Enclosure Description
Enclosure 6140
Description
Ge614001A
27/1551-LZA 701 6011/1 Uen AD
Copyright
© Ericsson AB 2018. All rights reserved. No part of this document may be
reproduced in any form without the written permission of the copyright owner.
Disclaimer
The contents of this document are subject to revision without notice due to
continued progress in methodology, design and manufacturing. Ericsson shall
have no liability for any error or damage of any kind resulting from the use of this
document.
Trademark List
All trademarks mentioned herein are the property of their respective owners.
These are shown in the document Trademark Information.
27/1551-LZA 701 6011/1 Uen AD | 2018-06-05
Contents
Contents
1
Introduction
1
2
Product Overview
2
2.1
Main Features
2
2.2
Optional Equipment
3
3
Technical Data
20
3.1
Dimensions
20
3.2
Space Requirements
21
3.3
Environmental Characteristics
22
3.4
Power Supply Characteristics
27
3.5
Installation Materials
31
4
Power System Functionality
32
4.1
Power Controller Monitoring Functions
32
4.2
Alarm Functionality
32
4.3
ESC and SCU Functionality
32
5
Hardware Architecture
34
5.1
Overview for Enclosure with DC Power Input
34
5.2
Overview for Enclosure with AC Power Input
35
5.3
Space for 19-inch Equipment
39
6
Power Configurations
45
6.1
AC Basic
45
6.2
AC Basic with Extension
46
6.3
DC Basic
49
6.4
DC Basic with Extension
50
6.5
Approved Battery Types
52
7
Climate System
54
7.1
Air Flow Path for Air Condition Climate Unit
54
7.2
Air Flow Path for HEX System
55
7.3
Fan Control Tray Interface for HEX Climate System
56
7.4
Ventilation Fan
57
7.5
Climate System Power Consumption
57
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Enclosure Description
8
Connection Interfaces for External Cables
59
8.1
Grounding Interface
61
8.2
AC Power Interface (AC-powered Enclosure only)
62
8.3
DC Power Interface (DC-powered Enclosure only)
63
8.4
DC Power Distribution Interface
64
8.5
Battery Interface (AC-powered Enclosure only)
65
8.6
External Alarm Interface on ESC 03 01 or SCU 09 01
66
8.7
External Alarm Interface to Power System Controller (ACpowered Enclosure only)
Outgoing Alarm Interface in DC-powered Enclosure
68
8.8
69
70
8.10
Battery Temperature Sensor Interface (AC-powered Enclosure
only)
Ethernet Interface
9
Internal Cabling
73
9.1
Power Cables
73
9.2
Signaling Cables
80
10
Standards and Regulations
85
10.1
Regulatory Approval
85
10.2
Dependability
87
10.3
Spare Parts
88
10.4
Vandal Resistance
88
10.5
Transportation and Storage
88
8.9
71
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Introduction
1
Introduction
This document is a general description of Enclosure 6140.
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1
Enclosure Description
2
Product Overview
Enclosure 6140 converts AC power to −48 V DC power to radio systems and
auxiliary equipment. The Enclosure also supports both internal and external
battery backup.
Note:
The battery temperature sensors are required as Enclosure 6140 stops
or starts charging batteries based on the battery temperature and
voltage.
For external battery backup, Enclosure 6140 must be connected to a
battery enclosure with sufficient ventilation for the hydrogen gas
generated during battery charging.
AIR Unit / RRU
AIR Unit
Antenna
AIR Unit / RRU
Optical
cables
RRU
Enclosure
Power cables
Ge613098
Figure 1 Enclosure with External Radios
2.1
Main Features
The following enclosure types are available:
— Enclosure with DC Power Input
— Enclosure with AC Power Input
— Enclosure with HEX Climate Solution
2
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Product Overview
— Enclosure with HEX Climate Solution and Battery Air Condition Solution
This enclosure type has extra insulation to improve the internal climate
performance
The Enclosure has the following main features:
— The Enclosure features a power system with a capacity of 8 kW to the load.
Total installed power capacity is maximum 12 kW, and can power up to 15
individual loads.
— The Enclosure is to be installed on the ground.
— Local supervision via LCD display and keypad is supported. (Only available in
enclosure with AC power input)
— One Enclosure type is equipped with a DC Air condition climate unit. The Air
condition climate unit ensures a more controlled internal temperature
environment for the batteries at higher outdoor ambient temperature. The
AirCon is located on the door underneath the HEX climate system.
To prevent buildup of hazard battery hydrogen gas in products with active
cooling compartment space (sealed compartment) a ventilation fan is
located next to the AirCon. The ventilation fan circulates the air at set
intervals. There are IP45-compliant ventilation openings in the ceiling of the
enclosure, to ensure proper ventilation if the ventilation fan is in an nonoperable state.
— The AC-powered Enclosure supports 10 Unit (U) of 19-inch configurable user
space (excluding power system) for optional equipment. The DC-powered
Enclosure supports 21 U of 19-inch configurable user space. The equipment
must be capable of handling the temperatures and air quality offered by the
Enclosure’s air cooling system.
— The Enclosure has the following power supply alternatives:
•
−48 V DC (two-wire)
•
200–240 V AC
— The Enclosure supports external and internal alarms.
— The AC-powered Enclosure has room for one battery string with a maximum
capacity of 48 V/210 Ah, thus providing good power and battery backup
performance in a single enclosure.
2.2
Optional Equipment
The equipment presented in this section is optional and can be ordered
separately.
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3
Enclosure Description
2.2.1
Rectifier (AC-powered Enclosure only)
The AC-powered enclosure can be equipped with up to four rectifiers. Two types
of rectifiers are available:
— Rectifier with 93% efficiency
— Rectifier with 96% efficiency
For more information about rectifiers, refer to Power System Units Description.
Ge613048
Figure 2 Rectifier
2.2.2
ESC 03 01 or SCU 09 01
The control unit is used for remote management, performance management, and
fault management for the enclosure. The control unit is delivered with an
Ethernet cable.
Note:
To enable the functionality offered by the units, the following is needed:
— Initial configuration of LAN interface
For further information, see Integrate Controller.
4
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Product Overview
SC U 0 9
01
1
2
SAU
EC
EXT ALAR
SERIAL
M
-48V
G109416A
Figure 3 ESC 03 01 or SCU 09 01
2.2.3
4U DC Distribution Unit (AC-powered Enclosure only)
The AC-powered enclosure can be expanded with a DC Distribution Unit with up
to 21 circuit breakers if needed. The DC Distribution Unit takes up 4 U space in
user space compartment. For more information about the DC Distribution
Expansion, refer to Power System Units Description.
+0V
-48V
Ge613056
Figure 4 DC Distribution Unit
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5
Enclosure Description
2.2.4
1U DC Distribution Unit
The enclosure can be expanded with an 1U DC Distribution Unit to increase the
power configuration by expanding the DC power outlets. More information can
be found in Power System Units Description.
CB4
CB5
CB6
CB7
CB8
LP -ALM
CB9
ON
ON
ON
ON
ON
ON
ON
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
25
25
25
25
25
25
25
25
25
-48V
T1
T2
T3
T4
T5
T6
T7
T8
NO
CB3
ON
O
OFF
T9
C
CB2
ON
O
OFF
OV
NC
CB1
G109175A
2.2.5
Circuit Breaker for DC Distribution
A wide range of circuit breakers (rated 125 A, 63 A, 50 A, 40 A, 32 A, 25 A, 16 A,
10 A, and 6 A) can be used in DC Distribution Unit of the Enclosure.
In addition, Enclosure AC Full 19-inch Rack can be equipped with 2-pole 63 A
circuit breakers for DC distribution, as shown in Figure 6.
For more information about circuit breaker for DC Distribution, refer to Power
System Units Description.
6
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Product Overview
Ge613036
Figure 5 Circuit Breaker for DC Distribution
G111242A
Figure 6 2-pole 63 A Circuit Breaker
2.2.6
Circuit Breaker for Battery (AC-powered Enclosure only)
The AC-powered enclosure can be equipped with two 2x125 A battery circuit
breakers rated 200 A. For more information about circuit breaker for battery, refer
to Power System Units Description.
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7
Enclosure Description
Ge613054
Figure 7 Circuit Breaker for Battery
2.2.7
Battery Temperature Sensor
The cable-connected battery temperature sensor is a physical unit that measures
the temperature inside the battery compartment. It is fastened with double-side
adhesive on the temperature sensor holder on the side of a battery block and
connected to the power system controller.
Ge6150137A
Figure 8 Battery Temperature Sensor
2.2.8
DC Cables for Battery
The Enclosure supports the following DC cables for battery connection:
— 50 mm², 9 meters coil
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Product Overview
— 70 mm², 14 meters coil
2.2.9
AC Service Outlet (AC-powered Enclosure only)
The AC-powered enclosure can be equipped with an AC power outlet socket,
including a Residual Current Breaker (RCB) for personal safety. The service outlet
and the RCB are easily installed on site.
Four alternative AC power sockets for different regions are currently available:
— China (Type I)
— Europe (Type F)
— United Kingdom (Type G)
— United States (Type B)
CN
EU
UK
US
Ge0540E
Figure 9 AC Service Outlet Types
2.2.10
OVP
The Overvoltage Protector (OVP) is an interface between the enclosure and
incoming alarm and transmission cables.
The enclosure supports up to three alarm OVPs (OVP-ALM8), eight transmission
OVPs (OVP-TRM) or eight OVP-ETH.
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9
Enclosure Description
Ge614097
Figure 10 OVP-ALM8
EIM-T1
Ge615086
Figure 11 OVP-TRM
Internal
(Protection)
ERICSSON
OVP-ETH
External
(Surge)
1 2 3 4 5 6 7 8
G110752A
Figure 12 OVP-ETH
10
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Product Overview
2.2.11
SAU 02 01
The Support Alarm Unit (SAU) is an alarm connection panel that connects
external alarms and transmission cables through the Overvoltage Protector
(OVP). The external equipment is connected to the SAU through an OVP-ALM8.
The SAU monitors the pair cable to see whether it is a closed loop or an open
loop. The alarm is then reported to ESC 03 01 or SCU 09 01.
Note:
If a configuration uses more than four external alarms through OVPALM8, the configuration needs an SAU as well.
The DIN-rail supports placement of a maximum of three OVP-ALM8 and
an SAU, thus supporting a maximum of 24 external alarms.
1
4
9 17
12 20
25
28
5
8
13 21
16 24
29
32
SAU 02 01
EXTERNAL
ALARMS
SAU
Ge4629B
Figure 13 SAU 02 01
For more information about the SAU, refer to "SAU Description" in the EN/LZN
760 1000 library.
2.2.12
DC Heater
The enclosure can be equipped with a DC heater to benefit the customer
equipment in climates where the temperature remains below 0°C for substantial
periods of time. The DC heater is delivered with connection cables, installation
materials and a 16A circuit breaker.
Ge614090
Figure 14 DC Heater
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11
Enclosure Description
2.2.13
Heater Unit
The enclosure can be equipped with a heater unit for the batteries to support
battery capacity down to −33°C outdoor ambient temperature. The heater unit
works autonomously and has two built-in temperature sensors. It turns on and
off depending on the ambient temperature in the internal battery compartment.
2.2.14
Lifting Ears
Four lifting ears need to be installed if the enclosure is to be moved by a lifting
device. It is delivered with installation screws.
Ge613069
Figure 15 Lifting Ear
2.2.15
Optional Cable Glands
The Enclosure offers three types of cable glands for cables of different sizes.
—
Ge615092
M25 V0 Cable bushing Multiple (4x) diameter 6 mm
O-Ring id 21, th 2 for M25 cab
12
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Product Overview
NUT M25X1.5 UL 94-HB
—
Ge615091
M25 V0 Cable bushing Multiple (5x) diameter 5 mm
O-Ring id 21, th 2 for M25 cab
NUT M25X1.5 UL 94-HB
—
Ge615093
M25 V0 Cable bushing for One diameter 8-17 mm
O-Ring id 21, th 2 for M25 cab
NUT M25X1.5 UL 94-HB
In addition to the above cable glands, the AC Full 19-inch Rack Enclosure
supports three more types of cable glands, as shown in Table 1.
Table 1
Additional Cable Glands for Enclosure AC Full 19-inch Rack
Product
number
Hole diameter Cable holes
(mm)
Cable
diameter
(mm)
Number of
sealing pins
included
NDM 902
040/1
26
6
4
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4
13
Enclosure Description
2.2.16
Product
number
Hole diameter Cable holes
(mm)
Cable
diameter
(mm)
Number of
sealing pins
included
NDM 902
040/2
26
5
5
5
L-support Brackets
The integrated enclosure can be configured with a pair of L-support brackets, its
appearance is shown in Figure 16. The L-support brackets are installed in the
internal side of the 19'' rack for supporting the user equipment and facilitating
the installation and equipment maintenance. When installing heavy equipment,
it is recommended to use the L-support brackets.
Ge613064A
Figure 16 L-support Brackets
2.2.17
L-support Shelf
The enclosure can be installed with the L-support shelves, as shown in Figure 17.
The L-support shelves are installed in the 19-inch rack for supporting the user
equipment and facilitating the installation and equipment maintenance. When
installing heavy equipment, it is recommended to use the L-support shelves.
14
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Product Overview
G111122A
Figure 17 L-support Shelf
2.2.18
Grounding Cable
The following grounding cables are available:
— 35 mm², 6 m
— 35 mm², 13 m
2.2.19
Hybrid Cable Box (AC Full 19-inch Rack Enclosure Only)
The connection box is installed at the bottom of the cabinet for installing hybrid
cables. The box has three holes on the right, left, and back sides respectively. It
can house a maximum of three hybrid cables.
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15
Enclosure Description
G111141A
Figure 18 Hybrid Cable Box
The hybrid cable box also includes the following accessories for cable connection:
— External grounding bar
— M50 cable gland and additional sealing rubber
— Tool for cable gland
The external grounding bar is used for grounding the cabinet and connecting the
screen on the hybrid cable.
G111145A
Figure 19 External Grounding Bar
The box contains three M50 cable glands. Each cable gland has an additional
sealing rubber for securing cables of different sizes.
G111196A
Figure 20 Cable Gland and Optional Sealing Rubber
16
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Product Overview
Table 2
M50 Cable Gland
Product
number
Hole diameter Cable holes
(mm)
Cable
diameter
(mm)
Sealing
NDM 902
040/5
50
22
Use 25–31
mm sealing
rubber
1
27.5
36
Use 32–38
mm sealing
rubber
The special tool is provided for tightening the M50 cable glands.
G111202A
Figure 21 Tool for Cable Gland
2.2.20
Media Converter (AC Full 19-inch Rack Enclosure Only)
The enclosure can be equipped with a media converter for optical northbound
communication for the SCU 09 01. The converter must be used with an SFP
module for operation.
G111142A
Figure 22 Media Converter
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17
Enclosure Description
2.2.21
Cover Plates
The following cover plates are available for the enclosure base frame:
— Front and back cover plate
G111234A
— Side cover plate with no cable inlet
G111205A
— Side cover plate with 2 × 52 mm cable inlets
G111204A
— Side cover plate with 6 × 26 mm cable inlets
18
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Product Overview
G111203A
2.2.22
Padlock
The enclosure can be locked with a padlock.
A=8mm
B=25mm
C=25mm
A
C
B
G111139A
Figure 23 Padlock
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19
Enclosure Description
3
Technical Data
This section describes the physical characteristics, environmental data, and the
power supply of the enclosure.
3.1
Dimensions
Table 3 lists the dimensions, weight, and color of the main unit. More information
on dimensions can be found in Figure 24.
Table 3
Dimensions, Weight, and Color
Dimensions
Height
1455 mm
1605 mm including ground base frame
Width
700 mm
Depth
750 mm
860 mm for Enclosure with Air condition climate unit
Weight
20
Maximum configured Enclosure including
ground base frame
175 kg
183 kg for Enclosure with Air condition climate unit
Color
Gray
Reference number: NCS S 2002-B (RAL 7035)
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Technical Data
700
1455
150
750
Unit of measurement: mm
Ge614001B
Figure 24 Dimensions of Enclosure 6140
3.2
Space Requirements
Minimum distances to provide adequate working space can be found in Figure
25.
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21
Enclosure Description
200
200
200
400
125°
565
Unit of measurement: mm
Ge9584F
Figure 25 Recommended Minimum Free Working Space
3.3
Environmental Characteristics
This section describes the environmental characteristics of the enclosure.
Figure 26 illustrates what environmental factors to consider when planning the
enclosure placement, especially near the sea.
22
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Technical Data
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P
&DOPRUSURWHFWHGVHD ED\DUFKLSHODJRVLPLODU
P
%HVWSUDFWLFHIRUQHDUFRDVWLQVWDOODWLRQYDOLGIRUVFHQDULR
DERYHXVHWRSRJUDSK\DVVKHOWHUIURPVHDZLQG
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Ge8896A
Figure 26 Environmental Factors to Consider
3.3.1
Operating Environment
Table 4 shows the values for the normal operating environment of the enclosure.
Table 4
Operating Environment
Description
Value
Temperature range, normal operation
−33°C to +45°C
Temperature range, transportation
−40°C to +70°C
Temperature range, storage(1)
−25°C to +55°C
Relative humidity, normal operation
15–100%
Relative humidity, transportation and storage(1)
15–100%
(1) Maximum three months
3.3.2
Acoustic Noise Summary
The system is practically noise-free at ambient temperatures below +15°C, since
the enclosure fans are not operating below this temperature. Above +15°C, the
fans operate at a linearly increasing speed as the ambient temperature rises.
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23
Enclosure Description
In normal temperature, the enclosure acoustic noise in sound level is less than 7.8
Bel (A).
Table 5 Sound Pressure for Enclosure 6140 AC-powered at Bystander Position
of 1 Meter, dB(A)
Equipment (100% Power Load)
100% Fan Speed
70% Fan Speed
40% Fan Speed
Ambient
Temperature
15°C
61.4
55.8
55.8
30°C
67.2
64.3
61.4
45°C
71.6
71.6
70.6
Table 6 Sound Pressure for Enclosure 6140 DC-powered at Bystander Position
of 1 Meter, dB(A)
3.3.3
Equipment (100% Power Load)
100% Fan Speed
70% Fan Speed
40% Fan Speed
Ambient
Temperature
15°C
58.1
54.1
54.1
30°C
65.2
63.1
58.8
45°C
69.5
69.5
68
Vibration and Shock
IEC Class 4M5 for vibration and shocks according to IEC 682-6 and IEC 682-29,
assuming proper installation and use of the enclosure approved accessories only.
3.3.4
Materials
The cabinet is made of galvanized steel. The materials in the enclosure are
managed through the Ericsson lists of banned and restricted substances, based
on legal and market requirements.
3.3.5
Heat Dissipation
Figure 27, Figure 28, Figure 29, Figure 30 and Figure 31 show how the heat
dissipation capability changes with the outdoor temperature.
24
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Technical Data
Outdoor Temperature vs User Equipment Heat Load
Enclosure 6140 AC (8kW Power System / 93% Efficiency Recfiers)
55
Outdoor temp (C)
50
45
40
35
User Equipment (DC configura"on)
30
User Equipment (4kW Power System Load, 93% Eff. Rect.)
User Equipment (8kW Power System Load, 93% Eff. Rect.)
25
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Internal heat load (W)
G111276A
Figure 27 Outdoor Temperature VS. User Equipment Heat Load for 6140 AC
with 93% Efficiency Rectifiers
Outdoor Temperature vs User Equipment Heat Load
Enclosure 6140 AC (8kW Power System / 96% Efficiency Recfiers)
55
Outdoor temp (C)
50
45
40
35
User Equipment (DC configura"on)
30
User Equipment (4kW Power System Load, 96% Eff. Rect.)
User Equipment (8kW Power System Load, 96% Eff. Rect.)
25
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Internal heat load (W)
G111275A
Figure 28 Outdoor Temperature VS. User Equipment Heat Load for 6140 AC
with 96% Efficiency Rectifiers
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25
Enclosure Description
Outdoor Temperature vs User Equipment Heat Load
Enclosure 6140 AC full 19" (8kW Power System / 93% Eff. Rect.)
55
Outdoor temp (C)
50
45
40
35
User Equipment (DC configura"on)
30
User Equipment (8kW Power System Load, 93% Eff. Rect.)
User Equipment (8kW Power System Load, 93% Eff. Rect.)
25
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Internal heat load (W)
G111274A
Figure 29 Outdoor Temperature VS. User Equipment Heat Load for 6140 AC
Full 19-inch with 93% Efficiency Rectifiers
Outdoor Temperature vs User Equipment Heat Load
Enclosure 6140 AC full 19" (8kW Power System /96% Eff. Rect.)
55
Outdoor temp (C)
50
45
40
35
User Equipment (DC configura"on)
30
User Equipment (4kW Power System Load, 96% Eff. Rect.)
User Equipment (8kW Power System Load, 96% Eff. Rect.)
25
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Internal heat load (W)
G111273A
Figure 30 Outdoor Temperature VS. User Equipment Heat Load for 6140 AC
Full 19-inch with 96% Efficiency Rectifiers
26
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Technical Data
Outdoor Temperature vs User Equipment Heat Load
Enclosure 6140 DC
55
Outdoor temp (C)
50
45
40
35
30
25
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Internal heat load (W)
G111289A
Figure 31 Outdoor Temperature VS. User Equipment Heat Load for 6140 DC
3.4
Power Supply Characteristics
This section describes the requirements of the incoming power to the enclosure,
the power performance, and the fuse and circuit breaker recommendations for
the enclosure.
3.4.1
DC Input
The DC-powered Enclosure is available with −48 V DC power system, as listed in
Table 7.
Table 7
DC Input Data
DC Power
−48 V DC, 2-wire
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Conditions
Values and Ranges
Nominal voltage
−48 V DC
Operating voltage range
−40.0 to −58.5 V DC
Non-destructive voltage range
0 to −60.0 V DC
Maximum input current
200 A
Recommended DC mains fuse
250 A
27
Enclosure Description
3.4.2
AC Input
The AC-powered Enclosure can handle three-phase, split-phase, and singlephase AC power as listed in Table 8. The factory default configuration is threephase.
Table 8
AC Input Data
Description
Value
Input voltage
Nominal: 200–240 V AC
Range: 85–300 V AC
Normal operation:
3-phase feeding, L1, L2, L3, N and PE
2-phase feeding: L1, L2, N and PE
1-phase feeding: L, N and PE
Line frequency
45–65 Hz
Maximum input current
70 A for 2-phase and 1-phase feeding
35 A for 3-phase feeding
Rectifier efficiency
93% or 96%
AC input can have many different local variations. External main power breakers
and cable dimensions depend on the local power delivery options. Table 9 lists
the different options together with recommended dimensions of main power
breakers and cable dimensions.
Table 9
3.4.3
AC Power Supply Options
Configuration
Voltage range V AC
Recommended AC Main
Breaker
Recommended AC cable
size (mm2)
3W + N + PE
346/200–415/240
3p 50 A
PE: 6–10
N and L: 16–35
2W + N + PE
208/120–220/127
2p 100 A
PE: 6–10
N and L: 16–35
1W + N + PE
200–240
3p 50 A or 1p 100 A
PE: 6–10
N and L: 16–35
DC Output
Table 10 and Figure 32 describe the DC output data valid for the enclosure.
Table 10
DC Output Data
Description
Value
Output voltage
Nominal: −48 V
Range: −39.5 V to −58.5 V
28
Output power
AC Power System capacity, divided between battery
loading and loads: 8 kW to the load, 4 kW to the
battery
DC Power System capacity to the load: maximum 8
kW
Circuit breaker ratings (A)
PL(1)1–6, ML(2)1–8: rated 6 A to 63 A
ML9, the circuit breaker on the rightmost position:
rated 6 A to 125 A
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Technical Data
Description
Value
Battery interface
2 x circuit breaker rated 200 A
(1) Priority Load (PL)
(2) Main Load (ML)
Ge613061
Gray
included in
cabinet
B1
B2
PL1 for
ESC/SCU
ML1 for
Heater
ML9 can be equipped with
an 125A CB
Fan
&
DC
SPD Lamp
PL PL PL PL PL PL ML ML ML ML ML ML ML ML ML
1 2 3 4 5 6 1 2 3 4 5 6 7 8
9
From high to low CB
Ampere ratings
From high to low CB
Ampere ratings
G109431A
Figure 32 DC Output Distribution
The DC output power of each rectifier is rated to a maximum value of 3 kW. This
value becomes smaller at increasing rectifier inlet temperature and is shown
graphically in Figure 33 and Figure 34.
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29
Enclosure Description
3500
Output power (w)
3000
2500
2000
1500
1000
500
0
0
15
25
35
45
55
65
70
Temperature (˚C)
Ge613043A
Figure 33 DC Output Power Characteristics for 93% Efficiency Rectifier
3500
Output power (w)
3000
2500
2000
1500
1000
500
0
0
15
25
35
45
55
65
70
Temperature (˚C)
Ge613043B
Figure 34 DC Output Power Characteristics for 96% Efficiency Rectifier
30
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Technical Data
3.5
Installation Materials
Table 11
Installation Materials
Item Name
Specification
Quantity
Unit
L-support for 19-inch rack
2
SET
Ground clip
3
SET
Plug bolt
M10 x 80
4
PCS
Panel screw
M6 x 16
20
PCS
Floating nut
M6
20
PCS
1
PCS
1
PCS
Battery spacer
3
PCS
Sealing mud(2)
1
kg
Drilling template for
installation
1
PCS
L Jumper
(1)
N Jumper(1)
(1)
(1) For Enclosure 6140 AC-powered only
(2) Sealing mud is used for additional sealing of cable outlets and inlets, if deemed necessary.
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31
Enclosure Description
4
Power System Functionality
Power system features are defined and controlled by the power system controller.
This functionality is applicable for configurations containing an ESC or SCU.
For more information on the controller, see Power System Controller User Guide.
4.1
Power Controller Monitoring Functions
The power system controller provides energy-saving management and battery
charging-discharging management. It displays the value of the system voltage,
load current, battery voltage, battery current, battery temperature. It also
displays information regarding AC power distribution detection, alarm reports,
control of load disconnection and battery protection functionality.
4.2
Alarm Functionality
The power system controller can both visually via LEDs and audibly via sound
signals indicate whether a system fault is present. There are two levels of alarms:
MAJOR alarms and OBSERVATION alarms. Users can set the level of each alarm
according to the actual situation. Users can also set the corresponding relay
output, or NO relay output for each alarm type. MAJOR alarms are also
forwarded to the ESC 03 01 or SCU 09 01.
Users have access to history alarm logs and current logs. The history alarm logs
include alarm type, start time, and end time, while the current logs only cover
alarm type and start time. The logs are displayed in chronological order of start
time. The latest 1000 history alarm logs can be saved at most.
4.3
ESC and SCU Functionality
The control unit enables remote management and supervision of site equipment:
— Configuration Management of power system parameters using CLI or
Ericsson Site Controller Management System (ESCM).
— SNMP v2/v3 alarms to management system.
— Performance Management
Management systems with support for ESC 03 01 or SCU 09 01:
— Configuration: ESCM
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Power System Functionality
— Alarms: ESCM, OSS-RC version 10.3 or later
— Performance: ESCM
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33
Enclosure Description
5
Hardware Architecture
This section contains information on both mandatory and optional hardware
units based on a fully equipped enclosure.
5.1
Overview for Enclosure with DC Power Input
This section contains an overview of the standard hardware units required,
regardless of configuration.
Figure 35 shows the location of hardware units, and Table 12 describes the
hardware units in the enclosure.
A
B
C
D
F
N
I
O
J
R
K
L
P
M
Ge613019C
Figure 35 Hardware Units in Enclosure 6140, DC-powered
Table 12
Hardware Units
Position
Name of Unit
Description
LED lamp
Service lamp to facilitate installation and maintenance work. Its switch is located on
its right side.
Air channel
Includes two fans and a fan control board. See Table 23 for fan board control
signaling.
A
B
34
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Hardware Architecture
Position
Name of Unit
Description
Door switch
The door switch sends an alarm signal to indicate door open when the door is
opened.
ESC or SCU(1)
Remote control and monitor of the enclosure through Internet Protocol (IP)
connectivity. It is optional for DC-powered enclosure.
DC distribution unit
Includes a DC SPD and a number of circuit breakers according to configuration.
Maximum configuration includes 21 circuit breakers.
I
Alarm outputs
Connector block for alarm outputs.
J
User space for 19-inch
equipment
21 U user space.
K
Grounding bar
The grounding bar comprises an Main Earthing Terminal (MET).
L
DIN rail
Used for installing transmission or alarm OVP(2).
M
Cable inlets
Used for routing external cables.
N
HEX(3) cabinet door
Cabinet door with HEX climate system.
Door lock
The door lock allows the enclosure to be secured in a closed position.
P
External fans
Includes two external fans.
R
DC heater
The optional DC heater can be installed here.
C
D
F
(1) Ericsson Site Controller (ESC) or Support Control Unit (SCU)
(2) Overvoltage Protection (OVP)
(3) Heat Exchanger (HEX)
5.2
Overview for Enclosure with AC Power Input
This section contains an overview of the standard hardware units required,
regardless of configuration.
Figure 36, Figure 37, and Figure 38 show the location of hardware units. Table 13
describes the hardware units in the enclosure.
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35
Enclosure Description
A
B
S
C
D
E
O
F
G
H
I
R
J
L
K
P
Q
M
N
Ge614003D
Figure 36 Hardware Units in Enclosure 6140, AC-powered
36
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Hardware Architecture
A
S
V
B
C
D
E
O
F
G
H
I
L
R
J
P
K
M
Q
Alarm
COM.IN
Run
T
COM.OU
- 4 8 V D C RT N P E
NO
COM
NC
7 8
5 6
3 4
1 2
N
ESC
ENTER
U
T
G111176A
Figure 37 Hardware Units in Enclosure 6140 with Air Condition Climate Unit
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37
Enclosure Description
A
B
S
C
D
E
O
F
G
H
I
J
L
K
P
W
R
Q
M
Y
X
G111109A
Figure 38 Hardware Units in Enclosure 6140, AC Full 19-inch Rack
Table 13
Hardware Units
Position
Name of Unit
Description
LED lamp
Service lamp to facilitate installation and maintenance work. Its switch is located on
the right side.
Air channel
Includes two fans and a fan control board. See Fan Control Tray Interface for HEX
Climate System on page 56 for fan board control signaling.
Door switch
The door switch sends an alarm signal to indicate door open when the door is
opened.
ESC 03 01 or SCU 09 01(1)
Remote control and monitor of the enclosure through Internet Protocol (IP)
connectivity.
AC power interface
Includes incoming AC circuit breakers and AC SPD. The optional AC service outlet
can be installed here.
DC distribution unit
Includes a DC SPD and a number of circuit breakers according to configuration.
2 x battery circuit breakers, 7 x PL(2)circuit breakers, 9 x ML(3) circuit breakers.
G
Rectifier
Four positions.
H
Controller unit
System controller for on-site access.
I
Alarm inputs and outputs
Connector blocks for alarm inputs and outputs.
J
User space for 19-inch
equipment
AC-powered Enclosure: 10 U user space.
Enclosure AC Full 19-inch Rack: 19 U user space.
A
B
C
D
E
F
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Hardware Architecture
Position
Name of Unit
Description
K
Grounding bar
The grounding bar comprises an Main Earthing Terminal (MET).
L
DIN rail
Used for installing transmission or alarm OVP(4).
M
Cable inlets
Used for routing external cables.
Battery compartment
Used for installing internal batteries.
For Enclosure with Air Conditioner, the battery compartment has extra insulation and
can be equipped with a battery heater.
O
HEX(5) cabinet door
Cabinet door with HEX climate system.
P
Door lock
The door lock allows the enclosure to be secured in a closed position.
Q
External fans
Includes two external fans.
R
DC heater
The optional DC heater can be installed here.
S
AC service outlet
The optional AC service outlet can be installed here.
Air condition climate unit
The Air condition climate unit ensures a more controlled internal temperature
environment for the batteries at higher outdoor ambient temperature.
Ventilation fan
The ventilation fan prevents buildup of hazard battery hydrogen gas in products with
active cooling compartment space (sealed compartment).
Ventilation opening
Two ventilation openings ensure proper ventilation if the ventilation fan is in a nonoperable state.
W
L-support shelf
The optional L-support shelf can be installed here for heavy units.
X
Hybrid cable box
The optional hybrid cable box can be installed here for hybrid cable connection.
Media converter
The optional media converter can be installed here for the optical northbound
communication of the ESC 03 01 or SCU 09 01.
N
T
U
V
Y
(1)
(2)
(3)
(4)
(5)
Ericsson Site Controller (ESC) or Support Control Unit (SCU)
Priority Load (PL)
Main Load (ML)
Overvoltage Protection (OVP)
Heat Exchanger (HEX)
5.3
Space for 19-inch Equipment
The enclosure can supply −48 V DC to various equipment, and 19-inch equipment
can be installed in the user space in the enclosure.
Figure 39 shows the dimensions of the available user space for AC-powered
enclosure. Figure 40 shows the dimensions of the available user space for DCpowered enclosure. Figure 41 shows the dimensions of the available user space
for DC-powered enclosure.
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39
Enclosure Description
A
B
C
Ge613049
Figure 39 19-inch Equipment Space for AC-powered Enclosure
A
B
C
G111153A
Figure 40 19-inch Equipment Space for DC-powered Enclosure
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Hardware Architecture
A
B
C
G111154A
Figure 41 19-inch Equipment Space for AC Full 19-inch Rack Enclosure
Table 14
Key to 19-inch Equipment Space for Enclosure
Distance
Value
A
AC-powered Enclosure: 10 U
DC-powered Enclosure: 21 U
AC Full 19-inch Rack Enclosure: 19 U
B
355 mm
C(1)
19 inch
(1) This is the measure inside.
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41
Enclosure Description
D1
19” Chassis
W
D2
W
Ge614037
Figure 42 Top View for User Space Compartment
42
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Hardware Architecture
19” Rack
Rear Rack Wall
Front / Door
19” Chassis
D2
D1
Ge614041
Figure 43 Side View for User Space Compartment
Table 15
Key to User Space Compartment
Enclosure
D1(1) (mm) (Space for
cabling)
D2(2) (mm)
W(3) (mm) (Air channel)
6140 AC
184
420
78
6140 DC
154
400
78
6140 AC Full 19-inch
Rack
154
400
78
(1) Depth 1 (D1)
(2) Depth 2 (D2)
(3) Width (W)
The maximum heat dissipation for the enclosure user space is described in Heat
Dissipation on page 24. The equipment must be capable of handling the
temperatures and air quality provided by the enclosure's air cooling system.
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43
Enclosure Description
5.3.1
19-Inch Baseband
A 19-inch baseband is a 1U high and 19-inch wide unit. It requires −48 V DC,
which is standard Ericsson Radio System voltage, minimizing the need for extra
power supply.
For more information about 19-inch baseband units, refer to Baseband
Description.
Note:
44
The 19-inch baseband unit is installed in the space for 19-inch
equipment in Enclosures and in the space for optional equipment in
RBSs.
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Power Configurations
6
Power Configurations
This section describes the power system variants that exist in different
installations of the Enclosure and how they are equipped to meet the power
consumption requirements.
Enclosure 6140 has the following power system variants with different maximum
power capacity for each type of power input:
— 200–240 V AC input – DC system load up to 8 kW
— −48 V DC input – DC system load up to 8 kW
6.1
AC Basic
This configuration is prepared for an input power feed of 200–240 V AC and with
a DC system load up to 8 kW.
Rectifier 1
Rectifier 2
Rectifier 3
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
Figure 44 shows an example of circuit breakers and rectifiers and their placement
for the configuration. The number and type of circuit breakers and rectifiers that
are installed can vary depending on configuration needs. Table 16 lists the
number of circuit breakers and rectifiers limitations.
Rectifier 4
Ge613015
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45
Enclosure Description
Ge613065B
Figure 44 Hardware Units Configuration Example, 200–240 V AC Input – DC
System Load Up to 8 kW
Table 16 Hardware Units Configuration Example, 200–240 V AC Input – DC
System Load Up to 8 kW
Unit
Number of Units in Configuration
Comment
Battery circuit breaker
1–2
Rated 200 A(1)
DC SPD
1
Circuit breaker for HEX fans, LED
lamp and DC Air condition climate
unit
1
Rated 32 A
PL(2) circuit breaker
1–6
PL1: rated 6 A, used for ESC or
SCU
PL 2–6: Rated 6 A to 63 A
ML(3) circuit breaker
0–9
ML 1–8: rated 6 A to 63 A
ML 9: rated 6 A to 125 A
Rectifier
1–4
The maximum output power of
each rectifier is 2900 W. For more
information, refer to Power Unit
Description.
(1) The battery circuit breaker consists of two 125A circuit breakers mechanically fixed together
and electrically connected in parallel. The electrical rating for this combined CB will be 200 A.
This CB will be described as “125A 2-poles” in CPI.
(2) Priority Load (PL)
(3) Main Load (ML)
6.2
AC Basic with Extension
This configuration is prepared for an input power feed of 200–240 V AC and with
a DC system load up to 8 kW.
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Power Configurations
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
DC SPD
CB21
CB20
CB19
CB18
CB17
CB16
CB15
CB14
CB13
CB12
Rectifier 4
CB11
CB10
PL4
PL3
PL2
PL1
CB9
Rectifier 3
CB8
CB7
CB6
CB5
CB4
Rectifier 2
CB3
CB2
CB1
Rectifier 1
DC SPD
BATT2
BATT1
Figure 45 shows an example of circuit breakers and rectifiers and their placement
for the configuration. The number and type of circuit breakers and rectifiers that
are installed can vary depending on configuration needs. Table 17 lists the
number of circuit breakers and rectifiers limitations.
Ge613015D
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47
Enclosure Description
G109544A
Figure 45 Hardware Units Configuration Example, 200–240 V AC Input – DC
System Load Up to 8 kW
Table 17
8 kW
Hardware Units Configuration Example, 200–240 V AC Input – DC System Load Up to
Unit
Number of Units in Configuration
Comment
Battery circuit breaker
1–2
Rated 200 A(1)
DC SPD
2
Circuit breaker for HEX fans, LED lamp and
DC Air condition climate unit
1
Rated 32 A
PL(2) circuit breaker
1–6
PL1: rated 6 A, used for ESC or SCU
PL 2–6: Rated 6 A to 63 A
ML(3) circuit breaker
0–9
ML 1–8: rated 6 A to 63 A
ML 9: rated 125 A
Rectifier
1–4
The maximum output power of each
rectifier is 2900 W. For more information,
refer to Power Unit Description.
Extended circuit breaker (ML(3))
1–21
Rated 6 A to 63 A
(1) The battery circuit breaker consists of two 125A circuit breakers mechanically fixed together and electrically
connected in parallel. The electrical rating for this combined CB will be 200 A. This CB will be described as “125A 2poles” in CPI.
(2) Priority Load (PL)
(3) Main Load (ML)
48
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Power Configurations
CB4
CB5
CB6
CB7
CB8
LP -ALM
CB9
ON
ON
ON
ON
ON
ON
ON
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
25
25
25
25
25
25
25
25
-48V
T1
T2
T3
T4
T5
T6
T7
T8
NO
CB3
ON
O
OFF
25
T9
C
CB2
ON
O
OFF
OV
NC
CB1
G109188A
Figure 46 Hardware Units Configuration Example with 1U DCDU Unit
Table 18
Hardware Units Configuration Example with 1U DCDU Unit
Unit
Number of Units in Configuration
Comment
Circuit breaker
9
Fixed 9 positions of 25 A circuit breakers.
6.3
DC Basic
This configuration is prepared for an input power feed of −48 V DC and with a DC
system load up to 8 kW.
DC SPD
CB21
CB20
CB19
CB18
CB17
CB16
CB15
CB14
CB13
CB12
CB11
CB10
CB9
CB8
CB7
CB6
CB5
CB4
CB3
CB2
CB1
Figure 47 shows an example of circuit breakers and their placement for the
configuration. The number and type of circuit breakers that are installed can vary
depending on configuration needs. Table 19 lists the number of circuit breakers
limitations.
Ge613015B
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49
Enclosure Description
0V Input
-48V Input
G109538A
Figure 47 Hardware Units Configuration Example, −48 V DC Input – DC System
Load Up to 8 kW
Table 19 Hardware Units Configuration Example, −48 V DC Input – DC System
Load Up to 8 kW
6.4
Unit
Number of Units in Configuration
Comment
Circuit breaker
1–21
CB1: Rated 25 A, used for HEX
fans, LED lamp and DC Air
condition climate unit
CB 2–21: Rated 6 A to 63 A
DC SPD
1
DC Basic with Extension
This configuration is prepared for an input power feed of −48 V DC and with a DC
system load up to 8 kW.
Figure 48 shows an example of circuit breakers and their placement for the
configuration. The number and type of circuit breakers that are installed can vary
depending on configuration needs. Table 20 lists the number of circuit breakers
limitations.
50
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CB1
CB2
CB3
CB4
CB5
CB6
CB7
CB8
CB9
CB10
CB11
CB12
CB13
CB14
CB15
CB16
CB17
CB18
CB19
CB20
CB21
DC SPD
CB1
CB2
CB3
CB4
CB5
CB6
CB7
CB8
CB9
CB10
CB11
CB12
CB13
CB14
CB15
CB16
CB17
CB18
CB19
CB20
CB21
DC SPD
Power Configurations
Ge613015E
0V Input
-48V Input
G109539A
Figure 48 Hardware Units Configuration Example, −48 V DC Input – DC System
Load Up to 8 kW
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51
Enclosure Description
Table 20 Hardware Units Configuration Example, −48 V DC Input – DC System
Load Up to 8 kW
Unit
Number of Units in Configuration
Comment
Circuit breaker
1–21
CB1: Rated 16 A, used for HEX
fans, LED lamp and DC Air
condition climate unit
CB 2–21: Rated 6 A to 63 A
DC SPD
2
Extended circuit breaker
1–21
CB 1–21: Rated 6 A to 63 A
-48V Input
0V Input
CB4
CB5
CB6
CB7
CB8
CB9
ON
ON
ON
ON
ON
ON
ON
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
O
OFF
25
25
25
25
25
25
25
25
25
LP -ALM
-48V
T1
T2
T3
T4
T5
T6
T7
T8
NO
CB3
ON
O
OFF
T9
C
CB2
ON
OV
NC
CB1
G109233A
Figure 49 Hardware Units Configuration Example with 1U DCDU Unit
Table 21
Hardware Units Configuration Example with 1U DCDU Unit
Unit
Number of Units in Configuration
Comment
Circuit breaker
9
Fixed 9 positions of 25 A circuit breakers.
6.5
Approved Battery Types
The specified performance and warranties stipulate the use of batteries that
have been approved for the Enclosure. Table 22 lists approved battery types.
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Power Configurations
Table 22
Approved Battery Types
Manufacturer
Brand name
Northstar
NSB210FT Red
NSB190FT Red
NSB170FT Red
NSB100FT Red
NSB210FT Blue+
NSB190FT Blue+
NSB170FT Blue+
NSB100FT Blue+
NS200FT Black
NS150FT Black
NS100FT Black
Enersys
SBS 190F Eon
SBS 170F Eon
SBS 100F Eon
Powersafe 12V100FC
Powersafe 12V170FS
Powersafe 12V190F
Leoch
LPF12-200
LPF12-150A
LPF12-100H
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53
Enclosure Description
7
Climate System
This section introduces the composition of the climate system.
7.1
Air Flow Path for Air Condition Climate Unit
The air flow in the equipment compartment is conducted using natural
convection.
The air flow in the battery compartment is handled by the air condition climate
unit located on the door.
The internal cycle air path absorbs the hot air on the upside of the air conditioner,
and discharges the cold air from the air conditioner on the downside. The
external cycle air path absorbs the external cold air from the downside and
discharges the hot air from the upside after heat exchange.
A evacuation fan is located next to the air condition climate unit on the door. The
evacuation fan prevents build up of hazard battery hydrogen gas.
Internal Fans
Exhaust air
Internal loop
External loop
Supply air
Equipment
Compartment
External Fans
Exhaust air
Supply air
Battery
Compartment
Ge13179A
Figure 50 Schematic Overview of the Air Condition Climate Unit System
54
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Climate System
7.2
Air Flow Path for HEX System
Two fans are located at the top of the enclosure pulling out the warm air to the
front. The fans and temperature are controlled by a fan control board.
The fan control board gets the outgoing air temperature of the enclosure through
a temperature sensor located on the fan control board. The sensor reading is the
base for the fans startup, stop and speed regulation. To minimize the sound
generated, both fans feature a linear speed control.
In case of fan failure, an alarm signal is sent to the fan control board for alarm
monitoring.
Internal Fans
Exhaust air
Equipment
Compartment
Supply air
External Fans
Exhaust air
Exhaust air
Battery Compartment
Internal loop
External loop
Ge614031
Figure 51 Schematic Overview of the HEX System
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55
Enclosure Description
Internal Fans
Exhaust air
Equipment
Compartment
Supply air
External Fans
Internal loop
External loop
G111155A
Figure 52 Schematic Overview of the HEX System in Enclosure AC Full 19-inch
Rack
7.3
Fan Control Tray Interface for HEX Climate System
The fan control tray interface is at the front of the air channel.
B1
B2
B3 B4 B5
B6
B7
B8
B1: Extfan1
B2: Extfan2
B3: Green LED
B4: Red LED
B5: Reset
B6: Alarm
B7: DC input
B8: ESC modular mount
Ge614091
Figure 53 Fan Control Tray Interface
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Climate System
Table 23
Fan Control Tray LED Indicator
LED
Indicator
Green
Red
7.4
Definition
On
Fans are working normally
Flash
Fans are under self-test
Off
No power for the fans.
Flash
Alarm
A short flash, then a long flash
Alarm from internal fan 1
Two short flash, then a long flash
Alarm from internal fan 2
Three short flash, then a long flash
Alarm from external fan 1
Four short flash, then a long flash
Alarm from external fan 2
Off
No alarm
Ventilation Fan
This section introduces when the ventilation fan runs for AirCon cabinets.
— Discharge hydrogen at regular times: The ventilation fan automatically starts
and runs for one minute every four hours. The ventilation fan realizes
automatic cycle hydrogen discharging and forced ventilation. The interval
time of each automatic cycle that hydrogen discharges is four hours and the
discharging time is one minute.
— Forced ventilation: When the compressor does not have cooling capacity
(including compressor failure, power failure), the temperature inside the
cabinet is higher than the startup point (emergency point + 5) of the
ventilation fan. When the temperature inside the cabinet is 3°C higher than
that outside the cabinet, the ventilation fan starts.
7.5
Climate System Power Consumption
The specifications of power consumption for Enclosure 6140 are described in
Table 24.
Table 24
Climate System Power Consumption
Climate Unit
Maximum
operation HEX
Power consumption
Enclosure AC
Enclosure DC
Enclosure AC
Air
Conditioner
Enclosure AC
Full 19-inch
Rack
310 W
310 W
310 W
310 W
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57
Enclosure Description
Climate Unit
58
Power consumption
Enclosure AC
Enclosure DC
Enclosure AC
Air
Conditioner
Enclosure AC
Full 19-inch
Rack
Maximum
operation Equipment
heater
500 W
500 W
500 W
2 × 500 W
Maximum
operation Battery
heater
120 W
N/A
120 W
N/A
Continuous
operation AirCon
N/A
N/A
120 W (L35/
L35)
N/A
Maximum
operation AirCon
N/A
N/A
190 W (L55/
L45)
N/A
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Connection Interfaces for External Cables
8
Connection Interfaces for External Cables
This section contains information about the cable inlets and connection
interfaces for external cables in the Enclosure.
Figure 54, Figure 55, and Figure 56 show the location of the cable inlets, and
Table 25 describes them.
E
H
I
A
G
B
D
C
F
L9
L3
L8
L5
L4
L7
L1
L2
L6
Ge614029
Figure 54 Connection Field in Enclosure 6140, AC-powered
E
A
G
B
H
C
D
F
I
G111110A
Figure 55 Connection Field in Enclosure 6140 AC Full 19-inch Rack
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59
Enclosure Description
E
H
A
G
F
B
C
D
J
I
Ge614020
Figure 56 Connection Field in Enclosure 6140, DC-powered
Table 25
Position
Connection Field, Enclosure 6140
Interface
Description
AC version: Battery
cable inlet
DC version: DC cable
inlet
Open-end connection, (4 ×) cable diameter 19 mm
A
B
DC cable outlet
(21 ×) cable diameter 10–18 mm
C
Signal cable outlet
Open-end connection, (10 ×) cable diameter 10 mm
D
Signal cable inlet
Open-end connection, (8 ×) cable diameter 6 mm
AC version: AC cable
inlet
DC version: Alarm
cable outlet
(1 ×) cable diameter 16–35 mm
E
F
Ground Cable outlet
(3 ×) cable diameter 10–14 mm
Optical cable outlet,
and three battery
temperature sensor
outlets
(24 ×) cable diameter 4 mm
G
Optional cable outlet
AC-powered and DC-powered enclosure: (3 ×) 26 mm for optional
cable glands
AC Full 19-inch Rack Enclosure: (5 ×) 26 mm for optional cable
glands
I
DC grounding bar
(4 ×) grounding points for shield connector block
J
DIN rail
Used for installing transmission or alarm OVP(1).
L1
AC cable inlet
(1 ×) cable diameter 16–35 mm
Optical cable outlet,
and two battery
temperature sensor
outlets
(24 ×) cable diameter 4 mm
L2
L3
Ground Cable outlet
(1 ×) cable diameter 10–14 mm
L4
Signal cable inlet
Open-end connection, (8 ×) cable diameter 6 mm
L5
Signal cable outlet
Open-end connection, (10 ×) cable diameter 10 mm
H
60
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Connection Interfaces for External Cables
Position
Interface
Description
L6
DC cable outlet
(6 ×) cable diameter 10–18 mm
L7
DC cable outlet
(6 ×) cable diameter 10–18 mm
L8
DC cable outlet,
battery cable inlet
(6 ×) cable diameter 10–18 mm
L9
Optional cable outlets
(3 ×) for optional cable glands
(1) Overvoltage Protection (OVP)
The connection interfaces are described in the following sections:
— Grounding interface, see Grounding Interface on page 61.
— AC power interface, see AC Power Interface (AC-powered Enclosure only) on
page 62.
— DC power interface, see DC Power Interface (DC-powered Enclosure only) on
page 63.
— DC power distribution interface, see DC Power Distribution Interface on page
64.
— Battery interface, see Battery Interface (AC-powered Enclosure only) on
page 65.
— External alarm interface on ESC 03 01 or SCU 09 01, see External Alarm
Interface on ESC 03 01 or SCU 09 01 on page 66.
— External alarm interface to Power System Controller, see External Alarm
Interface to Power System Controller (AC-powered Enclosure only) on page
68.
— Outgoing alarm interface, see Outgoing Alarm Interface in DC-powered
Enclosure on page 69.
— Battery temperature sensor interface, see Battery Temperature Sensor
Interface (AC-powered Enclosure only) on page 70.
— Ethernet interface, see Ethernet Interface on page 71.
8.1
Grounding Interface
All equipment must be connected to the same Main Earthing Terminal (MET) at
the site, using a 35 mm² grounding copper cable or equivalent.
The enclosure is equipped with a Main Earthing Terminal (MET) on the right
hand side in front of the 19-inch configurable user space as shown in .
In AC-powered Enclosure, the incoming ground cable is routed through the cable
inlet marked with L3 and F. See Figure 54 and Table 25.
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61
Enclosure Description
In the AC Full 19-inch Rack and DC-powered Enclosure, the incoming ground
cable is routed through the cable inlet marked with F. See Figure 55, Figure 56,
and Table 25.
PH2
PH3
4.7 Nm
11 Nm
Ge2460E
Figure 57 Position of the Grounding Cable on Enclosure 6140
8.2
AC Power Interface (AC-powered Enclosure only)
The incoming AC main power cable is routed through the cable inlet marked with
L1 and E, see Figure 54 and Table 25.
In Enclosure 6140, AC Full 19-inch Rack Enclosure, the incoming AC main power
cable is routed through the cable inlet marked with E. See Figure 55 and Table
25.
The connection interface for the AC cables is shown in Figure 58.
62
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Connection Interfaces for External Cables
Ge613028B
Figure 58 AC Main Power Terminal
8.3
DC Power Interface (DC-powered Enclosure only)
The incoming 2-wire −48 V DC power is routed through the cable inlets marked
with A, see Figure 56 and Table 25.
The connection interface for the DC cables is shown in Figure 59.
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63
Enclosure Description
0V Input
-48V Input
Ge613029
Figure 59 DC Input Power Terminal
8.4
DC Power Distribution Interface
The enclosure can supply −48 V DC to various other site equipment.
In Enclosure 6140, AC-powered Enclosure, cables are installed through the inlets
marked with L6, L7, L8, and B. See Figure 54 and Table 25.
In Enclosure 6140, AC 19-inch Rack and DC-powered Enclosure, cables are
installed through the inlets marked with B. See Figure 55, Figure 56, and Table
25.
The connection interface for the DC distribution cables is shown in Figure 60.
64
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Connection Interfaces for External Cables
PH2
11.7 Nm
Ge2673A
Figure 60 Power Distribution Interface
8.5
Battery Interface (AC-powered Enclosure only)
In Enclosure 6140, AC-powered Enclosure, the incoming battery power cable is
routed through the cable inlets marked with L8 and A, see Figure 54 and Table
25.
In Enclosure 6140, AC Full 19-inch Rack Enclosure, the incoming battery power
cable is routed through the cable inlets marked with A. See Figure 55 and Table
25.
The connection interface for the battery power cables is shown in Figure 61.
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65
Enclosure Description
0V
Ge613028F
Figure 61 Battery Interface
8.6
External Alarm Interface on ESC 03 01 or SCU 09 01
The ESC 03 01 or SCU 09 01 external alarm interface supports four alarms in
addition to the external alarms managed by the power controller. An alarm is
triggered by a closed contact (closed loop) or an open contact (open loop).
If using SAU 02 01 together with three OVP-ALM8, the ESC 03 01 or SCU 09 01
SAU interface supports 24 alarms.
66
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Connection Interfaces for External Cables
SCU 09
01
1
2
SAU
EC
SERIAL
RM
EXT ALA
-48V
G109433A
Figure 62 External Alarm Interface on ESC 03 01 or SCU 09 01
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67
Enclosure Description
SCU 09
01
1
2
SAU
EC
SERIAL
RM
EXT ALA
-48V
SAU 02
1
4
AL
EXTERN
ALARMS
5
8
9 17
12 20
13 21
16 24
01
25
28
29
32
SAU
G109434A
Figure 63 SAU Interface on ESC 03 01 or SCU 09 01
8.7
External Alarm Interface to Power System Controller
(AC-powered Enclosure only)
The alarm cables are routed through the cable inlet marked with L4 and D, see
Figure 54 and Table 25.
The enclosure has two configurable alarm inputs and four configurable alarm
outputs, see Figure 64.
68
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Connection Interfaces for External Cables
T1
DI1
T2
DI2
T3
DI3
DO1
DI4
DO2
DI5
DO3
DI6
DO4
Ge613028G
Figure 64 External Alarm Interface
Table 26
Position
8.8
External Alarm Interface
Description
BATT T1
Battery temperature detect input 1
BATT T2
Battery temperature detect input 2
BATT T3
Battery temperature detect input 3
DO1
Digital output 1
DO2
Digital output 2
DO3
Digital output 3
DO4
Digital output 4
DI1
By default set to fan alarm input
DI2
By default set to door switch alarm input
DI3
Digital input 3
DI4
Digital input 4
DI5
Digital input 5
DI6
Digital input 6
Outgoing Alarm Interface in DC-powered Enclosure
The outgoing alarm cables are routed through the cable inlet marked with D, see
Figure 56 and Table 25.
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69
Enclosure Description
The enclosure can send following alarm signals to an external management or
signal entity as shown in Figure 65.
Table 27
Alarms at Different Conditions
Working Normally
At Alarm
Fan/AirC alarm
Open
Close
Door switch alarm
Close
Open
Circuit breaker alarm
Close
Open
Door
Alarm
Fan
Alarm
Door
Alarm
CB
Alarm
Ge613096B
Figure 65 Outgoing Alarm Interface in DC-powered Enclosure
Note:
8.9
If the DC-powered enclosure has installed ESC 03 01 or SCU 09 01, the
enclosure can send the above alarm signals to ESC 03 01 or SCU 09 01
instead.
Battery Temperature Sensor Interface (AC-powered
Enclosure only)
The battery temperature sensor cables are routed through the cable inlets
marked with L2 and G, see Figure 54 and Table 25.
70
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Connection Interfaces for External Cables
In Enclosure 6140, AC Full 19-inch Rack Enclosure, the battery temperature
sensor cables are routed through the cable inlets marked with G. See Figure 55
and Table 25.
The enclosure has three battery temperature sensor interfaces, see Figure 66.
T1
T2
T3
Ge613028H
Figure 66 Battery Temperature Sensor Interface
8.10
Ethernet Interface
The ESC 03 01 or SCU 09 01 has two electrical Ethernet 10/100 baseT interface
ports. The ports are marked 1 and 2. Port 1 is dedicated for northbound
connection to OSS and/or ESCM. Port 2 is intended for connection to site
equipment. Both ports support VLAN switching.
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71
Enclosure Description
SC U 0 9
01
1
2
SAU
EC
EXT ALAR
SERIAL
M
-48V
Ethernet Interface
G109422A
Figure 67 Ethernet Interface
72
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Internal Cabling
9
Internal Cabling
9.1
Power Cables
9.1.1
Fans
Figure 68 and Figure 69 show and Table 28 describes the power cabling between
DC Distribution and the Fan Control Board, and between the internal/external
fans and the Fan Control Board.
Internal
fan
Internal
fan
External
fan
External
fan
2
Fan control board
1
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
DC Distribution
Ge613020
Figure 68 DC Distribution, Fan Control Board, and Fan Cabling in AC-powered
Enclosure
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73
Enclosure Description
Internal
fan
Internal
fan
External
fan
External
fan
2
Fan control board
1
DC SPD
CB21
CB20
CB19
CB18
CB17
CB16
CB15
CB14
CB13
CB12
CB11
CB10
CB9
CB8
CB7
CB6
CB5
CB4
CB3
CB2
CB1
DC Distribution
Ge613020A
Figure 69 DC Distribution, Fan Control Board, and Fan Cabling in DC-powered
Enclosure
Table 28
DC Distribution, Fan Control Board, and Fan Cabling
Pos.
Connections
Qty.
Cable Dimension (AWG)
1
DC Distribution: Fanmarked CB or CB1 − Fan
Control Board: DC Power
1
The cable is included and preassembled.
2
Fan Control Board:
InFan1 − Internal Fan 1
4
Cables are included, preassembled, and integrated
with the fans.
Fan Control Board:
InFan2 − Internal Fan 2
Fan Control Board:
ExtFan1 − External Fan 1
Fan Control Board:
ExtFan2 − External Fan 2
9.1.2
LED Lamp
Figure 70 and Figure 71 show and Table 29 describes the power cabling between
the DC distribution and the LED lamp.
74
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Internal Cabling
LED lamp
1
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
DC Distribution
Ge613021
Figure 70 DC Distribution and LED Lamp Cabling in AC-powered Enclosure
LED lamp
1
DC SPD
CB21
CB19
CB20
CB18
CB17
CB16
CB15
CB14
CB13
CB12
CB11
CB10
CB9
CB8
CB7
CB6
CB5
CB4
CB3
CB2
CB1
DC Distribution
Ge613021A
Figure 71 DC Distribution and LED Lamp Cabling in DC-powered Enclosure
Table 29
DC Distribution and LED Lamp Cabling
Pos.
Connections
1
DC Distribution: LED1
marked CB or CB1 − LED
Lamp
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Qty.
Cable Dimension
The cable is included,
pre-assembled and
integrated with the
lamp.
75
Enclosure Description
9.1.3
ESC 03 01 or SCU 09 01
Figure 72, and Figure 73 show and Table 30 describes the power cabling
between the DC Distribution Unit and the ESC 03 01 or SCU 09 01.
ESC 03 01/SCU 09 01
1
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
DC Distribution
G109435A
Figure 72 DC Distribution Unit and ESC or SCU Cabling in AC-powered
Enclosure
ESC 03 01/SCU 09 01
1
DC SPD
CB21
CB20
CB19
CB18
CB17
CB16
CB15
CB14
CB13
CB12
CB11
CB10
CB9
CB8
CB7
CB6
CB5
CB4
CB3
CB2
CB1
DC Distribution
G109439A
Figure 73 DC Distribution Unit and ESC or SCU Cabling in DC-powered
Enclosure
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Internal Cabling
Table 30
9.1.4
DC Distribution Unit and ESC or SCU Cabling
Pos.
Connections
Qty.
Product No.
1
DC Distribution Unit: PL1
or CB2 − ESC 03 01 or
SCU 09 01: −48 V
1
RPM 777 554/01000
DC Heater (Optional)
Figure 74 and Figure 75 show and Table 31 describes the power cabling between
the DC distribution and the DC heater.
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
1
DC Distribution
DC Heater
Ge613025
Figure 74 DC Distribution and DC Heater Cabling in AC-powered Enclosure
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77
Enclosure Description
DC SPD
CB21
CB20
CB19
CB18
CB17
CB16
CB15
CB14
CB13
CB12
CB11
CB10
CB9
CB8
CB7
CB6
CB5
CB4
CB3
CB2
CB1
1
DC Distribution
DC Heater
Ge613025A
Figure 75 DC Distribution and DC Heater Cabling in DC-powered Enclosure
Table 31
9.1.5
DC Distribution and DC Heater Cabling
Pos.
Connections
Qty.
Product No.
1
DC Distribution: ML1 or
CB3 − DC Heater
1
The cable is included,
and pre-assembled and
integrated with the
heater.
Media Converter
Figure 76 and Table 32 describe the power cabling between the media converter
and the DC Distribution Unit in Enclosure 6140 AC Full 19-inch Rack.
78
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Internal Cabling
2
ML9
ML8
ML7
ML5
ML6
ML4
ML3
ML2
ML1
PL6
PL5
PL4
PL3
PL2
PL1
DC SPD
BATT2
BATT1
1
3
Media
Converter kit
Media
Converter
G111224A
Figure 76 DC Distribution and Media Converter Cabling in Enclosure
Table 32
9.1.6
DC Distribution and Media Converter Cabling
Pos.
Connections
Qty.
Cable Dimension
1
DC Distribution:
PL2 − Media
Converter
1
The cable is
included in the
enclosure.
2
DC Distribution:
+0 V − Media
Converter
1
The cable is
included in the
enclosure.
3
Grounding Bar −
Media Converter
1
The cable is
included in the
enclosure.
Lead-Acid Batteries
Figure 77 shows the power cabling between the lead-acid batteries and DC
Distribution Unit. Table 33 further describes it.
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79
Enclosure Description
PL7
PL6
PL5
PL4
PL3
PL2
PL1
ML9
ML8
ML7
ML6
ML5
ML4
ML3
ML2
ML1
DC Distribution
BATT2
BATT1
1
AGM Batteries
-48 V
G111250A
Figure 77 Lead-Acid Batteries and DC Distribution Unit Cabling
Table 33
Lead-Acid Batteries and DC Distribution Unit Cabling
Pos.
Connections
Qty.
Product
Number
Cable Length
(mm)
1
DC Distribution Unit:
Battery CB − LeadAcid Batteries: −48 V
2
RPM777573
2800
2400
9.2
Signaling Cables
9.2.1
Power System Controller to ESC or SCU (AC-powered Enclosure only)
Figure 78 shows and Table 34 describes the signaling cable from the power
system controller to the ESC 03 01 or SCU 09 01.
80
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Internal Cabling
ESC 03 01/SCU 09 01
1
Power Systerm Controller
G109440A
Figure 78 Power System Controller to ESC or SCU
Table 34
9.2.2
Power System Controller to ESC or SCU
Pos.
Connections
Qty.
Product No.
1
Power System
Controller: RS485 − ESC
03 01 or SCU 09 01:
Serial
1
RPM 777 552/00600
Alarm Digital Outputs to ESC or SCU (DC-powered Enclosure only)
Figure 79 shows and Table 35 describes the signaling cable from the outgoing
alarm interface in DC-powered enclosure to the ESC 03 01 or SCU 09 01.
ESC 03 01/SCU 09 01
1
Alarm Digital Outputs
G109441A
Figure 79 Alarm Digital Outputs to ESC or SCU
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81
Enclosure Description
Table 35
9.2.3
Alarm Digital Outputs to ESC or SCU
Pos.
Connections
Qty.
Product No.
1
Alarm Digital Outputs −
ESC 03 01 or SCU 09 01:
EXT Alarm
1
RPM 919 727/01000
OVP-ALM8 to ESC 03 01 or SCU 09 01 (Optional)
Figure 80 shows and Table 36 describes the signaling cable from an OVP-ALM8
to the ESC 03 01 or SCU 09 01.
ESC 03 01/SCU 09 01
1
OVP-ALM8
G109442A
Figure 80 OVP-ALM8 to ESC 03 01 or SCU 09 01
Table 36
9.2.4
OVP-ALM8 to ESC 03 01 or SCU 09 01
Pos.
Connections
Qty.
Product No.
1
OVP-ALM8 − ESC 03 01
or SCU 09 01: External
Alarm
1
RPM 777 143/02000
OVP-ALM8 to SAU 02 01, and SAU 02 01 to ESC 03 01 or SCU 09 01
(Optional)
Figure 81 shows and Table 37 describes the signaling cable from OVP-ALM8 to
the SAU 02 01, and from the SAU 02 01 to the ESC 03 01 or SCU 09 01.
82
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Internal Cabling
ESC 03 01/SCU 09 01
2
SAU 02 01
OVP-ALM8
OVP-ALM8
OVP-ALM8
1
G109430A
Figure 81 OVP-ALM8 to SAU 02 01, and SAU 02 01 to ESC 03 01 or SCU 09 01
Table 37
9.2.5
OVP-ALM8 to SAU 02 01, and SAU 02 01 to ESC 03 01 or SCU 09 01
Pos.
Connections
Qty.
Product No.
1
OVP-ALM8 − SAU 02 01
6
RPM 777 143/00500
2
SAU 02 01 − ESC 03 01
or SCU 09 01: SAU
1
RPM 777 405/01700
OVP-ETH to ESC 03 01 or SCU 09 01 (Optional)
Figure 82 shows and Table 38 describes the signaling cable from an OVP-ETH to
the ESC 03 01 or SCU 09 01.
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83
Enclosure Description
ESC 03 01/SCU 09 01
1
OVP-ETH
G109427A
Figure 82 OVP-ETH to ESC 03 01 or SCU 09 01
Table 38
84
OVP-ETH to ESC 03 01 or SCU 09 01
Pos.
Connections
Qty.
1
OVP-ETH − ESC 03 01 or 1
SCU 09 01: Ethernet 1
Product No.
RPM 777 143/02000
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Standards and Regulations
10
Standards and Regulations
This section presents a brief overview of standards, regulatory product approval,
and declaration of conformity.
Declaration of Conformity
"Hereby, Ericsson AB, declares that this product is in compliance with the
essential requirements and other relevant provisions of Directive 2014/35/EU,
2014/30/EU, and 2011/65/EU."
10.1
Regulatory Approval
The enclosure complies with the following market requirements:
— The Low Voltage Directive (LVD) 2014/35/EU
— The Electromagnetic Compatibility (EMC) Directive 2014/30/EU
— Restriction of Hazardous Substances in Electrical and Electronic Equipment
(RoHS) Directive 2011/65/EU
10.1.1
Environmental Standards Compliance
The product complies with the following environmental standard:
Europe
— EN 50581 (RoHS)
10.1.2
Safety Standards Compliance
In accordance with market requirements, the enclosure complies with the
following product safety standards and directives:
International
— IEC 62 368-1
Europe
— EN 62 368-1
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85
Enclosure Description
10.1.2.1
Outdoor Specific Requirements
The Enclosure complies with the following outdoor specific requirements:
International
— IEC 60 529 (IP55)
— IEC 60 950-22
Note:
The battery compartment of the enclosure complies with IEC 60 529
(IP44).
Europe
— EN 60 529 (IP55)
— EN 60 950-22
Note:
10.1.3
The battery compartment of the enclosure complies with EN 60 529
(IP44).
EMC Standards Compliance
Warning!
This is a class A product. In a domestic environment this product may cause radio
interference in which case the user may be required to take adequate measures.
The enclosure complies with the following EMC standards:
Europe
— ETSI EN 300 386
— ETSI EN 61000
— EN 55022
10.1.4
Marking
To show compliance with legal requirements, the product is marked with the
following label:
Europe
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Standards and Regulations
— CE mark
10.1.5
Grounding Interface
All equipment must be connected to the same Main Earthing Terminal (MET) at
the site, using a 35 mm² grounding copper cable or equivalent.
The enclosure is equipped with a Main Earthing Terminal (MET) on the right
hand side in front of the 19-inch configurable user space as shown in .
In AC-powered Enclosure, the incoming ground cable is routed through the cable
inlet marked with L3 and F. See Figure 54 and Table 25.
In the AC Full 19-inch Rack and DC-powered Enclosure, the incoming ground
cable is routed through the cable inlet marked with F. See Figure 55, Figure 56,
and Table 25.
PH2
PH3
4.7 Nm
11 Nm
Ge2460E
Figure 57 Position of the Grounding Cable on Enclosure 6140
10.2
Dependability
The enclosure is designed for a technical lifetime of 10 years (24-hour operation).
The following preventive maintenance conditions must be fulfilled to guarantee
the availability of the enclosure:
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Enclosure Description
— Fans
The fans must be inspected (and cleaned if necessary) every year.
For more information on preventive maintenance, see Enclosure Maintenance
Instructions.
10.3
Spare Parts
The product adheres to the Ericsson Serviceability and Spare Part Strategy.
10.4
Vandal Resistance
Unauthorized access is not possible without damaging the unit.
10.5
Transportation and Storage
For information about transportation and storage of the product, see
Transportation and Storage.
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