL:
5HFRJQL]HGXQGHU8/86$(
cUL:
5HFRJQL]HGXQGHU8/&DQDGD
CE:
Conforms to European CE standards
Ordering
PL 2200
Option
Communications
*
A1
B1
C1
*
Description
X
S
Volts and Amps Meter
Volts, Amps, Power and Frequency
Volts, Amps, Power, Frequency and Energy Counters
None
RS485 + Pulse
Example1 - EPM 2200 support Voltage and Current measurement with no communications. PL2200A1X
Example 2: EPM 2200 support Voltage, Current, Power, and Frequency measurement and Energy counters measurement with RS485 communication. PL2200C1S
4
www.GEDigitalEnergy.com
Current Transformer
Model 567TL, 567TS
Window Size 4.75” x 3.75”
REGULATORY AGENCY APPROVALS
Cat# 567TL-202
Manufactured to meet the requirements of ANSI/IEEE C57.13.
Classified by U.L. in accordance with IEC 44-1
APPLICATION:
Metering.
FREQUENCY:
50-400 Hz.
INSULATION LEVEL:
600 Volts, 10 kV BIL full wave.
CONTINUOUS THERMAL
CURRENT oRATING FACTOR: o
1.33 at 30 C. amb., 1.0 at 55 C. amb.
TL-Terminals are brass studs No. 10-32 with one
flatwasher, lockwasher and regular nut.
TS-Terminals are brass screws No. 10-32 with
one flatwasher, lockwasher and regular nut.
TL Style
Approximate weight 4 lbs.
TS Style
CATALOG
NUMBER
CURRENT
RATIO
567**201
ANSI METERING CLASS AT 60HZ
B0.1
B0.2
B0.5
B0.9
B1.8
200:5
2.4
2.4
—
—
—
567**251
250:5
1.2
2.4
—
—
—
567**301
300:5
1.2
1.2
2.4
—
—
567**401
400:5
0.6
1.2
2.4
2.4
—
567**501
500:5
0.6
0.6
1.2
2.4
—
567**601
600:5
0.6
0.6
1.2
1.2
2.4
567**751
750:5
0.3
0.6
0.6
1.2
2.4
567**801
800:5
0.3
0.6
0.6
1.2
1.2
567**102
1000:5
0.3
0.3
0.6
0.6
1.2
567**122
1200:5
0.3
0.3
0.3
0.6
0.6
567**152
1500:5
0.3
0.3
0.3
0.3
0.6
567**162
1600:5
0.3
0.3
0.3
0.6
0.6
567**202
2000:5
0.3
0.3
0.3
0.3
0.6
567**252
2500:5
0.3
0.3
0.3
0.3
0.3
567**302
3000:5
0.3
0.3
0.3
0.3
0.3
567**322
3200:5
0.3
0.3
0.3
0.3
0.3
**Note: When ordering, prefix Cat No. with model designation required i.e. 567TL—201, or 567TS—201, etc.
Models 567TL , 567TS
Cat# 567TL-202
TL Style
TS Style
USA, Canada, Asia, Latin America
Tel: +1-800-547-8629
Fax: +1-905-201-2455
e-mail: sales.multilin@ge.com
Europe, Middle East, Africa
Tel: +34-94-485-88-00
Fax: +34-94-485-88-45
e-mail: gemultilin.euro@ge.com
Please refer to our website www.GEMultilin.com for more detailed contact information
CS00A40555 Rev. 1 03/09
http://waterheatertimer.org/Tork-Digital-timers-and-manuals.html
E100B SERIES
MULTIPURPOSE CONTROLS
1 CHANNEL
E101B EW101B
E103B EW103B
E120B EW120B
MULTI-VOLTAGE INPUT 120-277VAC
PATENTED 40 AMP CONTACTS
INDOOR/OUTDOOR ENCLOSURE STANDARD
APPLICATIONS:
24 HOUR
• Signs
• Lighting
• Air Conditioning
• Sump Pumps
• Ventilating Fans
PATENTED
40 AMP
7 DAY
• Outdoor Signs
• Display Lighting
• Security Systems
• Heating and Air Conditioning
CONTACTS
FEATURES
DISPLAY: LCD
PROGRAMMING: Simple, with brief easy-to-follow instructions.
DAYLIGHT SAVING TIME: Automatic (can be changed or omitted)
MANUAL OVERRIDE: Until the next regularly scheduled ON
or OFF when automatic operation then resumes or
permanently if desired.
CLOCK FORMAT: AM/PM
POWER OUTAGE BACKUP: Permanent Schedule Retention.
Supercapacitor maintains real time clock for 100 hours.
SUPERCAPACITOR BACKUP!
PERMANENT SCHEDULE RETENTION!
24 HOUR
Capable of same schedules each day of the week
and
ASHRAE
90.1 1999
7 DAY
Capable of different schedules each day of the week
ON & OFF SET POINTS: 20 per day,
ON & OFF SET POINTS: 20 per day or week,
minimum setting is one minute.
minimum setting is one minute.
SPECIFICATIONS
TIMING ACCURACY: Line Frequency
OPERATING TEMPERATURE:
- 40 to +149°F (- 40° to +65°C.)
STORAGE TEMPERATURE:
- 40° to +158°F (- 40° to +70°C.)
RELATIVE HUMIDITY: 0 to 90% RH
ENCLOSURE: Indoor/Outdoor NEMA 3R plastic is standard
INPUT VOLTAGE: 120-277VAC, 50/60Hz (automatic detection)
POWER CONSUMPTION: 6VA max.
4
MEETS CALIFORNIA
ENERGY COMMISSION’S
TITLE 24 REQUIREMENTS
A DIVISION OF
OTHER MOUNTINGS:
Metal Indoor, add suffix Y
Plastic Indoor/Outdoor with clear window
NEMA 3R: add suffix C
Metal Indoor/Outdoor – NEMA 3: add suffix O
Flush with lock and key: add suffix FLG
Bracket mounting – specify mechanism
only with bracket
NSi INDUSTRIES, LLC
TYPE
CATALOG
NO
UPC
CODE
DRY
CONTACTS
SCHEDULING
SET
POINTS
MIN
SETTING
E101B
82401
SPST
SAME EVERYDAY
20
1 MIN
E103B
82411
DPST
SAME EVERYDAY
20
1 MIN
E120B
82406
SPDT
SAME EVERYDAY
20
1 MIN
EW101B
82431
SPST
20
1 MIN
EW103B
82441
DPST
20
1 MIN
EW120B
82436
SPDT
capable of DIFFERENT SCHEDULES
each day of the week
capable of DIFFERENT SCHEDULES
each day of the week
capable of DIFFERENT SCHEDULES
each day of the week
20
1 MIN
24
HOUR
7
DAY
WIRING DIAGRAMS
E, EW101B SERIES
1
2
3
DPST
TIMER
SUPPLY
1
4
2
3
LOAD
L
N
E, EW103B SERIES
E, EW103B SERIES
SPST
TIMER
SUPPLY
4
5
TIMER
SUPPLY
6
LOAD
L
N
120/277VAC
L
N
120/277VAC
SERIES E, EW 101B (SPST)
SERIES E, EW 103B (DPST)
LOAD TYPE
Resistive
Inductive
Ballast
Tungsten
Pilot Duty
Motor
120VAC
40A
40A
30A
15A
720VA
1HP
DRY CONTACT
RATINGS
208-277VAC
40A
40A
20A
LOAD TYPE
Resistive
Inductive
Ballast
Tungsten
Pilot Duty
Motor
NO
30A
30A
30A
15A
720VA
1HP
JUNE 2007
NC
30A
30A
10A
2A
720VA
1HP
L2
4
5
6
1
2
L
N
3
LOAD
4
LOAD
5
LOAD
N
N
120/277VAC
SPECIFICATION WRITER’S GUIDES
Series E100B
1. Furnish and install a TORK digital time switch with (40 Amp SPST contacts,
model E101B) (40 Amp DPST contacts, model E103B) (30 Amp SPDT contacts,
model E120B).
2. Unit shall be capable of 20 set points.
3. Unit shall repeat the same schedule each day.
WRITE 4-9 AS BELOW
Series EW100B
1. Furnish and install a TORK digital time switch with (40 Amp SPST contacts,
model EW101B) (40 Amp DPST contacts, model EW103B) (30 Amp SPDT contacts, model EW120B).
2. Unit shall be capable of 20 set points.
3. Unit shall be capable of a different schedule each day of the week.
WRITE 4-9 AS BELOW
DRY CONTACT
120VAC
L1
3
208 OR 240VAC
720VA
11⁄2HP@208VAC
2HP@240-277VAC
30A resistive @28VDC
SERIES E, EW 120B (SPDT)
2
SPDT
TIMER
SUPPLY
LOAD
N
N
1
E, EW120B SERIES
DPST
RATINGS
208-277VAC
NO
NC
30A
30A
30A
30A
20A
10A
APPLIES TO ALL MODELS:
4. Unit shall have automatic Daylight Savings Time and Leap Year compensation.
5. Unit shall program in AM/PM format.
6. Unit shall have LCD display.
7. Unit shall have permanent schedule retention.
8. Unit real time clock shall be retained by supercapacitor for 100 hours in a
power failure.
9. Unit shall be capable of manual override ON or OFF either to the next
scheduled event or permanently.
10. Unit shall have a NEMA 3R indoor/outdoor plastic enclosure.
11. Unit shall have Load Status indication.
12. Unit shall have Power Failure indication.
720VA
720VA
11⁄2HP@208VAC
2HP@240-277VAC
all NO/NC 30A resistive @28VDC
A DIVISION OF
NSi INDUSTRIES, LLC
5
Tork timers and manuals
http://waterheatertimer.org/Tork-Digital-timers-and-manuals.html
E101B SINGLE
MLI-203(REVA)
7/22/07
10:02 PM
Page 1
E101B SINGLE
7/22/07
10:02 PM
Page 2
TABLE OF CONTENTS
Section
Page
Installation Instructions and
Capabilities . . . . . . . . . . . . . . . . . . . .
1
Key Functions . . . . . . . . . . . . . . . . . . . .
2
1.0
To Set The Clock . . . . . . . . . . . . . . . . . .
3
1.1
To Modify Clock . . . . . . . . . . . . . . . . . .
3
2.0
To Set Date . . . . . . . . . . . . . . . . . . . . . .
3
2.1
To Modify Date . . . . . . . . . . . . . . . . . . .
4
3.0
Daylight Saving Time . . . . . . . . . . . . . .
4
3.1
Modify Daylight Saving Time . . . . . . . . .
5
4.0
Scheduling ONs, OFFs . . . . . . . . . . . . .
5
(After previously Set)
(After previously Set)
5.0
Review, Modify, Delete schedules . . . . .
6
6.0
Manual Override . . . . . . . . . . . . . . . . . .
6
7.0
Clear All Memory . . . . . . . . . . . . . . . . .
7
Blank Schedule sheets . . . . . . . . . . . . .
8
E101B SINGLE
7/22/07
10:02 PM
Page 3
TORK MODELS E101B / E103B / E120B
24 HOUR DIGITAL TIME SWITCH
READ INSTRUCTIONS CAREFULLY BEFORE
ATTEMPTING TO INSTALL TIME SWITCH. SEE
WARNING ON FRONT PANEL – Failure to comply
with instructions could result in personal injury and/or
property damage.
INSTALLATION:
UNIT IS TO BE INSTALLED BY A LICENSED ELECTRICIAN
1. To remove unit from enclosure: Push the tab on right
to swing unit the left and remove.
2. Mount the enclosure at eye level using screws or
other suitable fastening device. Bring supply and load
wires in through or side knockouts. DO NOT USE
TOP.
3. Unit should be programmed with AC power only and
not while on super cap back up power.
4. Reinstall unit by reversing step #1 above and connecting wires to units as per suggested wiring diagrams. See illustration and warning on back page.
5. To reset the timer, insert a paperclip on the small hole
next to the EVENT key. This procedure will allow you
to reset the time but will not clear the memory.
CAPABILITIES
- 24 Hour Day scheduling.
- ON and OFF set points
Total # - 20 per day
- Minimum setting: 1 minute
FEATURES
Daylight Saving
Leap Year
Display
Manual Override
Power Outage
Automatic (can be adjusted).
Automatic compensation.
LCD
Until the next schedule ON or OFF.
Automatic operation then resumes.
Permanent schedule retention.
Supercapacitor maintains real time
up to 4 days.
1
E101B SINGLE
7/22/07
10:02 PM
Page 4
KEY FUNCTIONS:
Unit should be program with AC power. Do not program on super cap back up power.
Mode: Press to go to the next mode.
Enter: Stores or saves current entry.
DAY/YEAR:
a. Press to set the year in the DATE mode.
b. Selects the desired day of the week in the DST
(Daylight Savings Time) mode.
OVR:
a. Press to change the load status in the AUTO (automatic) and the MAN (manual) mode.
DEL/PREV:
a. Press to delete the displayed entry.
b. Decrement the last selected entry.
HOUR/MONTH:
a. Press to set hour in CLK (clock) mode and the SCH
(schedule) mode.
b. Press to set month in the DATE mode and DST
(Daylight Savings Time) mode.
MINUTE/DATE:
a. Press to set minutes in CLK (clock) mode and SCH
(schedule) mode.
b. Press to set date in the DATE mode.
c. Press to select the week of the month in DST
(Daylight Savings Time).
ENTER:
a. Press to store the displayed information into memory.
Information will not be stored until the ENTER key
is pressed.
Note: During settings, each press of the key will
advance one number. For rapid advance hold key in.
EVENT:
a. Press to select ON/OFF in the schedule.
b. Press to update the load status In the AUTO (automatic) mode.
2
E101B SINGLE
7/22/07
10:02 PM
Page 5
PROGRAMMING YOUR E101B / E103B / E120B
NOTE: AFTER MAKING ANY CHANGES TO THE
PROGRAM, PRESS MODE TO GO TO RUN
MODE AND THEN PRESS EVENT TO UPDATE
THE LOAD STATUS.
AT POWER UP:
When powering up the unit for the first time,
12:00 will flash on the display. NOTE: Allow 1-2
minutes for the supercap to charge before any
display is shown.
Press the MODE key to go to the CLK mode. After
pressing the MODE key the display will show:
MO TU WE TH FR SA SU ASTRO
CH1 MOM AM PM OFFSET CH2
CLK
DATE SCH AUTO MAN
1.0
TO SET CLOCK
Press HOUR and MIN to advance to the present
hour and mins. Check AM/PM, and press ENTER.
1.1
TO MODIFY CLOCK
Press MODE until the display shows: CLK. Press
HOUR and MIN. to modify clock and press
ENTER.
2.0
TO SET DATE
If you are setting for the first time, display will
show:
MO TU WE TH FR SA SU ASTRO
CLK
DATE
SCH AUTO MAN
3
E101B SINGLE
7/22/07
10:02 PM
Page 6
Press MONTH, DATE, and YEAR key to advance
to the desired Month, date and year, then press
ENTER.
NOTE: The day of the week will be automatically
set once the date is set.
2.1
TO MODIFY DATE
Press MODE until the display shows DATE. Press
MONTH, DATE and YEAR to modify present settings and then press ENTER.
3.0
DAYLIGHT SAVING TIME
After setting or modifying the date, display will
show:
ON
OFF
For standard USA daylight savings (DSt), press MODE
then go to step 4.0. For dates other than standard USA
dates, press MONTH and go to step 3.1. If daylight
saving time (DSt) is NOT required, press DEL display
will show:
OFF
Press ENTER then go to step 4.0.
4
E101B SINGLE
3.1
7/22/07
10:02 PM
Page 7
TO MODIFY STANDARD USA
DAYLIGHT SAVINGS DATES
MO TU WE TH FR SA
SU ASTRO
Press MONTH and DATE, to modify S (starting) DST
settings. NOTE: DATE will choose the week of the month
to be assigned. Choices are 01 (1st), 02 (2nd), 03 (3rd)
or L (Last) week of the month. The default day in SU
(Sunday). Pressing DAY changes default day. EXAMPLE:
04:01 SU S represents the first Sunday in April.
Press ENTER and the display will show:
MO TU WE TH FR SA
SU ASTRO
Press MONTH and DATE, to modify E (ending) DST
settings. NOTE: DATE will choose the week of the
month to be assigned. Choices are 01 (Ist), 02 (2nd),
03 (3rd) or L (Last) week of the month. The default day
is SU (Sunday). Pressing DAY changes default day.
EXAMPLE: 10:L SU E represents last Sunday in
October.
Press ENTER and the display will show the modified
DSt starting date.
Press MODE to go to step 4.0.
4.0
SCHEDULE SET MODE
Press MODE until display shows:
CLK DATE
SCH
5
AUTO MAN
E101B SINGLE
4.1
7/22/07
10:02 PM
Page 8
SETTING HOURS AND MINUTES
Press HOUR and MIN to set desired time. Press
EVENT to set desired event (ON/OFF) and then
press ENTER. The display will show:
CLK DATE SCH AUTO MAN
Follow the same procedures above to set more
schedule entries.
5.0
REVIEW, MODIFY AND DELETE
Press MODE to advance to any of the following
MODES:
1. CLOCK MODE: Press HOUR and MIN to modify existing settings. Press ENTER.
2. DATE MODE: Press MONTH, DATE and YEAR
to modify existing settings. Press ENTER. DAY
is automatically adjusted.
3. DST Daylight Saving Time: To review press
ENTER. To modify press MONTH, DATE and
DAY to change existing setting. Press ENTER.
4. SCHEDULE MODE: Press HOUR, MIN and
EVENT to modify time settings. Press DEL to
delete. Press ENTER after each modification.
5. RUN MODE: The time, day, seconds, the load
status and AUTO is displayed.
6.0
OVERRIDE
OVR (Override) is effective in the AUTO mode
and the manual mode. OVR on the AUTO
mode is effective until the next event. OVR on
the manual mode is effective indefinitely.
6
E101B SINGLE
7.0
7/22/07
10:02 PM
Page 9
NOTES:
1. MAN mode: Under this mode the unit disregards the settings in the schedule mode and
remains in its manually set status ON or OFF.
NOTE: To resume regular schedule execution
press the mode key to return to AUTO mode.
2. Unit will go to RUN MODE automatically
(except on the MAN mode) if no key is pressed
for five minutes.
3. Clear all memory. All memory can be cleared
using the following procedure: While in the RUN
mode, press ENTER, display will show:
ON
OFF
CLK DATE SCH AUTO MAN
Use EVENT key to display:
ON
OFF
CLK DATE SCH AUTO MAN
Now press ENTER briefly and everything in the
timer memory will be erased, including real time
and date. NOTE: Unit has permanent memory
and will not be erased unless done through procedure above.
5. Upon powering up your E101B/103B/120B the
display will show at what frequency the unit is
operating, 50 will determine 50Hz or 60 for
60Hz. NOTE: While in the AUTO mode, if AC
power is absent, the display will show a PF
(power failure) instead of the seconds scrolling
up.
6. A “Lo” on the display indicates that the super
cap has run low and the unit needs to be powered with AC. A minimum of 8 hours is required
to fully charge the super cap.
7
E101B SINGLE
7/22/07
10:02 PM
Page 10
NOTE: AFTER MAKING ANY CHANGES TO THE
PROGRAM, PRESS MODE TO GO TO RUN MODE
AND THEN PRESS EVENT TO UPDATE THE LOAD
STATUS.
Sch.#
Load Description
Time
8
ON
OFF
IEC Power Devices
Section 5
Cat# BSLR2K
IEC Contactors Accessories
C-2000
Surge Suppressor
For suppression of disturbances in circuit voltage occurring upon opening of the contactor. Mounts directly on the top of the coil.
Note: Surge suppression is built into CK electronic coil module.
For Use With
Surge Suppressor Type
Voltage
Product Number
List Price
GO-10C2
RC
RC
RC
RC
RC
RC
Diode
Varistor
Varistor
Varistor
Varistor
24-48 VAC
50-127 VAC
130-240 VAC
24-48 VAC
50-127 VAC
130-240 VAC
12-600 VDC
24-48 VAC, DC
50-127 VAC, DC
130-250 VAC, DC
380-500 VAC, DC
BSLR2G
BSLR2K
BSLR2R
BSLR3G
BSLR3K
BSLR3R
BSLDZ
BSLV3G
BSLV3K
BSLV3R
BSLV3U
$24.00
$24.00
$24.00
$24.00
$24.00
$24.00
$24.00
$24.00
$24.00
$24.00
$32.00
CL00, CL01, CL02, CL25, CL04, CL45
CL00, CL01, CL02, CL25, CL04, CL45
CL00, CL01, CL02, CL25, CL04, CL45
CL06, CL07, CL08, CL09, CL10
CL06, CL07, CL08, CL09, CL10
CL06, CL07, CL08, CL09, CL10
All CL contactors
All CL contactors
All CL contactors
All CL contactors
All CL contactors
Surge Suppressor
BSLR _ _RC
Amplifier
A1
Provides for low level signals (24 VDC) to operate contactor while control coils operate at
the line voltage. Two forms are available: a panel-mount form (for CK contactors) and a
side-mount form (for CL contactors).
For Use With
Product Number
GO Schedule
List Price
GO-10C2
CL Contactors
CK Contactors
CLXA01
CR305X112P
GO-10C2
GO-10G
$73.00
$54.00
+
A2
BSLDZ Diode
Mechanical Latch Block
Mechanical latch block is used to convert a standard contactor into a latched contactor.
Easy to mount, it clips onto front face of contactor. Contact Rating: A600, Q600.
For Use With
All CL Contactors
All CL Contactors
All CL Contactors
All CL Contactors
All CL Contactors
All CL Contactors
Voltage Application
Release Voltage Range
50/60 Hz and DC
50/60 Hz and DC
50/60 Hz and DC
50/60 Hz and DC
50/60 Hz and DC
50/60 Hz and DC
24-32
42-48
110-125
208-277
380-480
500-600
Product Number
RMLFD
RMLFG
RMLFJ
RMLFN
RMLFU
RMLFY
BLSV_ _Varistor
List Price
GO-10C2
$70.00
$70.00
$70.00
$70.00
$70.00
$70.00
Unlatching coil is rated for intermittent duty. The latch block features an integral coil contact to clear the circuit
after unlatching.
References
Amplifier
Instructions
GEH-5517 Amplifier CLXA01
Mechanical Latch Block
RMLF
Rev. 7/11
Prices and data subject
to change without notice
www.geindustrial.com
Control Catalog
5-45
Pilot and Signaling Devices
Section 9
Heavy-Duty 30.5 mm Watertight/Oiltight Pilot Devices
CR104P
600 Volts Max. AC/DC
10 Amperes Continuous
CAT# CR104PLG82G
Suitable for use in NEMA Types 1, 3, 3R, 4, 4X, 12, and 13 applications when mounted
in enclosures rates for those same applications. For some NEMA Type 4X applications,
protective caps will improve corrosion resistance.
Standard Indicating Lights
Power Supply Type
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Resistor
Resistor
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Full Voltage, Flashing
Full Voltage
Supply Voltage
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
12V 50/60 Hz
24V 50/60 Hz
120V 50/60 Hz
120V 50/60 Hz
240V 50/60 Hz
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6 VAC/DC
12 VAC/DC
24 VAC/DC
120 VAC/DC
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
120V
Lamp Type
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 12V, #756
Incand., 24V, #1819
Incand., 130V
Incand., 60V
Incand., 130V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 12V
LED, 24V
LED, 120V
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Neon, 120V, #NE51H-R
Product Number1
CR104PLG32*
CR104PLG3A*
CR104PLG33*
CR104PLG3B*
CR104PLG3C*
CR104PLG34*
CR104PLG35*
CR104PLG16*
CR104PLG17*
CR104PLG18*
CR104PLG22*
CR104PLG42*
CR104PLG43*
CR104PLG92*
CR104PLG9A*
CR104PLG93*
CR104PLG9B*
CR104PLG9C*
CR104PLG94*
CR104PLG95*
CR104PLG86*
CR104PLG87*
CR104PLG88*
CR104PLG82*
CR104PLG62*
CR104PLG6A*
CR104PLG63*
CR104PLG6B*
CR104PLG6C*
CR104PLG64*
CR104PLG65*
CR104PLG56*
CR104PLG72*
List Price
GO-10P1
$64.20
$64.20
$64.20
$64.20
$64.20
$64.20
$64.20
$52.50
$52.50
$52.50
$52.50
$52.50
$52.50
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$70.20
$70.20
$70.20
$70.20
$67.20
$67.20
$67.20
$67.20
$67.20
$67.20
$67.20
$70.20
$55.20
Lamp Type
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 12V, #756
Incand., 24V, #1819
Incand., 130V
Incand., 60V
Incand., 130V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 12V
LED, 24V
LED, 120V
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Neon, 120V, #NE51H-R
Product Number1
CR104PLT32*
CR104PLT3A*
CR104PLT33*
CR104PLT3B*
CR104PLT3C*
CR104PLT34*
CR104PLT35*
CR104PLT16*
CR104PLT17*
CR104PLT18*
CR104PLT22*
CR104PLT42*
CR104PLT43*
CR104PLT92*
CR104PLT9A*
CR104PLT93*
CR104PLT9B*
CR104PLT9C*
CR104PLT94*
CR104PLT95*
CR104PLT86*
CR104PLT87*
CR104PLT88*
CR104PLT82*
CR104PLT62*
CR104PLT6A*
CR104PLT63*
CR104PLT6B*
CR104PLT6C*
CR104PLT64*
CR104PLT65*
CR104PLT56*
CR104PLT72*
List Price
GO-10P1
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$70.20
$70.20
$70.20
$70.20
$70.20
$70.20
$100.20
$100.20
$100.20
$100.20
$100.20
$100.20
$100.20
$88.20
$88.20
$88.20
$88.20
$85.20
$85.20
$85.20
$85.20
$85.20
$85.20
$85.20
$88.20
$73.20
Standard
Push to Test Indicating Lights
Power Supply Type
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Resistor
Resistor
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Full Voltage, Flashing
Full Voltage
Supply Voltage
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
12V 50/60 Hz
24V 50/60 Hz
120V 50/60 Hz
120V 50/60 Hz
240V 50/60 Hz
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6 VAC/DC
12 VAC/DC
24 VAC/DC
120 VAC/DC
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
120V
Push-to-Test
Lens Colors Available*
Color
Insert in place of asterisk (*)
No Lens
Clear4
Yellow
Green
Blue
Amber
Red
White
A2,3,4
C3
E4
G4
L4
M
R
W
2Subtract $4.20 from list price with no lens.
3Not suitable for use with LED.
4Not suitable for use with NEON light.
1Replace asterisk (*) in product number with letter from table on right.
Rev. 7/11
Prices and data subject
to change without notice
Lamps: See page 9-35
Nameplates: See pages 9-40 to 9-41
Technical Data: See pages 9-56 to 9-57
Drilling Plans and Dimensions: See page 9-57
www.geindustrial.com
Control Catalog
9-15
Pilot and Signaling Devices
Section 9
Heavy-Duty 30.5 mm Watertight/Oiltight Pilot Devices
CR104P
600 Volts Max. AC/DC
10 Amperes Continuous
CAT# CR104PLG82W
Suitable for use in NEMA Types 1, 3, 3R, 4, 4X, 12, and 13 applications when mounted
in enclosures rates for those same applications. For some NEMA Type 4X applications,
protective caps will improve corrosion resistance.
Standard Indicating Lights
Power Supply Type
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Resistor
Resistor
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Full Voltage, Flashing
Full Voltage
Supply Voltage
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
12V 50/60 Hz
24V 50/60 Hz
120V 50/60 Hz
120V 50/60 Hz
240V 50/60 Hz
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6 VAC/DC
12 VAC/DC
24 VAC/DC
120 VAC/DC
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
120V
Lamp Type
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 12V, #756
Incand., 24V, #1819
Incand., 130V
Incand., 60V
Incand., 130V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 12V
LED, 24V
LED, 120V
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Neon, 120V, #NE51H-R
Product Number1
CR104PLG32*
CR104PLG3A*
CR104PLG33*
CR104PLG3B*
CR104PLG3C*
CR104PLG34*
CR104PLG35*
CR104PLG16*
CR104PLG17*
CR104PLG18*
CR104PLG22*
CR104PLG42*
CR104PLG43*
CR104PLG92*
CR104PLG9A*
CR104PLG93*
CR104PLG9B*
CR104PLG9C*
CR104PLG94*
CR104PLG95*
CR104PLG86*
CR104PLG87*
CR104PLG88*
CR104PLG82*
CR104PLG62*
CR104PLG6A*
CR104PLG63*
CR104PLG6B*
CR104PLG6C*
CR104PLG64*
CR104PLG65*
CR104PLG56*
CR104PLG72*
List Price
GO-10P1
$64.20
$64.20
$64.20
$64.20
$64.20
$64.20
$64.20
$52.50
$52.50
$52.50
$52.50
$52.50
$52.50
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$70.20
$70.20
$70.20
$70.20
$67.20
$67.20
$67.20
$67.20
$67.20
$67.20
$67.20
$70.20
$55.20
Lamp Type
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 6V, #755
Incand., 12V, #756
Incand., 24V, #1819
Incand., 130V
Incand., 60V
Incand., 130V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 6V
LED, 12V
LED, 24V
LED, 120V
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Incand., 6V, #267 Flasher
Neon, 120V, #NE51H-R
Product Number1
CR104PLT32*
CR104PLT3A*
CR104PLT33*
CR104PLT3B*
CR104PLT3C*
CR104PLT34*
CR104PLT35*
CR104PLT16*
CR104PLT17*
CR104PLT18*
CR104PLT22*
CR104PLT42*
CR104PLT43*
CR104PLT92*
CR104PLT9A*
CR104PLT93*
CR104PLT9B*
CR104PLT9C*
CR104PLT94*
CR104PLT95*
CR104PLT86*
CR104PLT87*
CR104PLT88*
CR104PLT82*
CR104PLT62*
CR104PLT6A*
CR104PLT63*
CR104PLT6B*
CR104PLT6C*
CR104PLT64*
CR104PLT65*
CR104PLT56*
CR104PLT72*
List Price
GO-10P1
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$82.20
$70.20
$70.20
$70.20
$70.20
$70.20
$70.20
$100.20
$100.20
$100.20
$100.20
$100.20
$100.20
$100.20
$88.20
$88.20
$88.20
$88.20
$85.20
$85.20
$85.20
$85.20
$85.20
$85.20
$85.20
$88.20
$73.20
Standard
Push to Test Indicating Lights
Power Supply Type
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Resistor
Resistor
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Transformer
Full Voltage
Full Voltage
Full Voltage
Full Voltage
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Transformer, Flashing
Full Voltage, Flashing
Full Voltage
Supply Voltage
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
12V 50/60 Hz
24V 50/60 Hz
120V 50/60 Hz
120V 50/60 Hz
240V 50/60 Hz
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6 VAC/DC
12 VAC/DC
24 VAC/DC
120 VAC/DC
120V 50/60 Hz
200-208V 60 Hz
240V 50/60 Hz
277V 60 Hz
347V 60 Hz
480V 50/60 Hz
600V 50/60 Hz
6V 50/60 Hz
120V
Push-to-Test
Lens Colors Available*
Color
Insert in place of asterisk (*)
No Lens
Clear4
Yellow
Green
Blue
Amber
Red
White
A2,3,4
C3
E4
G4
L4
M
R
W
2Subtract $4.20 from list price with no lens.
3Not suitable for use with LED.
4Not suitable for use with NEON light.
1Replace asterisk (*) in product number with letter from table on right.
Rev. 7/11
Prices and data subject
to change without notice
Lamps: See page 9-35
Nameplates: See pages 9-40 to 9-41
Technical Data: See pages 9-56 to 9-57
Drilling Plans and Dimensions: See page 9-57
www.geindustrial.com
Control Catalog
9-15
Pilot and Signaling Devices
Section 9
Heavy-Duty 30.5 mm Watertight/Oiltight Selector Switches
CR104P
CR104PSG21B11
Knob Operated
Non-Illuminated
600 Volts Max. AC/DC
10 Amperes Continuous
Units are supplied factory-assembled
when ordered with contact block.
Product Number and price do not include nameplate. All nameplates
must be ordered as a separate item.
Suitable for use in NEMA Type 1, 3, 3R, 4, 4X, 12, and 13 applications, when
mounted in enclosures rated for those same applications. For some NEMA
Type 4X applications, protective caps will improve corrosion resistance.
Knob-Operated Selector Switch
2-Position - Black Knob1
2 Position
Contact
List Price
Release Type
Cam Code
Configuration
Product Number1
GO-10P1
Maintained
1
None
CR104PSG21B
$22.20
Maintained
1
1NO-1NC
CR104PSG21B91
$40.20
Maintained
1
2NO-2NC
CR104PSG21B92
$58.20
Spring Return L C
2
None
CR104PSG12B
$34.20
Spring Return L C
2
1NO-1NC
CR104PSG12B91
$52.20
Spring Return L C
2
2NO-2NC
CR104PSG12B92
$70.20
Spring Return R C
3
None
CR104PSG63B
$34.20
Spring Return R C
3
1NO-1NC
CR104PSG63B91
$52.20
Spring Return R C
3
2NO-2NC
CR104PSG63B92
$70.20
1To order knob in a color other than black, replace the “B” in listed Product Numbers
Contacts viewed from front of panel.
with E (Yellow), G (Green), L (Blue), or R (Red).
Schematic Diagrams - Factory Forms
2-Position Selector Switches - Non-Illuminated
Cam #1
Operator
Position
Contact
State
O
X
X
O
–
–
–
–
O
X
O
X
Cam #2
Type of
Contact
Block
Mounting
Location
Left/Right
Type of
Contact
Block
Mounting
Location
Left/Right
Type of
Contact
Block
NO
NC
–
–
–
–
L or R
L or R
–
–
NO
NC
–
–
L or R
L or R
–
–
–
–
NO
NC
X
O
–
–
X
O
Contacts viewed from front of panel
Cam #3
Mounting
Location
Left/Right
Left
Right
1 NO-1 NC
Suffix (B91)
NC
NO
L or R
L or R
2 NO-2 NC
Suffix (B92)
NC
NO
– : This position is nonexistent or is a “pass through”.
In the product number of a selector switch, the cam is identified by the fifth figure after the “104”.
Example: CR104PSG2 1 B, the cam number is 1.
Numbers and letters are molded into blocks at terminals.
3-Position - Black Knob1 - Maintained
3 Position
Cam Code
4
4
4
2
2
2
3
3
3
5
5
6
6
Release Type
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Maintained
Contact
Configuration
None
1NO-1NC
2NO-2NC
None
1NO-1NC
2NO-2NC
None
1NO-1NC
2NO-2NC
None
2NO-2NC
None
2NO-2NC
3-Position - Black Knob1 - Spring Return L C
List Price
GO-10P1
$22.20
$40.20
$58.20
$22.20
$40.20
$58.20
$22.20
$40.20
$58.20
$22.20
$58.20
$22.20
$58.20
Product Number1
CR104PSG34B
CR104PSG34B91
CR104PSG34B92
CR104PSG32B
CR104PSG32B91
CR104PSG32B92
CR104PSG33B
CR104PSG33B91
CR104PSG33B92
CR104PSG35B
CR104PSG35B92
CR104PSG36B
CR104PSG36B92
3 Position
Contact
List Price
Release Type
Cam Code
Configuration
Product Number1
GO-10P1
Spring Return L C
4
None
CR104PSG74B
$34.20
Spring Return L C
4
1NO-1NC
CR104PSG74B91
$52.20
Spring Return L C
4
2NO-2NC
CR104PSG74B92
$70.20
Spring Return L C
2
None
CR104PSG72B
$34.20
Spring Return L C
2
1NO-1NC
CR104PSG72B91
$52.20
Spring Return L C
2
2NO-2NC
CR104PSG72B92
$70.20
Spring Return L C
3
None
CR104PSG73B
$34.20
Spring Return L C
3
1NO-1NC
CR104PSG73B91
$52.20
Spring Return L C
3
2NO-2NC
CR104PSG73B92
$70.20
Spring Return L C
5
None
CR104PSG75B
$34.20
Spring Return L C
5
2NO-2NC
CR104PSG75B92
$70.20
Spring Return L C
6
None
CR104PSG76B
$34.20
Spring Return L C
6
2NO-2NC
CR104PSG76B92
$70.20
1To order knob in a color other than black, replace the “B” in listed Product Numbers
with E (Yellow), G (Green), L (Blue), or R (Red).
3-Position Selector Switches - Non-Illuminated
Cam #4
Operator
Position
Contact
State
Cam #2
Cam #3
Cam #5
Cam #6
Type of Mounting Type of Mounting Type of Mounting Type of Mounting Type of Mounting
Contact Location Contact Location Contact Location Contact Location Contact Location
Block Left/Right Block Left/Right Block Left/Right Block Left/Right Block Left/Right
O
O
X
X
O
O
X
O
X
X
X
O
O
O
X
NO
–
NC
–
–
L or R
–
L or R
–
–
–
NC
NO
–
–
–
L or R
L or R
–
–
NO
NC
–
–
–
L or R
L or R
–
–
–
NO
NC
NC
–
–
L or R
Right
Left
–
–
NO
–
NO
NC
NC
Left
–
Right
Left
Right
In the product number of a selector switch, the cam is identified by the fifth figure after the “104”.
Example: CR104PSG2 1 B, the cam number is 1.
Rev. 7/11
Prices and data subject
to change without notice
www.geindustrial.com
Control Catalog
9-17
CAT# CR151B6
Terminal Blocks
Section 12
Panel or Mounting Track Terminal Boards
CR151B
Panel or Mounting Track Terminal Boards
Termination Type
Terminal Cover
Points Per Board1
None
None
None
None
Clear Cover
Clear Cover
Clear Cover
None
None
None
Clear Cover
Clear Cover
Clear Cover
None
None
None
None
Clear Cover
Clear Cover
Clear Cover
None
None
None
Clear Cover
Clear Cover
Clear Cover
4
6
12
13
4
6
12
4
6
12
4
6
12
4
6
12
13
4
6
12
4
6
12
4
6
12
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type Both Sides
Screw-Type One Side, Wire Clamp Other Side
Screw-Type One Side, Wire Clamp Other Side
Screw-Type One Side, Wire Clamp Other Side
Screw-Type One Side, Wire Clamp Other Side
Screw-Type One Side, Wire Clamp Other Side
Screw-Type One Side, Wire Clamp Other Side
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Screw With Wire Clamp Both Sides
Washer Head Screw Both Sides
Washer Head Screw Both Sides
Washer Head Screw Both Sides
Washer Head Screw Both Sides
Washer Head Screw Both Sides
Washer Head Screw Both Sides
Product Number2
CR151B4
CR151B6
CR151B2
CR151B213A
CR151B41AF
CR151B61AF
CR151B21AF
CR151B45
CR151B65
CR151B25
CR151B45AF
CR151B65AF
CR151B25AF
CR151B46
CR151B66
CR151B26
CR151B213B
CR151B46AF
CR151B66AF
CR151B26AF
CR151B40
CR151B60
CR151B20
CR151B40AF
CR151B60AF
CR151B20AF
List Price
GO-10G5
$4.80
$7.20
$12.90
$14.00
$5.60
$8.20
$14.10
$6.30
$8.10
$15.00
$7.10
$9.10
$16.20
$7.20
$9.00
$16.80
$19.00
$8.00
$10.00
$18.00
$5.40
$7.80
$14.10
$6.20
$8.80
$15.30
1Where number of points desired is not listed use combination of boards.
2Product Number and price represent one piece. Sold only in packages of 10. Order in multiples of 10 pieces. Minimum order quantity is 10.
Accessories
Description
Product Number
LIst Price
GO-10G5
For customer connection
of adjacent screw-type terminal board
CR151X3013
$0.55
Accessory Type
Jumper
3Product Number and price represent one piece. Sold only in packages of 100. Order in multiples of 100 pieces.
Minimum order quantity is 100.
CR151X301 Diagram
Outlines and Dimensions in. (mm) For Estimating Only
Panel or Mounting Track Terminal Boards
Points Per Board
4
6
12
13
Dimension A
Distance Between
Mounting Hole Centers
in (mm)
Package (10 units)
Shipping Weight,
Pounds
2.38 (60.4)
3.50 (88.9)
6.88 (174.8)
7.50 (190.5)
1.12 (28.5)
2.25 (57.2)
5.62 (142.8)
6.19 (157.2)
2
3
6
7
Note C: Terminal boards mount with two #8 screws.
Mounting holes are located under Marking Strip.
Rev. 7/11
Prices and data subject
to change without notice
www.geindustrial.com
Control Catalog
12-13
Cat# RL4RA022TJ
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
1000
900
800
700
CURRENT LIMITING PERFORMANCE AT HIGH S/C VALUES
0.1
600
1000
900
800
700
600
500
500
400
400
300
300
0.025 seconds at 8,727 A
0.022 seconds at 8,727 A
200
200
0.018 seconds at 200,000 A
100
90
80
70
60 Amperes
TIME IN SECONDS
60
60
0.01
1000
50
10000
Current in Amps
100000
Applies at < 480 Vac. >480 Vac Curve Extends to Application at 0.025 Seconds
40
50
40
MIN
30
30
2
20
20
TIME IN SECONDS
100
90
80
70
3
10
9
8
7
10
9
8
7
4
6
6
5
5
4
5
4
6
3
3
MAX
2
1
.9
.8
.7
.9
.8
.7
.6
MIN
.6
.5
.5
2
.4
1
.4
.3
.3
3
.2
.2
4
5
.1
.09
.08
.07
.1
.09
.08
.07
6
.06
.06
.05
.05
MAX
.04
.04
.03
.03
NOTE 2
APPLIES
.02
.02
.01
.01
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
GE Consumer & Industrial Electrical Distribution
Current Ratings
Frame
Amperes
60
Rating Plug
Amperes
60
Voltage Ratings
2-pole—480 Vac max.
3-pole—600 Vac max.
Molded Case Circuit Breakers
Type SE with Spectra RMS®
Solid-state Trip
Long-time Delay and Instantaneous
with Tracking Short-time Delay
Time-current Curves
Curves apply at 50 to 400 Hertz
and from -20°C to 70°C breaker ambient
Cat# SELA36AT0060
05.10
K215-168B
Adjustments
Long-time delay; not adjustable.
Instantaneous pick-up settings in multiples of rating plug
rating: MIN, 2, 3, 4, 5, 6, MAX
Note 1: Operation above 60 Hertz and 50°C play require
thermal and interrupting derating of the circuit breaker.
Refer to Selection and Application manual.
Note 2: Current limiting range, please refer to inset curve.
K215-168B
K215-168B
2
Molded Case Circuit Breakers
Industrial Circuit Breakers
Section 3
SELA36AT0060
15-150A Circuit Breakers
Electronic Trip
Spectra® RMS
SE150 Line Circuit Breakers
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SED, SEH; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
18kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
25kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SEDA36AT00302
$382.00
SEHA36AT00302
$632.00
60
SEDA36AT00602
$382.00
SEHA36AT00602
$632.00
100
SEDA36AT0100
$492.00
SEHA36AT0100
$734.00
150
SEDA36AT0150
$1253.00
SEHA36AT0150
$1815.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SEL, SEP1; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
100kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SELA36AT00302
$753.00
SEPA36AT00302
$1189.00
60
SELA36AT00602
$753.00
SEPA36AT00602
$1189.00
100
SELA36AT0100
$895.00
SEPA36AT0100
$1482.00
150
SELA36AT0150
$2165.00
SEPA36AT0150
$3477.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
1SEL, SEP UL current limiting.
2When used with 15-50A Rating Plug, UL listed for HID (high intensity discharge).
Note: All Spectra® breakers UL listed as HACR type.
All Spectra® breakers marked CE.
SE 150 Reference Publications
Plug-in Mounting Base
STDA Flange Handle
Rating Plug
Shunt Trip and Undervoltage Release
Spectra® E-Frame Installation Instruction
Auxiliary Switch and Bell Alarm
TDR Operating Mechanism
TDM Operating Mechanism
Motor Operator
Mechanical Interlock
STDA Operating Mechanism
Cable Operator Mechanism
Lug
Padlocking Device - Standard
Back Connected Studs
SE150 Outline Drawing
3-48
BuyLog® Catalog
www.geelectrical.com
www.g
GEH-4610
GEH-5314
GEH-5549
GEH-5551
GEH-5591
GEH-5593
GEH-5609
GEH-5611
GEH-5613
GEH-5615
GEH-5684
GEH-6290
GEJ-3051
GEJ-3056
GEJ-3609
168D1109SH1
Rev. 1/10
Prices and data subject
to change without notice
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
1
2
1000
900
800
700
3
4
5
6 7 8 9 10
20
30
40
CURRENT LIMITING PERFORMANCE AT HIGH S/C VALUES
0.1
600
600
0.022 seconds at 8,727 A
0.025 seconds at 8,727 A
500
500
0.018 seconds at 200,000 A
400
400
300
300
200
0.01
1000
100
90
80
70
10000
100000
Current in Amps
Applies at < 480 Vac. >480 Vac Curve Extends to Application at 0.025 Seconds
70 Amperes
100
90
80
70
80 Amperes
60
60
50
50
40
40
30
30
MIN
MIN
20
20
2
2
3
3
10
9
8
7
10
9
8
7
4
4
6
6
5
5
5
5
4
4
3
3
6
6
2
2
MAX
1
.9
.8
.7
MIN
.9
.8
.7
.6
MIN
.6
.5
1
.5
2
.4
2
.3
.4
.3
3
3
.2
.2
4
4
5
.1
.09
.08
.07
5
6
.1
.09
.08
.07
6
.06
.06
MAX
.05
.05
MAX
.04
.04
.03
.03
NOTE 2
APPLIES
.02
NOTE 2
APPLIES
.02
.01
.01
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
1
2
3
4
5
6 7 8 9 10
20
30
40
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
GE Consumer & Industrial Electrical Distribution
Current Ratings
Frame
Amperes
100
Rating Plug
Amperes
70, 80
Voltage Ratings
2-pole—480 Vac max.
3-pole—600 Vac max.
05.10
Molded Case Circuit Breakers
Type SE with Spectra RMS®
Solid-state Trip
Long-time Delay and Instantaneous
with Tracking Short-time Delay
Time-current Curves
Curves apply at 50 to 400 Hertz
and from -20°C to 70°C breaker ambient
Cat# SELA36AT0080
K215-169B
Adjustments
Long-time delay; not adjustable.
Instantaneous pick-up settings in multiples of rating plug
rating: MIN, 2, 3, 4, 5, 6, MAX
Note 1: Operation above 60 Hertz and 50°C play require
thermal and interrupting derating of the circuit breaker.
Refer to Selection and Application manual.
Note 2: Current limiting range, please refer to inset curve.
K215-169B
MAX
K215-169B
TIME IN SECONDS
200
TIME IN SECONDS
1000
900
800
700
Molded Case Circuit Breakers
Industrial Circuit Breakers
Section 3
SELA36AT0080
15-150A Circuit Breakers
Electronic Trip
Spectra® RMS
SE150 Line Circuit Breakers
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SED, SEH; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
18kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
25kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SEDA36AT00302
$382.00
SEHA36AT00302
$632.00
60
SEDA36AT00602
$382.00
SEHA36AT00602
$632.00
100
SEDA36AT0100
$492.00
SEHA36AT0100
$734.00
150
SEDA36AT0150
$1253.00
SEHA36AT0150
$1815.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SEL, SEP1; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
100kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SELA36AT00302
$753.00
SEPA36AT00302
$1189.00
60
SELA36AT00602
$753.00
SEPA36AT00602
$1189.00
100
SELA36AT0100
$895.00
SEPA36AT0100
$1482.00
150
SELA36AT0150
$2165.00
SEPA36AT0150
$3477.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
1SEL, SEP UL current limiting.
2When used with 15-50A Rating Plug, UL listed for HID (high intensity discharge).
Note: All Spectra® breakers UL listed as HACR type.
All Spectra® breakers marked CE.
SE 150 Reference Publications
Plug-in Mounting Base
STDA Flange Handle
Rating Plug
Shunt Trip and Undervoltage Release
Spectra® E-Frame Installation Instruction
Auxiliary Switch and Bell Alarm
TDR Operating Mechanism
TDM Operating Mechanism
Motor Operator
Mechanical Interlock
STDA Operating Mechanism
Cable Operator Mechanism
Lug
Padlocking Device - Standard
Back Connected Studs
SE150 Outline Drawing
3-48
BuyLog® Catalog
www.geelectrical.com
www.g
GEH-4610
GEH-5314
GEH-5549
GEH-5551
GEH-5591
GEH-5593
GEH-5609
GEH-5611
GEH-5613
GEH-5615
GEH-5684
GEH-6290
GEJ-3051
GEJ-3056
GEJ-3609
168D1109SH1
Rev. 1/10
Prices and data subject
to change without notice
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
1
2
1000
900
800
700
3
4
5
6 7 8 9 10
20
30
40
CURRENT LIMITING PERFORMANCE AT HIGH S/C VALUES
0.1
600
600
0.022 seconds at 8,727 A
0.025 seconds at 8,727 A
500
500
0.018 seconds at 200,000 A
400
400
300
300
0.01
1000
100
90
80
70
90 Amperes
10000
100000
Current in Amps
Applies at < 480 Vac. >480 Vac Curve Extends to Application at 0.025 Seconds
200
100
90
80
70
100 Amperes
60
60
50
50
40
40
MIN
30
20
MIN
2
30
20
2
3
10
9
8
7
3
4
10
9
8
7
4
6
5
6
5
5
4
3
5
4
3
6
6
2
2
MAX
1
.9
.8
.7
MAX
.9
.8
.7
.6
MIN
MIN
.6
.5
.5
2
2
.4
1
.4
.3
3
3
.2
.2
4
4
5
5
.1
.09
.08
.07
.3
.1
.09
.08
.07
6
6
.06
MAX
MAX
.06
.05
.05
.04
.04
.03
.03
NOTE 2
APPLIES
.02
NOTE 2
APPLIES
.02
.01
.01
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
1
2
3
4
5
6 7 8 9 10
20
30
40
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
GE Consumer & Industrial Electrical Distribution
Current Ratings
Frame
Amperes
100
Rating Plug
Amperes
90, 100
Voltage Ratings
2-pole—480 Vac max.
3-pole—600 Vac max.
05.10
Molded Case Circuit Breakers
Type SE with Spectra RMS®
Solid-state Trip
Long-time Delay and Instantaneous
with Tracking Short-time Delay
Time-current Curves
Curves apply at 50 to 400 Hertz
and from -20°C to 70°C breaker ambient
Cat# SELA36AT0100
K215-170B
Adjustments
Long-time delay; not adjustable.
Instantaneous pick-up settings in multiples of rating plug
rating: MIN, 2, 3, 4, 5, 6, MAX
Note 1: Operation above 60 Hertz and 50°C play require
thermal and interrupting derating of the circuit breaker.
Refer to Selection and Application manual.
Note 2: Current limiting range, please refer to inset curve.
K215-170B
K215-170B
TIME IN SECONDS
200
TIME IN SECONDS
1000
900
800
700
Molded Case Circuit Breakers
Industrial Circuit Breakers
Section 3
CAT# SELA36AT0100
15-150A Circuit Breakers
Electronic Trip
Spectra® RMS
SE150 Line Circuit Breakers
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SED, SEH; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
18kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
25kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SEDA36AT00302
$382.00
SEHA36AT00302
$632.00
60
SEDA36AT00602
$382.00
SEHA36AT00602
$632.00
100
SEDA36AT0100
$492.00
SEHA36AT0100
$734.00
150
SEDA36AT0150
$1253.00
SEHA36AT0150
$1815.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
SE150 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SEL, SEP1; 3-Pole, UL/CSA: 150A, 600 Vac Max., IEC 947-2: 160A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Adj. Inst.
Ampere Trip Range Amps
Rating Low
High
15
20
25
30
40
50
60
70
80
90
100
110
125
150
43
58
73
87
118
148
178
206
236
267
297
328
374
450
182
254
332
415
501
637
777
863
999
1138
1280
1426
1640
1991
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA
Product
Number
SRPE30A15
SRPE30A20
SRPE30A25
SRPE30A30
SRPE60A40
SRPE60A50
SRPE60A60
SRPE100A70
SRPE100A80
SRPE100A90
SRPE100A100
SRPE150A110
SRPE150A125
SRPE150A150
List Price
GO-135S
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
100kA
Current
Sensor
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
30
SELA36AT00302
$753.00
SEPA36AT00302
$1189.00
60
SELA36AT00602
$753.00
SEPA36AT00602
$1189.00
100
SELA36AT0100
$895.00
SEPA36AT0100
$1482.00
150
SELA36AT0150
$2165.00
SEPA36AT0150
$3477.00
Product
Number
List Price
GO-135S
TCAL18
$3.00
Wire
Range
12-3/0 Cu
12-3/0 Al
1SEL, SEP UL current limiting.
2When used with 15-50A Rating Plug, UL listed for HID (high intensity discharge).
Note: All Spectra® breakers UL listed as HACR type.
All Spectra® breakers marked CE.
SE 150 Reference Publications
Plug-in Mounting Base
STDA Flange Handle
Rating Plug
Shunt Trip and Undervoltage Release
Spectra® E-Frame Installation Instruction
Auxiliary Switch and Bell Alarm
TDR Operating Mechanism
TDM Operating Mechanism
Motor Operator
Mechanical Interlock
STDA Operating Mechanism
Cable Operator Mechanism
Lug
Padlocking Device - Standard
Back Connected Studs
SE150 Outline Drawing
3-48
BuyLog® Catalog
www.geelectrical.com
GEH-4610
GEH-5314
GEH-5549
GEH-5551
GEH-5591
GEH-5593
GEH-5609
GEH-5611
GEH-5613
GEH-5615
GEH-5684
GEH-6290
GEJ-3051
GEJ-3056
GEJ-3609
168D1109SH1
Rev. 1/10
Prices and data subject
to change without notice
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
1000
900
800
700
30
40
1000
900
800
700
CURRENT LIMITING PERFORMANCE AT HIGH S/C VALUES
600
600
0.1
500
500
400
400
300
300
200
200
0.025 seconds at 10,182 Amperes
0.022 seconds at 10,182 Amperes
0.018 seconds at 200,000 Amperes
100
90
80
70
100
90
80
70
1000
10000
100000
Current in Amps
1000000
Applies at < 480 Vac. >480 Vac Curve Extends to Application at 0.025 Seconds
40
30
40
30
MIN
20
50
70, 80, 90, 100, 110, 125, 150, 175,
200, 225, or 250 Amperes
2
20
3
10
9
8
7
10
9
8
7
4
6
6
5
5
5
4
4
3
3
MAX
2
K215-173C
TIME IN SECONDS
60
0.01
50
2
1
.9
.8
.7
.9
.8
.7
.6
MIN
.6
2
.5
1
.5
.4
.4
.3
.3
3
.2
.2
4
5
.1
.09
.08
.07
.1
.09
.08
.07
MAX
.06
.06
.05
.05
.04
.04
.03
.03
NOTE 2
APPLIES
.02
.02
.01
.01
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
GE Consumer & Industrial Electrical Distribution
Current Ratings
Frame
Rating Plug
Amperes
Amperes
250
70,80 90, 100, 110, 125,
150, 175, 200, 225, 250
Voltage Ratings
2-pole—480 Vac max.
3-pole—600 Vac max.
02.11
Molded Case Circuit Breakers
Type SF with Spectra RMS®
Solid-state Trip
Long-time Delay and Instantaneous
with Tracking Short-time Delay
Time-current Curves
Curves apply at 50 to 400 Hertz
and from -20°C to 70°C breaker ambient
Cat# SFLA36AT0250
K215-173C
Adjustments
Long-time delay; not adjustable.
Instantaneous pick-up settings in multiples of rating plug
rating: MIN, 2, 3, 4, 5, MAX
Note 1: Operation above 60 Hertz and 50°C play require
thermal and interrupting derating of the circuit breaker.
Refer to Selection and Application manual.
Note 2: Current limiting range, please refer to inset curve.
K215-173C
TIME IN SECONDS
60
Molded Case Circuit Breakers
Section 6
Industrial Circuit Breakers
70-250A Circuit Breakers
Electronic Trip
Spectra™ RMS
SF250 Line Circuit Breakers
Cat# SFLA36AT0250
SF250 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SFH; 3-Pole, UL/CSA: 250A, 600 Vac Max., IEC 947-2: 250A, 690 Vac Max.
Rating Plug
Frame
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
Ampere
Rating
70
80
90
100
110
125
150
175
200
225
250
Adjustable Instantaneous
Trip Ampere Range
35kA
Low
High
Product
Number
205
235
265
295
325
370
440
515
590
665
736
700
800
900
1000
1100
1250
1500
1750
2000
2250
2500
SRPF250A70
SRPF250A80
SRPF250A90
SRPF250A100
SRPF250A110
SRPF250A125
SRPF250A150
SRPF250A175
SRPF250A200
SRPF250A225
SRPF250A250
Current
Sensor
Product
Number
Product
Number
250
SFHA36AT0250
TCAL29
Wire
Range
8-350 Cu
8-350 Al
SF250 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SFL, SFP1; 3-Pole, UL/CSA: 250A, 600 Vac Max., IEC 947-2: 250A, 690 Vac Max.
Rating Plug
Frame
UL 489 IC @480 Vac
Ampere
Rating
70
80
90
100
110
125
150
175
200
225
250
Adjustable Instantaneous
Trip Ampere Range
Low
High
Product
Number
205
235
265
295
325
370
440
515
590
665
736
700
800
900
1000
1100
1250
1500
1750
2000
2250
2500
SRPF250A70
SRPF250A80
SRPF250A90
SRPF250A100
SRPF250A110
SRPF250A125
SRPF250A150
SRPF250A175
SRPF250A200
SRPF250A225
SRPF250A250
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA
100kA
Current
Sensor
Product
Number
Product
Number
Product
Number
250
SFLA36AT0250
SFPA36AT0250
TCAL29
Wire
Range
8-350 Cu
8-350 Al
1SFL, SFP UL current limiting.
Note: All Spectra™ breakers UL listed as HACR type.
All Spectra™ breakers marked CE.
SF250 Reference Publications
Plug-in Mounting Base
STDA Flange Handle
Rating Plug
Shunt Trip and Undervoltage Release
Spectra™ F-Frame Installation Instruction
Auxiliary Switch and Bell Alarm
TDR Operating Mechanism
TDM Operating Mechanism
Motor Operator
Mechanical Interlock
Spectra™ RMS Molded Case Circuit Breaker
Accessories - Mounting Hardware Kits
STDA Operating Mechanism
Spectra™ RMS Molded Case Circuit
Breaker Accessories - Operator Adapter Kits
Spectra™ RMS Molded Case Circuit Breaker
Accessories - Lugs for SF250
Spectra™ RMS Molded Case Circuit
Breaker Accessories - Operator Adapter Kits
Cable Operator Mechanism
Lug
Padlocking Device - Standard
Back Connected Studs
SF250 Outline Drawing
Spectra™ RMS Circuit Breakers in Combination
with Cooper Bussman Distribution Block
6-48
BuyLog™ Catalog
www.geindustrial.com
GEH-4610
GEH-5314
GEH-5549
GEH-5551
GEH-5591
GEH-5593
GEH-5609
GEH-5611
GEH-5613
GEH-5615
GEH-5659
GEH-5684
GEH-5688
GEH-5882
GEH-5688
GEH-6290
GEJ-3045
GEJ-3056
GEJ-3635
168D1103SH1
Rev. 11/13
DET-781
Data subject to change
without notice
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
1000
900
800
700
20
30
40
1000
900
800
700
CURRENT LIMITING PERFORMANCE AT HIGH S/C VALUES
0.1
600
600
500
500
400
400
300
300
0.025 seconds at 27,273 Amperes
0.023 seconds at 27,273 Amperes
200
200
0.019 seconds at 200,000 Amperes
0.01
10000
1000
60
TIME IN SECONDS
100
90
80
70
100000
1000000
Current in Amps
50
Applies at < 480 Vac. >480 Vac Curve Extends to Application at 0.025 Seconds
40
60
50
40
30
30
250, 300, 350, 400,
450, 500 or 600 Amperes
MIN
20
20
TIME IN SECONDS
100
90
80
70
2
3
10
9
8
7
10
9
8
7
4
6
6
5
5
5
4
4
3
3
MAX
2
1
.9
.8
.7
.9
.8
.7
.6
MIN
.6
.5
1
.5
2
.4
.4
.3
.3
3
.2
.2
4
.1
.09
.08
.07
.1
.09
.08
.07
5
MAX
.06
.06
.05
.05
.04
.04
.03
.03
NOTE 2
APPLIES
.02
.02
.01
.01
.5 .6 .7 .8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
CURRENT IN MULTIPLES OF RATING PLUG AMPERES
GE Consumer & Industrial Electrical Distribution
Current Ratings
Frame
Rating Plug
Amperes
Amperes
600
250, 300, 350, 400,
450, 500, 600
Voltage Ratings
240, 480, 600 Vac
Molded Case Circuit Breakers
Type SG with Spectra RMS®
Solid-state Trip
Long-time Delay and Instantaneous
with Tracking Short-time Delay
Time-current Curves
Curves apply at 50 to 400 Hertz
and from -20°C to 70°C breaker ambient
Cat# SGLA36AT0600
05.10
K215-175B
Adjustments
Long-time delay; not adjustable.
Instantaneous pick-up settings in multiples of rating plug
rating: MIN, 2, 3, 4, 5, MAX
Note 1: Operation above 60 Hertz and 50°C play require
thermal and interrupting derating of the circuit breaker.
Refer to Selection and Application manual.
Note 2: Current limiting range, please refer to inset curve.
K215-175B
K215-175B
2
Molded Case Circuit Breakers
Section 3
Industrial Circuit Breakers
125-600A Circuit Breakers
Electronic Trip
Spectra® RMS
SG600
Digital, Solid-State Spectra® RMS Breakers
Product Number Structure
S
Frame Rating
(Amperes)
G = 600
Family
S = Spectra®
1 SGD rated 65kA at 240V.
S
G
G
L
A
D
Interruption
Rating (480V)
D = 65 kA1
H = 35 kA
L = 65 kA
P = 100 kA
3
A
2
Continuous
Load Rating
A = Standard
H = 100%
L = 100%
P = 100%
6
A
2
T
A
T
Voltage
Rating
2 = 240V
6 = 600V
Poles
2 = 2 poles
3 = 3 poles
0600
0400
Trip
Unit
A = RMS1
Trip
Function
T = LSI2
Sensor
(Max Amps)
0400
0600
2Adjustable Instantaneous with Tracking Short Time (Long Time established via Interchangeable Rating Plugs).
Note: This information is provided for interpreting product numbers (it should not be used to build product numbers).
SG600 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SGD, SGH; UL/CSA: 400A, 600 Vac Max., IEC 947-2: 400A, 690 Vac Max.
Rating Plug
Adjustable
Instantaneous
Trip
Ampere Range
Ampere
Rating Low
High
125
150
175
200
225
250
300
350
400
380
455
530
605
680
755
905
1060
1210
1275
1530
1785
2040
2295
2550
3060
3570
4080
Frame
UL 489 IC @480 Vac
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA (240 Vac)
Product
Number
List Price
GO-135S
SRPG400A125
SRPG400A150
SRPG400A175
SRPG400A200
SRPG400A225
SRPG400A250
SRPG400A300
SRPG400A350
SRPG400A400
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
Current
Sensor
35kA
Poles
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
2
SGDA22AT04003
$1540.00
SGHA26AT0400
$1959.00
3
SGDA32AT04003
$1860.00
SGHA36AT0400
$2383.00
Product
Number
List Price
GO-135S
Wire
Range
$28.00
(2) 2/0-500 Cu
or
(1) 8-600 Cu
$42.00
(2) 2/0-500 Al
or
(1) 8-600 Al
2-pole lug kit
TCLK2654
400
3-pole lug kit
TCLK3654
SG600 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SGL, SGP5; UL/CSA: 400A, 600 Vac Max., IEC 947-2: 400A, 690 Vac Max.
Rating Plug
Adjustable
Instantaneous
Trip
Ampere Range
Ampere
Rating Low
High
125
150
175
200
225
250
300
350
400
380
455
530
605
680
755
905
1060
1210
1275
1530
1785
2040
2295
2550
3060
3570
4080
Frame
UL 489 IC @480 Vac
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
65kA
Product
Number
List Price
GO-135S
SRPG400A125
SRPG400A150
SRPG400A175
SRPG400A200
SRPG400A225
SRPG400A250
SRPG400A300
SRPG400A350
SRPG400A400
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
Current
Sensor
Poles
Product
Number
100kA
List Price
GO-135S
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
Wire
Range
$28.00
(2) 2/0-500 Cu
or
(1) 8-600 Cu
$42.00
(2) 2/0-500 Al
or
(1) 8-600 Al
2-pole lug kit
2
SGLA26AT0400
$2926.00
SGPA26AT0400
$3856.00
3
SGLA36AT0400
$3487.00
SGPA36AT0400
$4653.00
TCLK2654
400
3-pole lug kit
TCLK3654
SG600 Line, Suitable for Reverse Feed, UL File E-11592, CSA LR 40350
SGH, SGL5; UL/CSA: 600A, 600 Vac Max., IEC 947-2: 630A, 690 Vac Max.
Rating Plug
Adjustable
Instantaneous
Ampere Trip Ampere Range
Rating Low
High
250
300
350
400
450
500
600
765
915
1070
1220
1375
1525
1830
2530
3035
3545
4050
4555
5060
6075
Frame
UL 489 IC @480 Vac
Terminal Lugs for Front Connection (Cu/Al)
UL 489 IC @480 Vac
35kA
Product
Number
List Price
GO-135S
SRPG600A250
SRPG600A300
SRPG600A350
SRPG600A400
SRPG600A450
SRPG600A500
SRPG600A600
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
$106.00
Current
Sensor
65kA
Poles
Product
Number
List Price
GO-135S
Product
Number
List Price
GO-135S
2
SGHA26AT0600
$2663.00
SGLA26AT0600
$3545.00
3
SGHA36AT0600
$3354.00
SGLA36AT0600
$4270.00
Product
Number
List Price
GO-135S
Wire
Range
$28.00
(2) 2/0-500 Cu
or
(1) 8-600 Cu
2-pole lug kit
TCLK2654
600
3-pole lug kit
TCLK3654
$42.00
(2) 2/0-500 Al
or (1) 8-600 Al
3Rated 240 Vac max.
4Order one kit for either line or load end; two kits required for both.
5SGL, SGP UL current limiting.
Note: All Spectra® breakers UL listed as HACR type.
Rev. 4/12
Prices and data subject
to change without notice
All Spectra® breakers marked CE.
www.geindustrial.com
BuyLog® Catalog
3-51
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
How to Select Power Break® II
S
S
D
2
G
5
X
2
U
4
1
0
0
0
H
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Step 9
Step 10
Step 11
Step 12
Step 13
Step 14
Step 15
Auxiliary Switch,
Stationary/
Drawout,
Trimplate
H = 4-240V,
Drawout, None
Circuit
Breaker
S = Power
Break® II
Interrupting Capacity
S = Standard
Closing Solenoid,
Door Interlock, Counter
0 = None, None , None
Construction
D = Drawout
Electric Operator, Push
Button Cover, Hidden On
0 = None, None , None
Frame
2 = 1600 A
Undervoltage Release, Racking Padlock
0 = None, None
Trip Unit
G = EntelliGuard® TU
Bell Alarm, Bell Alarm with Lock Out,
Kirk Key Protection
1 = None, 240, None
Current Sensor
5 = 1600 A
Metering, RELT, Communication, Relays, ZSI
X = Metering- Current , Communication- None, Relays- None , ZSI- None
Trip Unit Rating Plug
U = 1600
Overcurrent Protection Package
2 = LSI
Step 1 Circuit Breaker (Example)
Breaker Type
Power Break® II
Step 5 Trip Unit (Example)
Character 1
S
Step 2 Interrupting Capacity (Example)
Interrupting Type
Standard
High Break
Character 2
S
H
Step 3 Construction (Example)
Construction Type
Stationary Front Connected
Stationary Back Connected
Drawout
Character 3
F
B
D
Step 4 Frame Ratings
Rev. 4/12
Frame Rating
800A
1600A
2000A
2500A
Character 4
1
2
3
4
3000A
4000A
5
6
Prices and data subject
to change without notice
Shunt Trip
4 = 120 VAC/125 VDC
www.geindustrial.com
Trip Unit Type
Power +
Enhanced MVT®
Enhanced MVT® PM
EntelliGuard® TU
Switch w/PP
Character 5
D
B
C
G
Y
Step 6 Current Sensor (Example)
Sensor Rating
Character 6
200A
400A
800A
1000A
1600A
2000A
2500A
1
2
3
4
5
6
7
3000A
4000A
8
9
BuyLog® Catalog
5-11
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 7 Metering, RELT, Communication, Relays, ZSI (Example)
Trip Unit Type + Features
POWER +
Character 7
X
Metering
None
Communication
None
Relays
None
ZSI
None
ENHANCED MVT®
X
A
B
Current
Current
Current
Communication
None
None
None
Relays
None
None
None
ZSI
None
GF
GF&ST
C
D
E
Metering
ENHANCED MVT® PM
F
G
H
K
L
Metering
Current
Current
Current
Full
Full
Full
Full
Full
Full
Communication
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
Relays
ZSI
ENTELLIGUARD® TU
Metering
RELT
Communication
P
P
P
None
None
None
P
P
P
None
GF
GF&ST
None
GF
GF&ST
None
GF
GF&ST
D
G
X
A
B
C
E
F
H
J
K
L
M
N
Current
Current
Current
Current1
Full
Full1
Full
Full1
Current
Current
Current
Current1
None
RELT
RELT
None1
RELT
None1
RELT
None1
None
RELT
RELT
None1
Modbus
Modbus1
Modbus
Modbus1
Modbus
Modbus1
None
None
Modbus
Modbus1
None
None
Relays
None
None
None
None1
None
None1
YES
YES1
None
None
None
None1
ZSI
None
None
None
None1
None
None1
None
None1
GF&ST
GF&ST
GF&ST
GF&ST1
Trip Unit Type + Features
ENTELLIGUARD® TU
Character 7 (continued)
P
Metering
RELT
Communication
Relays
ZSI
1 Zone
J
Q
R
Full
Full1
RELT
None1
Modbus Modbus1
None
None1
GF&ST
GF&ST1
V
W
Y
Z
1
Full
Full1
Current1
Current1
2
3
Current1 Current1
RELT1
None1
4
5
6
Full1
Full1
RELT1
None1
7
8
9
Full1
Full1
RELT1
None1
RELT
None1
None1
RELT1
Modbus
Modbus1
None1
None1
YES
YES1
None1
None1
None1
None1
None1
None1
YES1
YES1
GF&ST
GF&ST1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
Modbus1 Modbus1
Modbus1 Modbus1
Modbus1 Modbus1
Selective Intantaneous Ground Fault & Short Time & Instantaneous (out)
5-12
BuyLog® Catalog
www.geindustrial.com
Rev. 4/12
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 8 Overcurrent Protection Package (Example)
1EntelliGuard®
Character 8
X
1
2
Package
None (switch)
LI
LSI1
Character 8
7
8
9
Package
LSHG
LIG
LIGA
3
4
5
LSIG1
LSIGA1
LSIGD1
A
B
C
LIGD
LSHGA
LSHGD
LSH
D
LSIH
6
TU Trip Unit only offers these
Step 9 Trip Unit Rating Plug (Example)
EntelliGuard® TU
Trip Unit
Character
9
MicroVersaTrip® Plus and
Enhanced MicroVersaTrip®
PM Trip Unit
Power +
X
Rating Plug
X
A
•
•
•
B
•
•
•
150
•
•
•
200
D
•
•
•
225
E
•
•
•
250
F
•
•
•
300
G
•
H
•
350
•
•
400
450
I
•
•
•
J
•
•
•
500
K
•
•
•
600
L
•
•
•
700
•
•
400
800
1000
1600
2000
2500
3000
4000
3
3
3
3
3
3
3
3
100
C
M
Availability by Current Sensor Rating (shaded areas indicate availability)
200
2
2
3
3
3
2
2
750
N
•
•
O
•
P
•
•
•
1000
Q
•
•
•
1100
R
•
•
•
1200
S
•
2
800
900
1250
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
2
T
•
•
•
U
•
•
•
1500
V
•
W
•
Y
•
2200
3
3
3
3
3
3
3
3
3
Z
•
2400
3
3
3
3
3
3
3
3
3
1
•
•
•
2500
2
•
•
•
3000
3
•
3
3
3
3
3
3
3
3
3
4
•
•
•
3600
5
•
•
•
4000
1600
1900
•
•
2000
3200
2Exclusive
for MicroVersaTrip® Plus and Enhanced MicroVersaTrip® PM Trip Unit Rating Plugs
3Exclusive
for EntelliGuard® TU Trip Unit Rating Plugs only
Rev. 4/12
Prices and data subject
to change without notice
www.geindustrial.com
BuyLog® Catalog
5-13
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 11 Bell Alarm, Bell Alarm With Lockout, Kirk Key Provision
(Example)
Step 10 Shunt Trip
(Example)
Character 10
0
1
2
3
4
5
6
7
8
H
J
K
L
M
N
P
R
Voltage
None
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
With Lockout
Without Lockout
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Step 12 UnderVoltage Release, Racking Padlock
(Example)
Character 12
0
1
2
3
4
5
6
7
8
9
A
B
C
G
H
J
K
L
M
N
P
R
S
T
U
V
3Frame Rating
5-14
UnderVoltage Release
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
24Vdc
24Vdc
48Vdc
125Vdc
250Vdc
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
12Vdc
24Vdc
48Vdc
125Vdc
250Vdc
BuyLog® Catalog
Character 11
Bell Alarm
0
None
1
None
2
None
4
240
5
240
6
240
8
600
9
600
A
600
G
None
H
None
J
None
L
240
M
240
N
240
R
600
S
600
T
600
1Bell Alarm ratings Vac
2Kirk Key Provision number of key locks 1-4
Note: 600Vac module not UL Listed.
Bell Alarm w/Lockout1
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
Kirk Key Provision2
None
None
None
None
None
None
None
None
None
4
4
4
4
4
4
4
4
4
Step 13 Electric Operator, Push Button Cover, Hidden On
(Example)
Racking Padlock3
None
None
None
None
None
None
None
None
None
None
None
None
None
All
All
All
All
All
All
All
All
All
All
All
All
All
Character 13
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Electric Operator
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
www.geindustrial.com
Push Button Cover
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
Rev. 4/12
Hidden On
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 15 Auxiliary Switch, Stationary/Draw-out, Trimplate
(Example)
Step 14 Closing Solenoid, Door Interlock, Counter
(Example)
Character 14
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Rev. 4/12
Prices and data subject
to change without notice
Closing Solenoid1
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
Door Interlock
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
www.geindustrial.com
Counter
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Character 15
0
1
2
3
4
5
8
9
A
B
C
D
G
H
J
K
L
M
R
S
T
U
V
W
Auxiliary Switch
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
Stationary/Draw-out
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
BuyLog® Catalog
Trimplate
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
YES
YES
YES
YES
YES
YES
5-15
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
S Power
S BreakF® II
How to Select
3
G
6
X
3
W
4
G
3
G
1
2
S
S
D
2
G
5
X
2
U
4
1
0
0
0
H
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Step 9
Step 10
Step 11
Step 12
Step 13
Step 14
Step 15
Auxiliary Switch,
Stationary/
Drawout,
Trimplate
H = 4-240V,
Drawout, None
Circuit
Breaker
S = Power
Break® II
Interrupting Capacity
S = Standard
Closing Solenoid,
Door Interlock, Counter
0 = None, None , None
Construction
D = Drawout
Electric Operator, Push
Button Cover, Hidden On
0 = None, None , None
Frame
2 = 1600 A
Undervoltage Release, Racking Padlock
0 = None, None
Trip Unit
G = EntelliGuard® TU
Bell Alarm, Bell Alarm with Lock Out,
Kirk Key Protection
1 = None, 240, None
Current Sensor
5 = 1600 A
Metering, RELT, Communication, Relays, ZSI
X = Metering- Current , Communication- None, Relays- None , ZSI- None
Trip Unit Rating Plug
U = 1600
Overcurrent Protection Package
2 = LSI
Step 1 Circuit Breaker (Example)
Breaker Type
Power Break® II
Step 5 Trip Unit (Example)
Character 1
S
Step 2 Interrupting Capacity (Example)
Interrupting Type
Standard
High Break
Character 2
S
H
Step 3 Construction (Example)
Construction Type
Stationary Front Connected
Stationary Back Connected
Drawout
Character 3
F
B
D
Step 4 Frame Ratings
Rev. 4/12
Frame Rating
800A
1600A
2000A
2500A
Character 4
1
2
3
4
3000A
4000A
5
6
Prices and data subject
to change without notice
Shunt Trip
4 = 120 VAC/125 VDC
www.geindustrial.com
Trip Unit Type
Power +
Enhanced MVT®
Enhanced MVT® PM
EntelliGuard® TU
Switch w/PP
Character 5
D
B
C
G
Y
Step 6 Current Sensor (Example)
Sensor Rating
Character 6
200A
400A
800A
1000A
1600A
2000A
2500A
1
2
3
4
5
6
7
3000A
4000A
8
9
BuyLog® Catalog
5-11
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 7 Metering, RELT, Communication, Relays, ZSI (Example)
Trip Unit Type + Features
POWER +
Character 7
X
Metering
None
Communication
None
Relays
None
ZSI
None
ENHANCED MVT®
X
A
B
Current
Current
Current
Communication
None
None
None
Relays
None
None
None
ZSI
None
GF
GF&ST
C
D
E
Metering
ENHANCED MVT® PM
F
G
H
K
L
Metering
Current
Current
Current
Full
Full
Full
Full
Full
Full
Communication
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
Relays
ZSI
ENTELLIGUARD® TU
Metering
RELT
Communication
P
P
P
None
None
None
P
P
P
None
GF
GF&ST
None
GF
GF&ST
None
GF
GF&ST
D
G
X
A
B
C
E
F
H
J
K
L
M
N
Current
Current
Current
Current1
Full
Full1
Full
Full1
Current
Current
Current
Current1
None
RELT
RELT
None1
RELT
None1
RELT
None1
None
RELT
RELT
None1
Modbus
Modbus1
Modbus
Modbus1
Modbus
Modbus1
None
None
Modbus
Modbus1
None
None
Relays
None
None
None
None1
None
None1
YES
YES1
None
None
None
None1
ZSI
None
None
None
None1
None
None1
None
None1
GF&ST
GF&ST
GF&ST
GF&ST1
Trip Unit Type + Features
ENTELLIGUARD® TU
Character 7 (continued)
P
Metering
RELT
Communication
Relays
ZSI
1 Zone
J
Q
R
Full
Full1
RELT
None1
Modbus Modbus1
None
None1
GF&ST
GF&ST1
V
W
Y
Z
1
Full
Full1
Current1
Current1
2
3
Current1 Current1
RELT1
None1
4
5
6
Full1
Full1
RELT1
None1
7
8
9
Full1
Full1
RELT1
None1
RELT
None1
None1
RELT1
Modbus
Modbus1
None1
None1
YES
YES1
None1
None1
None1
None1
None1
None1
YES1
YES1
GF&ST
GF&ST1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
Modbus1 Modbus1
Modbus1 Modbus1
Modbus1 Modbus1
Selective Intantaneous Ground Fault & Short Time & Instantaneous (out)
5-12
BuyLog® Catalog
www.geindustrial.com
Rev. 4/12
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 8 Overcurrent Protection Package (Example)
1EntelliGuard®
Character 8
X
1
2
Package
None (switch)
LI
LSI1
Character 8
7
8
9
Package
LSHG
LIG
LIGA
3
4
5
LSIG1
LSIGA1
LSIGD1
A
B
C
LIGD
LSHGA
LSHGD
LSH
D
LSIH
6
TU Trip Unit only offers these
Step 9 Trip Unit Rating Plug (Example)
EntelliGuard® TU
Trip Unit
Character
9
MicroVersaTrip® Plus and
Enhanced MicroVersaTrip®
PM Trip Unit
Power +
X
Rating Plug
X
A
•
•
•
B
•
•
•
150
•
•
•
200
D
•
•
•
225
E
•
•
•
250
F
•
•
•
300
G
•
H
•
350
•
•
400
450
I
•
•
•
J
•
•
•
500
K
•
•
•
600
L
•
•
•
700
•
•
400
800
1000
1600
2000
2500
3000
4000
3
3
3
3
3
3
3
3
100
C
M
Availability by Current Sensor Rating (shaded areas indicate availability)
200
2
2
3
3
3
2
2
750
N
•
•
O
•
P
•
•
•
1000
Q
•
•
•
1100
R
•
•
•
1200
S
•
2
800
900
1250
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
2
T
•
•
•
U
•
•
•
1500
V
•
W
•
Y
•
2200
3
3
3
3
3
3
3
3
3
Z
•
2400
3
3
3
3
3
3
3
3
3
1
•
•
•
2500
2
•
•
•
3000
3
•
3
3
3
3
3
3
3
3
3
4
•
•
•
3600
5
•
•
•
4000
1600
1900
•
•
2000
3200
2Exclusive
for MicroVersaTrip® Plus and Enhanced MicroVersaTrip® PM Trip Unit Rating Plugs
3Exclusive
for EntelliGuard® TU Trip Unit Rating Plugs only
Rev. 4/12
Prices and data subject
to change without notice
www.geindustrial.com
BuyLog® Catalog
5-13
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 11 Bell Alarm, Bell Alarm With Lockout, Kirk Key Provision
(Example)
Step 10 Shunt Trip
(Example)
Character 10
0
1
2
3
4
5
6
7
8
H
J
K
L
M
N
P
R
Voltage
None
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
With Lockout
Without Lockout
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Step 12 UnderVoltage Release, Racking Padlock
(Example)
Character 12
0
1
2
3
4
5
6
7
8
9
A
B
C
G
H
J
K
L
M
N
P
R
S
T
U
V
3Frame Rating
5-14
UnderVoltage Release
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
24Vdc
24Vdc
48Vdc
125Vdc
250Vdc
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
12Vdc
24Vdc
48Vdc
125Vdc
250Vdc
BuyLog® Catalog
Character 11
Bell Alarm
0
None
1
None
2
None
4
240
5
240
6
240
8
600
9
600
A
600
G
None
H
None
J
None
L
240
M
240
N
240
R
600
S
600
T
600
1Bell Alarm ratings Vac
2Kirk Key Provision number of key locks 1-4
Note: 600Vac module not UL Listed.
Bell Alarm w/Lockout1
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
Kirk Key Provision2
None
None
None
None
None
None
None
None
None
4
4
4
4
4
4
4
4
4
Step 13 Electric Operator, Push Button Cover, Hidden On
(Example)
Racking Padlock3
None
None
None
None
None
None
None
None
None
None
None
None
None
All
All
All
All
All
All
All
All
All
All
All
All
All
Character 13
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Electric Operator
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
www.geindustrial.com
Push Button Cover
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
Rev. 4/12
Hidden On
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 15 Auxiliary Switch, Stationary/Draw-out, Trimplate
(Example)
Step 14 Closing Solenoid, Door Interlock, Counter
(Example)
Character 14
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Rev. 4/12
Prices and data subject
to change without notice
Closing Solenoid1
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
Door Interlock
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
www.geindustrial.com
Counter
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Character 15
0
1
2
3
4
5
8
9
A
B
C
D
G
H
J
K
L
M
R
S
T
U
V
W
Auxiliary Switch
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
Stationary/Draw-out
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
BuyLog® Catalog
Trimplate
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
YES
YES
YES
YES
YES
YES
5-15
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
S Power
S BreakF® II
How to Select
3
G
6
X
2
W
4
G
3
G
1
2
S
S
D
2
G
5
X
2
U
4
1
0
0
0
H
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Step 9
Step 10
Step 11
Step 12
Step 13
Step 14
Step 15
Auxiliary Switch,
Stationary/
Drawout,
Trimplate
H = 4-240V,
Drawout, None
Circuit
Breaker
S = Power
Break® II
Interrupting Capacity
S = Standard
Closing Solenoid,
Door Interlock, Counter
0 = None, None , None
Construction
D = Drawout
Electric Operator, Push
Button Cover, Hidden On
0 = None, None , None
Frame
2 = 1600 A
Undervoltage Release, Racking Padlock
0 = None, None
Trip Unit
G = EntelliGuard® TU
Bell Alarm, Bell Alarm with Lock Out,
Kirk Key Protection
1 = None, 240, None
Current Sensor
5 = 1600 A
Metering, RELT, Communication, Relays, ZSI
X = Metering- Current , Communication- None, Relays- None , ZSI- None
Trip Unit Rating Plug
U = 1600
Overcurrent Protection Package
2 = LSI
Step 1 Circuit Breaker (Example)
Breaker Type
Power Break® II
Step 5 Trip Unit (Example)
Character 1
S
Step 2 Interrupting Capacity (Example)
Interrupting Type
Standard
High Break
Character 2
S
H
Step 3 Construction (Example)
Construction Type
Stationary Front Connected
Stationary Back Connected
Drawout
Character 3
F
B
D
Step 4 Frame Ratings
Rev. 4/12
Frame Rating
800A
1600A
2000A
2500A
Character 4
1
2
3
4
3000A
4000A
5
6
Prices and data subject
to change without notice
Shunt Trip
4 = 120 VAC/125 VDC
www.geindustrial.com
Trip Unit Type
Power +
Enhanced MVT®
Enhanced MVT® PM
EntelliGuard® TU
Switch w/PP
Character 5
D
B
C
G
Y
Step 6 Current Sensor (Example)
Sensor Rating
Character 6
200A
400A
800A
1000A
1600A
2000A
2500A
1
2
3
4
5
6
7
3000A
4000A
8
9
BuyLog® Catalog
5-11
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 7 Metering, RELT, Communication, Relays, ZSI (Example)
Trip Unit Type + Features
POWER +
Character 7
X
Metering
None
Communication
None
Relays
None
ZSI
None
ENHANCED MVT®
X
A
B
Current
Current
Current
Communication
None
None
None
Relays
None
None
None
ZSI
None
GF
GF&ST
C
D
E
Metering
ENHANCED MVT® PM
F
G
H
K
L
Metering
Current
Current
Current
Full
Full
Full
Full
Full
Full
Communication
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
COMNET
Relays
ZSI
ENTELLIGUARD® TU
Metering
RELT
Communication
P
P
P
None
None
None
P
P
P
None
GF
GF&ST
None
GF
GF&ST
None
GF
GF&ST
D
G
X
A
B
C
E
F
H
J
K
L
M
N
Current
Current
Current
Current1
Full
Full1
Full
Full1
Current
Current
Current
Current1
None
RELT
RELT
None1
RELT
None1
RELT
None1
None
RELT
RELT
None1
Modbus
Modbus1
Modbus
Modbus1
Modbus
Modbus1
None
None
Modbus
Modbus1
None
None
Relays
None
None
None
None1
None
None1
YES
YES1
None
None
None
None1
ZSI
None
None
None
None1
None
None1
None
None1
GF&ST
GF&ST
GF&ST
GF&ST1
Trip Unit Type + Features
ENTELLIGUARD® TU
Character 7 (continued)
P
Metering
RELT
Communication
Relays
ZSI
1 Zone
J
Q
R
Full
Full1
RELT
None1
Modbus Modbus1
None
None1
GF&ST
GF&ST1
V
W
Y
Z
1
Full
Full1
Current1
Current1
2
3
Current1 Current1
RELT1
None1
4
5
6
Full1
Full1
RELT1
None1
7
8
9
Full1
Full1
RELT1
None1
RELT
None1
None1
RELT1
Modbus
Modbus1
None1
None1
YES
YES1
None1
None1
None1
None1
None1
None1
YES1
YES1
GF&ST
GF&ST1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
GFST&I1
Modbus1 Modbus1
Modbus1 Modbus1
Modbus1 Modbus1
Selective Intantaneous Ground Fault & Short Time & Instantaneous (out)
5-12
BuyLog® Catalog
www.geindustrial.com
Rev. 4/12
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 8 Overcurrent Protection Package (Example)
1EntelliGuard®
Character 8
X
1
2
Package
None (switch)
LI
LSI1
Character 8
7
8
9
Package
LSHG
LIG
LIGA
3
4
5
LSIG1
LSIGA1
LSIGD1
A
B
C
LIGD
LSHGA
LSHGD
LSH
D
LSIH
6
TU Trip Unit only offers these
Step 9 Trip Unit Rating Plug (Example)
EntelliGuard® TU
Trip Unit
Character
9
MicroVersaTrip® Plus and
Enhanced MicroVersaTrip®
PM Trip Unit
Power +
X
Rating Plug
X
A
•
•
•
B
•
•
•
150
•
•
•
200
D
•
•
•
225
E
•
•
•
250
F
•
•
•
300
G
•
H
•
350
•
•
400
450
I
•
•
•
J
•
•
•
500
K
•
•
•
600
L
•
•
•
700
•
•
400
800
1000
1600
2000
2500
3000
4000
3
3
3
3
3
3
3
3
100
C
M
Availability by Current Sensor Rating (shaded areas indicate availability)
200
2
2
3
3
3
2
2
750
N
•
•
O
•
P
•
•
•
1000
Q
•
•
•
1100
R
•
•
•
1200
S
•
2
800
900
1250
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
2
T
•
•
•
U
•
•
•
1500
V
•
W
•
Y
•
2200
3
3
3
3
3
3
3
3
3
Z
•
2400
3
3
3
3
3
3
3
3
3
1
•
•
•
2500
2
•
•
•
3000
3
•
3
3
3
3
3
3
3
3
3
4
•
•
•
3600
5
•
•
•
4000
1600
1900
•
•
2000
3200
2Exclusive
for MicroVersaTrip® Plus and Enhanced MicroVersaTrip® PM Trip Unit Rating Plugs
3Exclusive
for EntelliGuard® TU Trip Unit Rating Plugs only
Rev. 4/12
Prices and data subject
to change without notice
www.geindustrial.com
BuyLog® Catalog
5-13
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 11 Bell Alarm, Bell Alarm With Lockout, Kirk Key Provision
(Example)
Step 10 Shunt Trip
(Example)
Character 10
0
1
2
3
4
5
6
7
8
H
J
K
L
M
N
P
R
Voltage
None
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
12Vdc
24Vac/24Vdc
48Vac/48Vdc
120Vac/125Vdc
208Vac
240Vac/250Vdc
480Vac
600Vac
With Lockout
Without Lockout
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Step 12 UnderVoltage Release, Racking Padlock
(Example)
Character 12
0
1
2
3
4
5
6
7
8
9
A
B
C
G
H
J
K
L
M
N
P
R
S
T
U
V
3Frame Rating
5-14
UnderVoltage Release
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
24Vdc
24Vdc
48Vdc
125Vdc
250Vdc
None
24Vac
48Vac
120Vac
208Vac
240Vac
480Vac
600Vac
12Vdc
24Vdc
48Vdc
125Vdc
250Vdc
BuyLog® Catalog
Character 11
Bell Alarm
0
None
1
None
2
None
4
240
5
240
6
240
8
600
9
600
A
600
G
None
H
None
J
None
L
240
M
240
N
240
R
600
S
600
T
600
1Bell Alarm ratings Vac
2Kirk Key Provision number of key locks 1-4
Note: 600Vac module not UL Listed.
Bell Alarm w/Lockout1
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
None
240
600
Kirk Key Provision2
None
None
None
None
None
None
None
None
None
4
4
4
4
4
4
4
4
4
Step 13 Electric Operator, Push Button Cover, Hidden On
(Example)
Racking Padlock3
None
None
None
None
None
None
None
None
None
None
None
None
None
All
All
All
All
All
All
All
All
All
All
All
All
All
Character 13
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Electric Operator
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
www.geindustrial.com
Push Button Cover
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
Rev. 4/12
Hidden On
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Prices and data subject
to change without notice
Insulated Case Circuit Breakers
Section 5
Power Break II Circuit Breakers
®
Power Break® II Nomenclature System
Step 15 Auxiliary Switch, Stationary/Draw-out, Trimplate
(Example)
Step 14 Closing Solenoid, Door Interlock, Counter
(Example)
Character 14
0
1
2
3
4
5
6
8
9
A
B
C
D
E
G
H
J
K
L
M
N
R
S
T
U
V
W
X
Rev. 4/12
Prices and data subject
to change without notice
Closing Solenoid1
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
None
120Vac
240Vac
24Vdc
48Vdc
72Vdc
125Vdc
Door Interlock
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
www.geindustrial.com
Counter
None
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
Character 15
0
1
2
3
4
5
8
9
A
B
C
D
G
H
J
K
L
M
R
S
T
U
V
W
Auxiliary Switch
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
None
4-240V
8-240V
12-240V
4-600V
8-600V
Stationary/Draw-out
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Stationary
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
Drawout
BuyLog® Catalog
Trimplate
None
None
None
None
None
None
YES
YES
YES
YES
YES
YES
YES
None
None
None
None
None
YES
YES
YES
YES
YES
YES
5-15
MULTIPLE OF SENSOR
3
4
5
6 7 8 9 10
20
30
40
50 60 70 80 90
.8 .9 1
2
3
4
5
6 7 8 9 10
20
30
40
50 60 70 80 90
100
2
100
.8 .9 1
1000
900
800
700
1000
900
800
700
600
Maximum GF Pickup
based on sensor.
500
400
300
200
500
Sensor
Maximum
≤ 2000
0.6X
2500
0.37X
3000
0.37X
3200
0.37X
4000
0.3X
5000
0.24X
TIME IN SECONDS
100
90
80
70
400
300
200
60
100
90
80
70
60
50
50
40
40
30
30
20
20
10
9
8
7
10
9
8
7
6
6
5
5
4
TIME IN SECONDS
600
4
14t slope
3
3
SGF slope
2
2
Maximum
1
14
13
.9
.8
.7
.6
12
11
.6
16mS additional at minimum possible
GF pick up, (20% sensor)
10
.5
9
.4
.5
.4
8
TGF delay band additional time may
be calculated via the following formula;
Additional t = 21.25 –18x%Sensor
1000
Up to 119% sensor
.3
7
6
.2
Minimum
5
.3
.2
4
12t slope
3
.1
.09
.08
.07
.06
.1
.09
.08
.07
.06
.05
.05
.04
.04
.03
.03
.02
.02
2
.01
.8 .9 1
2
0mS additional at 119% sensor
.01
4
5
6 7 8 9 10
20
30
40
50 60 70 8090
.8 .9 1
2
3
4
5
6 7 8 9 10
20
MULTIPLE OF SENSOR
Low-Voltage Circuit Breakers
Frames
Frames
800-5000A AK, AKR &
WavePro
800-4000A PowerBreak® I &
PowerBreak® II
®
EntelliGuard TU Trip Unit for
PowerBreak® I & II, AK & AKR, WavePro
Circuit Breakers and Conversion Kits
UL489 and UL1066 Stored Energy
Mechanism Circuit Breakers
Ground Fault
All Voltages: 600 Vac and below
Curves apply at 50/60 Hertz
and from -20°C to 55°C circuit breaker ambient temperature.
08.12
DES-098B
Pickup Range
Minimum 0.2X Sensor
Maximum up to 0.6X Sensor
Not to exceed 1200A
30
40
50 60 70 8090
100
3
100
2
DES-098B
DES-098B
1
.9
.8
.7
MULTIPLE OF TRIP RATING PLUG
10000
9000
8000
7000
6000
5000
4000
50 60 70 80 90
3000
40
2000
30
1000
900
800
700
20
600
6 7 8 9 10
500
5
400
4
300
3
200
2
100
.5 .6 .7 .8 .9 1
1000
900
800
700
1000
900
800
700
Additional clearing time required for very low
instantaneous pickup settings under self power
15X Trip Rating Plug
.1
600
.2
.3
.4
.5 .6 .7 .8 .9 1
2
3
4
5
6
7
600
500
500
400
400
1.5X Trip Rating Plug
300
300
10X Trip Rating Plug
100
90
80
70
50
Adjustable in 0.5X steps
40
Time band additional time may be
calculated via the following formula;
Additional t = 21.25 –18x%Sensor
1000
Up to 119% sensor
.1
.09
.08
.07
60
TIME IN SECONDS
200
10mS additional at
minimum possible
RELT pick up
(Minimum Pickup
X trip rating plug.
(56% sensor)
30
100
90
80
70
60
50
.06
40
.05
30
.04
20
20
0mS additional at 119% sensor
.03
TIME IN SECONDS
200
.02
10
9
8
7
10
9
8
7
.01
.1
6
5
.2
.3
.4
.5 .6 .7 .8 .9 1
2
3
4
5
6
6
7
5
4
4
3
3
Maximum Adjustable Instantaneous Pickup,
Based on Nominal Frame Size PowerBreak UL 489 CB
2
Frame =
PowerBreak with Short Time ON
800
15
1600
15
2000
15
2500
13
3000
13
4000
9
PowerBreak with Short Time OFF
10
10
10
10
10
9
2
1
.6
.9
.8
.7
.6
.5
.5
.4
.4
.3
.3
.2
.2
.1
.09
.08
.07
.1
.09
.08
.07
.06
.06
Application
Determines
End of Curve
.05
.04
.05
.04
.03
.03
.02
.02
.01
.01
800-4000A
PowerBreak
All Voltages: 600 Vac and below
EntelliGuard TU Trip Unit
for PowerBreak Circuit Breaker
UL 489 Stored Energy
Mechanism Circuit Breakers
Instantaneous trip
Curves apply at 60 Hertz
and from -20°C to 55°C circuit breaker ambient temperature.
09.08
Minimum Pickup 1.5X
Maximum per frame
10000
9000
8000
7000
Frames
DES-099
6000
Low-Voltage Circuit Breakers
5000
MULTIPLE OF TRIP RATING PLUG
4000
50 60 70 8090
3000
40
2000
30
1000
900
800
700
20
600
6 7 8 9 10
500
5
400
4
300
3
200
2
100
.5 .6 .7 .8 .9 1
DES-099
DES-099
1
.9
.8
.7
MULTIPLE OF LONG-TIME PICKUP
10000
9000
8000
7000
6000
5000
4000
50 60 70 80 90
3000
40
2000
30
1000
900
800
700
20
600
6 7 8 9 10
500
5
400
4
300
3
200
2
100
.5 .6 .7 .8 .9 1
1000
900
800
700
1000
900
800
700
1.5
1.5
6
6
7.2
7.2
10
10
500
400
X=
Curve
Commit
Clear
Commit
Clear
Commit
Clear
Commit
Clear
400
300
C-Min
4.25
8.04
0.20
0.33
0.14
0.24
0.072
0.137
300
C-2
12.7
24.1
0.60
0.94
0.42
0.66
0.21
0.35
C-3
25.5
48.1
1.21
1.84
0.83
1.28
0.43
0.67
C-4
34.0
64.1
1.61
2.45
1.11
1.70
0.57
0.89
C-5
51.0
96.2
2.41
3.66
1.67
2.53
0.86
1.32
C-6
67.9
128
3.21
4.87
2.22
3.37
1.15
1.75
C-7
84.9
160
4.02
6.08
2.78
4.20
1.43
2.18
C-8
101.9
192
4.82
7.29
3.33
5.03
1.72
2.61
200
100
90
80
70
200
C-9
118.9
224
5.62
8.49
3.89
5.87
2.01
3.03
60
C-10
135.9
256
6.43
9.70
4.44
6.70
2.29
3.46
100
90
80
70
60
50
C-11
152.9
289
7.23
10.9
5.00
7.54
2.58
3.89
50
40
C-12
169.8
321
8.04
12.1
5.56
8.37
2.87
4.32
40
C-13
203.8
385
9.64
14.5
6.67
10.0
3.44
5.18
C-14
237.8
449
11.2
17.0
7.78
11.7
4.01
6.04
C-15
271.7
513
12.9
19.4
8.89
13.4
4.59
6.90
C-16
305.7
577
14.5
21.8
10.0
15.0
5.16
7.76
C-17
339.7
641
16.1
24.2
11.1
16.7
5.73
8.61
C-18
373.6
705
17.7
26.6
12.2
18.4
6.30
9.47
C-19
407.6
769
19.3
29.1
13.3
20.0
6.88
10.3
30
20
Maximum CB
10
9
8
7
30
20
10
9
8
7
Algorithm will not commit below 1.5 cycles, clearing time will not be less than 0.088 seconds.
Actual Long-Time Pickup is 112% of Nominal Pickup.
6
6
5
5
4
4
C-13
3
3
DES-095A
2
2
C-6
1
.9
.8
.7
1
C-3
.9
.8
.7
.6
Transition to Short-Time Pickup,
Short- Time Delay Band or Instantaneous
Determines End of Curve
.6
.5
.4
.5
.4
Minimum CB
.3
.3
.2
.2
.1
.09
.08
.07
.06
.1
.09
.08
.07
.06
.05
.05
.04
.04
.03
.03
.02
.02
.01
.01
800-5000A AKR & WavePro
800-4000A PowerBreak &
PowerBreak II
All Voltages: 600 Vac and below
EntelliGuard TU Trip Unit for PowerBreak,
PowerBreak II, AKR and WavePro
Circuit Breakers
UL489 and UL1066 Stored Energy
Mechanism Circuit Breakers
Long-Time CB Characteristics
Curves apply at 60 Hertz
and from -20°C to 55°C circuit breaker ambient temperature.
11.11
Pickup Range
0.5X-1.0X Trip Rating Plug
10000
9000
8000
7000
Frames
Frames
DES-095A
6000
Low-Voltage Circuit Breakers
5000
MULTIPLE OF LONG-TIME PICKUP
4000
50 60 70 8090
3000
40
2000
30
1000
900
800
700
20
600
6 7 8 9 10
500
5
400
4
300
3
200
2
100
.5 .6 .7 .8 .9 1
DES-095A
TIME IN SECONDS
600
Nominal Clearing and Commit Times for X Multipliers of Nominal Pickup.
500
TIME IN SECONDS
600
MULTIPLE OF LONG-TIME PICKUP
3
4
5
6 7 8 9 10
20
30
40
50 60 70 80 90
1
2
3
4
5
6 7 8 9 10
20
30
40
50 60 70 80 90
600
Additional clearing time required for very low pickup
settings under self power
500
.2
.3
.4
.5 .6 .7 .8 .9 1
2
3
4
5
100
2
100
1
1000
900
800
700
1000
900
800
700
600
6
500
7
400
400
16mS additional at minimum possible
ST pick up (Minimum Trip Rating Plug X
Minimum Long Time pickup X Minimum
Short Time pickup. (28% sensor)
200
300
200
Time band additional time may be
calculated via the following formula;
Additional t = 21.25 –18x%Sensor
1000
Up to 119% sensor
100
90
80
70
100
90
80
70
60
TIME IN SECONDS
60
.1
.09
.08
.07
50
40
50
40
.06
30
30
0mS additional at 119% sensor
.05
20
20
.04
TIME IN SECONDS
300
.03
The slope is
forced to “OFF”
if i4t is in effect
10
9
8
7
.02
10
9
8
7
6
6
.01
.2
5
.3
.4
.5 .6 .7 .8 .9 1
2
3
4
5
6
7
4
4
3
3
2
2
Max.
1
.9
.8
.7
1
.9
.8
.7
.6
Int.
.6
.5
.5
11
.4
.4
10
Min.
.3
.3
9
8
.2
.2
7
6
5
.1
.09
.08
.07
.1
.09
.08
.07
.06
4
3
10X STPU Maximum
Slope Calculation
.06
.05
2
.05
1
.04
.04
.03
.03
.02
.02
Transition to Instantaneous,
Override or Application
Determines End of Curve
Transition to Instantaneous,
Override or Application
Determines End of Curve
.01
.01
3
4
5
6 7 8 9 10
20
30
40
50 60 70 8090
1
2
3
4
5
6 7 8 9 10
20
30
MULTIPLE OF LONG-TIME PICKUP
Low-Voltage Circuit Breakers
Frames
800-5000A
Frames
800-4000A
AKR & WavePro
PowerBreak &
PowerBreak II
All Voltages: 600 Vac and below
EntelliGuard TU Trip Unit
for PowerBreak, PowerBreak II,
AKR & Wavepro Circuit Breakers
UL489 and UL1066 Stored Energy
Mechanism Circuit Breakers
Short-Time Pickup and Delay Bands
Curves apply at 60 Hertz
and from -20°C to 55°C circuit breaker ambient temperature.
11.11
DES-097A
Pickup Range
1.5X - 9X up to 4000A Frames
1.5X - 7X 5000A AKR and WavePro
40
50 60 70 8090
100
2
100
1
DES-097A
DES-097A
5
Power Quality Products
Section 16
Surge Protection (TVSS)
Integrated TRANQUELL® HE and ME
Designed for GE Distribution Equipment
This TVSS model connects to the panelboard or switchboard bus
bars without adding width or depth to the panel enclosure, and
only occupying 7X of vertical bus space. These units have been
tested to surge current ratings per NEMA LS-1, up to 200 kA per
mode, including the fuses in the surge path. Standard features
include a surge counter, audible alarm, indicating lights, dry
contacts, and an integral surge rated disconnect. Rating options
range from 65 kA per mode to 300 kA per mode.
All mode protection is provided with surge components (MOVs)
connected on the phase to neutral, phase to ground, and neutral
to ground paths as appropriate for the voltage configuration.
Integrated TRANQUELL® HE and ME products are engineered for
reliability, flexibility and long life in the most extreme surge
environment. The true maximum surge current rating, unlimited
by fusing, has been proven successful in 3rd party tests.
Features and Benefits
Specifications
—UL1449, CUL, UL1283
—UL Tested to 200,000 Amperes Symmetrical Withstand
—Integral Surge Rated Disconnect
—Factory installed in Spectra® Series Panels and Switchboards
(7X Mounting Space), or Switchgear
—TRANQUELL® ME Device is Capable of Surviving a minimum of
5,000 Category C3 Impulses (10kA, 20kV) per mode.
—TRANQUELL® HE Device is Capable of Surviving a minimum of
20,000 Category C3 Impulses (10kA, 20kV) per mode.
—Device Capable of Surviving a minimum of 5,000 Longwave
(10x1000ms) Impulses per mode.
—Patented Thermal Fuse Technology in Combination with Surge
Rated Fuses
—Form C Dry Contacts for Remote Monitoring
—Green Status Indicating Lights, Red Service Light
—Audible Alarm with Test/Disable Feature
—Optional Surge Counter
—Standard 5 year limited warranty, Optional 10 year warranty
Operating Frequency:
Connection:
Operating Temperature:
Operating Humidity:
Weight:
17.722
[450.130]
0.340
[8.636]
50/60 Hz
6 to 2/0 Conductors, Parallel Connected
-40°C to +65°C
0% to 95% Non-Condensing
24 lbs.
[
17.382
[441.494]
0.280
7.112] HOLE
(4 PLACES)
6.964
[176.877]
9.400
[238.755]
6.762
[171.751] TYP
7.202
[182.922]
2.638
[67.004] TYP
16-44
BuyLog® Catalog
www.geindustrial.com
Rev. 4/12
Prices and data subject
to change without notice
Power Quality Products
Section 16
Surge Protection (TVSS)
Integrated TRANQUELL® HE and ME
Designed for GE Distribution Equipment
For GE MCC Distribution Equipment
For GE Spectra® Panel or Switch Board Distribution Equipment -
200 kA Symmetrical Fault Withstand
Panelboard, Lights, Alarm, Surge Counter, Form C Contacts
200 kA Symmetrical Fault Withstand
Panelboard, Lights, Alarm, Surge Counter, Form C Contacts
Maximum Surge Current
Product Number
Maximum Surge Current
Product Number
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 130kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
TPME120S06ME
TPME120Y06ME
TPME220Y06ME
TPME277Y06ME
TPME480D06ME
TPME347Y06ME
TPME240H06ME
TPME240D06ME
TPME240Y06ME
TME600D065ME
TPME120S08ME
TPME120Y08ME
TPME220Y08ME
TPME277Y08ME
TPME480D08ME
TPME347Y08ME
TPME240H08ME
TPME240D08ME
TPME240Y08ME
TME600D080ME
TPHE120S10ME
TPHE120Y10ME
TPHE220Y10ME
TPHE277Y10ME
TPHE480D10ME
TPHE347Y10ME
TPHE240H10ME
TPHE240D10ME
TPHE240Y10ME
THE600D100ME
TPHE120S15ME
TPHE120Y15ME
TPHE220Y15ME
TPHE277Y15ME
TPHE480D15ME
TPHE347Y15ME
TPHE240H15ME
TPHE240D15ME
TPHE240Y15ME
THE600D150ME
TPHE120S20ME
TPHE120Y20ME
TPHE220Y20ME
TPHE277Y20ME
TPHE480D20ME
TPHE347Y20ME
TPHE240H20ME
TPHE240D20ME
TPHE240Y20ME
THE600D200ME
TPHE120S30ME
TPHE120Y30ME
TPHE220Y30ME
TPHE277Y30ME
TPHE480D30ME
TPHE347Y30ME
TPHE240H30ME
TPHE240D30ME
TPHE240Y30ME
THE600D300ME
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
65kA per mode / 130kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 130kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
80kA per mode / 160kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
TPME120S06PP
TPME120Y06PP
TPME220Y06PP
TPME277Y06PP
TPME480D06PP
TPME347Y06PP
TPME240H06PP
TPME240D06PP
TPME240Y06PP
TPME600D06PP
TPME120S08PP
TPME120Y08PP
TPME220Y08PP
TPME277Y08PP
TPME480D08PP
TPME347Y08PP
TPME240H08PP
TPME240D08PP
TPME240Y08PP
TME600D080PP
TPHE120S10PP
TPHE120Y10PP
TPHE220Y10PP
TPHE277Y10PP
TPHE480D10PP
TPHE347Y10PP
TPHE240H10PP
TPHE240D10PP
TPHE240Y10PP
THE600D100PP
TPHE120S15PP
TPHE120Y15PP
TPHE220Y15PP
TPHE277Y15PP
TPHE480D15PP
TPHE347Y15PP
TPHE240H15PP
TPHE240D15PP
TPHE240Y15PP
THE600D150PP
TPHE120S20PP
TPHE120Y20PP
TPHE220Y20PP
TPHE277Y20PP
TPHE480D20PP
TPHE347Y20PP
TPHE240H20PP
TPHE240D20PP
TPHE240Y20PP
THE600D200PP
TPHE120S30PP
TPHE120Y30PP
TPHE220Y30PP
TPHE277Y30PP
TPHE480D30PP
TPHE347Y30PP
TPHE240H30PP
TPHE240D30PP
TPHE240Y30PP
THE600D300PP
Rev. 4/12
Prices and data subject
to change without notice
www.geindustrial.com
BuyLog® Catalog
16-45
Power Quality Products
Section 16
Surge Protection (TVSS)
Integrated TRANQUELL® HE and ME
Designed for GE Distribution Equipment
For GE Switch Gear Distribution Equipment
200 kA Symmetrical Fault Withstand
Panelboard, Lights, Alarm, Surge Counter, Form C Contacts
Maximum Surge Current
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
100kA per mode / 200kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
150kA per mode / 300kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
200kA per mode / 400kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
300kA per mode / 600kA per phase
Product Number
TPHE120S10SG
TPHE120Y10SG
TPHE220Y10SG
TPHE277Y10SG
TPHE480D10SG
TPHE347Y10SG
TPHE240H10SG
TPHE240D10SG
TPHE240Y10SG
THE600D100SG
TPHE120S15SG
TPHE120Y15SG
TPHE220Y15SG
TPHE277Y15SG
TPHE480D15SG
TPHE347Y15SG
TPHE240H15SG
TPHE240D15SG
TPHE240Y15SG
THE600D150SG
TPHE120S20SG
TPHE120Y20SG
TPHE220Y20SG
TPHE277Y20SG
TPHE480D20SG
TPHE347Y20SG
TPHE240H20SG
TPHE240D20SG
TPHE240Y20SG
THE600D200SG
TPHE120S30SG
TPHE120Y30SG
TPHE220Y30SG
TPHE277Y30SG
TPHE480D30SG
TPHE347Y30SG
TPHE240H30SG
TPHE240D30SG
TPHE240Y30SG
THE600D300SG
*
Product # TPHE277Y15PP
Suppressed Voltage Rating (SVR)
UL 1449, 2nd Edition
February 2007 Revision
System
Nominal
Voltage
Voltage
(Volts RMS) Configuration L-N
*
PP suffix available for all kA ratings
(integral to Spectra® panel or switchboard)
SG suffix for all THE devices (100kA - 300kA)
integral to switchgear
ME suffix available for all kA ratings (integral to MCC)
Maximum Surge
Current Capacity
MCOV %
HL-N
L-G
HL-G
N-G
L-L
Max.
Continuous
Operating
Voltage
—
400
—
400
700
125%
Exposure Level
Per Mode
Per Phase
06
TPME
65kA
130kA
08
TPME
80kA
160kA
TPHE
120S
120/240
1 Ph, 3 W + G
400
TPME
120Y
120Y/208
3 Ph, 4 W + G
400
—
400
—
400
700
125%
10
TPHE
100kA
200kA
220Y
220Y/380
3 Ph, 4 W + G
800
—
800
—
800
1500
145%
15
TPHE
150kA
300kA
240D
240 Delta
3 Ph, 3 W + G
—
—
800
—
—
1500
196%
20
TPHE
200kA
400kA
240H
120/240 Delta HL
3 Ph, 4 W + G
500
700
400
700
400
900
115%
30
TPHE
200kA
400kA
240Y
240Y/415
3 Ph, 4 W + G
800
—
800
—
800
1500
130%
277Y
277Y/480
3 Ph, 4 W + G
800
—
800
—
800
1500
115%
347Y
347Y/600
3 Ph, 4 W + G 1200
—
1000
—
1000 2000
115%
Product # Example
480D
480 Delta
3 Ph, 3 W + G
—
1500
—
198%
TPHE277Y15PP
ATHE277Y15K
—
—
3000
Also available in 600D configurations. For details, please contact GE Power Quality Customer Service at 800 637-1738.
16-46
BuyLog® Catalog
NOTE: For TVSS field installation kit, add the prefix “A”
and replace “PP” suffix with “K” suffix
www.geindustrial.com
(factory installed)
(field installation)
Rev. 4/12
Prices and data subject
to change without notice
Power Quality Products
Section 16
Uninterruptible Power Supplies
Digital Energy™ GT Series
1000-3000 VA Tower
Description
The Digital Energy™ GT Series Tower UPS provides high quality
power protection in a cost effective package. The GT Series is a
compact, true VFI (Voltage and Frequency Independent) on-line
double conversion high performance device.
The UPS is designed to support and protect mission-critical
applications, and the bypass mode provides high reliability
against mains power disturbances. All GT Series UPSs are microprocessor controlled and equipped with RS232 communication
and optional SNMP interfacing capabilities for all major operating
systems, with optional battery pack extended runtime options
also available.
—On line double conversion technology eliminates power
reliability problems
—High visibility graphic display gives the user immediate view of
UPS status
—Automatic internal bypass
—Programmable switch-off for less critical loads to maximize
up-time of critical devices. (load shedding)
—Modern design fits well into an office environment
Applications
—Mission Critical Servers
—Medical Equipment
—ATM / Frame Relay Switches
—Banking Systems
—Telecoms / PABX
Features and Benefits
—High input power factor (>.97) and low input distortion prevents
disturbances to other electrical equipment, thus eliminating the
need for costly filters or over- sized feeders
—Compact footprint, easily transportable, robustly designed
system with low audible noise suitable for both office and
industrial environments
—Utilizes high-frequency PWM (Pulse Width Modulation) digital
control technique resulting in extremely low output distortion
and fast transient response eliminating the need for over-sizing
the UPS
—Robustly designed to handle short-circuit, high overload and
over-heating conditions, thus reducing maintenance and
service costs
—GT Series High Crest Factor (3:1) capability makes it ideal for
computer loads while eliminating the need to oversize the UPS
—Very wide AC-input voltage capability minimizes the need to
switch to batteries which results in increased battery life
—Fully compliant with UL1778 and CSA 22.2-107 standards for
VFI operation providing full power protection for demanding
critical applications
—Every GE UPS can be monitored and managed via LAN and
serial connection
—UPS management software facilitating operation and
maintenance of the UPS
—Available slot for SNMP plug-in card, potential-free relay
contacts, and RS232/contact interface providing maximum
flexibility
16-8
BuyLog® Catalog
www.geindustrial.com
Rev. 4/12
Prices and data subject
to change without notice
Power Quality Products
Section 16
Uninterruptible Power Supplies
Digital Energy™ GT Series
1000-3000 VA Tower
Technical Specifications–UL approved
Models
Rating (VA/W)
Battery (V/Ah)
Backup Time @ 50% load
Option for Additional Batteries
Enclosure (see below)
Net Wgt Incl. Batteries (kg/lbs)
Input Voltage @ 100% load (VAC)
Input Frequency (Hz)1
Output Voltage
Output Frequency (Hz)1
GT1000T
GT1500T
GT2000T
GT3000T
GT3000T208
1000 / 800
36 / 7
21 min.
Yes
A
15 / 33
80-138
50 / 60
100 / 110
50 / 60
1500/1200
48 / 7
21 min.
Yes
B
30 / 66
80-138
50 / 60
100 / 110 / 120
50 / 60
3 NEMA 5-15R
3 NEMA 5-20R
1 NEMA L5-20R
2000 / 1600
72 / 7
21 min.
Yes
B
30 / 66
80-138
50 / 60
100 / 110 / 120
50 / 60
3000 / 2400
72 / 9
14 min.
Yes
B
30 / 66
80-138
50 / 60
100 / 110 / 120
50 / 60
3000 / 2400
72 / 9
14 min.
Yes
B
30 / 66
160-275
50 / 60
160 / 208 / 275
50 / 60
6 NEMA 5-15R
1 NEMA L5-20R
6 NEMA 5-15/20R
1 NEMA L5-30R
4 NEMA 6-20R
1 NEMA L6-20R
Number of Outlets
4 NEMA 5-15R
SNMP Compatibility
Core Voltage
PWM
Maintenance Bypass
Internal Batteries
Input Performance Range
Output Performance
Output THD Load
Voltage Regulation Load
Overload Capability
Efficiency
Communications Interface
Color
Operating Temperature
Relative Humidity
Audible Noise
Safety
EMC
Enclosure
Yes
120
Yes
Yes
Yes
Voltage (-33 to +17%); Frequency (55 to 65)
Non-Linear (<6%); Linear (<3%)
Static (2%); 0-100% Step (8%)
150% – 30 Seconds
>87%
RS232, Plug and Play, open collector alarm output
Front bezel: Aluminum Grey (RAL9006); Cabinet: Pure White (RAL9010)
32° F – 104° F (0° C – 40° C)
95% non-condensing
(see below)
UL1778, CSA22.2-107
FCC Class B (1kVA), FCC Class A (remaining)
NEMA 1
1Auto Selectable
Specifications subject to change without notice.
Dimensions (in/cm)
Enclosure A
Enclosure B
Audible Noise at Unit Front
Height
Width
Depth
9.5 (24.1)
14.7 (37.3)
5.5 (14)
5.5 (14)
14.4 (36.6)
16.7 (42.4)
1 kVA
40dBA - 3.3 feet (1 meter)
1.5, 2 and 3kVA-T
42dBA - 3.3 feet (1 meter)
GT Series - 1.0kVA to 3.0kVA Single-Phase UPS
Input
Voltage
Output
Voltage
100/110/120
100/110/120
100/110/120
100/110/120
100/110/120
100/110/120
100/110/120
100/110/120
Description
1000VA GT Series Tower 1-Phase UPS
1500VA GT Series Tower 1-Phase UPS
2000VA GT Series Tower 1-Phase UPS with plug
3000VA GT Series Tower 1-Phase UPS with plug
Power (VA)
Standard Battery
Run Time (mins.)
100% Load
Dimensions
(H x W x D, inches)
Product
Number
List Price
GO-AC17
1000
1500
2000
3000
7
5
7
5
9.5 x 5.5 x 14.4
14.7 x 5.5 x 16.7
14.7 x 5.5 x 16.7
14.7 x 5.5 x 16.7
UPS16164
UPS16170
UPS16165
UPS16166
$680.00
$1040.00
$1260.00
$1750.00
Battery Packs For Extended Run Time1
Description
Battery Pack For GT Series Tower 1000VA
Battery Pack For GT Series Tower 1500VA
Battery Pack For GT Series Tower 2000VA
Battery Pack For GT Series Tower 3000VA
Power
(VA)
Extended Battery Run
Time (mins.) 100% Load
Dimensions
(H x W x D, inches)
Product
Number
List Price
GO-AC18
1000
1500
2000
3000
39
19
27
19
9.5 x 5.5 x 14.4
14.7 x 5.5 x 16.7
14.7 x 5.5 x 16.7
14.7 x 5.5 x 16.7
UPS16321
UPS16328
UPS16322
UPS16323
$275.00
$310.00
$325.00
$325.00
1Up to 4 individual Extended Battery Packs can be interconnected for increased times.
Connectivity, Software and Monitoring
Description
Product Number
List Price
GO-AC21
SNMP interface plug-in card
UPS16400
$380.00
Rev. 4/12
Prices and data subject
to change without notice
www.geindustrial.com
BuyLog® Catalog
16-9
CAT# W199AX-14
Advantages of the W199 Power Relay
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BOECMPXPVUNBHOFUTOFBSUIFDPOUBDUTGPSIJHIWPMUBHF%$TXJUDIJOH
Optional Cover
(50-1289-1)
See Section 3 p.22
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40Amp
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SECTION 6
W199ABMX-7
40Amp
t"WBJMBCMF#MPXPVU.BHOFUTGPS)JHI%$4XJUDIJOH
t"WBJMBCMF"VYJMJBSZ4XJUDIFT
t$BOCFDPOmHVSFEXJUIJODI2$$POOFDUJPOT
t6QUP"4XJUDIJOH
t"WBJMBCMF.FUBM&ODMPTVSF
#MPXPVU
.BHOFUGPS
)JHI%$
4XJUDIJOH
Pressure Wire
Connectors for
Heavy Gauge
Wires
W199BX-110
40Amp
4IPVMEFS3JWFU
BOE4QSJOH
0QUJNJ[F
$POUBDU8JQF
W199X-8
40Amp
W199DEX-3
50Amp
6/2
W199DX-2
40Amp
.BHOFDS BGU 4 P MVU J P O ( V J E F "
14 AWG for 40A, 11 AWG
for 50A Configurations
For Superior Load Handling.
Combo-Head Screws
For Simpler Hook-Up.
Wide Array of Options
& Configurations
For Specific Control Needs.
"VYJMJBSZ4XJUDI
Wide Selection of Coil Voltages
To Fit Most Applications.
Riveted Construction
To Sustain Years of Use.
W199AX-14
40Amp
W199MX-27
40Amp
SECTION 6
*ODI2$PO
"VYJMJBSZ4XJUDIGPS
4QFFEJFS)PPL6Q
"8(1JHUBJMT
GPS"-PBE
4XJUDIJOH
"VYJMJBSZ4XJUDI
W199X-11
40Amp
199PQMKKX-1
50Amp
W199MX-51
40Amp
.BHOF D S B GU 4 P MV UJ P O ( V J E F "
2$PO
$PJMGPS4JNQMFS
*OTUBMMBUJPO
W199X-3
40Amp
6/3
W199 Open Style Power Relay/4JOHMFBOE5XP1PMFBOE"NQ3BUJOH%$BOE"$
Combo-Head Screws
14 AWG for 40A, 11 AWG
for 50A Configurations
C
UL US
Wide Array of Options
and Configurations
Riveted
Construction
UL Recognized
File No. E43641
Wide Selection of Coil Voltages
General Specifications
(UL 508)
Units
Contact Characteristics
/VNCFSBOEUZQFPG$POUBDUT
$POUBDUNBUFSJBMT
5IFSNBM$BSSZJOH
$VSSFOUSBUJOH
.BYJNVN4XJUDIJOH7PMUBHF
4XJUDIJOH$VSSFOU!7PMUBHF
~
3FTJTUJWF
3FTJTUJWF
HP
Tungsten
1JMPU%VUZ
N"
#MPXPVUNBHOFU
.JOJNVN4XJUDIJOH3FRVJSFNFOU
.JOJNVN
Coil Characteristics
7PMUBHF3BOHF
~
SECTION 6
PG/PNJOBM
0QFSBUJOH3BOHF
~
"WFSBHFDPOTVNQUJPO
~
%SPQPVUWPMUBHFUISFTIPME
~
Performance Characteristics
&MFDUSJDBM-JGF6-
0QFSBUJOHUJNFSFTQPOTFUJNF
%JFMFDUSJD
Environment
1SPEVDUDFSUJmDBUJPOT
"NCJFOUBJSUFNQFSBUVSF
BSPVOEUIFEFWJDF
Connection
5FSNJOBM5JHIUFOJOH5PSRVF
8FJHIU
0QFSBUJPOT!3BUFE$VSSFOU
#FUXFFODPJMBOEDPOUBDU
#FUXFFOQPMFT
#FUXFFODPOUBDUT
"
V
3FTJTUJWF
~
~
~
4UBOEBSEWFSTJPO
4UPSBHF
0QFSBUJPO
V
V
7"
W
199, 199A
414541%5%145%1%5
4JMWFS"MMPZ
7
"!7)[
"!7"$)[
"!7%$
See table A below
!7"$
"!7"$
"
!7"$7%$
y
y
UP
UP
3FTJTUJWF
NT
V
V
V
°C
°C
"8(NN
JOMC/N
HSBNT
6-$4"$&
y
y
yy
UP
Table A:
Additional DC Rating with Magnetic Blowout
7%$
7%$
7%$
7%$
7%$
Single Make/Break
"
"
"
Double Make/Break
"
"
"
"
"
6/4
.BHOFDS BGU 4 P MVU J P O ( V J E F "
www.magnecraft.com
847-441-2540
199D, 199DY, 199AD, 199ADY
4145%.4145%#
4JMWFS"MMPZ
7
"!7)[
"!7"$)[
"!7%$
See table A below
!7"$
"!7"$
"
!7"$7%$
199P, 199AP
414541%5%145%1%5
4JMWFS"MMPZ
7
"!7)[
"!7"$)[
"!7%$
See table A below
!7"$
"!7"$
"
!7"$7%$
199DE, 199DYE, 199ADE, 199ADYE
4145%.4145%#
4JMWFS"MMPZ
7
"!7)[
"!7"$)[
"!7%$
See table A below
!7"$
"!7"$
"
!7"$7%$
y
y
UP
UP
y
y
UP
UP
y
y
UP
UP
6-$4"$&
y
y
yy
UP
6-$4"$&
y
y
yy
UP
6-$4"$&
y
y
yy
UP
SECTION 6
Optional Cover
(50-1289-1)
See Section 3 p.22
Table B:
Auxiliary Switch Ratings
6QUP7"$)[
.PUPS-PBE7"$)[
1JMPU%VUZ7"$)[
7%$
7%$
5VOHTUFO7"$)[
SPDT
""$
)1
7"
"%$
"%$
"
DPDT
""$
)1
7"
"%$
"%$
"
6/5
.BHOF D S B GU 4 P MV UJ P O ( V J E F "
W199 Open Style Power Relay/4JOHMFBOE5XP1PMFBOE"NQ3BUJOH%$BOE"$
continued
Combo-Head Screws
14 AWG for 40A, 11 AWG
for 50A Configurations
C
UL US
Wide Array of Options
and Configurations
Riveted
Construction
UL Recognized
File No. E43641
Wide Selection of Coil Voltages
Standard Part Numbers
Nominal Input Voltage
Coil Resistance (OHMS)
Part Number
BOLD-FACED PART NUMBERS ARE NORMALLY STOCKED
Contact Configuration
Equipped Optional Features
40A Rated Relays, AC Operated
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
7"$)[
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
W199AX-3
W199AX-4
W199AX-13
W199AX-14
W199AX-15
W199AX-8
W199AX-9
W199AX-10
W199ADX-4
8"%9
W199ADBX-4
W199ABX-14
8"#.9
W199AMX-64
41%5
41%5
%1%5
%1%5
%1%5
%145/0
%145/0
%145/0
4145/0%.
4145/0%.
4145/0%.
%1%5
%1%5
%1%5
.BHOFUJD#MPXPVU
.BHOFUJD#MPXPVU
"VYJMJBSZ4XJUDI.BHOFUJD#MPXPVU
"VYJMJBSZ4XJUDI
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
W199X-2
W199X-3
W199X-11
W199X-12
W199X-13
W199X-14
W199X-7
W199X-8
8%:9
W199DX-2
W199DX-3
8%#9
8%#9
W199BX-13
W199BX-14
8#.9
8.9
41%5
41%5
%1%5
%1%5
%1%5
%1%5
%145/0
%145/0
4145/$%#
4145/0%.
4145/0%.
4145/0%.
4145/0%.
%1%5
%1%5
%1%5
%1%5
.BHOFUJD#MPXPVU
.BHOFUJD#MPXPVU
.BHOFUJD#MPXPVU
.BHOFUJD#MPXPVU
"VYJMJBSZ4XJUDI.BHOFUJD#MPXPVU
"VYJMJBSZ4XJUDI
æ
æ
æ
æ
æ
æ
æ
æ
æ
æ
8"19
8"19
8"19
8"%&9
19
819
819
19
8%&9
12.,,9
%1%5
%1%5
%1%5
4145/0%.
%1%5
%1%5
%1%5
%1%5
4145/0%.
%1%5
SECTION 6
40A Rated Relays, DC Operated
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
7%$
50A Rated Relays
7"$)[
7"$)[
7"$)[
7"$)[
7%$
7%$
7%$
7%$
7%$
7%$
Pressure Wire Connectors
Pressure Wire Connectors
w2$5FSN0O$PJM
"VYJMJBSZ4XJUDI
$POUBDU.BHOFDSBGUGPSNPSFDPOmHVSBUJPOTUPmUZPVSBQQMJDBUJPOT
6/6
.BHOFDS BGU 4 P MVU J P O ( V J E F "
www.magnecraft.com
847-441-2540
Optional Cover
(50-1289-1)
See Section 3 p.22
2.31 MAX
(58.67)
1.87
(47.5)
DPDT
0.375
(9.5)
DPDT
3.12 MAX
(79.2)
SECTION 6
2.5 MAX
(63.5)
1.62
(41.14)
2.25 MAX
(57.15)
DPST-NO
1.87
(47.5)
2.5 MAX
(63.5)
0.375
(9.5)
1.62
(41.14)
2.43 MAX
(61.7)
6/7
.BHOF D S B GU 4 P MV UJ P O ( V J E F "
W199 Open Style Power Relay/4JOHMFBOE5XP1PMFBOE"NQ3BUJOH%$BOE"$
continued
2.25 MAX
(57.15)
DPST-NO w/Blowout Magnet
1.87
(47.5)
SECTION 6
2.5 MAX
(63.5)
1.62
(41.14)
0.375
(9.5)
2.43 MAX
(61.7)
2.31 MAX
(58.67)
DPDT w/Auxiliary Switch and QC
Connectors on Coil
AUXILIARY
SWITCH
1.87
(47.5)
2.5 MAX
(63.5)
6/8
0.375
(9.5)
1.62
(41.14)
3.12 MAX
(79.2)
.PSFDPOmHVSBUJPOTBWBJMBCMF
.BHOFDS BGU 4 P MVU J P O ( V J E F "
www.magnecraft.com
847-441-2540
2.18 MAX
(55.37)
SPST-NO-DM w/Pressure
Wire Connectors
1.87
(47.5)
0.375
(9.5)
SECTION 6
2.5 MAX
(63.5)
DOUBLE
MAKE
1.62
(41.14)
2.43 MAX
(61.7)
3.5 MAX
(88.87)
2.18 MAX
(55.37)
SPST-NO-DM
1.87
(47.5)
2.5 MAX
(63.5)
0.375
(9.5)
1.62
(41.14)
2.43 MAX
(61.7)
.PSFDPOmHVSBUJPOTBWBJMBCMF
.BHOF D S B GU 4 P MV UJ P O ( V J E F "
DOUBLE
MAKE
6/9
W199 Open Style Power Relay/4JOHMFBOE5XP1PMFBOE"NQ3BUJOH%$BOE"$
continued
2.31 MAX
(58.67)
DPST-NO w/Auxiliary Switch
2.5 MAX
(63.5)
SECTION 6
AUXILIARY
SWITCH
1.87
(47.5)
1.62
(41.14)
2.43 MAX
(61.7)
2.53
(64.26)
DPDT w/Blowout Magnet
and Auxiliary Switch
AUXILIARY
SWITCH
6/10
0.375
(9.5)
1.87
(47.5)
2.5 MAX
(63.5)
0.375
(9.5)
1.62
(41.14)
3.12 MAX
(79.2)
.PSFDPOmHVSBUJPOTBWBJMBCMF
.BHOFDS BGU 4 P MVU J P O ( V J E F "
www.magnecraft.com
847-441-2540
2.31 MAX
(58.67)
SPST-NO-DM w/Blowout Magnet
1.87
(47.5)
DOUBLE
MAKE
0.375
(9.5)
2.5 MAX
(63.5)
1.62
(41.14)
2.548
(64.71)
2.31 MAX
(58.67)
DPDT w/Auxiliary Switch
1.87
(47.5)
AUXILIARY
SWITCH
3.12 MAX
(79.2)
SECTION 6
2.5 MAX
(63.5)
1.62
(41.14)
0.375
(9.5)
2.18 MAX
(55.37)
SPDT
1.87
(47.5)
2.5 MAX
(63.5)
.PSFDPOmHVSBUJPOTBWBJMBCMF
.BHOF D S B GU 4 P MV UJ P O ( V J E F "
0.375
(9.5)
1.62
(41.14)
2.43 MAX
(61.7)
6/11
Spectra Catalog Cover:hires 2/22/13 8:39 AM Page 1
GE Energy
®
Spectra Series Switchboards
Information provided is subject to change without notice. Please verify all details with GE. All values are design or
typical values when measured under laboratory conditions, and GE makes no warranty or guarantee, express or
implied, that such performance will be obtained under end-use conditions.
GE Energy
41 Woodford Avenue, Plainville, CT 06062
www.geindustrial.com
© 2013 General Electric Company
imagination at work
imagination at work
GET-8032C (02/13)
Spectra Series® Switchboards
Contents
Section 1 - Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Section 2 - Features and Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Section 3 - Terminology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Section 4 - Sizing and Dimension
4.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
4.2 Typical Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
4.3 Class 1 Switchboard - Group Mounted . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.4 Class 2 Individually Mounted Main Group Mounted Feeders/
Class 5 Individually Mounted Switchboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
4.5 Utility Metering Compartments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
4.6 Outdoor Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
4.7 Instrument and Metering Arrangements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
4.8 Busway Entrance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
4.9 Low Voltage Transition Sections and Dual Voltage Switchboards . . . . . . . . . . . . . . . . . . . 26
4.10 Conduit Entrance Space . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
4.11 Switchboard Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Section 5 - Application Data
5.1 Standards/Codes/Ratings/Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
5.2 Protective Device Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
5.3 Power Break® II Circuit Breaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
5.4 WavePro™ Low Voltage Power Circuit Breakers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
5.5 High Pressure Contact Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
5.6 Molded Case Circuit Breakers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
5.7 Fusible Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
5.8 Surge Protective Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
5.9 Power Management Control System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
5.10 Power Metering Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
5.11 Equipment Ground Fault Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
5.12 Automatic Transfer Switches. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
5.13 Wire/Lug/Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
Section 6 - Additional GE Switchboard Offerings
Class 3 Switchboard. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
Section 7 - CSI Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71
Reference Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
Appendix
Seismic Compliance Certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Trip Units by Main Breaker and Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82
1
Spectra Series® Switchboards
Section 2 – Features and Characteristics
Flexibility, Reliability, Simplicity & Safety
GE has designed a bus bar interior for use in Spectra
Series™ (group-mounted) Switchboards and Spectra
Series Power Panelboards.
The distribution section interior is the basic building
block, designed for use with either fusible switches
(plug-in only) or molded case circuit breakers, or both.
The modularity of Spectra Plug-in is possible because
the interior is designed to accept device modules with
spring-reinforced jaws and pressure-locked connections. The jaws and connections are an integral part of
the branch modules.
Standard lifting plates, shown, are optional (NEMA 1 only).
Spectra Series Plug-In™ circuit breaker modules accept standard
off-the-shelf GE breakers and are available for single- or doublebranch mounting (through 600A) without any modifications,
assuring proper phase arrangement.
Spectra Series Plug-In branch fusible modules can be
single- or double- (through 200A) mounted, two- or three-pole.
5
Spectra Series® Switchboards
Section 2 – Features and Characteristics
Spectra Switchboard — Group-Mounted
Interior Design
The vertical design of the bus maximizes convective
heat transfer. The bus bar insulator system provides
short circuit bracing to 200 kA, 600-volt spacing (without having to add baffles) and eliminates the need for
any additional insulation.
Spectra Bolt-In
Vertical bus oriented edgewise for ease of bolted
breaker strap connections.
Bolted connection between
switchboard vertical bus and
breaker primary connection.
Spectra Plug-In
Mounting support
brackets between
bus support rails
and mounting rails.
Double-insulated system consisting of bus
support assemblies of molded, glass-filled
polyester insulation and insulating tubes
over high-strength steel bolts spaced on 7"
centers that prevent bus bars from distorting
during short-circuit conditions.
Mounting rails (2)
with means for positioning, engaging and
grounding pressurelocked connections.
(plug-in only).
Vertical bus is predrilled for location
of breakers in any
standard position.
Anti-turn device utilized at the bolted connection
between the breaker strap and vertical bus.
Isolated bus
support rails (2).
Spectra Plug-In™ Switchboard Construction
The universal interior has made possible a family of
modular components that provide the flexibility unique
to the Spectra Series™ product line. By utilizing modular
assembly and pressure-locked connections to the
interior, maintenance and tests are easier and faster.
Standard bus is aluminum, heat rated
per UL. Optional ratings include 750A psi
or 600A psi aluminum and heat rated
per UL, 1000A psi or 800A psi copper. All
vertical bus bars are silver plated.
Field changes are quick and easy.
Interior cross-member
supports for mounting
rails and bus support
rails.
This innovative design approach also facilitates field
reconfiguration. Branch fusible units can be removed
and circuit breaker units substituted.
Fusible switch and circuit breaker modules each consist
of two assemblies: the protective device (fusible switch
unit or molded case circuit breaker) and a connecting
mechanism. The connecting mechanisms are the intermediate electrical/mechanical connections between the
protective device and the bus structure in the interior.
The fusible connecting mechanism is in the same
housing as the fusible switch unit. The molded case
circuit breaker connecting mechanism is separate from
the breakers and is designed to accept standard GE
circuit breakers.
6
Spectra Series® Switchboards
Section 2 – Features and Characteristics
The electrical connection is made utilizing spring-reinforced jaws that engage the bus bars. This type of
proven design, long utilized in switchgear and busway,
provides a reliable and superior electrical connection.
Mechanical connection is made with a positive, selfaligning, spring-loaded locking device bolted to each
side of the mounting module. When the device module
is inserted in the interior, this mechanism springs into
place and positive engaging latches secure the module
to the interior mounting rails.
The fusible switch module has a self-aligning bracket screwed
to the interior mounting rails.
I
Spring
Reinforced Jaw
To prevent personnel from accidentally releasing the
locked pressure connections, circuit breaker modules
handles are bolted to each side of the module. Fusible
modules are bolted directly to the interior mounting rails.
I
B
F
I
The circuit breaker mounting module has provisions for
bolting various breaker ratings in place and barriers to
divert ionized gases away from line terminals of opposite
devices on the same module. Both types of connectormounting modules are UL listed and CUL certified.
7
Bus Bar
F = I (L x B)
where
F = Clamping Force
I = Current
L = Conductor Length
B= Electromagnetic Field
The spring-reinforced jaw clamps onto the interior bus and maintains
the electrical connection. At short circuit, a strong electro-magnetic
field develops around the jaw. The resulting force increases the jaw
pressure on the bus and maintains a secure connection. The design
creates current paths and generates clamping forces as shown in
the illustration.
Spectra Series® Switchboards
Section 2 – Features and Characteristics
Features
The main and utility CT compartments are designed to
offer maximum flexibility. Individually-mounted main is
available with Power Break II insulated case circuit
breakers, 800A-4000A; high pressure contact switches,
800A-4000A; fusible switches, 400A-1200A; WavePro
low voltage power circuit breakers, 800A-5000A; molded
case circuit breakers, including microEntelliGuard,
400A-1200A; and bolted pressure switches. (800 - 4000A).
Standard utility current transformer compartments have barriers
rear, top and bottom. Door has concealed hinges, three-point
catch, with lockable and sealable handle. Optional side barriers are
available. Current transformer compartments to meet other utility
requirements are available.
A hinged door is standard on instrument and metering compartments.
Type HPC high pressure contact switches are available with
ITI ground fault relay.
PCU units are available, allowing for motor starter
applications up to 15hp. (plug-in only)
Power Breaker II circuit breakers with EntelliGuard TU and
Power+ trip units are available as mains, submains, and ties
in switchboards.
8
Spectra Series® Switchboards
Section 3 – Terminology
Spectra Series Terminology
30 cycle withstand is the capability of the insulating
and spacing materials to withstand fault currents up to
30 cycles or half of a second.
Accessible means not permanently closed in by the
switchboard section structure, and capable of being
inspected and maintained through access plates or doors
without disturbing the switchboard section structure.
Ambient Temperature is the temperature of the surrounding medium that comes in contact with a fuse,
breaker or conducting bus within a switchboard
defined by UL 891 as 40°C for switchboard.
Ampacity is the amount of current in amps a conductor
can carry continuously under the conditions of use
without exceeding its temperature rating.
AMP Rating is the amount of current a fuse will carry
continuously without deterioration, or a circuit breaker
without tripping and without exceeding temperature
rise limits specified for a particular fuse or circuit
breaker by NEC requirements and UL standards.
Amp Setting, adjustable varies the continuous currentcarrying ability of a breaker through a predetermined
range.
Arcing Fault is a high-impedance connection caused
by current flowing through air between two live
conductors.
Bolt-on is a type of panelboard or switchboard interior
where overcurrent devices require hardware to be fixed
to the panel.
Branch Circuit is the circuit conductor between the
final overcurrent device protection and the outlets or
point of use.
Bus Bar is a solid aluminum or copper alloy bar that
carries current to the branch or feeder devices in a power
panelboard or switchboard. There is at least one bus
bar for each phase of the incoming electrical service.
Bus Stub is a prefabrication provision manufactured in
the switchboard for connection of incoming service or
load busway.
Class I-Group mounted main and feeders.
Class II-Individually mounted main and group mounted
feeders.
Class III-Individually mounted main and feeders with
compartmentalization (not available in Spectra
Switchboard.)
Class V-Individually mounted mains and feeders without
compartmentalization.
Compartment is an area within a section that is so
constructed as to isolate devices in that compartment
from the surrounding area except for openings used
for interconnections, control or ventilation.
Arcing Time, in a fuse, is the amount of time that
elapses between the melting of the current-responsive
element, such as a link, to the final circuit interruption.
Arcing time is dependent upon such factors as circuit
voltage and impedance.
Compression Lug, also called a crimp lug, is a lug that
is crimped to hold cable.
Available Short-Circuit Current is the maximum rms
(root-mean-square) symmetrical current at a given point
in a power system, operating with maximum generating
capacity and connected load, can deliver to any zero
impedance short circuit applied at that given point.
Current Density is rated current divided by the crosssection area of the conducting member (cable, bus bar,
etc.) expressed in amps per square inch.
Blank Space Only is specified when corresponding
vertical bus device mounting and connecting straps
are not furnished.
9
Continuous Load is when the maximum current is
expected to continue for three hours or more.
Current Sensors internally mounted current transformers
(CT) used by circuit breakers to measure current.
Produce lower secondary current than traditional CTs,
Dead Front construction is where energized parts are
not exposed to a person on the operating side of the
equipment.
Spectra Series® Switchboards
Section 3 – Terminology
Distribution Switchboard is any switchboard which is
not UL listed for service entrance or classified as a
main switchboard.
Double-Branch is mounting that has two fusible switch
units or circuit breakers installed side by side.
Draw-Out Mounted device can be removed from the
stationary portion of a switchboard without unbolting
connections or mounting supports. Draw-out mounting
is available in Power Break II and WavePro devices only.
Electrically Operated refers to an electrically operated
mechanism to remotely open and close a circuit
breaker and charge the spring. Typically used in
automatic throwover schemes and automatic control
schemes.
Electrical Service or System is the conductors and
equipment which delivers energy from the electrical
supply system to the wiring system of the premises
served. The service or system consists of the number
of phases, number of wires, voltages and amps. Type
of service determines the number of poles on the main
device, the number of poles valid for feeder or branch
devices and the minimum voltages for 1-, 2-, or 3-pole
breakers and fusible switches.
Fire Pump Disconnect serves only the code required
fire pump. It must be connected ahead of any main
device and sized to carry the locked rotor current of
the fire pump per NFPA-20. It also must be located in
an enclosure separate from other service disconnects.
Frame Size is the physical size of the breaker with a
specific range of amp ratings. For example, an F Frame
breaker is available in ratings of 70 amps to 250 amps
in a 225 amp frame.
SPECTRA MAIN
SECTION ARRANGEMENT
Customer
Meter
Ground
Fault
Monitor
Panel
SE
UL
E
P
M
MP
Main
Utility
Compartment
When
Required
5
2.5
(Typ.)
3.12 (Typ.)
Conduit Space
(Typical all
Selections)
.625 Dia.
(Typ.)
Mounting Holes
Enclosure is a constructed case to protect personnel
against contact with the enclosed equipment and to
protect the enclosed equipment against environmental
conditions.
Front Accessible is a UL classification requiring that all
bus and device connections are accessible from the
front.
Equipment Grounding is the interconnection and
grounding of electrical conduction material that either
encloses or is adjacent to power conducting components.
Front Only Connected is a UL classification requiring
that all line & load connections can be made from the
front of the switchboard.
Expansion Kit is an assembled kit that can be installed
in an empty side of a double-branch fusible switch unit
to create a new fusible switch unit It includes the handle,
base plate, cover plate, load base and switch.
Front/Rear Access is configured where rear access is
required for some or all of the line and load connections.
Feeder Circuit is all circuit conductors between the
service equipment or the source of a separately derived
system and the final branch-circuit overcurrent device.
Filler Mounts on side of fusible switch module, circuit
breaker module, or between side trims to cover the
front of the enclosure. The fillers plus trim comprise the
enclosure front around the installed devices.
Front and Rear Line-Up occurs when all sections in a
switchboard lineup are the same depth and front and
rear surfaces are aligned.
Full Height Bus refers to the maximum vertical bus
length available for the group mounted panel section.
Fully Rated Bus refers to having the same ampacity
for the horizontal bus across the whole line-up.
10
Spectra Series® Switchboards
Section 3 – Terminology
Fuseholder or Fuse Block is an assembly of fuse clips
and insulation for mounting and connecting a fuse into
the circuit.
Interrupting Rating is the highest rms-rated current a
fuse or breaker is intended to interrupt under specified
conditions.
Fusible Switch is a device that can switch off current flow
and to which a fuse(s) is added to protect conductors.
Jaw refers to the metal parts that grip the interior bus
bar and conduct electricity to the module bus bars. The
jaws are spring-reinforced to provide a highly reliable
electrical connection.
Ground Bus is horizontal bus which is electrically continuous with the switchboard housing for termination
of circuit ground conductor.
Ground Fault is a fault condition created when an
energized conductor comes in contact with earth
ground or metallic structure, or causes an arc current
to flow to ground.
Group (Panel)-Mounted device is one of a closely
grouped assembly of devices which is mounted on a
common base or mounting surface utilizing panelboard
type construction. The total assembly is then mounted
in a switchboard combination or distribution section.
Handle Lock Device is a mechanism to insert a lock to
prevent operation of a circuit protective device. Most
commonly used to lock device in the open or off
position for safety while performing maintenance.
Heat Rise is the maximum temperature a component
in a switchboard can increase in temperature over a
defined amount 65°C per UL 891.
I2t is the measure of heat energy developed within a
circuit, in which I2 stands for effective let-through
current squared and t is time in seconds.
Individually Mounted means device which is not
panel-mounted and which may or may not be enclosed
in its own compartment. Separated from other devices
to minimize undesired influence from them. (i.e. GE
Class 3 and PowerBreak Switchboard). Power Break II,
HPC, WavePro and BPS devices are individually mounted
in Spectra.
Interior refers to the side rails, bus bars and insulation
system that mounts in the enclosure. It is energized
through the main device (lugs, fusible switch or circuit
breaker) and, in turn, energizes the installed circuitprotective devices (fusible switch or circuit breaker).
11
Key Interlock, commonly called Kirk-keys, provides a
mechanical method to interlock two or more devices
utilizing a removable key which can only be inserted in
one location at one time.
Line refers to the incoming (live) side of equipment or
device.
Load is the outgoing (switched) side of equipment or
device.
Lug is a device to terminate cables.
Magnetic Trip is synonymous with instantaneous trip
and describes a tripping action with no intentional time
delay. Current exceeding the magnetic trip level will
actuate the trip mechanism and open the breaker
contacts immediately.
Main Device is a single device that disconnects all
ungrounded switchboard conductors, other than control
power conductors when used, from the supply bus.
Main Lug is the connecting means between the
incoming service cable and the bus bar.
Mechanical Lug is a terminal with one or more wire
binding screws that are tightened to hold the conductor
or cable.
Mimic Bus functionally displays internal buswork by
applying tape or plastic strip on equipment exterior.
NEMA Type 1 Enclosure - General Purpose Indoor is
intended primarily to prevent accidental contact of
personnel with the enclosed equipment. The enclosure
is intended for use indoors where it isn't exposed to
unusual service conditions, dripping or splashing water,
steam or conductive dusts (NEMA PB2-5.02).
Spectra Series® Switchboards
Section 3 – Terminology
NEMA 3R Outdoor Enclosures are intended for use in
wet locations or outdoors to protect the enclosed
equipment against rain. They are sleet (ice) resistant
but are not dust, snow or sleet (ice) proof. If conduit
connections are provided, these enclosures shall have
a conduit hub or equivalent provision for watertight
connections at the conduit entrance when the conduit
enters at a level higher than the lowest live part. They
have provisions for drainage.
Overcurrent is any current in excess of the rated current
of equipment or the ampacity of a conductor that can
result from an overload, a short circuit or a ground fault.
Phase Failure Relay senses a loss of voltage in any of
the three phases of a power system. It is used to alarm
or trip an overcurrent device.
Plug-in is a type of panelboard and disconnect with
capability to be connected without requiring hardware
to be fixed to the panel.
Plug-in Mounted device for line and load is one that can
be plugged in to make electrical connections to a line
and load bus bar. The device need not be self-supporting
when withdrawn. It may be removed when switchboard
is energized.
Pole is the number of output terminals on a fusible
switch or breaker that must be insulated and separated
from each other.
Power Panelboard is any panelboard that is not a
lighting or appliance panelboard as specified by UL
and NEC and is not limited as to the number and rating
of branch circuits, except for available spacing and
physical size. The dead-front panelboard is accessible
from the front only.
Quick-make, Quick-break refers to the action of mechanism, where the speed of the contacts in opening and
closing a breaker or fusible switch is not controlled by
the operator.
Rear-Only Connected switchboards have all incoming
and outgoing cable or bus connections accessible from
the rear. Other connections may be front accessible.
Rear Line-Up Sections in a switchboard line-up are
different depths and rear surfaces are aligned.
Rejection Fuse and Clip is a combination of fuses and
clips that will not accept fuses of lower ratings and
types. Can be used for Class R and other fuse types.
Reverse Feed. The following devices have been tested
and are listed for reverse feeding: Fixed trip molded case
circuit breakers, MET, and Spectra Circuit Breakers.
Reverse feed devices may have incoming (line) bottom
and load top. They simplify bottom feed connections
and minimize switchboard depth. High pressure contact
switches (HPC) can be specified as bottom-fed devices.
Power Break II circuit breakers with EntelliGuard TU
and Power+ programmers can be reverse-fed without
special ordering.
Rotor is a mechanism in a fusible switch unit that
mechanically ensures all switch blades open/close
simultaneously.
Selective Tripping is the application of circuit breakers
or fuses in series, so that, of the breakers or fuses
carrying fault current, only the one nearest the fault
opens and isolates the faulted circuit from the system.
Series-Connected Rated Panel means the UL Listed
short-circuit rating of the panel is equal to the IC rating
of the main protective device when properly applied
with branch circuit protective device. See section 6.2
for further details.
Service Disconnect is a device or group of devices that
disconnects all ungrounded load conductors from the
service (supply) conductors. The number of service
disconnects is limited to 6 per the NEC.
Service Entrance Equipment usually consists of circuit
breakers or switches and fuses and their accessories. It
is located near the point of entrance of supply conductors to a building and is intended to constitute the main
control and means of cutoff for the supply to the building.
Service entrance equipment have a removable link
between the neutral bus and ground bus. The main
device must also be barriered from feeder devices.
Shunt Trip opens a circuit protection device by remote
control.
Single-Branch is A mounting module with a single
device mounted in a designated vertical space. Refers
to breakers or fused units.
12
Spectra Series® Switchboards
Section 3 – Terminology
Space and Busing for future when space and busing is
only required for future inclusion of any specified
devices, appropriate device supports, proper bus connections and corresponding vertical bus are furnished.
Split Bus refers to a division in carrying current bars of
the panel interior, of 1 1/4", to isolate line or load of the
panel board. Split bus arrangements allow arc fault
breakers to isolate a section of the panel bus.
Standard (80%) and 100% Ratings Circuit breakers or
fusible switches are to be applied at 80% of their ratings
unless the overcurrent devices and the assemblies in
which they are mounted are listed for operation at 100%
of their ratings (NEC Articles 210-22(c), 220-3(a), 22010(b), 384-16(c). Refer to listings for available 100%
rated devices.
Stationary-Mounted device can be removed only by
unbolting electrical connections and mounting supports.
Should only be removed when switchboard is deenergized.
Sub-main is a disconnect provided for the connection
of a wire or a cable to a bus bar fed by an over current
protective device in the panelboard.
Switchboard, per the NEC, is a large single panel, frame
or assembly of panels on which are mounted (on the
face, back or both) switches, overcurrent and other
protective devices, buses and usually instruments.
Switchboards are generally accessible from the rear as
well as from the front and are not intended to be
installed in cabinets.
Tapered Bus on UL 891 is the downsizing of the
Busway ampacity based diversity standards.
Thermal Trip protects against sustained overloads. A
bimetallic element reacts time-wise in inverse proportion
to the current. If a circuit is overloaded, heat from
excessive current flow causes the bimetal to bend,
actuating the trip mechanism to open the breaker.
Time Delay is a term used by NEMA, ANSI and UL to
denote a minimum opening time of 10 seconds on an
overload current five times the amp rating of a circuit
breaker or Class H, K, J and R fuses. Time delay is useful
to let through momentary current inrushes, such as in
motor startups, without interrupting the circuit.
13
Trip Function is that portion of the breaker that senses
fault conditions, controls the associated logic functions
and initiates and powers the breaker trip device.
Trip Mechanisms are independent of manual control
handles. The breaker will trip when a fault occurs, even
if the handle is held in the "ON" position.
Under Voltage release instantaneously trips the breaker
when voltage (control or line) drops to 30%-70% of
nominal rating.
Voltage is electrical pressure that moves electrons
through a conductor and is measured in volts.
Voltage Rating is the rms alternating current voltage at
which a fuse or circuit breaker is designed to operate.
X Value is an arbitrary vertical measurement of the
usable mounting space on a panelboard for a fusible
switch or breaker. X is equal to 1 3/8 inches (1.375").
Height of the interior is the sum of the horizontally
mounted, panel-mounted components.
Spectra Series® Switchboards
Section 5 – Application Data
5.1 Standards/Codes/Ratings/Conditions
System Selectivity and Protection
The design of a protective system involves two separate
but interrelated steps:
1. Selection of the proper device.
2. Selection of the setting for the devices to achieve the
degree of protection and selectivity desired.
P1
A protective device is selective with another protective
device if the downstream device operates first when
both see the same fault current.
P2
P1
By the proper selection and setting of protective devices,
the system designer can achieve a time current coordination (selectivity) among these devices that provides
the maximum circuit and equipment protection consistent with the service continuity requirements. Protective
device coordination is generally a compromise between
maximum protection and maximum service continuity.
To maintain maximum service continuity, only the
devices supplying the defective element should open.
This may require time delay of upstream devices.
However, this prevents maximum protection that
requires the upstream protective device to open
instantaneously for a fault anywhere in the system. A
coordination study should be performed to determine
the degree of selectivity that may be achieved.
Device Selection
All protective devices should be applied within their
ratings - voltage, frequency, current and short circuit under usual switchboard service conditions. Additional
device selection considerations may be required if the
equipment is part of a system with required selectivity
per the NEC. Device selections need to be made
carefully to properly fulfill selectivity requirements.
Size and Number of Services
The use of services rated 2000 amperes or less is
strongly recommended for better protection, service
continuity and lower cost. Smaller transformers permit
lower rated protective devices, which provide better
protection and service continuity. The National Electrical
Code recognized this in Section 230.2(c), which permits
two or more services when the capacity requirements
are in excess of 2000 amperes at 600 volts or less.
Fault
P1 is Selective with P2
If P2 Opens First for a Fault at F1, P1
Provide Timed Backup Protection for P2
P2
P1
Time
Current
Service Entrance Equipment
The National Electric Code has specific rules for the
equipment that controls and protects the service or
supply of electricity to a building.
The general rule is that a building is to be supplied by
only one service. Exceptions include fire pumps, multiple
occupancy buildings, high capacity and large areas
(NEC 230.2(a). The single service shall consist of not
more than six switches or circuit breakers (NEC 230.71).
32
Spectra Series® Switchboards
Section 5 – Application Data
The service disconnecting means shall be located
either inside or or outside of a building at a readily
accessible location nearest the point of entrance of the
service conductors (NEC 230.70).
Switchboards used as service equipment shall be
marked "suitable for use as service equipment" and
shall provide:
1. A bonding jumper to bond the enclosure and ground
bus to the neutral (NEC250.24(a)).
2. A neutral disconnect link to disconnect neutral from
premises wiring (NEC 230.75).
3. A barrier to isolate service bus bars and terminals
from rest of switchboard.
Ground fault protection shall be provided for solidly
grounded wye services with more than 150 volts to
ground but not exceeding 600 volts phase-to-phase
for each service disconnecting means rated 1000
amperes or more (NEC 230.95).
Switchboard Enclosure
The standard switchboard enclosure is a NEMA Type 1
general purpose indoor enclosure. It is intended primarily to prevent accidental contact of personnel with live
parts and to provide protection against dirt and foreign
objects. NEMA 1 enclosures should be used indoors in
dry locations.
Devices may require ventilation for operation at rated
current. The standard switchboard enclosure should
not be used in environments where ventilation is not
acceptable.
Outdoor enclosures are available and should be used
outdoors to protect the equipment against rain, and
indoors where water may intrude, such as beneath fire
sprinklers.
Switchboard Ratings
Switchboards are designed, tested and rated to
Underwriters Standard 891 for dead-front switchboards
and NEMA Standard PB2 for dead-front distribution
switchboards.
System
No. of phases No. of wires
3
4
3
3
1
1
4①
3
3
2
Voltage Rating
AC
DC
600/347②, 480Y/277,
208Y/120
240/120
600, 480, 240, 120
240/120
125/250
120, 240, 277
125/250
① Delta with neutral at center of one leg
② Canadian
Current
The continuous current ratings of switchboards are
400, 600, 800, 1000, 1200, 1600, 2000, 2500, 3000 and
5000 amperes.
Switchboard bus bars are rated on a current density
basis -750A per square inch for aluminum and 1000A
per square inch for copper or heat rated. (Tested per
standard).
Frequency
AC switchboards are rated 60 Hertz and may be
applied on 50 Hertz services without derating. For
other ratings, refer to factory.
Insulation Level
Switchboards have an insulation level rating at twice
the rated voltage plus 1000 volts. The dielectric test for
this rating consists of applying a 60 hertz voltage for 1
minute phase-to-phase and phase-to ground with
switching devices closed.
Working Space
The National Electrical Code (Article 110.26) requires
that sufficient access and working space shall be
provided and maintained about electrical equipment to
permit ready and safe operation and maintenance of
such equipment.
The minimum working space required by the National
Electric Code for switchboards 150 volts-to-ground is
three (3) feet. For voltages over 150 volts-to-ground,
three feet is required from the enclosure to insulated
surfaces, three and one-half (3-1/2) feet to grounded
surfaces, including concrete, and four (4) feet to
exposed live parts. Working space is required from all
accessible surfaces (front, rear, sides).
Working space is not required in back of switchboards
(Class 1, Class 2) when all connections are accessible
from locations other than the back.
33
Spectra Series® Switchboards
Section 5 – Application Data
Access and Entrance to Working Space
At least one entrance of sufficient area shall be provided
to give access to the working space about switchboards.
For switchboards rating 1200A or more and over six
feet wide, there shall be one entrance not less than
twenty-four (24) inches wide and six and one-half
(6-1/2) feet high at each end (NEC 110-26(c)).
Exceptions to this are:
1. Where the equipment location permits a continuous
and unobstructed way of exit travel.
2. Where work space is double the amount required.
Phase Arrangement
The phase arrangement on three-phases buses is A, B,
C, from top to bottom, front to back, or left to right as
viewed from the front of the switchboard. On threephase, four-wire delta-connected systems, the B-phase
shall have the higher voltage to ground and is marked
"Hi-Leg."
Protective Device Continuous Current Ratings
The continuous load supplied by a protective device
shall not exceed 80% of the device rating unless the
switchboard, including the protective device, is UL listed
for continuous operation at 100% of its rating. The
non-continuous load may be 100% of the device rating.
A continuous load is one that continues for three hours
or more.
Standard group mounted MCCBs are 80% rated. 100%
ratings are available with the Spectra G up to 400A
and K up to 1200A.
All individually-mounted molded case circuit breakers
are standard (80%) rated only.
Fusible switches 30-1200A group-mounted or individually-mounted are standard (80%) rated only.
Insulated case circuit breakers (Power Break II) can be
80% or 100% rated.
High pressure contact and bolted pressure switches
are 100% rated in switchboards.
Switchboard Short-Circuit Ratings
Switchboards shall be applied on a system having an
available short-circuit current not greater than the
short circuit rating of the switchboard. All switchboards
are marked with a short circuit rating. The switchboard
will be fully rated or series connected rated. When fully
rated, the short circuit rating of the switchboard is that
of the lowest rated device in the switchboard. Series
connected ratings are based on short circuit ratings
given to two or more devices connected in series.
In either case, the bus bar bracing must be equal to or
exceed the short circuit rating of the switchboard. Bus
bar bracings available are 65,000, 100,000, 150,000
and 200,000 rms symmetrical amperes; 65,000 is the
standard bracing.
Short-Circuit Rating Tests
Switchboard buses are tested and assigned short-circuit
ratings in according with UL Standard No. 891 and
NEMA Standard No. PB-2. The test current duration is
three cycles and the test circuit power factor is 20%.
Devices are tested and rated in accordance with the
applicable standards.
If the switchboard, including devices, is applied in a circuit with a power factor less than it is tested at, derating
may be required. Refer to applicable standards or the
factory.
Unless otherwise noted, all GE switchboards meet the
latest revision of the following standards:
• UL 50
Cabinets and Boxes, Electrical
• UL 67
Panelboards
• UL 98
Enclosed and Dead Front Switches
• UL 489
Circuit Breakers, Molded Case and
Circuit Breaker Enclosures
• UL 512
Fuseholders
• UL 891
Dead Front Switchboards
• UL 969
Marking and Labeling
• Article 384 National Electrical Code
• NEMA PB1 Panelboards; NEMA KS1, Switches
• NEMA PB2 Switchboards
• CSA
Certified as Distribution Switchboards
• Federal Specifications Panelboards W-P-115a
Molded Case Circuit Breakers, WC-357B/GEN Fusible
Switches, W-S-865C
Note: Only switchboards containing all UL listed/
recognized devices can be UL labeled.
In addition to meeting or exceeding all applicable standards shown above, Spectra Series switchboards meet
34
Spectra Series® Switchboards
Section 5 – Application Data
GE's more stringent internal requirements, offering a
greater margin or performance and safety.
The following classifications and limitations of switchboard
distribution sections have been established by Underwriters
Laboratories and the National Electrical Code.
Note: An overcurrent protective device is a circuit breaker
pole or single fuse.
Device
UL
Molded Case Circuit
Breakers
Power Break II Circuit
Breakers
Low Voltage Power
Circuit Breakers
High Pressure
Contact Switches
Bolted Pressure
Switches
Fusible Switches
Fuses
Standard
Test Circuit
ANSI NEMA Power Factor (%)
489
AB-1
20
489
AB-1
20
1066
C37.50
20
977
KS-2
20
977
KS-2
20
98
198 E.B
FU-1
20
20
Service Entrance Equipment
• Must be located near the point of entrance of building
supply conductors.
• Switchboard distribution sections may have up to six
operating handles to entirely disconnect switchboards
from the source.
• Must include connector for bonding and grounding
neutral conductor.
• A service entrance-type UL label must be factory
installed and will be provided on the equipment
(when specified).
Service Conditions
1. Switchboards are rated for use in a 40°C room
ambient per UL891. For higher ambients, the current
rating of the equipment should be derated by
multiplying factors in the following Table.
Room
Ambient °C
25–40
50
Switchboard Current
Derating Factor
1.00
.78
2. Switchboards can be applied for use in altitudes up
to 6600 feet (2000 meters). Above 6600 feet, the
derating factors in Table on following page apply.
3. Ambient temperature rating of installed protective
devices should not be exceeded without derating. The
ambient temperature ratings of the most frequently
used devices are listed in Table on following page.
This temperature is around the device inside the
switchboard enclosure. Refer to the applicable
device standard for derating factors.
4. The National Electrical Code specifies ampacity of
conductors for various temperatures. Standard ratings
are based on 30°C (86°F) ambient. Higher ambient
temperatures will require derating as shown in NEC
Table 310-16. Maximum operating temperature of
conductor insulation must not exceed that shown in
NEC Table 310-16.
5. All device lugs and equipment lug assemblies are UL
listed and rated for use with conductors whose
ampacity is based on the ampere rating of 75°C
(167°F) conductors, which is in compliance with NEC
11.14. Higher temperature ratings may be used and
in some cases should be used, but it must be
applied at it's 75°C ampacity. Lugs rated for 90°C
(stamped AL9CU). However, cables terminating in
our equipment can only be sized to 75°C.
6. Switchboards will resist seismic forces of 0.6G in any
direction when installed with structurally certified
fasteners in accordance with the installation
instructions.
7. For unusual service conditions, such as corrosive
atmosphere, vibration or unique equipment
arrangements, refer to factory.
Altitude
Feet
Meters
6600
2000
8500
2600
13000 3900
Temperature Voltage
Derating
Derating
1.00
.99
.96
1.00
.95
.80
Short circuit ratings are not affected by altitude.
Device Ambient Temperature Rating
Molded Case and Insulated Case Circuit Breakers
ADS Fusible Switches
Low Voltage Power Circuit Breakers
High Pressure Contact and Bolted Pressure Switches
40°C
40°C
55°C
40°C
For seismic compliance certification, see the Appendix.
35
Spectra Series® Switchboards
Section 5 – Application Data
5.2 Protective Device Ratings
Series Connected Ratings
UL permits assigning a short circuit rating to a combination of molded case circuit breakers or fuses and
molded case circuit breakers connected in series that
is higher than the lowest rating protective device of the
combination. This is defined as series connected ratings.
The combination rating cannot exceed the rating of
the protective device farthest upstream, although it will
exceed the rating of the downstream protector.
The upstream protector can be a molded case breaker
or fuse. Device combinations are not limited to those in
the same equipment. They can be in different equipment,
such as a switchboard feeder or a panelboard main
versus panelboard branches. Any distance between
devices in different equipment is permitted. Total fault
current magnitude must flow through both protectors.
Thus, fault current contribution from motors, as well as
power source fault current, must flow through
upstream and downstream protectors.
Molded case circuit breakers may be applied as fully
rated or series connected.
In a fully rated system, (figure adjacent), the short circuit
rating of all protective devices is equal to, or exceeds,
the circuit short circuit requirement and, if mounted in
equipment, the bus short circuit withstand rating and
equipment short circuit rating exceeds the circuit
available.
In a series connected system, (figure adjacent), the
short circuit rating of the upstream protector is fully
rated but the downstream protector is not fully rated.
UL permits assigning a short circuit rating to a combination of protective devices that is higher than the
lowest rating of the downstream device. This rating of
two devices in series is defined as a series rating.
Series ratings can exist for a combination of molded
case circuit breakers, or a combination of fuses and
molded case circuit breakers. The rating of the combination cannot exceed the rating of the upstream
device in the combination, but can exceed that of the
downstream device.
The upstream protector can be a molded case breaker
or fuse. Device combinations are not limited to those in
the same equipment; They can be in different equipment, such as a switchboard feeder and a panelboard
main, or a switchboard feeder and panelboard branches in a main lug panelboard. Any distance between
devices is permitted. To be a valid series rating application, total fault current magnitude must flow through
both protectors. Thus, fault current contribution from
motors, as well as power source fault current, must
flow through upstream and downstream protectors.
Molded case circuit breakers may be applied as fully
rated or series rated. In a fully rated system (figure
adjacent), the short circuit rating of all protective
devices is equal to or exceeds the circuit short circuit
requirement. If mounted in equipment, the bus short
circuit withstand rating and equipment short circuit
rating must also exceed the circuit available current.
In a series connected system (figure adjacent), the
short circuit rating of the upstream protector is “full”
(meets or exceeds the available current in the system),
but the downstream protector is not fully rated (is
rated less than the system available).
In series or fully rated combinations, both protectors
may open on short circuits. Conversely, in selectively
coordinated systems, only the device closest to the
overcurrent of fault is permitted to open. In these systems, both devices must be fully rated, and the short
circuit level to which they are selective must be known.
Examples where selectivity is desirable (and often
required) include:
• Buildings with important loads such as: elevators,
emergency lighting, critical ventilation, etc.
• Manufacturing facilities where loss of power can
result in economic loss due to production downtime
or damage to equipment.
• Hospitals and medical facilities where life support is
critical.
Series Ratings are listed in publication DET-008.
Selectivity Ratings are listed in publication DET-537.
36
Spectra Series® Switchboards
Section 5 – Application Data
ISC = Available 50KA @ 480Y/277V
Service-Unlimited Available
1500KVA, 13800 – 480Y/277V
Z = 5.75%, IFLA = 1500 √3(.480) = 1806A
Switchboard Feeder
or Panelboard Main
1806
ISC Available = .0575
= 31,415A., X/R = 4.5
Panelboard
Branch
SSH 2000A
65KA
AV-Line Switchboard
FBN
100A
65KA
SGH
400A
35KA
ISC = 32,860
X/R - 4.5
SGH
400A
35KA
THED
Panelboard
480Y/277V
400A
37
TEY
100A
14KA
ISC = Available 50KA @ 480Y/277V
Switchboard Feeder
or Panelboard Main
ISC = 30,000 31,445A
X/R = 3.6
ISC = 1445
1SC = 361/.25
= 1445A
Series Rating Combination
65KA @ 480Y/277V
______________________________________________
Bus IC = 50KA
31,415
1445A
SGH
400A
35KA
SGL
400A
65KA
Motor Control Center
Total Connected
Motor Load = 300P
1FLA = 300 √3(.480) = 361A
1SC = 361/.25 = 1445A
X/R = 4.0
50
HP
40
HP
SGL
400A
65KA
TEY
100A
14KA
Series Rating Combination
Not Applicable Since
Total I SC Does Not Flow
Thru Both Protectors
That is SGL (Source Only) and
TEY (Source & Motor Contribution)
Spectra Series® Switchboards
Section 5 – Application Data
5.3 Power Break® II Circuit Breaker
Basic Configuration
The insulated case circuit breaker - GE pioneered the
design and created the name. Power Break® II insulated
case circuit breakers offer reliable, flexible and easyto-use circuit protection.
Power Break II circuit breakers are UL Listed, CSA
Certified and IEC Certified for up to 200,000 amps at
240 volts rms symmetrical interrupting capacity without
fuses or current limiters. These insulated case circuit
breakers can be applied on ac power systems through
600 volts. Featuring a 2000A compact design up to 40%
smaller than its predecessors, Power Break II circuit breakers consist of three envelope sizes from 800 to 4000 amps.
Greater Convenience and Operational Safety.
The controls and status indicators you need most are
readily accessible. The flush-mounted handle, ON/OFF
buttons, rating plug test receptacles, bell alarm reset
buttons (with or without lockout) are easily reached, and
all are double-insulated from live components. For added
security, a standard padlock device lets you prevent
accidental or unauthorized closing of the breaker.
Quick, Error-Free Installation of Universal
Accessories
Drop-in bell alarm, bell alarm with manual lockout,
shunt trip (with or without lockout) and undervoltage
release install in seconds. No special tools. No breaker
disassembly. Just slide them into place. The modules
are universal across all frame sizes, and each is
mechanically keyed to its compartment so you make
the right connection, every time. These accessories are
field installable and upgradeable.
Advanced, Solid-State Trip Units
EntelliGuard TU trip units give you new ways to monitor and control the Power Break II breaker with
unprecedented ease. A simple keypad lets you program
and display a variety of functions, including tripping
characteristics, remote communications, status information and protective relaying. The trip unit display also
allows viewing of many standard metering parameters as
well as pickup alarms, trip target indications and fault
status information. For less demanding functionality,
the Power+ trip unit gives you a second choice in
Power Break II breaker control. Tripping characteristics
are easily adjusted by a set of simple-to-use switches.
The trip unit is upgradable to ground fault by simply
inserting a ground fault rating plug. An optional target
module allows for fault indication monitoring and also
functions as a trip unit health indicator.
Rating Plugs
The same interchangeable rating plugs are used in all
of the EntelliGuard TU trip units across the entire Power
Break II breaker product line. Rating plugs are the key
devices that establish the current rating of the breaker.
They provide an essential scaling function for the unit's
microprocessor and ensure maximum accuracy.
Rating plugs have rejection features that allow them to
be inserted only with breakers containing the correct
current sensors. Rating plugs for the EntelliGuard TU
trip units are compatible with Power Break and AKR
breakers with EntelliGuard TU trip units. See Table below.
Rating Plug and Current Sensor Ratings
Frame
Sensor
Rating
Envelope Max.
Rating Plug Amps (X)
Rating
(Amps)
Size
(Amps)
(S)
200
100, 150, 200
800
400
100, 150, 200, 225, 250, 300, 400
300, 350, 400, 450, 500, 600, 700,
800, 1600 800
750, 800
2000
1000 400, 450, 500, 600, 700, 750, 800
1600
600, 700, 750, 800, 900, 1000, 1100,
1600
1200, 1250, 1500, 1600
750, 800, 900, 1000, 1100, 1200,
2000
2000
1250, 1500, 1600, 1900, 2000
1000 400, 450, 500, 600, 700, 750, 800
750, 800, 900, 1000, 1100, 1200,
2000
2500
1250, 1500, 1600, 1900, 2000
3000
1000, 1100, 1200, 1250, 1500, 1600,
2500
1900, 2000, 2200, 2400, 2500
1200, 1250, 1500, 1600, 1900, 2000,
3000
3000
2200, 2400, 2500, 3000
1500, 1600, 1900, 2000, 2200, 2400,
4000
4000
4000
2500, 3000, 3600, 3400, 4000
Current Sensors
Toroidally wound current sensors are furnished for all
major protective functions, and for use with all Power
Break II trip units. Toroidal sensors, including a second
air-core winding, are provided with the high-range
instantaneous function. Current sensors are factory
installed and are not changeable in the field. There are
11 current ratings for the Power Break II breaker line
through 4000 amps. See table above for current ratings.
Rating plugs must be coordinated with the current
sensor rating (S) listed on the face of the rating plug.
38
Spectra Series® Switchboards
Section 5 – Application Data
Accessory Configuration
Activation of the bell alarm - alarm only and bell alarm
with lockout are controlled by switch settings on the
rear of the trip unit. To change the conditions that activate these accessories, configure the trip unit switch
settings as described below.
Accessory Switch Settings
Factory
Switch
Function
Setting
1
Disable Shunt trip activates bell alarm - alarm only
2
Disable UVR trip activates bell alarm - alarm only
3
Enable Protection trip activates bell alarm - alarm only
4
Disable Shunt trip activates bell alarm/lockout
5
Disable UVR trip activates bell alarm/lockout
6
Enable Protection trip activates bell alarm/lockout
Power+™ Trip Unit Characteristics
Frame
Envelope
Sensor Rating
Max. Amp
Size
(Amps) (S)
Rating
2000
3000
4000
800
1600
2000
2500
3000
4000
Long-Time
Short-Time
Current Setting (C) (Pick-Up)
Delay① (Seconds Pick-Up (Multiple of Delay (Seconds
Multiple of Rating Plug Amps (X) 4 Bands)
Current Setting) (C) 3 Bands)
200, 400, 800
800, 1000, 1600
2000
0.5, 0.6, 0.7, 0.8, 0.9, 0.95, 1.0
1000, 2000,
2500, 3000
4000
2.4, 4.9, 9.8, 20
I2t in①
1.5, 2.0, 2.5, 3.0, 4.0, .10, .21, .35
5.0, 7.0, 9.0
I2t out➁
.10, .21, .35
Trip Unit Characteristics (continued)
Adjustable
Adjustable
Ground Fault
Instantaneous
Instantaneous
Envelope
Pick-Up (Multiple
Pick-Up without ST Pick-Up with ST
Delay➂
Size
of
Sensor Amp
(Multiple of Rating (Multiple of Rating
(Seconds 3Bands)
Rating)
Plug Amps) (X)
Plug Amps) (X)
2000
1.5 thru 10.0
3000
4000
1.5 thru 9.0
1.5 thru 15.0
0.20 thru 0.60
1.5 thru 13.0
0.20 thru 0.37
1.5 thru 9.0
0.20 thru 0.30
I2t in➃
.10, .21, .35
I2t out➁
.10, .21, .35
① Time delay shown at 600% of current setting at lower limit of band.
➁ Time delay shown at lower limit of each band. All pick-up tolerances are ±10%.
➂ Time delay shown at lower limit of each band. Ground fault pick-up not to exceed 1200 amps.
➃ Time delay shown at 200% of pick-up at lower limit of band.
X = Rating plug amps
S = Sensor amp rating
C = Long-time current setting (pick up)
For complete information on Power Break II circuit breakers, refer to publication GET-8052.
39
Spectra Series® Switchboards
Section 5 – Application Data
GE HPC Switch Interrupting Ratings
Available Ratings Contact
Interrupting
Rating Based on
Type Continuous Maximum Ability to Operate
Amperes ac Volts on Overload
Unassisted by
the Fuse
800, 1200,
"Open" 1600, 2000,
12X amp rating;
HPC/R
600
2500, 3000,
"Close-Open" 4000
12X amp rating
Switch-fuse
Combination
at Switch-rated
ac Volts with
Class L Fuse
200,000
For further information on HPC switches, see GET-6205
or contact your local GE Account Manager.
5.6 Molded Case Circuit Breakers
Features
Spectra® RMS Molded Case Circuit Breakers
SE150, SF250, SG600, and SK1200 circuit breaker frames
have a digital, solid-state, rms sensing trip system with
field installable, front-mounted rating plugs to establish
or change the breaker ampere rating. Adjustable
instantaneous with tracking short-time is standard on
all frames including SE150. The trip system uses digital
sampling to determine the rms value of sinusoidal and
nonsinusoidal currents.
microEntelliGuard Trip Units
Spectra® SG600 and SK1200 breakers are now available
with microEntelliGuard™ trip units - the newest and most
advanced trip unit available in the Spectra® line of
molded case circuit breakers. Based on the EntelliGuard®
TU trip unit platform, the microEntelliGuard™ trip unit
has the same HMI interface and incorporates the
advanced features and protective functions for improved
system protection, coordination, selectivity, performance
and diagnostic capabilities. The microEntelliGuard™ trip
unit uses the same universal rating plugs and test kit
offered for the EntelliGuard® TU trip unit.
A complete circuit breaker consists of a UL listed circuit
breaker frame and a rating plug (UL listed interchangeable
trip unit). Terminal lugs for cable connection are available
if required.
• All frames use the same UL listed, field-installable
internal accessories (auxiliary switch, shunt trip,
undervoltage release and bell alarm).
• All frame sizes have maximum UL listed interrupting
ratings of 200 kA @ 240 Vac and 100 kA @ 480 Vac
with 600 Vac ratings to 65 kA depending on frame
size. UL listed current limiting versions are provided
through the SG600 frame for the 65 kA @ 480 Vac
and the 100 kA @ 480 Vac models, with no increase
in physical frame size.
• Spectra® RMS Mag-Break instantaneous-only motor
circuit protectors also use the same digital, solid-state
trip unit and rating plugs as the circuit breakers. The
interchangeable rating plug establishes the instantaneous pickup range (with tracking short-time) but
does not change the frame ampere rating.
• Spectra® RMS molded case switches have a fixed,
high-set instantaneous trip (without tracking short-time
function) and have short-circuit withstand ratings equal
to their equivalent breaker frame size interrupting
rating in most cases.
• Spectra® RMS breakers are ambient insensitive. Trip
times will not vary over the range 10-50°C breaker
ambient. Refer to GET-7002 for further application
information.
• Spectra® RMS breakers contain no parts that would
support fungus growth and are, therefore, inherently
fungusproof.
Record Plus® Molded Case Circuit Breakers
Record Plus® represents the very latest in molded case
circuit breaker design. Utilizing design features such as
double-break rotary contact structures and advanced
ablative materials to enhance interruption, Record Plus®
is capable of interrupting ratings up to 200kA. High
kAIC ratings, selective coordination, reduced arc flash
energy, and current limitation embody the core design
principles of Record Plus®.
FC 100 and FB 100 circuit breakers are supplied with
factory installed non-user interchangeable thermalmagnetic trip units and can be supplied with or without
lugs. FB breakers are available in 1-, 2- and 3-pole
versions. FC is available in 2- and 3-pole versions, both
in a 3-pole footprint.
FE250 and FG600 circuit breakers are supplied equipped
with factory installed non-user interchangeable electronic trip units that feature the use of front accessible,
user installed rating plugs to establish or change the
breaker’s amp rating. Rating plugs are user specified
and ordered under separate product number.
44
Spectra Series® Switchboards
Section 5 – Application Data
Instantaneous pickup levels are adjustable and set via
a front-mounted adjusting knob. Both are available in
2- and 3-pole versions, each in a 3-pole footprint.
All frames use common internal accessories (auxiliary
switches, UV releases, shunt trips, and bell alarms) UL
listed for field installation.
UL listed maximum short circuit ratings at 480VAC are
150kA for the 100A frames and 200kA for the 600A frames.
Unless noted otherwise, all circuit breakers and
accessories are listed in UL file number E11592.
Other MCCB Features
• UL489 Listed
• Broad product line to meet virtually any application
need.
• Reduced downtime. A tripped breaker is easily spotted
and can be immediately reset after the fault has been
corrected.
• Eliminates single phasing. A common trip bar disconnects all poles simultaneously on both overloads and
short circuits.
• Offers application flexibility through the use of a wide
variety of accessory devices and special attachments.
• Repetitive operation — no fuses to replace.
• Breakers can be repetitively tested. Fuses must be
destroyed to confirm calibration accuracy.
For more information on these products, order publications listed in Sections 21 and 22.
45
Quick Reference Guide
Ratings do not apply to molded case switches.
The interruption ratings and voltages shown in the
tables are maximum ratings. A circuit breaker of the
type given in the left-hand column may be applied at
the given circuit voltage in any electrical distribution
system where the available fault current at the load
terminals of the breaker does not exceed the value in
the table. That circuit breaker type may also be applied
at intermediate values of circuit voltage provided the
available fault current at the load terminals of the
breaker does not exceed the value in the table for the
higher value of voltage.
Spectra Series® Switchboards
Section 5 – Application Data
Q-Line (UL file E-11592; Fixed Thermal Magnetic Trip Unit)
THQL 32015
Circuit
Breaker
Type
Ampere
Rating
No.
Poles
1
TQL/TQB/
TQC
10
THQL1
THQB1
THQC1
THHQB1
THHQC1
15-70
1
15-125
2
15-100
3
15-70
1
15-100
15-70
1
15-125
2
15-100
3
1
TXQL1
TXQB1
TXQC1
15-30
TQDL
THQDL
TQD1
THQD1
TJD
Vac
dc
120
—
—
120/240
Vdc
240
Dimensions (in.)
277
480
600
125
250
H
—
—
—
—
—
3 9/32
—
120/240
52
—
240
52
120/240
—
—
—
240
—
10
—
—
—
3 9/32
—
—
240
22
—
—
—
—
—
3 9/32
—
—
240
120/240
22
—
—
—
—
—
3 9/32
—
—
2 3/8
—
—
—
—
2
2
2
65
—
—
—
—
3 9/32
2
25
15
50
2 3/8
—
—
—
—
25
15
50
2 3/8
—
—
—
—
25
15
50
2 3/8
—
—
—
—
25
15
1
—
Std.
Pack
50
3
65
—
2
1
—
2
E
3
22
—
C
1
—
120/240
B
3
22
—
A
1
—
120/240
D
3
10
—
W
1
—
2
3
THHQL1
ac
2
3
UL Listed Interrupting Ratings—
rms Symmetrical kA
Maximum
Voltage Rating
50
2 3/8
—
—
—
—
240
125-200
2
120/240
—
—
10
—
—
—
—
—
—
6 1/16
2
2 3/8
—
—
—
—
12
125-200
2
120/240
—
—
22
—
—
—
—
—
—
6 1/16
2
2 3/8
—
—
—
—
12
100-225
2
240
10
10
100-225
3
240
—
10
4 1/8
11/16
100-225
2
240
22
22
2 3/4
—
100-225
3
240
—
22
2
240
22
22
3
240
—
22
250-400
—
—
—
—
—
—
3
25
3
—
—
—
—
—
—
—
—
—
—
6 9/16
6 9/16
2 3/4
15
—
2 5/8
2 5/8
2 7/16
2 7/16
2 7/16
2 7/16
4 1/8
—
—
—
—
10
10 1/8
8 1/4
27/32
1
27/32
11/16
3 13/16 3 15/16 3 13/16
1
1
1
1 3/8 1 3/16
1
1
CB3 Ground Fault, Equipment Ground Fault and Arc Fault (UL File E-51075; Fixed Thermal Magnetic Trip Unit)
THQB
THQC
THQL
...GF, GFEP,
AF
15-30
THHQL
...GF
THHQB
...GF
AF
15-30
1
120
10
—
—
2
120/240
1
120
—
1
—
—
1
22
—
—
—
—
—
—
3 9/32
10
2 3/8
—
—
—
—
10
2
—
—
—
—
—
—
3 9/32
1
2 3/8
—
—
—
—
10
1 UL listed as HACR (heating, air conditioning and refrigeration).
2
Not UL listed.
46
Spectra Series® Switchboards
Section 5 – Application Data
10-1200A Circuit Breakers
Thermal Magnetic Trip
TJJ, TJK, THJK
TFJ, TFK, THFK
TEY and TEYF (UL File E-11592; Fixed Thermal Magnetic Trip Unit; CUL LR 57114)
UL Listed Interrupting Ratings— kA
Circuit
Breaker
Type
TEY2
Maximum
Voltage Rating
Ampere
Rating
15-100
ac
dc
120
1
277
125
65
2
3
1
TEYF2
15-100
Vac
No.
Poles
2
3
480/277
277
480/277
250
—
120/
240
250
65
—
240
277
480
14
14
—
65
14
14
14
14
—
—
—
125
Vdc
5
—
65
—
5
14
14
—
—
600
—
—
D
A
B
C
E
Approx.
Ship
Wt./Std.
Pack
3 1/16
—
—
—
—
—
3 1/16
—
—
—
—
—
Dimensions (In.)
125
250
5001
10
—
—
—
10
—
—
—
—
10
—
—
—
10
—
—
—
—
H
W
1
5 1/4
2
3
1
5 1/4
2
3
E150 (UL File E-11592; Fixed Thermal Magnetic Trip Unit; CUL LR 57114)
1
TEB
2
10-100
3
2
120
240
3
TED2
THED 2
125
250
—
10-100 3
1
277,347 4
125
3
2
480
250
3
480, 600
500
15-30
1
277,347 4
125
15-100
2
480
250
10-150
15-150
3
600
—
10
—
—
—
—
10
—
—
14
10
18
—
18
—
5
—
—
—
5
—
—
—
—
4 1/8
10
—
—
1 3/8
10
—
—
10
4 1/8
11/16
28 lb/8
—
—
1 3/8
—
26 lb/24
20 6
—
—
—
14
—
—
—
—
—
25
—
20 6
—
65
65
500
65
18
—
—
1 3/8
6 5/16
6 5/16
2 3/4
2 3/4
6 5/16
2 41/64 2 15/64
23/32
11/16
3 3/8
2 41/64 2 15/64
28 lb/8
23/32
2 41/64 2 15/64
24 lb/12
26 lb/24
—
3 3/8
4 1/8
10
26 lb/24
—
3 3/8
23/32
11/16
24 lb/12
24 lb/12
28 lb/8
42
K1200 (UL File E-11592; Interchangeable Thermal Magnetic Trip Unit; CUL LR 40350)
TKM8
300-800
2
600
TKM12
600-1200
2
250
—
—
42
—
30
22
—
500
3
600
—
—
—
42
—
30
22
10
—
20
22
—
—
15 1/2
8 1/4
5 1/2
8 9/16 5 11/16
1 3/8
5/8
39 lb/1
15 1/2
8 1/4
5 1/2
8 9/16 5 11/16
1 3/8
5/8
300-800
2
600
3
THKM12
600-1200
2
600
250
—
—
—
—
—
—
65
65
—
—
35
35
25
25
40
—
40
22
—
—
—
—
15 1/2
8 1/4
5 1/2
8 9/16 5 11/16
1 UL listed with poles in series for 500 Vdc ungrounded battery applications.
2 UL listed as HACR (heating, air conditioning, and refrigeration).
1 3/8
5/8
33 lb/1
39 lb/1
15 1/2
8 1/4
5 1/2
8 9/16 5 11/16
1 3/8
5/8
38 lb/1
41 1/2 lb/1
3
3 10 amp not UL listed.
4 UL listed/CUL Certified for 10kA @ 347 Vac (TED) and
18kA @ 347V (THED). Also rated 10kA @ 480V but not UL listed.
47
38 lb/1
41 1/2 lb/1
3
THKM8
33 lb/1
5 480Y/277 Vac.
6 UL listed at 10,000 amps
Spectra Series® Switchboards
Section 5 – Application Data
15-1200A Circuit Breakers
Electric Trip Spectra® RMS Breakers
SE 150
Spectra® RMS Circuit Breakers UL/CUL Ratings
Solid-State with Interchangeable Trip Unit (Rating Plug)
Circuit
Breaker
Type
Ampere
Rating
No.
Poles
Maximum
Vac
Dimensions Inches (mm)
UL Listed Interrupting Rating—kA
240 Vac
480 Vac
600 Vac
H
W
D
A
6.31
(160)
4.12
(105)
3.38
(86)
2.41
(61)
10.12
(257)
4.12
(105)
3.81
(97)
10.09
(256)
5.50
(140)
3.81
(97)
B
Approx. Ship
Wt./Std.
Pack
C
E
2.47
(63)
.69
(18)
.72
(18)
5.65 lb/1
3.87
(98)
3.87
(98)
.69
(18)
1.19
(30)
9.15 lb/1
4.45
(113)
3.30
(84)
.91
(23)
1.18
(30)
15.85 lb/1
SE150 Current Limiting (UL File No. E-11592; CUL LR 40350)1
SED2, 3
15-150
SEH2
SEL
15-150
SEP
2
480
3
600
2
480
3
600
2
480
3
600
2
480
3
600
—
18
18
14
—
65
25
100
65
200
100
18
—
25
—
25
SF-250 Current Limiting (UL File No. E-11592; CUL LR 40350)1
SFH2
70-250
SFL
70-250
SFP
2
480
3
600
2
480
3
600
2
480
3
600
—
65
35
22
—
100
65
25
—
200
100
25
SG600 Current Limiting (UL File No. E-11592; CUL LR 40350)1,4
SGH12, 5
60-150
125-400
SGH42
SGL15
SGP15
600
65
35
25
240
65
—
—
65
35
25
65
35
25
2
SGD2
SGH62
3
250-600
60-150
SGL4
125-400
SGP4
SGL6
250-600
SGP6
3
2
600
3
600
2
600
3
600
3
600
100
65
65
3
600
200
100
65
2
600
3
600
2
600
3
600
2
600
3
600
2
600
3
600
6
100
65
65
200
100
65
100
65
65
200
100
65
600
65
50
25
600
100
65
42
600
200
100
65
600
65
50
25
600
100
65
42
600
200
100
65
6
SK1200 (UL File No. E-11592; CUL LR 40350)1,4
2
SKH8
3
SKL8
300-800
2
3
2
SKP8
3
2
SKH12
15.50
(394)
3
SKL12
600-1200
2
7
8.25
(210)
5.50
(140)
8.56
(217)
5.69
(145)
1.38
(35)
.62
(16)
47.6 lb/1
7
3
SKP12
2
3
1 UL listed as HACR (heating, air conditioning and refrigeration).
2 Not current-limiting circuit breaker.
5 microEntelliGuard™, MicroVersaTrip® Plus and MicroVersaTrip PM® Trip Units only.
6 Add 1.76 inches (45 mm) to each end with lugs and lug cover installed.
3 UL List as HID (high intensity discharge).
4 Includes microEntelliGuard™, MicroVersaTrip® Plus and MicroVersaTrip PM® Trip Units.
7 Add 4.00 inches (101 mm) to upper end for SKP (100 kAIC-480V) lug cover.
48
Spectra Series® Switchboards
Section 5 – Application Data
Maximum Horsepower➀ Fusible Switch
Volts, ac
Volts, dc
Rating in
2-Pole
3-Pole
2-Pole
3-Pole
Amps①
120 240 480 600 240 480 600 125
250
With Standard Fuses
30
1/2 1 1/2 3
3
3
5
7 1/2 2
5
60
1 1/2 3
5
10 7 1/2 15 15 5
10
100
7 1/2 10 15 15 25 30 20
200
15 25 30 25 50 60 40
400
50 100 125 50
600
75 150 200 50
With "Time-delay" Fuses
30
2
3
7 1/2 10 7 1/2 15 20 3
60
3
10 20 25 15 30 50 100
15 30 40 30 60 75 200
15 50 50 60 125 150 400
125 250 350 600
200 400 500 ① Ratings are based on latest revision of the National Electric Code Article 430.
Horsepower ratings for switches with Standard Class H fuses are based on one-time
fuses having minimum time delay. When time delay fuses are used, the horsepower
ratings are maximum for the switches.
For information on Process Control Units (PCUs), refer
to publication DET-104.
Features and Benefits
• Mounted on load side on main device
• UL 1449 3rd Edition, Type 1 and Type 2
• cUL, CSA C22.2
• 0% to 95% non-condensing humidity
• -40° F to 149° F (-40° C to +65° C) operating temperature
• UL 96A, for use in lightning protection systems
• UL 1283, EMI/RFI noise filter
• Tranquell ME
– 65/130kA to 100/200kA per mode/phase ratings
– device tested to a minimum of 5,000 category C3
impulses per mode
• Tranquell HE
– 125/250kA to 300/600kA per mode/phase ratings
– device tested to a minimum of 20,000 category C3
impulses per mode
• Thermally protected MOVs eliminate the need for
additional upstream over current protection
• NO/NCForm C dry type contacts for remote monitoring
• Green status indicating lights, red alarm light
• Audible alarm with test/disable feature
• Standard LCD surge counter
Assembly End View – Plug-in
5.8 Surge Protective Device
SPD in Spectra Switchboards
GE Tranquell™ Surge Protective Devices (SPD) are the
standard SPD offering in GE Spectra Series Switchboards.
The entire Tranquell HE and ME line-up has been engineered to the highest standards and is designed for
rigorous duty and long life, as evidenced in our outstanding
minimum repetitive surge current capacity test results.
Third-party tested per IEEEC62.62 and NEMA LS-1 for the
rated 8x20 s surge current, per mode with fusing included.
Bus
Ground
SPD
Neutral
Display
Assembly End View – Bolt-on
Bus
Ground
SPD
Neutral
Display
51
Spectra Series® Switchboards
Section 5 – Application Data
only if loss of power to the entire system is acceptable
under ground fault conditions. If not acceptable, then
ground fault protection should be applied on successive
downstream protectors until an acceptable level of
system outage is obtained. The NEC recognizes this
lack of selectivity and requires health care facilities
which have ground fault protection to have two levels
with selectivity between the main and feeder devices.
Detection of Ground Fault Current
Ground fault current may be monitored as it flows out
from the source or as it returns to the source. In either
case, care must be exercised to ensure that there is
not ground connection on the neutral downstream
from the ground fault sensors, and that systems with
neutral interties and multiple grounds have ground
fault sensors properly placed and connected so that all
returning ground fault current is detected. Spot networks,
secondary selective arrangements (main-tie-main) and
systems with emergency generators are the most frequently encountered examples of multiple ground and
neutral interties which require special consideration.
Fortunately, the most commonly encountered system,
the radial, lends itself to straightforward designs.
Break insulated case circuit breakers, WavePro low
voltage power circuit breakers and molded case circuit
breakers are self-powered. The consist of three components, a programmer, current sensors and flux shifter,
which are integral parts of the circuit breaker.
The EntelliGuard TU and Power Plus trip units can be
used to detect ground fault current as it flows out from
the source, or as it returns to the source, A neutral
sensor (current transformer) is available for systems
with neutral loading.
When monitoring the outgoing ground fault current,
the currents in each phase and neutral, if used, are
summed up vectorially. In the absence of ground fault
currents, the vector sum of the phase and neutral
currents, IG is zero. When a ground fault occurs, the
vector sum, IG corresponds to the ground fault current.
When ordering the EntelliGuard TU unit, suffix G provides
integral ground fault protection.
G N A B C
Power
Supply
and
Phase
Function
Ground
Function
Ground Fault Equipment
Ground fault protection may be supplied as an integral
part of the trip unit used with molded case, insulated
case and WavePro low voltage power circuit breakers.
NEC230-95(c) reads as follows: the ground fault protection
system shall be performance tested when first installed.
The test shall be conducted in accordance with approved
instructions which shall be provided with the equipment.
A written record of this test shall be made and shall be
available to the authority having jurisdiction.
Testing by qualified personnel
Performance testing of the ground fault protection system should be undertaken only by qualified personnel.
Particularly in the tests requiring the use of a high-current
test set, it is usually necessary to obtain the services of
a qualified testing organization. General Electric's
Installation and Service Engineering organization, the
Apparatus Service Shops, and GE's extensive FAS
(Factory Authorized Service) Teams are qualified and
equipped to provide this testing service.
EntelliGuard TU Trip Units
EntelliGuard TU and Power Plus units used on Power
55
Trip
Function
To
Protection
Device
When monitoring the returning ground fault current,
the EntelliGuard TU unit with suffix GR is ordered. The
neutral CT is placed in the ground return circuit, not
the neutral circuit. The trip unit responds to the current
which the CT sees. Extreme care must be taken to insure
that the CT is placed to detect all of the returning
ground fault currents.
GR R
A
B
C N
To
Protective
Device
Ground Fault Relays
ITI ground fault relays and sensors are designed to
form a system for detecting a ground fault current on
a ground ac power system. When a ground fault
Spectra Series® Switchboards
Section 5 – Application Data
exceeds a selected Current level and Time Delay setting,
the relay initiates a trip signal for a shunt trip disconnect
device to open and clear the fault. This ITI system is
designed to provide protection for electrical equipment,
not protection for personnel.
Ground Sensor (Zero Sequence) Ground Fault
Protection
In this frequently used application, the CT surrounds all
phase conductors and neutral, if existing. The magnetic
fluxes produced by current flowing in the power conductors cancel if there is no ground fault current and
the output to the relay is zero. This is often referred to
as the "zero sequence" method of detecting ground faults.
Residual Ground Fault Protection
Ground Break can also be used in a residual arrangement. A rely, residually connected, monitors the outgoing
ground fault currently using three current transformers
in a 3-phase, 3-wire system, or four current transformers
in a 3-phase, 4-wire system.
Circuits which use MicroVersaTrip® integral ground
fault protection follow:
Extension of Integral
In the circuit shown in the Figure below, the neutral
sensor secondary windings, in addition to being connected to their respective breaker, are interconnected
with each other in a loop circuit. With this arrangement,
the circuit is responsive to ground fault current only,
regardless of its return path to the source supplying
ground fault current. Each breaker must have an auxiliary contact connected as shown. The auxiliary contact
"a" is open when the breaker is open. When the breaker
is closed "a" is closed. One breaker must always be
open so its neutral sensor will be disconnected from its
associated breaker to provide the driving force to assure
that the current flows around the sensor loop circuit.
Source #1
Source #2
GRD
The phase and neutral currents, if existing, add vectorially to zero if there is no ground fault current and there
is no output to the relay.
G N A B C
GRD
52-1
52-2
A
Neutral
A
A
To
Protective
Device
GSR
Bus
GRD
Phase
Bus
52-BT
G N A B
C
To
Protective
Device
R
Multi-Source Systems
Multi-Source systems with ground neutral interties,
such as secondary selective and spot networks,
require special ground fault circuitry. There are many
circuits and types of electrical equipment that can be
used to provide proper ground fault protection.
Circuit Breaker Trip Units
Power Plus, EntelliGuard TU and microEntelliGuard
units used on Power Break insulated case circuit
breakers, WavePro low voltage power circuit breakers
and molded case circuit breakers are self-powered.
They consist of three components – a programmer,
current sensors and flux shifter – which are integral
parts of the circuit breakers.
The MicroVersaTrip and Power Plus trip units can be
used to detect ground fault current as it flows out from
the source or returns to the source. A neutral sensor
(current transformer) is available for systems with
neutral loading.
56
Spectra Series® Switchboards
Section 5 – Application Data
When monitoring the outgoing ground fault current,
the currents in each phase and neutral, if used, are
summed up vectorially. In the absence of ground fault
currents, the vector sum of the phase and neutral
currents, IG, is zero. When a ground fault occurs, the
vector sum, IG, corresponds to the ground fault current.
When ordering the MicroVersaTrip unit, suffix G provided
integral ground fault protection.
G N A
B
C
Power
Supply
and
Phase
Function
Ground
Function
Trip
Function
To
Protection
Device
• Panel or door mounting.
• Rear terminal kit and clear plastic cover standard
with door mounting.
• Electromechanical relay output, positive “ON” and “OFF.”
• Operates with molded case and power circuit breakers,
bolted pressure switches, fusible disconnect switches.
Operating Range:
Trip currents of 5-60, 30-360,
or 100-1200A. Time delay from
0.10 to 1 second. (Adjustable)
Input Power:
2 VA plus shunt coil
requirements. Rated @ 120 Vac.
Input Withstand:
200,000 Amperes RMS for
3 cycles, 50/60 Hz.
Nominal Input Voltage:
120 Volts ac, 125 Volts dc, 24
Volts dc, 48 Volts dc.
Frequency:
50/60 Hz.
Ambient Temperature Range: -30°C to +60°C
Only for use with GFL sensors.
Approximate weight 1.5 lbs.
ITI Ground Fault Current Detection Systems
Contact Rating
Device Input Power
120 Volts ac
125 Volts dc
48 Volts dc
24 Volts dc
These Class 1 Model ITI Ground Fault Relays and
Sensors are designed to form a system for detecting a
ground fault current on a ground ac power system. When
a ground fault exceeds a pre-selected Current level and
Time Delay setting, the relay initiates a trip signal for a
shunt trip disconnect device to open and clear the fault.
This ITI system is designed to provide protection for
electrical equipment, not protection for personnel.
• Meets NEC service entrance equipment standards.
• Available in three basic styles, “Standard,” “Form C”
or “Zone Interlocking” for coordination of single or
multiple ground fault devices in system.
• Integral test panel with Push To Test and Shunt Trip
Bypass pushing for ease in proper operational testing
of the system, with or without tripping the protective
device.
• “Power On” LED indicator in cover.
• Positive visual trip indicator, manual reset.
• Infinitely adjustable Time Delay.
• Discrete current threshold adjustment.
57
Inrush
10 A
1A
4A
8A
Cont.
3A
1A
4A
8A
5.12 Automatic Transfer Switches
ZTE Series Transfer Switches
GE Zenith ZTE Series transfer switches deliver:
• Reliability
• Ease of operation
• Troubleshooting & diagnostics
• Flexibility to adapt to site changes
• Scalability to grow with a facility
• Simple & low-cost facility integration
Momentary loss of electric power to critical loads can
endanger life, cause severe financial losses, or both.
Today’s 7x24 service centers, critical healthcare facilities
and data centers demand more than just continuity of
power. The quality of power delivered to the load, the
effectiveness of periodic system testing and the ability
to diagnose outages and disturbances in the electrical
system are issues that have serious implications for
critical facilities.
Spectra Series® Switchboards
Section 5 – Application Data
Poor power quality damages equipment and increases
maintenance costs. Inherent power problems stay
hidden when testing is ineffective or incomplete. Going
beyond source switching and addressing the issues of
complete power quality requires a whole new level of
ATS capability.
GE: Your Power Quality Partner
Since 1930, GE has designed and manufactured
Automatic Transfer Switches (ATS) – products specifically
designed to keep critical loads energized and protect
personnel, facilities and businesses against losses. The
technological advances of the Zenith ZTE firmly establishes GE as not only a worldwide leader in the design
and manufacture of ATS, but a trusted Power Quality
Partner.
New Technology Solutions
GE’s Zenith ZTE Series of transfer switches goes beyond
just source switching. Integral metering and communications, high level diagnostics and unsurpassed flexibility
make the Zenith ZTE a perfect solution for today’s critical
source switching.
Global Service Capability
The Zenith ZTE is backed by the global service capabilities and resources of one of the world’s largest
corporations, capable of providing solutions to all of
your power quality needs.
Features of ATOs with 2 circuit breakers
Description
Standard automatic thrower (ATO) units have the functions and features described here. Every effort should
be made to apply the standard instead of specifying
special features and functions.
Two ATO units
The 2-breaker unit is for use with a single bus power
circuit where source 1 is the normal source and source
2 is the alternate source. See Fig. 1.
PLC
Control
Load
Source
2
Alt. Bkr.
Nor. Bkr.
FIG. 1
Source
1
Control panel
Control switches and indicating lights are mounted on
the ATO cover. These devices include the breaker control
switches, test switch, manual-automatic selector switch,
and lights to indicate breaker status (open, closed, tripped
on overcurrent), source power available and manual mode
of operation, along with UPS indication and control.
Programmable logic control
GE Fanuc 90-30 with EPROM memory backup.
Circuit breakers
Power Break II
Standard and optional features
• Normal sources are monitored by adjustable voltagesensing relays. They will detect a drop in voltage
below a predetermined level. Standard setting is 75%
dropout, 98% pickup. Other calibrations are available
in a range of 76% to 100% for dropout and 85% to
99% for pickup.
• 5 second time delay (PLO adjustable) prevents automatic throwover from transferring to alternate source
during momentary outages.
• Engine-start contact closes after 5 second time delay
upon loss of normal source. The 5 second delay is
PLC adjustable. Prevents engine cranking caused by
momentary power outages.
• 5 minute engine cool-down (PLC adjustable) provides
unloaded running time for engine before shutdown.
• Voltage-frequency relay for the alternate power
source prevents transfer to that source until voltage
and frequency are more than 98%.
• 15 minute retransfer delay (PLC adjustable) before
automatic retransfer from alternate to normal source
after normal source is restored. Should normal power
be restored and the alternate power source lost during
the retransfer timing period, transfer of the load back
to normal source will occur instantaneously.
• “Manual-Auto” keyed selector switch provides choice
of manual or automatic mode of operation:
– Manual position – disconnects automatic control
and enables manual control of breakers.
– Auto position – enables fully automatic operation
and disconnects manual control of breakers.
• Breaker control switch permits closing and tripping of
breakers when the manual/auto selector switch is in
manual position.
58
Spectra Series® Switchboards
Section 5 – Application Data
• “Test-Norm” keyed test switch. This maintained contact
selector switch functions as follows (when the manual-auto selector switch is set for automatic operations):
– Test position – simulates loss of phase and causes
the throwover to alternate source. As long as they
keyed test switch is left in the “Test” position, the
load will be supplied from the alternate source.
Returning the keyed test switch to “Norm” position
will retransfer the load to the normal power source.
– Normal position – enables normal operation
• Indicating light shows the following:
ATO:
Green – Breakers open
Red – Breakers closed
Amber – Breaker trip by overcurrent
White – Source power available
Blue – Manual mode of operation
UPS:
White – UPS on
Green – PLC control power available
• Breakers are electrically interlocked to prevent the
sources from being paralleled.
• Bypass switches on drawout breakers disconnect
automatic closing and tripping control from a fully
withdrawn breaker.
• Manual retransfer to normal instead of automatic
retransfer can be accomplished by turning the
“Manual-Auto” keyed selector switch to “Manual” any
time after an automatic transfer from normal to
alternate source, but before the end of the retransfer
timing period. Then the load may be transferred back
to the normal source by using the breaker control
switches to trip the alternate breaker and close the
normal breaker.
Optional features
A plant exerciser timer keyed switch offers the same
function as the keyed test switch except on an automatic basis. It can be set for daily or weekly operation. It
can also be set to operate without transferring the load.
59
Exerciser Tuner
UPS ON
MAIN #1 CLOSED
GEN CLOSED
WHITE
RED
RED
MAIN #1 TRIPPED
GEN TRIPPED
SOURCE #1 AVAIL.
AMBER
AMBER
WHITE
PLC
CONTROL POWER
MAIN #1 OPEN
GEN OPEN
SOURCE #2 AVAIL.
MANUAL MODE
GREEN
GREEN
GREEN
WHITE
BLUE
XFER
NO-XFER
* Key Operator
UPS
UPS
ENABLE BYPASS
OPEN
CLOSE
OPEN
CLOSE
NORMAL
TEST
* Key Operator
MANUAL
AUTO
* Key Operator
NOTE: Ship in UPS Bypass!
*Key operated switch with key removal in both positions
Operating instructions
Two-breaker automatic throwover
Automatic operation – keyed selector switch on auto
1. When normal source fails, engine starts and load is
transferred to the alternate source.
2. When normal source is restored, retransfer takes
place automatically after delay (adj. 1-30 min.)
3. If manual retransfer is preferred, turn the keyed
selector switch to manual after transfer to alternate
source.
4. Engine shutdown after cool-off (adj. 5-10 min.)
5. Testing – use the keyed test switch to simulate loss
of normal source.
Manual operation – keyed selector switch on manual
1. Use breaker control switches to transfer loads.
2. To start engine, turn keyed test switch to test.
3. To shut down engine, turn keyed test switch to normal.
UPS operating instructions
Typical operation – selector switch on UPS enable
1. Upon start-up, UPS will be on and charging without
output. The UPS will be bypassed if UPS switch is in
UPS enabled or UPS bypass position. PLC control
power light should be on.
2. To enable output, press the test button on the UPS until
a short beep is heard. The UPS on light will turn on.
Spectra Series® Switchboards
Section 5 – Application Data
3. The switch should now be in the UPS enable position.
If not, turn switch to this position.
4. If UPS fails and power is still available, the UPS will
be bypassed to allow power to PLC.
5. If replacing the UPS, turn selector to UPS bypass. This
will allow the UPS to be shut down without disturbing
the PLC. Caution: Wiring to UPS circuit is still alive!
6. If for some reason the power is lost while the selector switch is in UPS bypass position, the UPS will not
supply power to the PLC. Turn selector switch to UPS
enable position to allow the UPS to power the PLC.
Manual control
Manual transfer
6. To manually transfer load from normal to alternate
source (when normal source is still available):
– Turn the keyed selector switch to “Manual.”
– Turn the keyed test switch to “Test.” Engine starts
if normal source fails, engine will start automatically.
– Alternate source available light indicates when
voltage and frequency are more than 98%.
– Use breaker control switches to trip normal breaker
and close alternate breaker.
Automatic control
Normal control
1. When normal source is available at rated voltage
and the keyed selector switch is on auto, the normal
main breaker will be closed and the load will be
served by the normal power source.
Manual retransfer
7. To manually retransfer load from alternate to normal
source:
– Turn the keyed selector switch to “Manual.”
– Turn the keyed test switch to “Normal.” The normal
source light will indicate if the source is available
– Use breaker control switches to open alternate
breaker and close normal breaker.
– Engine will shut down after cool-off period.
Automatic transfer
2. When normal source voltage drops below the
dropout setting of the 3-phase undervoltage relay:
– After 5 second delay (adj.) the engine start contact
will close.
– When alternate source is present at more than
98% voltage, the normal breaker will open and the
alternate breaker will close, transferring the load
to the alternate source
Automatic retransfer
3. When normal service is restored, automatic retransfer
will take place after a timing period (PLC adjustable).
Should normal power be restored and the alternate
power source lost during the retransfer period, the
load will be instantaneously transferred back to the
normal source. For manual retransfer after automatic
transfer, see step 8.
Engine shutdown
4. Following retransfer, the engine will shut down after
a 5 minute cool-off period.
Testing
5. Loss of normal source may be simulated by turning
the keyed test switch to “Test.” This will initiate
transfer as described in step 2. This load will be supplied from the alternate source as long as the keyed
test switch is left in the “Test” position. Return the
keyed test switch to “Normal” and retransfer will
proceed as described in steps 3 and 4.
Manual retransfer after automatic transfer
8. After an automatic transfer from normal to alternate
source, if it is desired to manually retransfer the load
to normal, do the following:
– Turn the keyed selector switch to “Manual” any
time after the transfer to alternate source but
before the end of the retransfer timing period.
– After normal source is restored (as indicated by
the light), use breaker control switches to transfer
the load by opening alternate breaker and closing
normal breaker.
– Turn the keyed selector switch to “Auto” if automatic
mode of operation is then desired.
– If the keyed selector switch is left in “Manual,” the
manual mode light (blue) will remain on as a reminder
that the system is not set to automatic control.
Overcurrent lockout and reset
9. When a breaker trips on overcurrent, it will be locked
out mechanically to prevent reclose until hand reset.
This is indicated by its amber indicating light. To reset,
push the yellow bell alarm button on the breaker.
Interlocking
10. Interlocking provisions prevent interconnections of
normal and alternate sources. Both breakers may
be in the open position, but both cannot be in the
closed position simultaneously.
60
Spectra Series® Switchboards
Section 5 – Application Data
Time delay settings
11. All time delay settings are internal to the PLC
program. They may be adjusted by the following
methods (requires optional equipment):
– Portable PC computer loaded with GE Fanuc
Logicmaster software
– GE Fanuc hand-held programmer.
Features of ATOs with 3 circuit breakers
Description
Standard automatic thrower (ATO) units have the functions and features described here. Every effort should
be made to apply the standard instead of specifying
special features and functions.
Three-breaker ATO units
The 3-breaker ATO unit is for use with a sectionalized
bus power circuit where source 1 and 2 are normal
sources, usually separate utility services. A normally
open bus tie breaker connects the two sections of the
main bus. See Fig. 1.
PLC
Control
Load
Source
1
Nor. Bkr.
Load
Alt. Bkr.
Source
2
FIG. 1
Control panel
Control switches and indicating lights are mounted on
the ATO cover. These devices include the breaker control switches, test switch, manual-automatic selector
switch, and lights to indicate breaker status (open,
closed, tripped on overcurrent), source power available
and manual mode of operation.
Programmable logic control
GE Fanuc 90-93 with EPROM memory backup.
PLC logic written in Versapro
Circuit breakers
Power Break II
61
Standard and optional features
• Normal sources are monitored by adjustable voltagesensing relays. They will detect a drop in voltage
below a predetermined level. Standard setting is 75%
dropout, 98% pickup. Other calibrations are available
in a range of 75% to 100% for dropout and 85% to
99% for pickup.
• Adjustable time delay (factory set at 5 seconds)
before automatic throwover from normal to alternate
source is provided to override momentary outages.
• Adjustable timing (1 to 30 minutes, factory set at 15
minutes) provides delay before automatic retransfer
from alternate to normal source after normal source
is restored. Should normal power be restored and the
alternate power source lost during the retransfer timing
period, transfer of the load back to normal source will
occur instantaneously.
• “Manual-Auto” keyed selector switch provides choice
of manual or automatic mode of operation:
– Manual position – disconnects automatic control
and enables manual control of breakers.
– Auto position – enables fully automatic operation
and disconnects manual control of breakers.
• Breaker control switch permits closing and tripping of
breakers when the manual/auto selector switch is in
manual position.
• “Test #1-Norm-Test#2” test switch. This maintained
keyed selector switch functions as follows (when the
manual-auto selector switch is set for automatic
operations):
– Phase failure relay protection. Designed to protect
against phase loss and phase unbalance in a
power system. The output contacts change their
normal state only when a phase loss or unbalance
occurs for longer that the preset trip delay. The PFR
relay operates in conjunction with the UV relay to
initiate the throwover process.
– Test position simulates loss of phase and causes
throwover to alternate source, as long as the test
switch is left in the “Test” position. The load will be
supplied from the alternate source. Returning the
test switch to the “Norm” position will retransfer
the load to the normal power source.
Spectra Series® Switchboards
Section 5 – Application Data
• Indicating light show the following:
ATO:
Green – Breakers open
Red – Breakers closed
Amber – Breaker trip by overcurrent
White – Source power available
Blue – Manual mode of operation
UPS (if used):
White – UPS on
Green – PLC control power available
• Breakers are electrically interlocked to prevent the
sources from being paralleled.
• Bypass switches on drawout breakers disconnect
automatic closing and tripping control from a fully
withdrawn breaker.
• Manual retransfer to normal instead of automatic
retransfer is readily accomplished by using the standard controls. This is done by turning the selector
switch to manual any time after an automatic transfer
from normal to alternate source, but before the end
of the retransfer timing period. Then the load may be
transferred back to the normal source by using the
breaker control switches to trip the alternate (or bus
tie) breaker and close the normal breaker.
UPS ON
MAIN #1 CLOSED
TIEN CLOSED
MAIN #2 CLOSED
WHITE
RED
RED
RED
MAIN #1 TRIPPED
TIEN TRIPPED
MAIN #2 TRIPPED
SOURCE #1 AVAIL.
AMBER
AMBER
AMBER
WHITE
PLC
CONTROL POWER
MAIN #1 OPEN
TIEN OPEN
MAIN #2 OPEN
SOURCE #2 AVAIL.
MANUAL MODE
GREEN
GREEN
GREEN
GREEN
WHITE
BLUE
UPS
UPS
ENABLE BYPASS
OPEN
CLOSE
OPEN
CLOSE
OPEN
CLOSE
Normal
TEST 1
TEST 2
* Key Operator
MANUAL
AUTO
# Key Operator
NOTE: Ship in UPS Bypass!
*Key operated switch with key removal in all (3) positions
#Key operated switch with key removal in both positions
Operating instructions
Three-breaker automatic throwover
Automatic operation – keyed selector switch on auto
1. When normal source fails, its load is transferred to
the alternate source.
2. When normal source is restored, retransfer takes
place automatically after delay.
3. If manual retransfer is preferred, turn the keyed
selector switch to manual after transfer to alternate
source.
4. Testing – use the keyed test switch to simulate loss
of normal or alternate source.
Manual operation –selector switch on manual
1. Use breaker control switches to transfer loads.
Interlock prevents closing all three breakers.
Overcurrent trip lockout – to reset, push breaker trip
button.
UPS operating instructions
Typical operation – selector switch on UPS enable
1. Upon start-up, UPS will be on and charging without
output. The UPS will be bypassed if UPS switch is in
UPS enabled or UPS bypass position. PLC control
power light should be on.
2. To enable output, press the test button on the UPS until
a short beep is heard. The UPS on light will turn on.
3. The switch should now be in the UPS enable position. If not, turn switch to this position.
4. If UPS fails and power is still available, the UPS will
be bypassed to allow power to PLC.
5. If replacing the UPS, turn selector to UPS bypass. This
will allow the UPS to be shut down without disturbing
the PLC. Caution: Wiring to UPS circuit is still alive!
6. If for some reason the power is lost while the selector switch is in UPS bypass position, the UPS will not
supply power to the PLC. Turn selector switch to UPS
enable position to allow the UPS to power the PLC.
Automatic control
Normal control
1. When both normal sources are available at rated
voltage and the selector switch is on auto, the bus
tie breaker will be open and both main breakers will
be closed, serving their respective loads.
Automatic transfer
2. When source voltage on one of the normal sources
drops below the dropout setting of the 3-phase
undervoltage relay:
– After 5 second time delay (PLC adj.), the main
breaker will open and the bus tie breaker will close,
transferring the load to the alternate source
Automatic retransfer
3. When normal service is restored, automatic retransfer
will take place after a timing period of 15 min. (PLC
adjustable). Should normal power be restored and
the alternate power source lost during the retransfer
62
Spectra Series® Switchboards
Section 5 – Application Data
timing period, the load will be instantaneously transferred back to the normal source. For manual
retransfer after automatic transfer, see step 7.
Testing
4. Loss of either normal source may be simulated by
turning the keyed test switch to “Test.” This will initiate
transfer as described in step 2. The load will be supplied from the alternate source as long as the test
switch is left in the “Test” position. Return the keyed
test switch to “Normal” and retransfer will proceed
as described in steps 3 and 4.
Manual control
Manual transfer
5. To manually transfer load from one normal source
to the alternate normal source:
– Turn the selector switch to “Manual.”
– Source available light should indicate power available
on the source to which transfer is to be made.
– Use breaker control switches to trip normal breaker
and close bus tie breaker.
Manual retransfer
6. To manually retransfer load from alternate to normal
source:
– Turn the selector switch to “Manual.”
– Source available light should indicate power available
on the source to which transfer is to be made.
– Use breaker control switches to trip bus tie breaker
and close normal breaker.
Manual retransfer after automatic transfer
7. After an automatic transfer from one of the normal
sources to the alternate source, if it is desired to
manually retransfer the load back to the normal
source, do the following:
– Turn the selector switch to “Manual” any time after
the transfer to alternate source but before the end
of the retransfer timing period.
– After the missing normal source has been restored
(as indicated by its light), use the breaker control
switches to transfer the load by tripping the bus
tie breaker and closing the main breaker.
– Turn the selector switch to “Auto” if automatic
mode of operation is then desired.
– If the selector switch is left in “Manual,” the manual
mode light (blue) will remain on as a reminder that
the system is not set to automatic control.
63
Overcurrent lockout and reset
8. When a breaker trips on overcurrent, it will be
locked out electrically and mechanically to prevent
reclose until hand reset. This is indicated by its
amber indicating light. To reset, push the yellow bell
alarm button on the breaker.
Interlocking
9. Interlocking provisions prevent interconnections of
normal and alternate sources. All breakers may be
in the open position, but only two can be in the
closed position simultaneously.
Time delay settings
10. All time delay settings are internal to the PLC
program. They may be adjusted by the following
methods (requires optional equipment):
– Portable PC computer loaded with GE Fanuc
Logicmaster software
– GE Fanuc hand-held programmer.
Phase failure relay
11. The phase failure relay has adjustable time delay
settings of 1 to 10 seconds. The relay will automatically reset upon restoration of normal power.
Factory setting will be on minimum.
5.13 Wire/Lug/Cable
Wiring Terminals (Lugs) Main Lug Connection
Pressure type mechanical lugs suitable for 250-600MCM
aluminum or copper wire, are provided for short circuit
ratings to 100,000A. Above 100,000A, compression
type lugs are provided for all amperages.
When oversized lugs are required, a lug section with
minimum width may be furnished.
Spectra Series® Switchboards
Section 5 – Application Data
Standard Main Lug Terminations
Minimum Cable Bending Space Reference Tabulation
(75°C Cable Ampacity Rating Applies)
Ampere
Quantity and Size
Amps
Rating
Per Ø and Ñ
800
(3) 250-600 MCM
1000
(4) 250-600 MCM
1200
(4) 250-600 MCM
1600
(6) 250-600 MCM
2000
(7) 250-600 MCM
2500
(9) 250-600 MCM
3000
(10) 250-600 MCM
4000
(13) 250-600 MCM
5000
(15) 250-600 MCM
6000
(18) 150-600 MCM
Lug sizes and quantity also apply to main devices
Note: Lug sizes do not apply to Class I group mounted MCCB mains. Quantity will vary.
Chart based on 500 MCM AL cable rated at 310 amps per cable.
Standard Lug sizes unless otherwise noted
Lugs
Cable Range
Cable Material
#14 - 1/0
CU/AL
#6 - 2/0
CU/AL
#6 - 350MCM
CU/AL
Aluminum
Mechanical
1/0 - 600MCM
CU/AL
3/0 - 800MCM
CU/AL
500 - 1000MCM CU/AL
#14 - 2/0
CU
Copper
#6 - 350MCM
CU
Mechanical
300 - 800MCM
CU
#8 - 1/0
CU/AL
2/0 - 4/0
CU/AL
#4 - 300MCM
CU/AL
250 - 350MCM
CU/AL
Aluminum
Compression 2/0 - 500MCM
CU/AL
400 - 600MCM
AL
500 - 750MCM
AL
750 - 1000MCM AL
#6 - 1/0
CU
2/0 - 300MCM
CU
Copper
Compression 250 - 500MCM
CU
500 - 750MCM
CU
Qty. Holes
1
1
1
1
1
2
1
1
1
1
1
1
1
1 or 2
1 or 2
1 or 2
2
1
1
1 or 2
1
Lug
Qty
3
2
800①
3
3
3
3
1000①
4
3
4
3
1200①
4
4
5
4
1600
6
5
6
5
2000
7
6
7
6
2500
9
7
8
7
3000
10
8
11
9
4000
13
11
14
11
5000
17
13
Conductor
Al
Cu
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
MCM Size
500 750
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
Cable Bending
Space
12
16
12
19
12
19
13
19
13
19
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
13
21
① Compression lugs are provided at 100 KA
Standard Fusible Switch Module Terminations (Cu/Al Mechanical)
Amp Rating
30
60
60
100
200
400
600
800
1200
Voltage
240/600
240
600
240/600
240/600
240/600
240/600
600
600
Wire Size (Cu/Al)
#14-#2
#14-#2
#14-1/0
#14-1/0
#6-250 MCM
1/0-250 MCM or #2-600 MCM
1/0-250 MCM or #2-600 MCM
1/0-250 MCM or #2-600 MCM
1/0-250 MCM or #2-600 MCM
# Wires Per Pole
1
1
1
1
1
2 or 1
4 or 2
6 or 3
8 or 4
64
Spectra Series® Switchboards
Section 5 – Application Data
Optional Fusible Switch Module Terminations
Molded Case Circuit Breaker Lugs, Line Shields,
Covers and Bus Connectors
Max # Wires Per Pole
30A
Cu/Al Mechanical
#6 - 350 MCM
3/0 - 800 MCM Cu
250 - 800 MCM Al
Cu Mechanical
#4 - #14
1
#6 - #14
#6 - 1/0
#6 - 250 MCM
1/0 - 600 MCM
1/0 - 4/0
Cu/Al Compression
#8 - 1/0
1
#4 - 300 MCM
2/0 - 500 MCM
400 - 500 MCM Cu
400 - 600 MCM Al
750 - MCM Cu
500 - 750 MCM Al
Cu Compression
#6 - 1/0
1
2/0 - 300 MCM
250 - 500 MCM
400 - 750 MCM
60A 60A
100A 200A 400A 600A 800A 1200A
240V 600V
1
2
2
4
Accessory
4
For Use With
#14-6 Cu, #12-2 Al
#4-1/0 Cu-Al
#1-300 MCM
TQC (15-60A)
TQC (70-100A)
TQD
E150, THLC1, TB1
TCAL 14
(15-30A)
E150, THLC1, TB1
TCAL 12
(15-60A)
E150, THLC1, TB1
TCAL 12A
(70-90A)
E150, THLC1, TB1
TCAL 15
(100-150A)
F225 Load end
TCAL 24
Line end
TCAL 26
J400, J600 (thru 400A)
#14-8
#14-3 Cu, #12-1 Al
1
1
1
#6-2/0 Cu, #4-2/0 Al
1
#3-3/0 Cu, #1-3/0 Al
1
2
4
1
1
2
4
4
8
#4-300 MCM
4
1
CopperAluminum
Lugs
1
1
1
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
2
2
2
2
4
4
4
4
1
1
Copper Only
Lugs with
Follower and
Extra Plating
Line Shield
Lug Cover,
TKM Breaker
(two per
breaker)
Connector
(back strap)
(1) 6-600 MCM or
(2) 2/0-250 MCM
(2) 4/0-350 MCM Cu or
(2) 300-500 MCM Al
(1) 750 MCM Cu-Al
(2) 3/0-250 MCM Cu-Al
(2) 1/0-250 MCM or
(1) #4-600 MCM
(2) 2/0-500 MCM
(3) 3/0-500 MCM
(4) 250-350 MCM or
(4) 250-500 MCM Al
(4) 250-350 MCM
#14-2/0
#1-300 MCM
#14-300 MCM
(1) 6-600 MCM or
(2) 2/0-250 MCM
(2) 250-350 MCM
(1) 1/0-600 MCM or
(2) 1/0-250 MCM
(2) 2/0-500 MCM
(3) 250-500 MCM
(4) 250-400 MCM
TJD
TCAL 43
J600 (45-600A)
TCAL 63
J400, TJD
TCAL 47
K1200
TCAL 41
K1200
K1200
TCAL 61
TCAL 81①➁
K1200 (1000-1200A)
TCAL 121➃
TK4V - Load end
E150, TB1 (thru 150A)
TQD (100 -225A)
F225 Load end
Line end
TCAL 131➃
J400
TCO 43
J600
TCO 63
K1200
TCO 41➁
K1200
K1200 (700-1000A)
K1200 (1200A)
TEB, TEC, TED, THED
TFH and TFK
TJJ and TJK
TCO41, TCAL41 Lugs
TCO61, TCAL61,
TCAL81 Lugs, TCO81A
TCO121; TCAL 121
Lugs
TCO 61
TCO 81A
TCO 121
TEDLS
TFKLS
TJKLS
789A448G3➂
TKM
TKMC1
① Not suitable for 1000-amp aluminum conductor.
➁ Not UL listed.
➂ End cover supplied with 800A frame is used as lug cover.
➃ Suitable for 500 MCM copper for voltage drop considerations.
65
Catalog
Number
TQAL 3
TQAL 4
TCAL 25
Wire Size
TCO 12
TCT 25
TCO 24
TCO 26
789A448G1
789A448G2
Spectra Series® Switchboards
Section 5 – Application Data
Spectra® RMS Lugs, Lug Covers, and Bus Lugs
Accessory
Plated extruded aluminum
lugs for terminating
copper or aluminum cables
(1) #12-3/0
(1) #8-350 kcmil
(2) 2/0-500 kcmil or
(1) #8-600 kcmil
(3) 350-750 kcmil
(3) 350-750 kcmil
TCAL124
Single lug
(3) 3/0-500 kcmil
(4) 250-500 kcmil
(3) 3/0-500 kcmil
(4) 250-500 kcmil
TCAL81
TCAL125
SE150
–
–
SE3LCK
SF250
–
–
SF3LCK
SG600
–
–
Single lug
Single lug
Three lug covers for
upper (line) end
Three lug covers for
upper (line) end
3-pole lug cover for
upper (line) or lower (load) end
3-pole lug cover for
upper (line) or lower (load) end4
Lug cover for upper (line)
or lower (load) end3
Single lug
Single lug
2-pole lug kit
3-pole lug kit
Single lug
Single lug
Single lug
Single lug
Single lug with .25
Quick Connect
for Control Voltage
Single .25 Quick Connect
Single .25 Quick Connect
for MicroVersaTrip® Plus
and PM trip units
Replacement cover
Cover with access to
instantaneous set point
Cover with no access
to instantaneous set point
for microEntelliGuard™ trip units
Replacement cover
Cover with no access
TCAL18
TCAL29
TCLK2652
TCLK3652
SG1LCK
SK1200
–
–
SK1LCK3
SE150
SF250
SE150
(1) #12-3/0
(1) #8-350 kcmil
(2) 2/0-500 kcmil or
(1) #8-600 kcmil
(3) 250-500 kcmil
(4) 250-400 kcmil
(3) 350-750 kcmil
(4) 250-500 kcmil
(1) #12-3/0
–
–
–
–
–
–
–
–
(1) #12-3/0
TCO18
TCO19
TCOK265
TCOK365
TCO81A
TCO121
TCO124
TCO125
TCAL18LV
SF250
(1) #8-350 kcmil
(1) #8-350 kcmil
TCAL29LV
SG600
SK1200
–
–
–
–
SG600
SK1200
Line voltage control wire kit
for terminating control wire
at breaker lugs
SGLVK
SKLVK
SPCOV1
SPCOV2
Clear rating plug cover
with provision for wire seal
15-150
70-250
125-600
125-600
Cu 275-1200
Al 225-1100
300-800
600-1200
(1) #12-3/0
(1) #8-350 kcmil
(2) 2/0-500 kcmil or
(1) #8-600 kcmil
SG1BCK4
Plated Copper Lugs
Ampacity Range1
Single lug
Single lug
2-pole lug kit2
3-pole lug kit2
SE150
SF250
SG600
Product Number
Description
Copper
SK1200
Replacement Lug Covers
and End Covers
Wire Range (Qty.)
Aluminum
For Use With
SG600 / SK1200
–
–
SPCOV3
SPCOV1C
SPCOV3C
–
–
–
–
–
15-150
70-250
125-600
125-600
300-800
600-1200
600-1200
600-1200
15-150
70-250
–
–
–
–
–
–
–
1Both copper and aluminum cables may not cover full ampacity range.
2With lug cover for line or load end.
3100kA, 480 Vac (SKPA) uses longer lug cover/arc shield on upper end. Use Product Number SKPSHLD for replacement. May be used on other SK1200 devices.
4Required for line end bus connection.
Record Plus Lugs and Lug Kits
For Use With
Wire Range (Qty.)
Copper
Aluminum
#14-10
FB100 /FC100
#10-4
#4-1/0
#14-3/0
FE250
#8-250 kcmil
FG600
#8-350 kcmil
Top
#8-400 kcmil
#6-500 kcmil
Bottom
#2/0-600 kcmil
Top
#8-400 kcmil
#6-500 kcmil
Bottom
#2/0-600 kcmil
Product Number
Description
Ampacity Range
FCAL12
FCALK12
FCAL13
FCALK13
FCAL14
FCALK14
FCAL15
FCALK15
FCAL16
FCALK16
Single lug
3-pole lug kit
Single lug
3-pole lug kit
Single lug
3-pole lug kit
Single lug
3-pole lug kit
Single lug
3-pole lug kit
15-20
70-100
FCALK218H
3-pole lug kit
100-600
FCALK318H
2-pole lug kit
100-600
25-60
150
250
66
Spectra Series® Switchboards
Reference Publications
Integrated Switchboards
• DEA-373A
Commercial Metering Switchboards
• DEA-340
Jiffy II Switchboards
• DEA-344
Busway
• DE-307
ZTS
• Standard: PB-5066
• Delay: PB-5067
• Bypass: PB-5068
DC
• GIZ-2691
Process Control Unit (PCU)
• DET-104
PowerBreak II
• GET-8052
Powerpanel
• GET-7006
AV3 Access Switchboard
• DET-138
80
Spectra Series® Switchboards
Appendix
Seismic Compliance Certification
For Spectra & Jiffy Series Switchboards
Qualified to IEEE-693-1997
Qualified to IBC-2009
HIGH Level with 1.33 Amplification Factor.
Sds = 1.05g, Ss = 158%, Ip = 1.5, for z/h > 0
Sds = 1.67g, Ss = 250%, Ip = 1.5, for z/h = 0
in accordance with ICC-ES-AC156.
10
TRS
Peak: 1.70g
g 1
RRS
ZPA: 0.68g
0.1
1
Lowest equipment natural frequency: 4.5 Hz
10
Frequency [Hertz]
Qualified by shake-table testing, Wyle Laboratories, May, 1998,
July, 1998, March, 2001
THIS IS TO CERTIFY THAT THE ABOVE NAMED EQUIPMENT MEETS OR EXCEEDS
ALL OF THE ABOVE REQUIREMENTS ACCORDING TO IEEE-693-1997 AND IBC-2003.
Certification Report Prepared by
W. E. Gundy & Associates, Inc.
P.O.Box 2900, Hailey, ID, 83333
See GE document 10095999P1 for Certification Report, interpretation of test data and P.E. stamp.
81
100
Spectra Series® Switchboards
Appendix
Trip Units by Main Breaker and Functions
Main Breaker
Functions
Power® Break II
Spectra®
Long
Short
Instantaneous
Ground
Ground Fault Alarm
Neutral Protection
ZSI
RELT
Waveform Capture
Metering
Communications
Protective Relays
Trip Units
MicroVersaTrip® Plus MicroVersaTrip® PM Power +
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
EntelliGuard® TU
●
●
●
●
●
●
●
●
●
●
●
●
●
microEntelliGuard™
●
●
●
●
●
●
●
●
●
●
●
●
●
Note: MicroVersaTrip® is in legacy status and is for replacement only.
82
Information provided is subject to change without notice. Please verify all details with GE. All values are design or
typical values when measured under laboratory conditions, and GE makes no warranty or guarantee, express or
implied, that such performance will be obtained under end-use conditions.
GE Energy
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imagination at work
GET-8032C (02/13)