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Energy Management Medium
Voltage & Systems
Busbar trunking system
SIVACON 8PS -
Planning with SIVACON 8PS
Planning Manual
11/2016
A5E01541101
-04
System overview
1
Planning principles
2
Planning with BD2
3
Planning with LD
4
Planning with LI
5
Planning with LR
6
Further information about
planning
7
A5E01541101-04
12/2016 Subject to change
Copyright © Siemens AG 2007.
All rights reserved
Legal information
Warning notice system
This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent
damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert
symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are
graded according to the degree of danger.
DANGER
indicates that death or severe personal injury will result if proper precautions are not taken.
WARNING
indicates that death or severe personal injury may result if proper precautions are not taken.
CAUTION
indicates that minor personal injury can result if proper precautions are not taken.
NOTICE
indicates that property damage can result if proper precautions are not taken.
If more than one degree of danger is present, the warning notice representing the highest degree of danger will
be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to
property damage.
Qualified Personnel
The product/system described in this documentation may be operated only by
personnel qualified
for the specific
task in accordance with the relevant documentation, in particular its warning notices and safety instructions.
Qualified personnel are those who, based on their training and experience, are capable of identifying risks and
avoiding potential hazards when working with these products/systems.
Proper use of Siemens products
Note the following:
WARNING
Siemens products may only be used for the applications described in the catalog and in the relevant technical
documentation. If products and components from other manufacturers are used, these must be recommended
or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and
maintenance are required to ensure that the products operate safely and without any problems. The permissible
ambient conditions must be complied with. The information in the relevant documentation must be observed.
Trademarks
All names identified by ® are registered trademarks of Siemens AG. The remaining trademarks in this publication
may be trademarks whose use by third parties for their own purposes could violate the rights of the owner.
Disclaimer of Liability
We have reviewed the contents of this publication to ensure consistency with the hardware and software
described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the
information in this publication is reviewed regularly and any necessary corrections are included in subsequent
editions.
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 5
Table of contents
1 System overview ...................................................................................................................................... 11
1.1 Overview of Siemens busbar trunking systems ...................................................................... 11
1.2 BD01 system ........................................................................................................................... 15
1.3 Networked busbar trunking systems for industrial and building applications ......................... 18
2 Planning principles ................................................................................................................................... 19
2.1 Structure of the planning manual ............................................................................................ 19
2.2 Busbar trunking system planning ............................................................................................ 20
2.2.1 Principles of busbar trunking system planning ....................................................................... 20
2.2.2 Different types of busbar trunking systems and their functional scope .................................. 22
2.2.3 A comparison of busbar trunking systems and cable trunking ............................................... 24
2.2.4 Planning guidelines ................................................................................................................. 26
2.3 Rated currents and short-circuit currents of standard transformers ....................................... 28
2.4 System selection criteria ......................................................................................................... 29
2.4.1 Technical data of the systems ................................................................................................ 29
2.4.2 Areas of application for high-current systems ........................................................................ 32
2.4.3 Selection on the basis of rated transformer data .................................................................... 33
3 Planning with BD2 ................................................................................................................................... 35
3.1 System description .................................................................................................................. 35
3.2 System components ............................................................................................................... 36
3.2.1 Preliminary remark for specifications ...................................................................................... 36
3.2.2 Type code ............................................................................................................................... 38
3.2.3 Straight trunking units ............................................................................................................. 41
3.2.4 Junction units .......................................................................................................................... 42
3.2.5 Feeder units ............................................................................................................................ 45
3.2.5.1 End feeder units ...................................................................................................................... 45
3.2.5.2 Centre feeder units ................................................................................................................. 47
3.2.6 Distribution board feeder ........................................................................................................ 48
3.2.7 Coupling units ......................................................................................................................... 49
3.2.8 Tap-off units ............................................................................................................................ 50
3.2.8.1 Tap-off units up to 25 A .......................................................................................................... 50
3.2.8.2 Tap-off units up to 63 A .......................................................................................................... 51
3.2.8.3 Tap-off units up to 125 A ........................................................................................................ 53
3.2.8.4 Tap-off units up to 250 A ........................................................................................................ 56
3.2.8.5 Tap-off units up to 400 A ........................................................................................................ 57
3.2.8.6 Tap-off units up to 530 A ........................................................................................................ 58
3.2.9 Ancillary equipment units ........................................................................................................ 59
3.2.10 Additional equipment .............................................................................................................. 60
3.2.10.1 Additional equipment for increased degree of protection IP54 and IP55 ............................... 60
3.2.10.2 Fixing accessories .................................................................................................................. 60
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3.3 Technical specifications ......................................................................................................... 62
3.3.1 BD2 general data ................................................................................................................... 62
3.3.2 Tap-off units ........................................................................................................................... 63
3.3.3 Trunking units BD2A (aluminium) .......................................................................................... 64
3.3.4 Trunking units BD2C (copper) ............................................................................................... 67
3.3.5 Conductor cross sections ....................................................................................................... 70
3.3.5.1 Feeder units ........................................................................................................................... 70
3.3.5.2 Tap-off units ........................................................................................................................... 72
3.4 Dimension drawings ............................................................................................................... 74
3.4.1 Straight trunking units ............................................................................................................ 74
3.4.2 Junction units ......................................................................................................................... 75
3.4.3 Distribution board feeder ........................................................................................................ 80
3.4.4 End feeder units ..................................................................................................................... 82
3.4.5 Cable compartments .............................................................................................................. 85
3.4.6 Centre feed ............................................................................................................................ 87
3.4.7 Tap-off units ........................................................................................................................... 88
3.4.7.1 Tap-off units up to 25 A .......................................................................................................... 88
3.4.7.2 Tap-off units up to 63 A .......................................................................................................... 90
3.4.7.3 Tap-off units up to 125 A ........................................................................................................ 94
3.4.7.4 Tap-off units up to 250 A ........................................................................................................ 97
3.4.7.5 Tap-off units up to 530 A ........................................................................................................ 98
3.4.8 Ancillary equipment units ....................................................................................................... 99
3.4.9 Additional equipment ........................................................................................................... 100
4 Planning with LD .................................................................................................................................... 105
4.1 System description ............................................................................................................... 105
4.2 System components ............................................................................................................ 106
4.2.1 Preliminary technical descriptions for specifications............................................................ 106
4.2.2 Type code ............................................................................................................................ 108
4.2.3 Sizes, conductor configurations and structure of the busbar package ................................ 110
4.2.4 Straight trunking units .......................................................................................................... 112
4.2.5 Junction units ....................................................................................................................... 115
4.2.6 Distribution link for Siemens power distribution boards ....................................................... 117
4.2.7 Busbar connection unit for non-Siemens distribution boards .............................................. 118
4.2.8 Connection unit for transformers and distribution boards .................................................... 119
4.2.9 Incoming cable connection unit ............................................................................................ 120
4.2.10 Coupling units ...................................................................................................................... 121
4.2.11 Tap-off units ......................................................................................................................... 122
4.2.11.1 Tap-off units ......................................................................................................................... 122
4.2.11.2 Tap-off units with fuse switch disconnector ......................................................................... 123
4.2.11.3 Tap-off units resistant to accidental arcs and with fuse switch disconnector ...................... 124
4.2.11.4 Tap-off units with circuit-breakers ........................................................................................ 125
4.2.12 Additional equipment ........................................................................................................... 127
4.3 Technical specifications ....................................................................................................... 128
4.3.1 LD general data.................................................................................................................... 128
4.3.2 LDA.4.. trunking units (4-pole, aluminium) ........................................................................... 130
4.3.3 LDA.6.. trunking units (5-pole, aluminium) ........................................................................... 133
4.3.4 LDC.4.. trunking units (4-pole, copper) ................................................................................ 137
4.3.5 LDC.6.. trunking units (5-pole, copper) ................................................................................ 139
4.3.6 Feeder units ......................................................................................................................... 142
4.3.7 Tap-off units with fuse switch disconnector ......................................................................... 143
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4.3.8 Tap-off units resistant to accidental arcs and with fuse switch disconnector ....................... 145
4.3.9 Tap-off units with circuit-breaker ........................................................................................... 146
4.4 Weights ................................................................................................................................. 148
4.4.1 Trunking units ....................................................................................................................... 148
4.5 Dimension drawings.............................................................................................................. 149
4.5.1 Trunking units ....................................................................................................................... 149
4.5.2 Tap-off units with fuse switch disconnector .......................................................................... 150
4.5.3 Arc fault resistant tap-off units with fuse switch disconnector .............................................. 151
4.5.4 Arc fault resistant tap-off units with fuse switch disconnector .............................................. 153
4.5.5 Tap-off units with circuit breaker ........................................................................................... 154
4.5.6 Additional equipment ............................................................................................................ 157
5 Planning with LI ..................................................................................................................................... 159
5.1 System description ................................................................................................................ 159
5.2 System components ............................................................................................................. 160
5.2.1 Preliminary technical descriptions for specifications ............................................................ 160
5.3 Conformity and test certificates ............................................................................................ 161
5.3.1 Type code ............................................................................................................................. 163
5.4 Conductor configuration ........................................................................................................ 168
5.4.1 Straight trunking units ........................................................................................................... 170
5.4.2 Junction units ........................................................................................................................ 173
5.4.3 Distribution board connection for Siemens power distribution boards ................................. 181
5.4.4 Busbar connection unit for non-Siemens distribution boards ............................................... 182
5.4.5 Connection unit for transformers and distribution boards ..................................................... 183
5.4.6 Incoming cable connection unit ............................................................................................ 186
5.4.7 Tap-off units .......................................................................................................................... 188
5.4.7.1 General information .............................................................................................................. 188
5.4.7.2 Tap-off units with fuse base up to 630 A .............................................................................. 190
5.4.7.3 Tap-off units with fuse switch disconnector up to 630 A ....................................................... 191
5.4.7.4 Tap-off unit with switch disconnector with fuses up to 630 A ............................................... 192
5.4.7.5 Tap-off units with circuit-breaker up to 1250 A ..................................................................... 193
5.4.7.6 Empty tap-off units up to 630 A ............................................................................................ 195
5.4.8 Additional equipment ............................................................................................................ 195
5.5 Technical specifications ........................................................................................................ 197
5.5.1 LI in general .......................................................................................................................... 197
5.5.2 Trunking units LI-A.. (4-pole, aluminium) .............................................................................. 199
5.5.3 Trunking units LI-A.. (5-pole, aluminium) .............................................................................. 201
5.5.4 Trunking units LI-C.. (4-pole, copper) ................................................................................... 203
5.5.5 Trunking units LI-C.. (5-pole, copper) ................................................................................... 205
5.5.6 Fire load for trunking units without tap-off points .................................................................. 207
5.5.7 Fixing distances .................................................................................................................... 208
5.5.8 Connection units for non-Siemens distribution boards ......................................................... 209
5.5.9 Tap-off units .......................................................................................................................... 210
5.6 Dimension drawings.............................................................................................................. 216
5.6.1 Trunking units ....................................................................................................................... 216
5.6.2 Tap-off units .......................................................................................................................... 222
5.6.3 Additional equipment ............................................................................................................ 224
5.6.3.1 Fixing for horizontal busbar run ............................................................................................ 224
5.6.3.2 Fixing bracket for vertical busbar run .................................................................................... 227
Table of contents
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6 Planning with LR .................................................................................................................................... 235
6.1 System description ............................................................................................................... 235
6.2 System components ............................................................................................................ 236
6.2.1 Preliminary remark for specifications ................................................................................... 236
6.2.2 Type code ............................................................................................................................ 239
6.2.3 System sizes and structure .................................................................................................. 240
6.2.4 Conductor configuration and sizes....................................................................................... 241
6.2.5 Straight trunking units .......................................................................................................... 242
6.2.6 Junction units ....................................................................................................................... 243
6.2.7 Distribution board connection for Siemens power distribution boards ................................. 244
6.2.8 Busbar connection unit for non-Siemens distribution boards .............................................. 245
6.2.9 Connection unit for transformers and distribution boards .................................................... 246
6.2.10 Incoming cable connection unit ............................................................................................ 248
6.2.11 Tap-offs for power distribution ............................................................................................. 249
6.2.12 Additional equipment ........................................................................................................... 250
6.3 Technical specifications ....................................................................................................... 252
6.3.1 LR general data.................................................................................................................... 252
6.3.2 Trunking units LRA..41 (4-pole, aluminium) ........................................................................ 253
6.3.3 Trunking units LRA..51 (5-pole, aluminium) ........................................................................ 256
6.3.4 Trunking units LRC..41 (4-pole, copper) .............................................................................. 259
6.3.5 Trunking units LRC..51 (5-pole, copper) .............................................................................. 262
6.4 Dimension drawings ............................................................................................................. 265
6.4.1 Straight busbar elements LR ............................................................................................... 265
7 Further information about planning ........................................................................................................ 267
7.1 Dimensioning and selection ................................................................................................. 267
7.1.1 Determining the voltage drop ............................................................................................... 267
7.1.2 Overload protection and short-circuit protection .................................................................. 271
7.1.3 Loop impedance .................................................................................................................. 272
7.1.4 Degrees of protection for busbar trunking systems ............................................................. 272
7.1.5 Degrees of protection for electrical equipment in accordance with IEC / EN 60529 ........... 273
7.1.6 Notes on empty tap-off units up to 630 A ............................................................................ 274
7.1.7 Distribution systems ............................................................................................................. 275
7.2 Planning example ................................................................................................................ 278
7.3 Functional endurance .......................................................................................................... 280
7.3.1 Applicable regulations .......................................................................................................... 280
7.3.2 Versions ............................................................................................................................... 281
7.4 Fireproof barrier ................................................................................................................... 285
7.4.1 Busbar trunking system with fireproof barrier ...................................................................... 285
7.4.2 Versions ............................................................................................................................... 286
7.4.3 Cut-outs ................................................................................................................................ 288
7.5 Planning runs ....................................................................................................................... 289
7.5.1 Space requirements for horizontal installation ..................................................................... 289
7.5.2 Space requirements for vertical installation ......................................................................... 291
7.5.3 Fixing brackets for vertical mounting ................................................................................... 293
7.5.4 Fixing brackets for horizontal installation ............................................................................. 296
7.5.5 Carrier constructions ............................................................................................................ 298
7.6 Magnetic fields ..................................................................................................................... 301
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7.7 Sprinkler test ......................................................................................................................... 305
7.8 Tools and services ................................................................................................................ 307
7.8.1 Engineering Tools - SIMARIS design ................................................................................... 307
7.8.2 Engineering Tools - SIMARIS project ................................................................................... 308
7.8.3 Engineering Tools - SIMARIS curves ................................................................................... 309
7.8.4 Engineering Tools - Further information on SIMARIS .......................................................... 310
Glossary ................................................................................................................................................ 311
Index ...................................................................................................................................................... 315
Table of contents
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System overview
1
1.1
Overview of Siemens busbar trunking systems
BD01 system
LI system
BD2 system
LR system
LD system
Communication-enabled busbar trunking system for connection to the following busbar
trunking systems:
KNX (EIB / Instabus), AS-Interface, PROFIBUS, PROFINET, Modbus
Figure 1-1 Busbar trunking systems, overview
System overview
1.1 Overview of Siemens busbar trunking systems
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Siemens supplies the following busbar trunking systems:
Up to 160 A
BD01 system
Flexible power supply
Variable junction units
Quick and easy to plan
Time-saving installation
Reliable mechanical and electrical connection technology
High stability and low weight
Positive opening and closing of the tap-off point
Versatile tap-off units
Small number of basic modules
Storage-friendly system
High degree of protection (IP54) for side-mounted and downwards tap-off points under
extreme ambient conditions, IP55 with additional equipment.
You can find more information in the chapter "BD01 system (Page 15)" and in Catalogue LV
70.
Networked busbar trunking systems
Networked functional expansions for combination with established tap-off units
Applications:
Wide-area lighting control
Remote control and signalling in industrial environments
Consumption data acquisition for central power tap-offs
KNX, AS-i, PROFIBUS, PROFINET and Modbus bus systems
Quick and easy to plan
Flexibility in terms of expansion and changes
Modular system
Can be retrofitted to existing installations
Can be used with BD01, BD2, LD, and LI systems
You can find more information in the chapter "Networked busbar trunking systems for
industrial and building applications (Page 18)" and in Catalogue LV 70.
System overview
1.1 Overview of Siemens busbar trunking systems
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Up to 1250 A
BD2 system
Quick and easy to plan
Time-saving and efficient installation
Reliable and safe operation
Flexible modular system with simple solutions for every application
Power distribution system can be planned at an early stage without an exact knowledge
of load locations
Early readiness for operation thanks to quick and easy installation
High degree of protection IP54 or IP55 for use in harsh industrial environments
Innovative design: Omission of compensation elements to compensate for expansion
You can find more information in the chapter "Planning with BD2 (Page 35)" and in
Catalogue LV 70.
Up to 5000 A
LD system
The busbar trunking system for optimum power distribution in industry:
Reliable and safe operation
Quick and easy installation
Space-saving compact design up to 5000 A in one enclosure
Load feeders up to 1250 A
IP34 degree of protection with air cooling (IP54 with sealed enclosure)
Type-tested connection to distribution boards and transformers
For more information: "Planning with LD (Page 105)"
Up to 6300 A
LI system
The busbar trunking system for power transmission and distribution in buildings
Reliable and safe operation
Quick and easy installation
Sandwich design up to 6300 A
Load feeders up to 1250 A
High degree of protection IP55 for use in harsh industrial environments
Type-tested connection to distribution boards and transformers
For more information: "Planning with LI (Page 159)"
System overview
1.1 Overview of Siemens busbar trunking systems
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LR system
The busbar trunking system for power transmission under extreme ambient conditions (IP68)
Reliable and safe operation
Quick and easy installation
Cast resin system up to 6300 A
Safe connection to distribution boards and transformers
High degree of protection IP68 for outdoor applications
For more information: "Planning with LR (Page 235)"
SIMARIS design dimensioning software
SIMARIS design makes dimensioning electrical power distribution systems easy, fast and
safe.
SIMARIS sketch - 3-D busbar run diagrams for efficient planning
You can create busbar run diagrams for the busbar trunking systems BD01, BD2, LD, as
well as for the new high-current system LI, intuitively and quickly with SIMARIS sketch.
You can find more information at: SIMARIS (http://www.siemens.com/simaris)
System overview
1.2 BD01 system
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1.2
BD01 system
System overview
The BD01 busbar trunking system is designed for applications from 40 A to 160 A.
In the BD01 system, a single size supports 5 rated currents. In other words, all other
components can be used across the power range for all 5 rated currents.
BD01...
Rated current
40 A, 63 A, 100 A, 125 A, 160 A
Rated operating voltage
AC
400 V
Degree of protection
IP54, IP55
Spacing of tap-off points Every 0.5 m on one side
every 1 m on one side
Rated load feeder current
Up to 63 A
Trunking unit
Ancillary equipment unit
Feeder unit
Junction unit
Fixing bracket
End cap
Tap-off unit
Figure 1-2 System overview of BD01 system
System overview
1.2 BD01 system
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Connection method
The assembly of the trunking units even with the end caps and feeder units is fast and
inherently safe. The trunking units or end caps are simply inserted into the lower housing of
the joint block. Once the upper part of the joint block or end cap is fitted, a secure connection
is established by simply tightening the 4 screws.
Figure 1-3 Establishing a safe connection
Tap-off units
Tap-off units are available in four different sizes to connect the loads and also with various
components fitted, e.g. such as plugs, fuses, miniature circuit breakers or combinations of
the aforementioned.
Figure 1-4 Tap-off unit BD01 system
Ancillary equipment units offer additional space for decentral function expansions. Thus,
automation and control components can be installed directly on the busbar.
System overview
1.2 BD01 system
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Fixing and mounting
The BD01 busbar is installed edgewise, with the tap-off points on the side using fixing
brackets on the wall, ceiling or non-fixed installation. The mounting is implemented on the
connection points using a universal fixing bracket. The system can also be fitted flat with the
tap-off points pointing downwards. This reduces the required fixing interval by half.
Figure 1-5 Fixing the BD01 system
Fire protection
If the busbar trunking system is routed through a fire wall or ceiling, it must have fire
protection. Compliant with site requirements, Siemens offers fire protection class S90.
(EI90 available soon)
Ex-works equipment:
External fire protection in the form of a kit for on-site mounting
Mineral mortar or fire protection mastic to seal the joints between busbar trunking system
and component must be provided by the customer.
Figure 1-6 Fire protection BD01-S90
The approval documentation for Germany can be ordered separately:
Approval kit BD01-S90-ZUL-D
(approval certificate, wall signage and declaration of compliance)
System overview
1.3 Networked busbar trunking systems for industrial and building applications
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1.3
Networked busbar trunking systems for industrial and building
applications
The advantages of busbar trunking systems
The busbar trunking system has its advantages in the transport, distribution as well as
switching and protection of electrical energy.
Integration of automation and building systems engineering into the Siemens busbar trunking
systems results in further advantages and also increases the flexibility of the busbar trunking
system.
The combination of standard tap-off units with standard ancillary equipment units guarantees
enhancement in efficiency with the design, installation and operation.
The advantages of the system solution for planning
Modular system
Tested standard components
Freedom in the selection of the bus system
Use of most popular bus systems
The advantages of the system solution during commissioning
Easy and quick mounting
Step-by-step commissioning possible
Flexibility in terms of changes and expansions
The advantages of the system solution in operation
Transparency of circuit states
Central recording of power costs
Increase in system availability thanks to immediate detection of error location and type
Preventive maintenance through recording of operating hours and operating cycles
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Planning principles
2
2.1
Structure of the planning manual
It is not by any means easy to plan a power distribution concept involving the dimensioning
of systems and devices. End user requirements have to be matched with the technical
capabilities of the manufacturer. This planning manual will provide assistance as you plan
and design the following busbar trunking systems from 160 A to 6300 A:
BD2
LD
LI
LR
Description of the individual systems
Each system has a dedicated chapter describing its technical characteristics and areas of
application. Illustrations of the individual busbar trunking system elements also appear. All
significant information relevant to the planning process is given particular emphasis and
explained in detail.
Further information
You will find advice to help you to develop a ready-to-use planning solution under "Further
information". These include specific dimensioning principles and detailed information about
topics such as fireproof barriers and functional endurance.
Siemens can offer a range of services and engineering tools to assist you in drafting your
specification. For an overview and explanation of functions and features, please see Tools
and services (Page 307).
Planning principles
2.2 Busbar trunking system planning
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2.2
Busbar trunking system planning
2.2.1
Principles of busbar trunking system planning
Decision-making criteria affecting the creation of the power supply concept
When drafting a planning concept for a power supply, in addition to the applicable standards
and regulations, you also need to clarify and address issues of cost and technology.
Accordingly, when dimensioning and selecting electrical equipment such as distribution
boards and transformers, rather than focussing on them individually, you need to aim to
optimise their performance as part of a combined system.
All components have to be dimensioned sufficiently for loads both in rated operation and in
the event of a malfunction. Furthermore, you must take the following important issues into
consideration when drafting a power supply concept:
Building type, use and design (e.g. high rise, low rise or number of storeys)
Determination of load centres, identification of possible supply routes and locations for
transformers and main distribution boards
Calculation of the building's effective installed loads according to specific area loads as
appropriate for the building's use
Planning authority regulations and requirements
Requirements set out by the utility company
Requirements to be met by power supply concepts
Planning will never produce just a single option for a solution. Rather, you will need to
assess a number of possible options on the basis of issues relating to technology and cost.
The following requirements are major factors:
Simple and transparent planning
Long service life
High availability
Low fire load
Flexible adaptation to changes in the building
Planning principles
2.2 Busbar trunking system planning
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The solution: Siemens busbar trunking systems
In most applications, these requirements can easily be solved by using suitable busbar
trunking systems.
It is for this reason that busbar trunking systems are increasingly being preferred to cable
trunking by engineering consultants charged with designing systems for power transmission
and distribution. Siemens offers busbar trunking systems from 40 to 6300 A:
The BD01 busbar trunking system from 40 to 160 A for supplying power to shopfloors
with tap-offs up to 63 A
The BD2 system from 160 to 1250 A for supplying power to medium-sized consumers in
building and industrial applications
The ventilated LD system for supplying power to consumers with medium power
requirements in industrial applications
The LI sandwich system for power distribution to consumers with high power
requirements in building applications
The LR cast resin system for power transmission under extreme ambient conditions
(IP68)
Figure 2-1 Siemens busbar trunking systems
Planning principles
2.2 Busbar trunking system planning
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2.2.2
Different types of busbar trunking systems and their functional scope
Requirements of the power supply
Specific requirements of power supplies and their individual components are typical of
modern production facilities and in building technology today. This is particularly true of
automated facilities.
The ability to retrofit new equipment or modify existing resources without interrupting active
production is not only important for the continuous provision of the electrical power supply. It
is also a vital requirement for production facilities operating on a multiple shift basis.
Increased safety and complex systems require a power distribution system which is able to
respond to all requirements associated with costs and technology.
The BD01, BD2, LD, LI and LR busbar trunking systems are type-tested low-voltage
switchgear assemblies in accordance with IEC / EN 61439-1 and -6.
The BD01, BD2 and LD systems consist of busbars, internal bar fixings, an external
enclosure, fixing and connection accessories. The LI sandwich system and the LR cast resin
system consist of busbars, fixing and connection accessories and an insulating foil, along
with an aluminium enclosure (LI ) or an enclosure made from epoxy resin (LR).
Figure 2-2 BD2 trunking unit with tap-off unit
Power transmission
Components of the busbar trunking system transmit power between transformers and low
voltage power distribution systems and from the main distribution board to the service
distribution board. Trunking units without tap-off points are used for the power transmission.
In addition to the standard lengths, customers can select any lengths to meet their particular
building requirements.
Planning principles
2.2 Busbar trunking system planning
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 23
Power distribution
The main application of busbar trunking systems is power distribution. Current can't be taken
from just a single point which is permanently installed such as a cable installation. Current
tap-off units can be moved to any position within the entire system. To tap power at any
given point simply requires positioning a tap-off unit at that location on the busbar.
The result is a flexible distribution system for decentralised power supply to a particular line
or area. Tap-off points can be mounted on one or both sides of straight trunking units.
Depending on the requirements of the particular application, busbar trunking units with tap-
off units for a rated current of 1250 A from a single tap-off point are available for tapping off
power and connecting loads. The tap-off units can be equipped with fuses, fuse-switches,
miniature circuit breakers or circuit breakers as desired.
To be able to change the tap-off units without disconnecting the busbar trunking run, the
following
requirements
apply:
The PE contact on the tap-off unit leads during installation and lags during removal.
The parts which are live during installation, removal or connection have complete
protection against direct contact (degree of protection IP2x).
Installation requires phasing to be correct.
The tap-off unit must be isolated during installation and removal.
Figure 2-3 Tap-off units for flexible current consumption
Planning principles
2.2 Busbar trunking system planning
SIVACON 8PS - Planning with SIVACON 8PS
24 Planning Manual, 11/2016, A5E01541101-04
2.2.3
A comparison of busbar trunking systems and cable trunking
Comparison of features
Feature
Busbar trunking unit
Cable trunking
Type-tested system
x
Mechanical safety High Low
Fire load
Low
High
Thermal characteristics Ambient temperature compliant with
IEC / EN 61439-1 and -6 max. +40°C and
+35°C average over 24 hours
Cable loads are related to +30 °C in accord-
ance with DIN 57298-4, Chap. 5.3.3.1 /
DIN VDE 0298-4/2.88.
Network topology Transparent (line topology with load feed-
ers connected in series via tap-off units)
Significant cable cluster at feeding point due
to point-to-point power supply to loads from
central power distribution system
Protective devices for loads In the tap-off unit: facilitating direct and
immediately traceable assignment to load
locally.
Centrally in the distribution board: this means
that assignment to the load cannot be veri-
fied directly. You have to rely on the cable
and load being labelled correctly.
Space requirements Low High, since correspondingly large distribution
boards are needed. Laying criteria (cluster-
ing, laying method, current carrying capacity,
etc.) have to be taken into account
Retrofitting in the event of
changes to load feeders
Highly flexible thanks to tap-off points in
the trunking units and large number of
different tap-off units
Time-consuming and expensive. Additional
cables need to be laid from the distribution
board to the load.
Planning and configuration Quick and easy using computer-assisted
planning tools
Configuration is time-consuming and com-
plex (distribution board and cable dimension-
ing, cable diagrams, etc.)
Dimensioning (current, voltage
drop, neutralisation conditions)
Complex Very complex
Troubleshooting expenditure
Low
High
Fireproof barrier
Type-tested, factory-built
Dependent upon installation quality on site
Functional endurance Functional endurance tested to
DIN 4102-12
Dependent upon installation quality on site
Electromagnetic interference
Low
Relatively high for standard cables
Installation Few installation accessories and tools,
short installation times
Extensive installation accessories and nu-
merous tools, long installation times
Weight Weighs up to 1/3 of comparable cable
weight
Up to 3 times the weight of the busbar trunk-
ing system
Halogen-free,
PVC-free
1)
All tap-off units are halogen-free and
PVC-free.
Standard cables are not halogen-free and
PVC-free.
1) Details must be obtained from manufacturer
Planning principles
2.2 Busbar trunking system planning
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 25
Planning made easier
Easy to plan, quick to install and flexible to use: Siemens busbar trunking systems are an
efficient means of supplying power to any building. Power distribution can be planned
precisely on the basis of total connected load and the type and number of loads. Planning
tools such as SIMARIS design provide assistance. The line topology with load feeders
arranged at regular intervals ensures transparency. All applications can be implemented
quickly and compactly with standardised sizes.
In a cable trunking system, new loads have to
be connected via an additional sub
-
distribution
board; this costs both time and money.
On busbar trunking systems, tap
-off units in
the vicinity of loads ensure local transparency.
Increased safety due to high short-circuit rating and minimum fire load.
Advanced safety both in respect of short-circuit rating and where fire load is concerned.
BD2A 250 busbar trunking systems, for example, have a fire load of just 1.32 kWh/m,
whereas comparable cable trunking systems (NYY 4 x 95 / 50 mm2) are rated at
5.19 kWh/m. The busbars are also halogen-free. Siemens busbar trunking systems feature
high short-circuit rating. Furthermore, troubleshooting is made easier thanks to local load
short-circuit protection.
High fire load with cables
Low fire load with busbars
Planning principles
2.2 Busbar trunking system planning
SIVACON 8PS - Planning with SIVACON 8PS
26 Planning Manual, 11/2016, A5E01541101-04
2.2.4
Planning guidelines
Documentation aids
The planning manual "Planning with SIVACON 8PS" contains general principles and
product-specific details for planning and dimensioning power distribution using
SIVACON 8PS busbars.
For the complete planning of all main components from medium voltage, through
transformers, to the power outlet for utility and industrial buildings, use of the application
manual of TIP is recommended.
Advance planning
Infeed powers Rated currents and short-circuit currents of
standard transformers (Page 28)
Connected loads
Technical data of the systems (Page 29)
Demand factor Planning example (Page 278)
Permissible voltage drop
Determining the voltage drop (Page 267)
Required protective measures Degrees of protection for busbar trunking
systems (Page 272)
Distribution systems (network structures)
Distribution systems (Page 275)
Selection of the power supply concept:
Centralised with cable and subdistribution boards A comparison of busbar trunking systems and
cable trunking (Page 24)
Decentralised with busbar trunking systems A comparison of busbar trunking systems and
cable trunking (Page 24)
Planning principles
2.2 Busbar trunking system planning
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 27
Draft planning
System sizing
Short-circuit rating Technical data of the systems (Page 29)
Rated operating currents
Technical data of the systems (Page 29)
Calculation of voltage drop Determining the voltage drop (Page 267)
Overload protection and short-circuit protection Overload protection and short-circuit protection
(Page 271)
Degree of protection depending on room type to
DIN VDE 0100
Degrees of protection for busbar trunking
systems (Page 272)
Consideration of busbar layout
BD2
LD
LI
LR
Trunking units Straight trunking
units (Page 41)
Straight trunking
units (Page 112)
Straight trunking
units (Page 170)
Straight trunking
units (Page 242)
Junction units Junction units
(Page 42)
Junction units
(Page 115)
Junction units
(Page 173)
Junction units
(Page 243)
Tap-off units Tap-off units
(Page 50)
Tap-off units
(Page 122)
Tap-off units
(Page 188)
Fireproof barriers
Fireproof barrier (Page 285)
Additional equipment Additional equip-
ment (Page 60)
Additional equip-
ment (Page 127)
Additional equip-
ment (Page 195)
Additional equip-
ment (Page 250)
Installation
General installation instructions Installation instructions for trunking units, incoming supplies,
tap-off units and accessories
Additionally for
BD2: installation manual for the BD2 system
(order no. A5E02126895)
LD: installation manual for the LD system
(order no. A5E02321020)
LI: Installation manual LI system
(Available soon)
LR: installation manual for the LR system
(order no. A5E00949791)
Creation of a specification
Specification texts BD2
Preliminary remark for specifications (Page 36)
Specification texts LD
Preliminary technical descriptions for specifications (Page 106)
Tender specification texts LI
Preliminary technical descriptions for specifications (Page 160)
Specification texts LR
Preliminary remark for specifications (Page 236)
You will also find the latest tender specification text modules for SIVACON 8PS online:
Tender specification texts (http://www.siemens.de/ausschreibungstexte)
Planning principles
2.3 Rated currents and short-circuit currents of standard transformers
SIVACON 8PS - Planning with SIVACON 8PS
28 Planning Manual, 11/2016, A5E01541101-04
2.3
Rated currents and short-circuit currents of standard transformers
Rated voltage
U
rT
400 / 230 V, 50 Hz
525 V, 50 Hz
690 / 400 V, 50 Hz
Rated short-
circuit voltage
value
U
kr
4 %1)
6 %2)
4 %1)
6 %2)
4 %1)
6 %2)
Rated power
Rated
current
I
r
Initial symmetrical
short-circuit cur-
rent
I''
k 3)
Rated
current
I
r
Initial symmetrical
short-circuit current
I''
k
3)
Rated
current
I
r
Initial symmetrical
short-circuit current
I
''
k3)
[kVA]
[A]
[A]
[A]
[A]
[A]
[A]
[A]
[A]
[A]
50
72
1933
1306
55
1473
995
42
1116
754
100
144
3871
2612
110
2950
1990
84
2235
1508
160
230
6209
4192
176
4731
3194
133
3585
2420
200
288
7749
5239
220
5904
3992
167
4474
3025
250
360
9716
6552
275
7402
4992
209
5609
3783
315
455
12247
8259
346
9331
6292
262
7071
4768
400
578
15506
10492
440
11814
7994
335
8953
6058
500
722
19438
12020
550
14810
9158
418
11223
6939
630
910
24503
16193
693
18669
12338
525
14147
9349
800
1154
--
20992
880
--
15994
670
--
12120
1000
1444
--
26224
1100
--
19980
836
--
15140
1250
1805
--
32791
1375
--
24984
1046
--
18932
1600
2310
--
39818
1760
--
30338
1330
--
22989
2000
2887
--
52511
2200
--
40008
1674
--
30317
2500
3608
--
65547
2749
--
49941
2090
--
37844
3150
4550
--
82656
3470
--
62976
2640
--
47722
1)
U
kr = 4 %, standardised to DIN EN 60909-0 / DIN VDE 0102 Part 0 for SrT = 50 ... 630 kVA
2)
U
kr = 6 %, standardised to DIN EN 60909-0 / DIN VDE 0102 Part 0 for SrT = 100 ... 1600 kVA
3)
I''
k Unaffected transformer initial symmetrical short-circuit current in the case of connection to a mains supply with un-
limited short-circuit power
taking into account the voltage factor and the correction factor for transformer impedance in
accordance with DIN EN 60909 / DIN VDE 0102 Part 0 (July 2002)
Approximation formula
Transformer rated current
Transformer short-circuit AC current
I
N [A] = k x SNT [kVA]
I''
k =
I
N /
Iu
k x 100 [A] 400 V: k = 1.45
690 V: k = 0.84
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 29
2.4
System selection criteria
2.4.1
Technical data of the systems
Selection of BD01, BD2, LI, LD and LR
BD01
BD2
LI
LD
LR
Rated operating volt-
age
U
e
AC V 400 690 1000 1000 1000
Standard degree of protec-
tion
IP54, IP55 IP52, IP54,
IP55
IP55 IP34, IP54 1) IP68
Rated current
I
nA A 40160 1601250 8005000,
6300
2)
11005000 400 6300
Rated short-time withstand
current
I
CW
(1 s)
kA 0.582.5 5.5 ... 34 35 150 55116 12100
Conditional short-circuit
rating
I
cf /
I
cc
for TU up to <
630 A
kA 3) 3) 120 / 100 120 / 100 2)
Conditional short-circuit
rating
I
cc for TU 800 A and
above
kA 100 100 2)
Conductor configurations
L1, N, PE=enclosure
L1, L2, N, PE=enclosure
L1, L2, L3, N, PE=enclosure
x
x
L1, L2, L3, PE=enclosure
-—
x
L1, L2, L3, PEN
x
x
x
L1, L2, L3, N, PE=busbar
x
x
x
x
L1, L2, L3, 2N,
PE=enclosure
x
L1, L2, L3, 2N, PE=busbar x
L1, L2, L3, N, (PE) 4),
PE=enclosure
x
L1, L2, L3, 2N, (PE) 4),
PE=enclosure
x
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
30 Planning Manual, 11/2016, A5E01541101-04
BD01
BD2
LI
LD
LR
Dimensions width x height
for 40 A (Al, Cu)
mm x mm
90 x 25
for 160 A (Al, Cu)
mm x mm
90 x 25
167 x 68
for 400 A (Al)
mm x mm
167 x 68
90 x 90
for 1000 A (Al)
mm x mm
167 x 126
155 x 132
180 x 180
120 x 120
for 2000 A (Al)
mm x mm
155 x 230
240 x 180
120 x 220
for 4000 A (Al)
mm x mm
410 x 230
240 x 180
120 x 440
for 1000 A (Cu)
mm x mm
155 x 111
180 x 180
90 x 90
for 2000 A (Cu)
mm x mm
155 x 174
240 x 180
120 x 192
for 3200 A (Cu)
mm x mm
155 x 280
240 x 180
120 x 240
for 5000 A (Cu)
mm x mm
410 x 213
240 x 180
120 x 440
for 6300 A (Cu)
mm x mm
410 x 280
120 x 480
Fire load
Trunking unit incl. tap-off
points
kWh/m 0.76 1.32 … 2
Trunking unit without tap-off
point
kWh/m 2.1315.54 4.168.83 13.0186.96
per tap-off point
kWh
0.89
7.810.8
2)
Voltage drop
for 40 A (Al, Cu)
mV / m/ A
3.192
5)
for 160 A (Al, Cu)
mV / m/ A
0.553
5)
0.519
5)
for 400 A (Al)
mV / m/ A
0.544
5)
0.312
6)
for 1000 A (Al)6) mV / m/ A 0.155) 0.0805) 0.1166) 0.1566)
for 2000 A (Al)6) mV / m/ A 0.0335) 0.0796) 0.0686)
for 4000 A (Al)
6)
mV / m/ A
0.057
5)
0.043
6)
0.043
6)
for 1000 A (Cu) 6) mV / m/ A 0.0805) 0.1486)
for 2000 A (Cu)
6)
mV / m/ A
0.065
5)
0.08
6)
0.064
6)
for 3200 A (Cu)
6)
mV / m/ A
0.048
5)
0.048
6)7)
0.049
6)
for 5000 A (Cu)
6)
mV / m/ A
0.108
5)
0.03
6)
0.025
6)
Magnetic fields
8)
for 40 A (Al, Cu)
µT
0.4
for 160 A (Al, Cu)
µT
0.6
2.8
for 400 A (Al)
µT
11.1
2)
for 1000 A (Al)
µT
14.6
5.38
11.0
2)
for 2000 A (Al)
µT
13.32
12.0
2)
for 4000 A (Al)
µT
9.12
13.0
2)
for 1000 A (Cu)
µT
2)
2)
for 2000 A (Cu)
µT
2)
9.7
2)
for 5000 A (Cu)
µT
2)
14.4
2)
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 31
BD01
BD2
LI
LD
LR
Max. fixing distances
Al systems
m
1.53.1
2.54.0
2.03.0
5.06.0
1.53.0
Cu systems
m
1.53.0
1.51.0
2.03.0
2.03.0
1.53.0
Tap-offs can be plugged into tap-off points at 3 m intervals
Up to 16 A
Units
6
11
0
9)
Up to 63 A
Units
6
10
6
3
0
9)
Up to 125 A
Units
10
6
3
0
9)
160 A … 250 A
Units
6
6
3
0
9)
315 A … 630 A
Units
4
10)
4
3
0
9)
800 A … 1250 A
Units
1
2
0
9)
1)
With IP54, derating of up to 36 % needs to be applied
2)
On request
3)
Usually equivalent to the protective devices installed (<
I
cw), see the corresponding technical data
4)
(PE) = Clean earth
5)
Voltage drop data for 50 Hz 3-phase, cos phi = 0.9, symmetrical load, distributed load decrease and single-side infeed
6)
Voltage drop data for 50 Hz 3-phase, cos phi = 0.9, symmetrical load, concentrated load decrease and single-side
infeed
7)
With LDC6 (
I
nA = 3400 A)
8)
Magnetic field values measured with symmetrical load 0.5 m away from the busbar trunking system
9)
Tap-off units can only be connected between two busbar trunkings with a bolt-on joint block (fixed tap-off unit)
10) Can only be used as of BD2-630
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
32 Planning Manual, 11/2016, A5E01541101-04
2.4.2
Areas of application for high-current systems
Selection of high-current systems
In principle, SIVACON 8PS offers three high-current systems. We recommend the following
selection dependent upon area of application and ambient conditions:
Location of
use
Areas of application
System
LI
LD
LR
Public build-
ings
Banks
Insurance companies
Internet providers
Computer centres
Broadcasting stations
Shopping centres
Furniture stores
Trade fairs
Airports
Hospitals
Clinics
Office buildings
For power distribution in multi-storey buildings with a mainly
vertical layout
X
To avoid neutral conductor overload due to electronic loads
subject to harmonics
X
To prevent interference potentials in the busbar enclosure
impairing the operating capability of loads
X
For a high density of load tap-off points in the smallest of
spaces
X X
To protect loads against negative influences of magnetic
field emissions
1. Systems up to and including 1600 A
2. Systems from 2000 A
X
X
For power distribution with a mainly horizontal layout and
IP34 degree of protection
X
Industrial
buildings
Industrial buildings
Production environ-
ments
When arc-fault-resistant load feeders are required.
X
When degree of protection IP34 is sufficient.
X
When the degree of protection IP55 is required.
X
When degree of protection IP6x is required.
X
For power transmission under extreme production condi-
tions
X
For power transmission outside closed buildings
X
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 33
2.4.3
Selection on the basis of rated transformer data
Figure 2-4 Connection of a transformer to a Siemens power distribution board
The table can be used to select the appropriate busbar trunking system on the basis of the
transformer's rated current. The short-circuit rating of the LD, LI and LR busbar trunking
systems is usually higher than the values for the transformer's sustained and peak short-
circuit currents. However, this only applies if just a single transformer is used for the low-
voltage supply. Higher short-circuit values are possible on ring or meshed networks or if
transformers are connected in parallel in a low-voltage switchgear assembly. Such scenarios
must therefore be given special consideration. Please refer to the technical data for the
busbar trunking systems in question for specific data about short-circuit ratings.
Rated
power
Rated
current
I
Initial
symmetrical
short-circuit
current
I''
k (
U
k=6 %)
Peak short-
circuit
current
I
pk
(u
k=6 %)
LD size
Rated
current
I
nA
I
P34
LI size
Rated
current
I
nA IP54 /
IP55
LR size
Rated
current
I
nA
IP68
[kVA]
[A]
[kArms]
[kA]
[A]
[A]
[A]
630 910 16.19 38.58 LDA1 1100 LI-..1000 1000 LRA04 /
LRC03
1000
800 1155 19.25 49.00 LDA2 1250 LI-..1250 1250 LRA06 /
LRC04
1400 / 1350
1000 1444 24.06 61.24 LDA3 1600 LI-..1600 1600 LRA07 /
LRC05
1700
1250 1805 30.07 76.57 LDA4 2000 LI-..2000 2000 LRA08 /
LRC07
2000
1600 2310 38.50 98.00 LDA5 2500 LI-..2500 2500 LRA09 /
LRC08
2500
2000 2887 48.11 122.50 LDA6 3000 LI-..3200 3200 LRA27 /
LRC09
3200
2500 3609 60.11 153.10 LDA7 3700 LI-..4000 4000 LRA28 /
LRC27
4000
3150 4546 75.78 192.90 LDC8 5000 LI-..5000 5000 LRA29 /
LRC28
5000
Planning principles
2.4 System selection criteria
SIVACON 8PS - Planning with SIVACON 8PS
34 Planning Manual, 11/2016, A5E01541101-04
You can find other values in the following chapters:
For the BD2 system: "Technical specifications (Page 62)"
For the LD system: "Technical specifications (Page 128)"
For the LI system: "Technical specifications (Page 197)"
For the LR system: "Technical specifications (Page 252)"
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 35
Planning with BD2
3
3.1
System description
Straight trunking units
Junction units
Feeder units
Tap-off units
Additional equipment
Figure 3-1 Overview of BD2 busbar trunking system
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
36 Planning Manual, 11/2016, A5E01541101-04
The BD2 busbar trunking system is suitable for universal use. Designed for applications
involving flexible power supplies and power distribution for consumers in industrial and
commercial environments, it can also be used to transmit power from one supply point to
another. In addition, the BD2 busbar trunking system can be used as a rising main busbar in
high rise buildings.
3.2
System components
3.2.1
Preliminary remark for specifications
The BD2 busbar trunking systems are to be offered as type-tested low-voltage switchgear
assemblies in accordance with IEC / EN 61439-1 and -6.
The brand offered represents a complete system consisting of system modules, including
elements for connection to the distribution boards such as brackets, straight trunking units,
e.g. Z connectors, T connectors, and flexible junction units.
Trunking units with tap-off openings can be equipped with coded tap-off units. Tap-off units
are protected against incorrect mounting. Depending on the type, the isolation of the tap-off
units during removal is assured by a compulsory sequence of operations or by cautionary
instructions.
If necessary, it is possible to equip the busbar trunking system with an asbestos-free fire
barrier which conforms in the case of BD2C to the fire resistance class S120 and in the case
of BD2A to S90 or S120 (EI90 and EI120 available soon). The trunking unit's steel enclosure
is made of moulded steel profiles to permit large fixing distances between suspension points.
The enclosure is painted in a light grey colour (RAL 7035).
The external dimensions may not exceed 68 x 167 mm up to 400 A or 126 x 167 mm up to
1250 A. The connection of the individual systemmodules is implemented with state-of-the-art
quick connection terminals with integral compensation for expansion. The system is
protected against phase inversion. A mechanical, electrical and maintenance-free
connection between two busbar trunking system elements can be established quickly and
safely using conventional tools.
The conductors are made of aluminium or copper. The aluminium and copper conductors
must be nickel-plated and tinned along their entire length. The fire load should not exceed
the value stated in the technical specifications. Expansion compensation must be integrated
into eachtrunking unit. Busbar trunking units should be able to be mounted both horizontally
and vertically. Junction units may not be used to connect cables.. Flexible junction unit are
permissible as system modules of the busbar trunking system.
The following declarations of conformity must be included with the offer:
EN ISO 9001 QA certification
Certificates verifying
That the fire barrier has been tested and approved
That functional endurance has been tested and approved
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 37
The general preliminary remarks are followed by a detailed description of the system as
appropriate for technical requirements:
Technical data for BD2 busbar trunking systems
BD2-...
Rated current
_________
1)
Degree of protection
IP52 / IP54 / IP55
2)
Mounting position
Horizontal / vertical
2)
Rated insulation voltage
690 V AC / 800 V DC
Rated operating voltage
690 V AC
Rated frequency
5060 Hz
Rated peak withstand current
I
pk
_________
1)
Rated short-time withstand current
I
cw
(1 s)
_________
1)
Conductor material
Al / Cu
2)
No. of conductors (active)
5
Fire load
_________
1)
Enclosure dimensions:
160400 A
68 x 167 mm
6301250 A
126 x 167 mm
1)
Enter the data of the selected system variable. You can find more detailed information in the
"Technical specifications".
2) Please delete as appropriate.
Note
The innovative design and
construction of the BD2 busbar trunking system means that
additional compensation units to compensate busbar expansion are not required. Prevailing
length expansion caused by current heat is compensated in the quick connection terminal.
Furthermore, regard
less of mounting position and degree of protection, the BD2 busbar
trunking system can always be loaded at 100 % of rated current. This only has to be reduced
in the case of pure power transmission in the edgewise mounting position (to 0.9 x
I
e).
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
38 Planning Manual, 11/2016, A5E01541101-04
3.2.2
Type code
Trunking units
Figure 3-2 Type codes for BD2A/BD2C trunking units
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 39
Feeder units, junction units
1)
Feeder units only
Selection example for trunking units
A rated current of 1000 A is calculated for a project. Aluminium conductors shall be used. A
5-pole system has to be used. The cross section of the neutral conductor needs to be equal
to the cross section of the phase conductor.
This results in type
BD2A-3-1000-
Planning with BD2
3.2 System components
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40 Planning Manual, 11/2016, A5E01541101-04
Trunking unit sizes (cross sections)
Size 1
Size 2
Conductor configuration 2
160400 A
6301250 A
BD2A-2, BD2C-2 trunking units
Conductor configuration 3
160400 A
6301250 A
BD2A-3, BD2C-3 trunking units,
junction units, BD2A-..., BD2C-... incoming supplies
Additional equipment is available for both sizes and conductor configurations.
Tap-off units with moulded-plastic enclosures up to 25 A and tap-off units with sheet steel
enclosures can be used as tap-offs for size 1 up to 250 A and size 2 up to 530 A.
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 41
3.2.3
Straight trunking units
Straight trunking units are used to transmit electrical power and to supply loads.
Straight trunking units without tap-off points for horizontal and vertical installation
400 to 1250 A
Figure 3-3 Straight trunking units without tap-off points
Length
Type
Standard lengths
1.25 m
BD2.-.-...-SO-1
2.25 m
BD2.-.-...-SO-2
3.25 m
BD2.-.-...-SO-3
Optional lengths W
0.501.24 m
BD2.-.-WO-1W*
1.262.24 m
BD2.-.-WO-2W*
2.263.24 m
BD2.-.-WO-3W*
Non-standard lengths
(can be cut to length)
1.25 m
160400 A
BD2.-400-WO-AL
6301250 A BD2A-1000-WO-AL
BD2C-1250-WO-AL
Straight trunking units with tap-off points for horizontal and vertical installation
160 to 1250 A
Figure 3-4 Straight trunking units with tap-off points
BD2.-2 and BD2.-3
Length
Type
Standard lengths with 12 tap-off points
3.25 m
BD2.-.-...-SB-3
Standard lengths with 8 tap-off points
2.25 m
BD2.-.-...-SB-2
Standard lengths with 4 tap-off points
1.25 m
BD2.-.-...-SB-1
Optional lengths with 8 to 12 tap-off points
2.263.24 m
BD2.-.-...-WB-3W*
Optional lengths with 4 to 8 tap-off points
1.262.24 m
BD2.-.-...-WB-2W*
S: Standard length; O: Without tap
-off point; W: Optional length; *: Optional length in m;
B: Tap-off points on both sides
Planning with BD2
3.2 System components
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42 Planning Manual, 11/2016, A5E01541101-04
3.2.4
Junction units
Junction units are used to adapt the layout to prevailing structural conditions.
Angled trunking units
Length
Type
Standard length X and Y = 0.36 m
160400 A
BD2.-400-L...
6301250 A BD2A-1000-L...
BD2C-1250-L...
Optional length X or Y = 0.36 ...
1.25 m
160400 A
BD2.-400-L...-X*/Y*
6301250 A BD2A-1000-L...-X*/Y*
BD2C-1250-L...-X*/Y*
* Optional length in m
Planning with BD2
3.2 System components
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Planning Manual, 11/2016, A5E01541101-04 43
Z trunking units
Length
Type
Optional length X or Y = 0.36 ... 0.6 m
Z ≤ 1.25 m
160400 A
BD2.-400-Z.-X*/Y*/Z*
6301250 A BD2A-1000-Z.-X*/Y*/Z*
BD2C-1250-Z.-X*/Y*/Z*
* Optional length in m
Angled trunking units with angle configurable between 85° and 175° in 5° increments
Length
Type
Standard length X and Y = 0.36 m
160400 A
BD2.-400-L.-G*
6301250 A BD2A-1000-L.-G*
BD2C-1250-L.-G*
Optional length X or Y = 0.36 ... 1.25 m
160400 A
BD2.-400-L.-X*/Y*-G*
6301250 A BD2A-1000-L.-X*/Y*-G*
BD2C-1250-L.-X*/Y*-G*
X*, Y*: Optional length in m; G*: Required number of degrees
Planning with BD2
3.2 System components
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44 Planning Manual, 11/2016, A5E01541101-04
T and K units
T
-unit
K-unit
Length per leg
K unit type
0.36 m
160400 A
BD2.-400-T.
6301250 A BD2A-1000-T.
BD2C-1250-TV(TH)
Length per leg
T unit type
0.36 m
160400 A
BD2.-400-K..
6301250 A BD2A-1000-K..
BD2C-1250-KVH
Flexible movable trunking units in X/Y/Z direction
Length
Type
1.25 m
160400 A
BD2-400-R
1.75 m
630800 A
BD2-800-R
Custom lengths up to 3.25 m are pos-
sible
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 45
3.2.5
Feeder units
Feeder units are used to feed power into the busbar trunking system with single-core or
multi-core cables as well as to feed power directly to low-voltage distribution equipment. The
incoming supply can be set up as an end feed or a centre feed.
3.2.5.1
End feeder units
Common features
All end feeder units have the following common features:
Cables can be fed in from the front end. Units with cable compartments support cable entry
from the side. In the case of multi-core conductor entry, a sectional entry flange with cable
sleeves and cable propping bar is standard; in the case of single-core conductor entry, an
aluminium plate is standard. The cables are connected using lugs and bolts. The bolts are
supplied with the unit. When connecting 5-conductor cables you will need to remove the
bridge between PE and N which will have been fitted prior to delivery. The phasing can be
changed locally.
Incoming cable connection unit: Multi-core entry BD2.-...-EE, single-core design BD2.-...-EE-
EBAL
Figure 3-5 End feeder units: Incoming cable connection unit
Version
Type
160250 A
BD2.-250-EE(-EBAL)
160400 A
BD2.-400-EE(-EBAL)
6301000 A
BD2.-1000-EE(-EBAL)
6301250 A
BD2C-1250-EE(-EBAL)
Planning with BD2
3.2 System components
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46 Planning Manual, 11/2016, A5E01541101-04
Incoming cable connection unit: Multi-core entry with cable compartment BD2.-...-EE-KR,
single-core design with cable compartment BD2.-...-EE-KR-EBAL
Figure 3-6 End feeder units: Cable entry from the side
Version
Type
160400 A
BD2.-400-EE-KR(-EBAL)
6301000 A
BD2.-1000-EE-KR(-EBAL)
6301250 A
BD2C-1250-EE-KR(-EBAL)
Incoming cable connection unit with switch disconnector
Figure 3-7 End feeder unit with switch disconnector
Version
Type
250 A
with 3-pole switch disconnector
BD2C-250-EESC
315 A
with 3-pole switch disconnector
BD2C-315-EESC
400 A
with 3-pole switch disconnector
BD2C-400-EESC
630 A
with 3-pole switch disconnector
BD2C-630-EESC
800 A
with 3-pole switch disconnector
BD2C-800-EESC
Cables can be fed in from three sides.
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 47
3.2.5.2
Centre feeder units
Common features
All centre feeder units have the following common features:
Cables can be fed in from three sides. The sectional entry flange with integrated strain relief
can be converted to these positions. Aluminium cable entry plates for single-core cables as
an alternative option. The cables are connected using lugs and bolts. When connecting 5-
conductor cables you will need to remove the bridge between PE and N which will have
been fitted prior to delivery.
Figure 3-8 Centre feed
Version
Type
160 ... 400 A
BD2.-400-ME
630 ... 1000 A
BD2.-1000-ME
160 ... 400 A
BD2.-400-ME-MBAL
630 ... 1000 A
BD2.-1000-ME-MBAL
Important planning information:
A centre feed might be the best option for the distribution of high powers with small busbar
cross sections. It is mounted in the centre of a trunking run between two trunking units. A
single power supply cable provides power to the left-hand and right-hand trunking runs
simultaneously. This means, for example, that a 1000 A centre feed can feed in 2000 A. In
such cases you need to pay particular attention to the busbar system's overload and short-
circuit protection.
You will need to provide protective measures in the following instances:
If short-circuit protection is not provided by the upstream protective device and/or
If the overload is not set by the type and number of loads.
There are two possible protective measures:
1. Use a centre feed unit with one coupling unit on the left of the incoming feeder and
another on the right. The coupling unit is fitted with a protective device (fuse or circuit
breaker) providing short-circuit and overload protection.
2. Use two end feeder units located in the centre of the trunking run. The two supply lines
are fused separately in the distribution system.
Planning with BD2
3.2 System components
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48 Planning Manual, 11/2016, A5E01541101-04
3.2.6
Distribution board feeder
The distribution board feeder supports direct connection to a low-voltage distribution board.
The cables or Cu strips are connected using the bolts supplied with the feeders.
Figure 3-9 Distribution board feeder
Version
Type
160250 A BD2.-250-VE
160400 A BD2.-400-VE
6301000 A
BD2.-1000-VE
6301250 A
BD2C-1250-VE
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 49
3.2.7
Coupling units
Features of coupling units
Coupling units are used if devices or sections of the power supply need to be disconnected
or connected accordingly. To adapt the busbar trunking system to the actual load, the busbar
cross section can be reduced and protected against short circuits and overloads with a
coupling unit.
Coupling units can be fitted with load disconnect switches up to 630 A or circuit-breakers up
to 1250 A as appropriate for the application concerned.
The maximum installation length in the busbar trunking run is 1500 mm. The dimensions of
the coupling unit must not exceed 1250 x 500 x 500 mm (W x H x D).
Coupling units with circuit-breaker
Figure 3-10 Coupling unit with circuit-breaker
BD2.-...-K...-3VL...: On request
Coupling units with fuse switch disconnector
Figure 3-11 Coupling unit with fuse switch disconnector
BD2.-...-K...-ST...: On request
Planning with BD2
3.2 System components
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50 Planning Manual, 11/2016, A5E01541101-04
3.2.8
Tap-off units
Tap-off units are used to supply power to loads and outgoing current feeders, e.g. for
incoming power supplies to smaller busbar trunking systems.
3.2.8.1
Tap-off units up to 25 A
Special features
Tap-off units with fuses, miniature circuit breakers and sockets
Insulation-enclosed, light grey in colour, RAL 7035
Transparent cover which can be operated from the outside for the protective devices
Load switching capacity AC 22 B (400 V) of tap contacts
Multi-core cables can be fed in from three sides
Knockouts
Cable grommet and integrated strain relief (standard)
The tap-off unit must be disassembled in order to open the unit and connect the cables.
Anti-rotation feature prevents incorrect mounting.
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Figure 3-12 Tap-off units up to 25 A
I
nc
[A]
U
e
[V]
Version
Type
25
400
Fuse base 3 x D02
BD2-AK1/S18
16
400
Fuse base 3 x D01
BD2-AK1/S14
16
400
3-pole miniature circuit breaker 16 A, characteristic C
BD2-AK1/A163
16
230
Fuse base 2 x D01 and 2 x 3-pole sockets CEE 16
BD2-AK1/2CEE163S14
16
400
Fuse base 3 x D01 and 1 x 5-pole socket CEE 16
BD2-AK1/CEE165S14
16 230 2 x 16 A miniature circuit breakers, 1-pole, characteristic B and
2 sockets CEE 16, 3-pole
BD2-AK1/2CEE163A161
16 400 3-pole 16 A miniature circuit breaker, characteristic C and
1 socket CEE 16, 5-pole
BD2-AK1/CEE165A163
16 230 Fuse base 3 x D01 and 3 x 16 A socket outlets with earthing
contact
BD2-AK1/3SD163S14
16 230 3 x 16 A miniature circuit breakers, 1-pole, characteristic B and
3 x 16 A socket outlets with earthing contact
BD2-AK1/3SD163A161
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 51
3.2.8.2
Tap-off units up to 63 A
Tap-off units with 63 A, with cover integrated load disconnector
Special features
Tap-off units with fuses, miniature circuit breakers and sockets
Sheet-steel enclosure, hot-dip galvanised and cover with powdered paint finish, light grey
colour, RAL 7035
The cover has to be opened prior to mounting and removing the unit
Multi-core cables can be fed in from three sides, knockouts
Anti-rotation feature prevents incorrect mounting.
Switch disconnector integrated into cover, switching capacity AC 22 B (400 V) ensures
zero voltage and zero load when the cover is opened
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Figure 3-13 Tap-off units up to 63 A, with cover integrated load disconnector
I
nc
[A]
U
e
[V]
Version
Type
63
400
3-pole fuse base D02 up to 63 A
BD2-AK2X/S18
25
500
3-pole fuse base S27 up to 25 A
BD2-AK2X/S27
63
500
3-pole fuse base S33 up to 63 A
BD2-AK2X/S33
32
400
3-pole miniature circuit breaker 32 A, characteristic C
BD2-AK2M2/A323
32 400 3-pole fuse base S33 and
1 x 5-pole socket CEE 32
BD2-AK2X/CEE325S33
63 400 3-pole fuse base S33 and
1 x 5-pole socket CEE 63
BD2-AK2X/CEE635S33
32 400 3-pole 32 A miniature circuit breaker, characteristic C and
1 x 5-pole socket CEE 32
BD2-AK2M2/CEE325A323
16 400 2 x 3-pole fuse bases D01 and
2 x 5-pole sockets CEE 16
BD2-AK2X/2CEE165S14
16 400 2 x 3-pole 16 A miniature circuit breakers, characteristic C and
2 x 5-pole sockets CEE 16
BD2-AK2M2/2CEE165A163
16 230 1 x 3-pole miniature circuit breaker 16 A, characteristic C and
2 x 1-pole miniature circuit breaker 16 A, characteristic C and
1 x 5-pole socket CEE 16 and
2 x 16 A sockets with earthing contact
BD2-AK2M2/2SD163CEE165A163
Planning with BD2
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52 Planning Manual, 11/2016, A5E01541101-04
Tap-off units up to 63 A, without cover integrated load disconnector
Special features
Tap-off units with fuses or miniature circuit breakers
Sheet-steel enclosure, hot-dip galvanised and cover with powdered paint finish, light grey
colour, RAL 7035
Anti-rotation feature prevents incorrect mounting.
The unit can be mounted and removed with the cover open and closed
If the cover is open, the installed devices will remain live (test option). IP20 protection /
finger safety is assured.
Multi-core cables can be fed in from three sides via knockouts
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Note
You are not permitted to connect or
disconnect the tap-off unit under load.
Figure 3-14 Tap-off units up to 63 A, without cover integrated load disconnector
I
nc
[A]
U
e
[V]
Version
Type
63
400
3-pole fuse base D02 up to 63 A
BD2-AK02X/S18
25
500
3-pole fuse base S27 up to 25 A
BD2-AK02X/S27
63
500
3-pole fuse base S33 up to 63 A
BD2-AK02X/S33
25
400
3-pole fuse base SP38 for cylindrical fuse-link 10 x 38 mm
BD2-AK02X/F1038-3
25
400
4-pole fuse base SP38 for cylindrical fuse-link 10 x 38 mm
BD2-AK02X/F1038-3N
32
400
3-pole fuse base SP51 for cylindrical fuse-link 14 x 51 mm
BD2-AK02X/F1451-3
32
400
4-pole fuse base SP51 for cylindrical fuse-link 14 x 51 mm
BD2-AK02X/F1451-3N
63
400
3-pole fuse base SP58 for cylindrical fuse-link 22 x 58 mm
BD2-AK02X/F2258-3
63
400
4-pole fuse base SP58 for cylindrical fuse-link 22 x 58 mm
BD2-AK02X/F2258-3N
32
400
3-pole miniature circuit breaker 32 A, characteristic C
BD2-AK02M2/A323
32
400
3+N-pole miniature circuit breaker 32 A, characteristic C
BD2-AK02M2/A323N
63
400
3-pole miniature circuit breaker 63 A, characteristic C
BD2-AK02M2/A633
63
400
3+N-pole miniature circuit breaker 63 A, characteristic C
BD2-AK02M2/A633N
Planning with BD2
3.2 System components
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Planning Manual, 11/2016, A5E01541101-04 53
3.2.8.3
Tap-off units up to 125 A
Tap-off units up to 125 A, with cover integrated load disconnector
Special features
With fuse base and fuse switch disconnector
Sheet-steel enclosure, hot-dip galvanised and cover with powdered paint finish, light grey
colour, RAL 7035
Anti-rotation feature prevents incorrect mounting.
Cover interlock for circuit breaker and fuse switch disconnector
Multi-core cables can be fed in from three sides via knockouts
Conductor cross-sections in the chapter "Tap-off units (Page 72)".
Note
If you are using fuse bases, you must disconnect the load prior to removing the enclosure
cover.
Figure 3-15 Tap-off units up to 125 A, with cover integrated load disconnector
I
nc
[A]
U
e
[V]
Version
Type
125
690
3-pole LV HRC fuse base size 00
BD2-AK3X/GS00
125
690
3-pole LV HRC fuse switch disconnector size 00
BD2-AK3X/GSTZ00
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3.2 System components
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54 Planning Manual, 11/2016, A5E01541101-04
Tap-off units up to 125 A, without cover integrated load disconnector
Special features
With miniature circuit breaker, circuit breaker, fuse switch, fuse base and fuse switch
disconnector
Sheet-steel enclosure, hot-dip galvanised and cover with powdered paint finish, light grey
colour, RAL 7035
Anti-rotation feature prevents incorrect mounting.
The unit can be mounted and removed with the cover open and closed
If the cover is open, the installed devices will remain live (test option). IP20 protection /
finger safety is assured.
Cover interlock on units with circuit breaker and fuse switch disconnector
Multi-core cables can be fed in from three sides via knockouts
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Note
You are not permitted
to connect or disconnect the tap-off units under load.
Please note the reduced switching capacity when using the tap
-off units with circuit
breakers at
U
e = 690 V.
Figure 3-16 Tap-off unit up to 125 A, without cover integrated load disconnector
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 55
I
nc
[A]
U
e
[V]
Version
Type
125
400
with 3-pole miniature circuit breaker 125 A, characteristic C
BD2-AK03M2/A1253
125
400
with 3-N-pole miniature circuit breaker 125 A, characteristic C
BD2-AK03M2/A1253N
125
400
with 3-pole fuse switch disconnector GSTA00
BD2-AK03X/GSTA00
125
400
with 3-pole fuse base SP58
BD2-AK03X/F2258-3
125
400
with 4-pole fuse base SP58
BD2-AK03X/F2258-3N
125
400
with 3-pole IEC - with fuse switch disconnector
BD2-AK03X/FS125IEC-3
125
400
with 3-pole BS - with fuse switch disconnector
BD2-AK03X/FS125BS-3
125
400
with 4-pole IEC - with fuse switch disconnector
BD2-AK03X/FS125IEC-4
125
400
with 4-pole BS - with fuse switch disconnector
BD2-AK03X/FS125BS-4
40
400
with 40 A 3-pole circuit breaker
BD2-AK03X/LSD-DC40-N
63
400
with 63 A 3-pole circuit breaker
BD2-AK03X/LSD-DC(AE)63-N
80
400
with 80 A 3-pole circuit breaker
BD2-AK03X/LSD-DC(AE)80-N
100
400
with 100 A 3-pole circuit breaker
BD2-AK03X/LSD-DC100-N
125
400
with 125 A 3-pole circuit breaker
BD2-AK03X/LSD-DC125-N
40
400
with 40 A 4-pole circuit breaker
BD2-AK03X/LSD-EM40-N
63
400
with 63 A 4-pole circuit breaker
BD2-AK03X/LSD-EM63-N
80
400
with 80 A 4-pole circuit breaker
BD2-AK03X/LSD-EM80-N
100
400
with 100 A 4-pole circuit breaker
BD2-AK03X/LSD-EM100-N
125
400
with 125 A 4-pole circuit breaker
BD2-AK03X/LSD-EM125-N
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56 Planning Manual, 11/2016, A5E01541101-04
3.2.8.4
Tap-off units up to 250 A
Special features
Tap-off units with circuit breaker, fuse switch disconnector and fuse base
Sheet-steel enclosure, hot-dip galvanised and painted, light grey colour, RAL 7035
Multi-core or single-core cables can be fed in from 3 sides
The cover has to be opened prior to mounting and removing the unit
Anti-rotation feature prevents incorrect mounting.
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Note
Please note the reduced switching capacity when using the tap
-off units with circuit
breakers at
U
e = 690 V.
You are not permitted to connect or disconnect the tap
-off unit under load.
Figure 3-17 Tap-off units up to 250 A
I
nc
[A]
U
e
[V]
Version
Type
160
400
with 160 A 3-pole circuit breaker
BD2-AK04/LSD-DC(AE)-160-N
160
400
with 160 A 4-pole circuit breaker
BD2-AK04/LSD-EC-160-N
200
400
with 200 A 3-pole circuit breaker
BD2-AK04/LSD-DC(AE)-200-N
200
400
with 200 A 4-pole circuit breaker
BD2-AK04/LSD-EC-200-N
250
400
with 250 A 3-pole circuit breaker
BD2-AK04/LSD-DC(AE)-250-N
250
400
with 250 A 4-pole circuit breaker
BD2-AK04/LSD-EC-250-N
225
400
with 250 A 3-pole fuse switch disconnector
BD2-AK04/FS250IEC(BS)-3
225
400
with 250 A 4-pole fuse switch disconnector
BD2-AK04/FS250IEC(BS)-4
250
690
with 3-pole NH1 fuse base
BD2-AK04/SNH1
Planning with BD2
3.2 System components
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Planning Manual, 11/2016, A5E01541101-04 57
3.2.8.5
Tap-off units up to 400 A
Tap-off units up to 400 A, for BD2 systems 630 to 1250 A only
Special features
Tap-off units with circuit breaker, fuse switch disconnector and fuse base
Sheet-steel enclosure, hot-dip galvanised and painted, light grey colour, RAL 7035
Multi-core or single-core cables can be fed in from 3 sides
The cover has to be opened prior to mounting and removing the unit
Anti-rotation feature prevents incorrect mounting.
You can find the connector cross-sections in the chapter "Tap-off units (Page 72)"
Note
Please note the reduced switching capacity when using the tap
-off units with circuit
breakers at
U
e = 690 V.
You are not
permitted to connect or disconnect the tap-off unit under load.
Figure 3-18 Tap-off units up to 400 A, for BD2 systems 630 to 1250 A only
I
nc
[A]
U
e
[V]
Version
Type
400
400
with 400 A 3-pole circuit breaker
BD2-AK05/LSD-DC(AE)-400-N
400
400
with 400 A 4-pole circuit breaker
BD2-AK05/LSD-EC-400-N
320
400
with 400 A 3-pole fuse switch disconnector
BD2-AK05/FS400IEC(BS)-3
320
400
with 400 A 4-pole fuse switch disconnector
BD2-AK05/FS400IEC(BS)-4
400
690
with 3-pole NH2 fuse base
BD2-AK05/SNH2
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
58 Planning Manual, 11/2016, A5E01541101-04
3.2.8.6
Tap-off units up to 530 A
Tap-off units up to 530 A, for BD2 systems 630 to 1250 A only
Special features
Tap-off units with circuit breaker and fuse base
Sheet-steel enclosure, hot-dip galvanised and painted,
Colour light grey, RAL 7035
Multi-core or single-core cables can be fed in from 3 sides
The cover has to be opened prior to mounting and removing the unit
Anti-rotation feature prevents incorrect mounting.
Conductor cross-sections in the chapter "Tap-off units (Page 72)".
Note
Please note the reduced switching capacity when using the tap
-off units with circuit
breakers at
U
e = 690 V.
You are not permitted to connect or disconnect the tap
-off unit under load.
Figure 3-19 Tap-off units up to 530 A, for BD2 systems 630 to 1250 A only
I
nc
[A]
U
e
[V]
Version
Type
530
400
with 630 A 3-pole circuit breaker
BD2-AK06/LSD-DC(AE)-630-N
530
400
with 630 A 4-pole circuit breaker
BD2-AK06/LSD-EC-630-N
530
690
with 3-pole NH3 fuse base
BD2-AK06/SNH3
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 59
3.2.9
Ancillary equipment units
Special features
The enclosure is made of hot-dip galvanised sheet steel and has a painted cover. It is
light grey in colour (RAL 7035).
Cables can be inserted from 3 sides via knockouts (plastic cable glands with strain relief
must be used, these are not included in the scope of supply).
Can be combined with tap-off units (BD2-AK02, AK2, AK03, AK3)
A standard rail is integrated for installation of the device.
1 size with 8 WM (1 WM = 18 mm space requirement).
With or without device installation unit for external operation (1 size with space units for
8 WM)
Installation of devices (e.g. circuit breakers) according to DIN 43871 up to and including
63 A is possible.
Figure 3-20 Ancillary equipment unit
U
e
[V]
Version
Type
400
-
BD2-GK2X/F
400
-
BD2-GKM2/F
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
60 Planning Manual, 11/2016, A5E01541101-04
3.2.10
Additional equipment
3.2.10.1
Additional equipment for increased degree of protection IP54 and IP55
Flanges for increased degree of protection
In both the horizontal and vertical mounting positions, the BD2 busbar trunking system has
degree of protection IP52. This can be increased to IP54 or IP55 by fitting additional flanges.
Detailed information about degree of protection flanges appears in the LV 70 Catalogue.
3.2.10.2
Fixing accessories
The following fixing brackets are available for edgewise and flat mounting of busbar trunking
systems in horizontal busbar trunking runs:
Fixing bracket BD2-400-BB
Fixing bracket BD2-1250-BB
Planning with BD2
3.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 61
Fixing accessories
Figure 3-21 Fixing bracket for vertical mounting BD2-BVF
For the fixing of vertical busbar trunking runs
Wall fixing BD2-BWV
Wall fixing BD2-BVC
Figure 3-22 Ceiling fixing BD2-BDV
Compensation of wall or ceiling unevenness between 30 and 82 mm
Figure 3-23 Spacer bracket BD2-BD
The spacer bracket is combined with the BD2-400(1250)-BB fixing bracket.
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
62 Planning Manual, 11/2016, A5E01541101-04
3.3
Technical specifications
3.3.1
BD2 general data
BD2-...
Standards and regulations
IEC / EN 61439-1 and -6
Rated insulation voltage
U
i
AC / DC
V
690 / 800
Overvoltage category / pollution degree
III/3
Rated operating voltage
U
e
AC
V
690
Frequency
Hz
5060
1)
Rated current
I
nA
Aluminium bars
A
1601000
Copper busbars
A
1601250
Resistance to extreme climates
Damp heat, constant, acc. to IEC 60068-2-78
40 °C / 93 % RH / 56d
Damp heat, cyclic, acc. to IEC 60068-2-30 56 x (25 ... 40 °C / 3 h; 40 °C / 9 h;
4025 °C / 3_…_6 h;
25 °C / 6 h) 95 % RH
Cold according to IEC 60068-2-1
-45 °C, 16 h
Temperature change in accordance with IEC 60068-2-14 -45 °C … 55 °C; 5 cycles (1 °C / min);
holding time min. 30 min
Salt spray test in accordance with IEC 60068-2-52
Degree of severity 3
Ice formation acc. to IEC 60068-2-61 Testing based on a combination of moist heat, cyclic +
low temperature
Ambient temperature min. / max. / 24 hour average
°C
–5 / +40 / +35
Environmental classes in accordance with IEC 60721
as derived from climatic proofing tests
Climatic 1K5 (storage) = 3K7L (operation without direct sunlight);
2K2 (transport)
Chemically active Salt spray, other contaminants optional,
1C2 (storage) = 3C2 (operation) = 2C2 (transport)
Biological Covered by IP degrees of protection and packaging
method
1B2 (storage) = 3B2 (operation) = 2B2 (transport)
Mechanically active Covered by IP degrees of protection and packaging
method.
1S2 (storage) = 3S2 (operation); 2S2 (transport)
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 63
BD2-...
Degree of protection acc. to IEC / EN 60529 (type 2)
Trunking units
IP52
Trunking units with additional equipment on busbar trunking run
IP54, IP55
Feeder units
IP55
Tap-off units
IP54
Tap-off units with additional equipment
IP55
Distribution board feeders
IP00
Material
Trunking units, feeder units, tap-off units Hot-dip galvanised, painted sheet steel, light-grey
(RAL 7035)
Enclosure of hot-dip galvanised sheet steel, cover paint-
ed, colour light-grey, RAL 7035
Exception: Tap-off units BD2-AK1/...
Moulded-plastic enclosure, light grey (RAL 7035)
Busbars:
Aluminium
Copper
Nickel-plated and tinned aluminium bars
Tinned copper bars
Mounting position
Edgewise, flat, vertical
1)
In accordance with EN 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
3.3.2
Tap-off units
Type
BD2-AK2..., BD2-AK3...
Rated current
I
nc
25 A
63 A
125 A
250 A
400 A
Switching capacity of the contact mechanism
AC-22B
Switching capacity of the built-in switch disconnector acc. to
DIN EN 60947-3 at 400 V
AC-22B AC-21B
Important planning guideline
It is not the case that every tap-off unit has a rated voltage of 690 V and a short-circuit rating
in accordance with the system size.
The tap-off units used must be compatible with the values required by the equipment as far
as their short-circuit rating and rated voltage are concerned.
If the tap-off unit is not compatible with the rated voltage, a unit with appropriate internal
components must be selected. Higher short-circuit currents must be limited by means of
upstream protection devices (e.g. circuit breakers).
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
64 Planning Manual, 11/2016, A5E01541101-04
3.3.3
Trunking units BD2A (aluminium)
BD2A-.-160
BD2A-.-250
BD2A-.-400
Conducting paths
Rated insulation voltage
U
i
AC / DC
V
690 / 800
690 / 800
690 / 800
Overvoltage category / pollution degree
III/3
III/3
III/3
Rated operating voltage
U
e
AC
V
690
690
690
Frequency
Hz
5060
5060
5060
Rated current
I
nA = therm. rated current at
max. 40 °C and 35 °C average over 24 hours
A 160 250 400
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with cold busbars)
Resistance
R
20
mΩ/m
0.484
0.302
0.167
Reactance
X
20
mΩ/m
0.162
0.131
0.123
Impedance
Z
20
mΩ/m
0.511
0.330
0.207
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with busbars at normal operating temperature)
Resistance
R
1
mΩ/m
0.588
0.375
0.215
Reactance
X
1
mΩ/m
0.160
0.128
0.122
Impedance
Z
1
mΩ/m
0.610
0.397
0.247
Impedance of conducting paths under fault conditions
AC resistance per unit length
R
F
mΩ/m
0.959
0.673
0.548
Reactance
X
F
mΩ/m
0.681
0.487
0.456
Impedance
Z
F
mΩ/m
1.159
0.831
0.713
Zero impedance acc. to
DIN EN 60909-0/VDE 0102
Phase N
R
0
mΩ/m
2.050
1.340
1.217
X
0
mΩ/m
0.884
0.750
0.640
Z0 mΩ/m 2.232 1.535 1.375
Phase PE R0 mΩ/m 2.018 1.071 1.059
X0 mΩ/m 0.416 0.567 0.518
Z0 mΩ/m 2.061 1.212 1.179
Short-circuit rating
Rated peak withstand current
I
pk
kA
17
32
40
Rated short-time withstand current
I
cw
t = 1 s
kA
5.5
10
16
t = 0.1 s
kA
10
16
20
Conductors
Number of conductors
5
5
5
Conductor cross-section
L1, L2, L3
mm
2
63
108
205
N
mm
2
63
108
205
PE
mm
2
63
108
205
1/2 PE
mm
2
63
108
205
Conductor material
Al
Al
Al
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 65
BD2A-.-160
BD2A-.-250
BD2A-.-400
Max. fixing distances for trunking units under conventional mechanical load
Edgewise
m
4
4
4
Edgewise with BD2-BD
1)
m
4
4
4
Flat
m
3.5
3.5
3.5
Fire load
2)
kWh/m
1.32
1.32
1.32
Weight
3)
kg/m
5.3
5.8
7.5
1)
When using spacer brackets BD2-BD
2)
Values for trunking units with tap-off points
3) Weights without joint block (weight of joint block BD2-400-EK: 3.5 kg, BD2-1250-EK: 6.5 kg
Type
BD2A-.-630
BD2A-.-800
BD2A-.-1000
Conducting paths
Rated insulation voltage
U
i
AC / DC
V
690 / 800
690 / 800
690 / 800
Overvoltage category / pollution degree
III/3
III/3
III/3
Rated operating voltage
U
e
AC
V
690
690
690
Frequency
Hz
5060
5060
5060
1)
Rated current
I
nA = therm. rated current at
max. 40 °C and 35 °C average over 24 hours
A 630 800 1000
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with cold busbars)
Resistance
R
20
mΩ/m
0.093
0.073
0.051
Reactance
X
20
mΩ/m
0.065
0.058
0.058
Impedance
Z
20
mΩ/m
0.113
0.094
0.077
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with busbars at normal operating temperature)
Resistance
R
1
mΩ/m
0.134
0.098
0.066
Reactance
X
1
mΩ/m
0.065
0.057
0.057
Impedance Z1 mΩ/m 0.149 0.114 0.088
Impedance of conducting paths under fault conditions
AC resistance per unit length RF mΩ/m 0.199 0.225 0.157
Reactance
XF
mΩ/m
0.179
0.239
0.240
Impedance
ZF
mΩ/m
0.268
0.328
0.287
Zero impedance acc. to
DIN EN 60909-0/VDE 0102
Phase N
R0
mΩ/m
0.429
0.494
0.340
X0
mΩ/m
0.377
0.312
0.301
Z0
mΩ/m
0.571
0.584
0.454
Phase PE
R0
mΩ/m
0.432
0.438
0.408
X0
mΩ/m
0.329
0.280
0.273
Z0
mΩ/m
0.543
0.520
0.491
Short-circuit rating
Rated peak withstand current
I
pk
kA
64
84
90
Rated short-time withstand current
I
cw
t = 1 s
kA
26
32
34
t = 0.1 s
kA
32
40
43
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
66 Planning Manual, 11/2016, A5E01541101-04
Type
BD2A-.-630
BD2A-.-800
BD2A-.-1000
Conductors
Number of conductors
5
5
5
Conductor cross-section
L1, L2, L3
mm
2
381
446
699
N
mm
2
381
446
699
PE
mm
2
381
446
699
1/2 PE
mm
2
381
381
446
Conductor material
Al
Al
Al
Max. fixing distances for trunking units under conventional mechanical load
Edgewise
m
3.5
3.5
3
Edgewise with BD2-BD
2)
m
1.75
1.75
1.5
Flat
m
3
3
2.5
Fire load
3)
kWh/m
2
2
2
Weight
4)
kg/m
12.3
12.4
15.8
1)
In accordance with EN 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
2)
When using spacer brackets BD2-BD
3)
Values for trunking units with tap-off points
4) Weights without joint block (weight of joint block BD2-400-EK: 3.5 kg, BD2-1250-EK 6.5 kg)
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 67
3.3.4
Trunking units BD2C (copper)
BD2C-.-160
BD2C-.-250
BD2C-.-400
Conducting paths
Rated insulation voltage
U
i
AC / DC
V
690 / 800
690 / 800
690 / 800
Overvoltage category / pollution degree
III/3
III/3
III/3
Rated operating voltage
U
e
AC
V
690
690
690
Frequency
Hz
5060
5060
5060
Rated current
I
nA = therm. rated current at max.
40 °C and 35 °C average over 24 hours
A 160 250 400
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with cold busbars)
Resistance
R
20
mΩ/m
0.303
0.295
0.144
Reactance
X
20
mΩ/m
0.157
0.158
0.119
Impedance
Z
20
mΩ/m
0.341
0.335
0.187
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with busbars at normal operating temperature)
Resistance
R
1
mΩ/m
0.333
0.383
0.181
Reactance
X
1
mΩ/m
0.157
0.159
0.120
Impedance
Z
1
mΩ/m
0.368
0.419
0.217
Impedance of conducting paths under fault conditions
AC resistance per unit length
R
F
mΩ/m
0.666
0.674
0.364
Reactance
X
F
mΩ/m
0.511
0.530
0.461
Impedance
Z
F
mΩ/m
0.839
0.858
0.587
Zero impedance acc. to DIN
EN 60909-0 / VDE 0102
Phase N
R
0
mΩ/m
1.419
1.429
0.718
X
0
mΩ/m
0.691
0.703
0.658
Z0 mΩ/m 1.579 1.593 0.974
Phase
PE
R0 mΩ/m 1.027 1.139 0.672
X0 mΩ/m 0.641 0.530 0.503
Z0 mΩ/m 1.211 1.256 0.839
Short-circuit rating
Rated peak withstand current
I
pk
kA
17
32
40
Rated short-time withstand current
I
cw
t = 1 s
kA
5.5
10
16
t = 0.1 s
kA
10
16
20
Conductors
Number of conductors
5
5
5
Conductor cross-section
L1, L2, L3
mm
2
63
63
146
N
mm
2
63
63
146
PE
mm
2
63
63
146
1/2 PE
mm
2
63
63
146
Conductor material
Cu
Cu
Cu
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
68 Planning Manual, 11/2016, A5E01541101-04
BD2C-.-160
BD2C-.-250
BD2C-.-400
Max. fixing distances for trunking units under conventional mechanical load
Edgewise
m
4
4
4
Edgewise with BD2-BD
1)
m
4
4
4
Flat
m
3.5
3.5
3.5
Fire load
2)
kWh/m
1.32
1.32
1.32
Weight
3)
kg/m
7.3
7.5
9.5
1)
When using spacer brackets BD2-BD
2)
Values for trunking units with tap-off points
3) Weights without joint block (weight of joint block BD2-400-EK: 3.5 kg, BD2-1250-EK 6.5 kg)
Type
BD2C-.-630
BD2C-.-800
BD2C-.-1000
BD2C-.-1250
Conducting paths
Rated insulation voltage
U
i
AC / DC
V
690 / 800
690 / 800
690 / 800
690 / 800
Overvoltage category / pollution
degree
III/3 III/3 III/3 III/3
Rated operating voltage
U
e
AC
V
690
690
690
690
Frequency
Hz
5060
5060
5060
1)
5060
1)
Rated current
I
nA = therm. rated
current at max. 40 °C and 35 °C
average over 24 hours
A 630 800 1000 1250
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with cold busbars)
Resistance
R
20
mΩ/m
0.053
0.053
0.043
0.032
Reactance
X
20
mΩ/m
0.064
0.064
0.056
0.054
Impedance
Z
20
mΩ/m
0.083
0.083
0.071
0.063
Impedance of conducting paths at 50 Hz and 20°C ambient temperature (with busbars at normal operating temperature)
Resistance R1 mΩ/m 0.076 0.076 0.056 0.041
Reactance X1 mΩ/m 0.064 0.064 0.056 0.054
Impedance
Z1
mΩ/m
0.100
0.100
0.079
0.068
Impedance of conducting paths under fault conditions
AC resistance per unit length
RF
mΩ/m
0.102
0.102
0.118
0.094
Reactance
XF
mΩ/m
0.146
0.146
0.234
0.229
Impedance
ZF
mΩ/m
0.178
0.178
0.262
0.248
Zero impedance acc. to
DIN EN 60909-0 /
VDE 0102
Phase N
R0
mΩ/m
0.280
0.280
0.234
0.186
X0
mΩ/m
0.377
0.377
0.286
0.275
Z0
mΩ/m
0.470
0.470
0.370
0.332
Phase
PE
R0
mΩ/m
0.289
0.289
0.230
0.174
X0
mΩ/m
0.321
0.321
0.278
0.265
Z0
mΩ/m
0.431
0.431
0.361
0.317
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 69
Type
BD2C-.-630
BD2C-.-800
BD2C-.-1000
BD2C-.-1250
Short-circuit rating
Rated peak withstand current
I
pk
kA
64
84
90
90
Rated short-time withstand current
I
cw
t = 1 s
kA
26
32
34
34
t = 0.1 s
kA
32
40
43
43
Conductors
Number of conductors
5
5
5
5
Conductor cross-section
L1, L2, L3
mm
2
415
415
468
699
N
mm
2
415
415
468
699
PE
mm
2
415
415
468
699
1/2 PE
mm
2
415
415
415
468
Conductor material
Cu
Cu
Cu
Cu
Max. fixing distances for trunking units under conventional mechanical load
Edgewise
m
4
3.5
3
2
Edgewise with BD2-BD
2)
m
2
1.75
1.5
1
Flat
m
3.5
3
2.5
1.5
Fire load
3)
kWh/m
2
2
2
2
Weight
4)
kg/m
15.6
18.9
25.1
37.6
1)
In accordance with EN 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
2)
When using spacer brackets BD2-BD
3)
Values for trunking units with tap-off points
4) Weights without joint block (weight of joint block BD2-400-EK: 3.5 kg, BD2-1250-EK 6.5 kg)
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
70 Planning Manual, 11/2016, A5E01541101-04
3.3.5
Conductor cross sections
3.3.5.1
Feeder units
Conductor cross-sections2)
Design
Type
L1, L2, L3
N
PE
Size of
fixing
screws,
bolts
L1, L2, L3,
N, PE
min.
mm²
max.
mm²
min.
mm²
max.
mm²
min.
mm²
max.
mm²
Feeder units
with bolt con-
nection
BD2.-250-EE 1 × 6 1 × 150,
2 × 70
1 × 6 1 × 150,
2 × 70
1 × 6 1 × 150,
× 70
M10
BD2.-400-EE 1 × 101) 1 × 240,
2 × 120
1 × 101) 1 × 240,
2 × 120
1 × 101) 1 × 240,
2 × 120
M12
BD2.-1000-EE
1 × 10
1)
3 × 240
1 × 10
1)
3 × 240
1 × 10
1)
3 × 240
M12
BD2.-1250-EE 1 × 101) 3 × 300,
4 × 240
1 × 101) 3 × 300,
4 × 240
1 × 101) 3 × 300,
4 × 240
M12
Feeder units
with switch
disconnector
BD2C-250(315)-
EESC
1 x 101) 1 x 240 1 x 101) 1 x 240 Armouring M10
BD2C-400-EESC 1 x 101) 1 x 240,
2 x 120
1 x 101) 1 x 240,
2 x 120
Armouring M12
BD2C-630(800)-
EESC
1 x 101) 2 x 240 1 x 101) 2 x 240 Armouring M12
Centre feeder
units with bolt
connection
BD2.-400-ME 1 × 101) 2 × 240,
3 × 185
1 × 101) 2 × 240,
3 × 185
1 × 101) 2 × 240,
3 × 185
M12
BD2.-1000-ME
1 × 10
1)
(1 - 5) × 300
1 × 10
1)
(1 - 5) × 300
1 × 10
1)
(1 - 5) × 300
M12
1)
Minimum permissible cable cross section for cable lugs
2) Connection cross-sections refer to copper cables, cross-sections and diameters for aluminium cables on request
Cable and wire entries
Type
BD2.-250-EE
BD2.-400-EE
BD2.-1000-EE,
BD2.-400-ME
BD2.-1000-ME
BD2.-1250-EE
Cable grommets for
cable diameters
1 x KT3
1)
2 x KT4
1)
3 x KT4
1)
6 x KT4
1)
4 x KT4
1)
mm
1454
1468
1468
1468
1468
1) With strain relief
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 71
Cable entry plate single-core system (undrilled cable entry plates)
Type
BD2.-250-EE
BD2.-400-EE
BD2.-1000-EE
BD2.-1250-EE
Cable entry plate
BD2-250-EBAL
BD2-400-EBAL
BD2-1000-EBAL
BD2-1250-EBAL
No. of cable entries (maximum) 10 x M32,
5 x M40
10 x M40 15 x M40,
6 x M50 and 4 x M40
20 x M40
Plastic cable glands with strain relief must be used (these are not included in the scope of
supply).
Cable entry plate single-core system for centre feeder units (undrilled cable entry plates)
Type
BD2.-400-ME...
BD2.-1000-ME
Cable entry plate
BD2-400-MBAL
BD2-1000-MBAL
No. of cable entries (maximum) 12 x M40 and 3 x M32,
6 x M50 and 4 x M40
31 x M40,
16 x M50 and 4 x M40
Plastic cable glands with strain relief must be used (these are not included in the scope of
supply).
Cable entry plate feeder unit with switch disconnector (undrilled cable entry plates)
Type
BD2C-250(315, 400)-EESC
BD2C-630(800)-EESC
No. of cable entries (maximum)
1 x 65.7 mm
2 x 65.7 mm
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
72 Planning Manual, 11/2016, A5E01541101-04
3.3.5.2
Tap-off units
Conductor cross-sections1)
Designa-
tion
Type
L1, L2, L3
N
PE
Size of
fixing
screws,
bolts
L1, L2, L3
min
mm²
max
mm²
min
mm²
max
mm²
min
mm²
max
mm²
Up to
25 A
BD2-AK1/S14 0.5 (f, m) 4 (e) 1 (e, f, m) 6 (e, m) 1 (e, f, m) 6 (e, m)
BD2-AK1/S18
0.5 (f, m)
16 (e, f, m)
1 (e, f, m)
6 (e, m)
1 (e, f, m)
6 (e, m)
BD2-AK1/A...
0.75 (e, m)
16 (e)
1 (e, f, m)
6 (e, m)
1 (e, f, m)
6 (e, m)
BD2-AK1/A...N
0.75 (e, m)
16 (e)
0.75 (e, m)
16 (e)
1 (e, f, m)
6 (e, m)
BD2-AK1/F...
0.75 (e, m)
16 (e)
1 (e, m)
6 (e)
1 (e, f, m)
6 (e, m)
BD2-AK1/F...N
0.75 (e, m)
16 (e)
0.75 (e, m)
16 (e)
1 (e, f, m)
6 (e, m)
Up to
63 A
BD2-AK.2X/S18 0.5 (f, m) 25 (f, m) 1 (e, f, m) 6 (e, m) 1 (e, f, m) 6 (e, m)
BD2-AK.2X/S27
0.75 (f, m)
10 (e, f, m)
1 (e, f, m)
6 (e, m)
1 (e, f, m)
6 (e, m)
BD2-AK.2X/S33
1.5 (f, m)
25 (f, m)
2.5 (e, f, m)
16 (e, m)
2.5 (e, f, m)
16 (e, m)
BD2-AK.2M2/A...
0.75 (e, m)
25 (m)
2.5 (e, f, m)
25 (m)
2.5 (e, f, m)
25 (m)
BD2-AK.2M2/A...N
0.75 (e, m)
25 (m)
0.75 (e, f, m)
25 (m)
2.5 (e, f, m)
25 (m)
BD2-AK.2X/F...
0.75 (e, m)
25 (m)
2.5 (e, f, m)
25 (m)
2.5 (e, f, m)
25 (m)
Up to
125 A
BD2-
AK03X/F…(FS…)
2.5 (e, m) 50 (m) 2.5 (e, m) 50 (m) 2.5 (e, m) 50 (m)
BD2-AK.03X/
LS....
2.5 (e, m) 50 (m) 2.5 (e, m) 50 (m) 2.5 (e, m) 50 (m)
BD2-AK3X/GS00
16
70
16
70
10
70
M8
BD2-
AK.3X/GSTZ(A)00
16 70 16 70 10 70 M8
Up to
250 A
BD2-AK04/SNH1 6 150 6 150 6 150 M10
BD2-AK04/FS... 6 150 6 150 6 150 M10
BD2-AK04/LS... 6 120 (m) 6 (e, m) 150 6 150 M8
Up to
400 A
BD2-AK05/SNH2 10 2 × 120 10 2 × 120 10 2 × 120 M10
BD2-AK05/FS...
10
2 × 120
10
2 × 120
10
2 × 120
M10
BD2-AK05/LS...
10
2 × 120
10
2 × 120
10
2 × 120
M8
Up to
630 A
BD2-AK06/SNH3 10 2 × 240 10 2 × 240 10 2 × 240 M12
BD2-AK06/LS...
10
2 × 240
10
2 × 240
10
2 × 240
M10
e = solid, m = stranded, f = finely
-stranded with end sleeve
1)
Conductor cross-sections refer to copper cables, cross-sections and diameters
for aluminium cables on request
Planning with BD2
3.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 73
Cable and wire entries
Type
BD2-AK1/...
BD2-AK.2...
BD2-AK.3...
BD2-AK04
BD2-AK05
BD2-AK06
Cable grommets
M25
2)
KT3
3)
2 × KT4
3)
2 × KT4
3)
Cable glands 1) M25, M32,
M40
M25, M40,
M63
For cable
diameters
mm 11 … 6 1127 1142 1454 1468 1468
Min./max. insertable cable cross-sections for NYY and NYCWY with multi-core cable for
NYY... mm2 5 × 1.5
5 × 4
5 × 1.5
5 × 16
5 × 1.5
5 × 25
NYCWY... 4) mm2 4 × 1.5
4 × 2.5
4 × 1.5
4 × 16
4 × 1.5
4 × 70
5 × 1.5
4 × 150
2 × 5 × 1.5
2 × 4 × 150
2 × 5 × 10
2 × 4 × 240
Cable entry plate for single-core cable (add-on plates, undrilled)
No. of cable entries, max. 10 × M40 10 × M32,
5 × M40
10 × M40
1)
For cable glands: Plastic cable glands with strain relief must be used (these are not included in the scope of supply).
2)
Strain relief in the BD2-AK1/...
3)
With strain relief
4) Fifth conductor: concentric conductor.
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
74 Planning Manual, 11/2016, A5E01541101-04
3.4
Dimension drawings
Unless otherwise specified, all dimensions are in mm.
3.4.1
Straight trunking units
BD2.-.-...
Length
[m]
No. of tap-off units on both sides
n x 500
0.51.25
-
1.262.25
4 … 8
2.263.25
8 … 12
In the case of optional lengths, tap-off units cannot be connected at all tap-
off points.
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 75
3.4.2
Junction units
L units
Figure 3-24 BD2.-....-LR-...(-G*), BD2.-...-LL-...(-G*)
Figure 3-25 BD2.-...-LV...(-G*), BD2.-...-LH-...(-G*)
Rated current
[A]
c
[mm]
160400
68
6301250
126
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
76 Planning Manual, 11/2016, A5E01541101-04
Z units
Figure 3-26 BD2.-...-ZR-..., BD2.-...-ZL-...
Figure 3-27 BD2.-...-ZV, BD2.-...-ZH-...
Rated current
[A]
z
[mm]
160400
1401250
6301250
2601250
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 77
T units
Figure 3-28 BD2.-...-TR, BD2.-...-TL
Figure 3-29 BD2.-...-TV, BD2.-...-TH
Rated current
[A]
c
[mm]
c1
[mm]
160400
68
64
6301250
126
122
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
78 Planning Manual, 11/2016, A5E01541101-04
K units
Figure 3-30 K units BD2.-...-KRL
Figure 3-31 K units BD2.-...-KVH
Rated current
[A]
c
[mm]
c1
[mm]
160400
68
64
6301250
126
122
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 79
Movable junction units
Figure 3-32 BD2-400-R, BD2-800-R
Type
a1
a2
a3
a4
b
c
c1
c2
c3
BD2-400-R
1250
512
187
187
79
68
64
101
50
BD2-800-R
1750
786
350
250
146.5
126
122
195
145
U shape
Type
c6
Rmin
BD2-400-R
220
110
BD2-800-R
340
170
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
80 Planning Manual, 11/2016, A5E01541101-04
Z shape
Type
a5
a6
c6
Rmin
BD2-400-R
175
1000
355
110
BD2-800-R
530
1590
400
170
3.4.3
Distribution board feeder
Figure 3-33 BD2.-250-VE
Figure 3-34 BD2.-400-VE, BD2.-1000-VE
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 81
Figure 3-35 BD2.-1250-VE
Type
a
b
c
c1
c2
BD2.-250-VE
BD2.-400-VE
34 68 121 64 84
BD2.-1000-VE
BD2.-1250-VE
92 126 155.5 122 142
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
82 Planning Manual, 11/2016, A5E01541101-04
3.4.4
End feeder units
Figure 3-36 BD2.-250-EE
Figure 3-37 BD2.-400-EE
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 83
Figure 3-38 BD2.-1000-EE
Figure 3-39 BD2.-1250-EE
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
84 Planning Manual, 11/2016, A5E01541101-04
End feeder units with switch disconnector
Figure 3-40 BD2C-250-EESC, BD2C-315-EESC
Figure 3-41 BD2-400-EESC
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 85
Figure 3-42 BD2-630-EESC, BD2-800-EESC
3.4.5
Cable compartments
Figure 3-43 BD2-400-KR (BD2.-400-EE)
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
86 Planning Manual, 11/2016, A5E01541101-04
Figure 3-44 BD2-1000-KR (BD2.-1000-EE)
Figure 3-45 BD2-1250-KR (BD2.-1250-EE)
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 87
3.4.6
Centre feed
Figure 3-46 BD2.-400-ME
Figure 3-47 BD2.-1000-ME
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
88 Planning Manual, 11/2016, A5E01541101-04
3.4.7
Tap-off units
3.4.7.1
Tap-off units up to 25 A
Size 1 up to 25 A
Figure 3-48 BD2-AK1/...
Figure 3-49 BD2-AK1/3SD163...
Figure 3-50 BD2-AK1/2CEE163...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 89
Figure 3-51 BD2-AK1/CEE165...
Type
c1
c2
BD2-AK1/3SD163...
71
13
BD2-AK1/2CEE163
88
44
BD2-AK1/CEE165
106
52
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
90 Planning Manual, 11/2016, A5E01541101-04
3.4.7.2
Tap-off units up to 63 A
Size 02 up to 63 A
Figure 3-52 Size 02 up to 63 A
Figure 3-53 BD2-AK02X/F..., BD2-AK02X/S...
Figure 3-54 BD2-AK02M2/A..., BD2-AK02M2/F...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 91
Size 2 up to 63 A
Figure 3-55 BD2-AK2X/F..., BD2-AK2X/S...
Figure 3-56 BD2-AK2M2/A..., BD2-AK2M2/F...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
92 Planning Manual, 11/2016, A5E01541101-04
Designs with CEE sockets and sockets with earthing contacts
Figure 3-57 BD2-AK2X/CEE635S33
BD2
-AK2X/CEE..., BD2-AK2M2/CEE...
BD2-AK2X/CEE..., BD2-AK2M2/CEE...
BD2
-AK2X/CEE325S33
BD2
-AK2M2/CEE325A323
BD2
-AK2X/2CEE165S14
BD2
-AK2M2/2CEE165A163
BD2
-AK2X/2CEE165S27 (/FORMP)
BD2
-AK2M2/CEE165...
BD2-AK2M2/CEE325...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 93
Figure 3-58 BD2-AKM2/2SD163CEE165/A163
Type
b1
b2
BD2-AK2X/CEE325S33
BD2-AK2M2/CEE325A323
BD2-AK2X/2CEE165S14
BD2-AK2M2/CEE325
98 -
BD2-AK2X/2CEE165S27 (/FORMP)
BD2-AK2M2/2CEE165A163
BD2-AK2M2/CEE165
86 -
BD2-AK2M2/2SD163CEE165A163 86 54
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
94 Planning Manual, 11/2016, A5E01541101-04
3.4.7.3
Tap-off units up to 125 A
Size 03 up to 125 A
Figure 3-59 BD2-AK03X/F...
Figure 3-60 BD2-AK03M2/A...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 95
Designs with fuse switch disconnector and circuit breaker
BD2-AK03X/GSTA00
BD2-AK03X/FS...
Figure 3-61 BD2-AK03X/LSD...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
96 Planning Manual, 11/2016, A5E01541101-04
Size 3 up to 125 A
Figure 3-62 BD2-AK3X/GS00
Design with fuse switch disconnector
Figure 3-63 BD2-AK3X/GSTZ00
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 97
3.4.7.4
Tap-off units up to 250 A
Size 04 up to 250 A
Figure 3-64 BD2-AK04/LSD...
Figure 3-65 BD2-AK04/SNH1
Figure 3-66 BD2-AK04/FS...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
98 Planning Manual, 11/2016, A5E01541101-04
3.4.7.5
Tap-off units up to 530 A
Sizes 05, 06 up to 530 A
Figure 3-67 BD2-AK05/LSD..., BD2-AK06/LSD...
Figure 3-68 BD2-AK05/SNH2, BD2-AK06/SNH3
Figure 3-69 BD2-AK05/FS...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 99
3.4.8
Ancillary equipment units
Type
h
BD2-GKM2/F
101
BD2-GKX/F
151
Figure 3-70 BD2-GKM2/F
Figure 3-71 BD2-GKX/F
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
100 Planning Manual, 11/2016, A5E01541101-04
3.4.9
Additional equipment
Bushing protector
BD2-400-D
BD2-1250-D
BD2-...-D
Fire protection
+BD2-S90 (S120)-...
BD2.-160 (-250, -400)-...
BD2.-630 (-800, -1000, -1250)-...
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 101
Joint block
Figure 3-72 BD2-400-EK, BD2-1250-EK
Type
a
[mm]
BD2-400-EK
68
BD2-1250-EK
126
Length of trunking unit
End of end cap = centre of joint block
Figure 3-73 BD2-400-FE, BD2-1250-FE
Type
c
[mm]
BD2-400-FE
68
BD2-1250-FE
126
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
102 Planning Manual, 11/2016, A5E01541101-04
Mounting
Fixing bracket, flat and edgewise
Figure 3-74 BD2-400-BB, BD2-1250-BB
Type
c
[mm]
c1
[mm]
BD2-400-BB 86.5 48
BD2-1250-BB 144.5 77
Spacer
Figure 3-75 BD2-DSB
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 103
Spacer bracket
Figure 3-76 BD2-BD
Type
c
[mm]
BD2-400-BD
3082
BD2-1250-BD
5082
Note
Mounting on a concrete wall
In the case of mounting directly on a concrete wall, use only steel and straddling dowel pins
compliant
with building regulations, e.g.:
Order no. 15J1-A08/40 by RICO
SLM8N item no. 50521 by Fischerwerke
Vertical fixing elements
BD2-BWV
BD2-BDV
Planning with BD2
3.4 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
104 Planning Manual, 11/2016, A5E01541101-04
Vertical fixing bracket
BD2-BVF
Figure 3-77 BD2-BVC
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 105
Planning with LD
4
4.1
System description
Additional equipment
Junction units
Tap-off units
Infeeds
Straight trunking units
Distribution board connection units
Figure 4-1 Overview of LD busbar trunking system
Planning with LD
4.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
106 Planning Manual, 11/2016, A5E01541101-04
The LD busbar trunking system is used for both power transmission and distribution. The
system offers a high short-circuit rating and is particularly suited for the connection of
transformers to low-voltage main distribution boards and sub-distribution boards.
In applications where high powers are required, conventional systems frequently require the
use of parallel cables. The LD system offers optimal power distribution for both horizontal
and vertical busbar runs. Coded plug-in tap-off units up to 1250 A that meet extremely high
safety standards are available for this purpose.
4.2
System components
4.2.1
Preliminary technical descriptions for specifications
The busbar trunking systems are to be offered as type-tested low-voltage switchgear
assemblies in accordance with IEC / EN 61439-1 and -6, and as sheet-steel-enclosed ready-
to-use distribution boards.
The distribution systems must be suitable forpower transmission, e.g. between transformer
and low-voltage main distribution boards, as well as for power distribution providing a supply
of power to an entire area.
The brand offered must be a complete system consisting of system modules, including
transformers and elements for connection to the distribution boards, as well as such as
brackets, straight trunking units and junction units. All components should be available both
in straight and offset versions.
Trunking units with tap-off openings should be able to be equipped with coded tap-off units.
Tap-off units are protected against incorrect mounting. Depending on the type, the isolation
of the tap-off units during removal is assured by a compulsory sequence of operations or by
cautionary instructions.
If required, the busbar trunking system should be capable of being equipped with asbestos-
free fire barriers which comply with fire resistance class S120 (EI120 available soon), and
which have been certified by the local or government authority responsible for building
standards. The trunking unit's steel enclosure is made of moulded steel profiles to permit
large fixing distances between suspension points. The enclosure is galvanised and painted
in a light grey colour (RAL 7035).
The external dimensions may not exceed 180 x 180 (240) mm.
The individual system modules are connected by hanging a hook from a bolt and tightening
a state-of-the-art maintenance-free single-bolt clamp. The conductor between two system
units should not be connected with screws.
The conductor material is made of aluminium or of copper if the rated current requires. The
aluminium conductor must be nickel-plated and tinned, and the copper conductor must be
tinned and provided with an additional insulating layer of epoxy-resin.
The fire load must not exceed the value specified in the technical data. Junction units with
flexible connections or cable connections are not permitted.
Planning with LD
4.2 System components
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 107
The following certificates or declarations of conformity must accompany the offer:
DIN ISO 9001 QA certification
Proof of sprinkler testing
Proof of prevention of propagation of an arcing fault
Proof that the system is maintenance-free
Following the general information, a precisedescription of the system based on the technical
requirements should be provided as follows:
Technical data for LD busbar trunking system
LD..
Rated current
_________1)
Degree of protection
IP34 / IP54
Mounting position
Horizontal / vertical
2)
Rated insulation voltage
AC / DC
1000 V
Rated operating voltage
AC
1000 V
Rated frequency
50 / 60 Hz
3)
Rated peak withstand current
I
pk
_________
1)
Rated short-time withstand current
I
cw
(1 s)
_________
1)
Conductor material
Al / Cu
2)
No. of conductors L1 L3 and PEN (4 bars/4-pole)
L1 L3 and ½ PEN (7 bars/4-pole)
L1 L3 and PEN (8 bars/4-pole)
L1 L3, N, PE (5 bars/5-pole)
L1 L3, ½ N, ½ PE (8 bars/5-pole)
L1 L3, N, ½ PE (9 bars/5-pole)
Fire load without tap-off points
_________
1)
Enclosure dimensions
LDA1LDC3
180 x 180 mm
2)
LDA4LDC8
240 x 180 mm
2)
1) Enter data for selected systems. See technical data for values.
2) Please delete as appropriate.
3) In accordance with EN 61439-1, a reduction to 95 % must be taken into account for
currents > 800 A at a frequency of 60 Hz.
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Important planning information
The nominal mounting position of the busbar trunking system is horizontal and edgewise for
the busbars. In very rare cases, due to a specific trunking run or the option of connecting
tap-off units on the side, the busbars might have to be laid flat. The resulting increase in the
internal heat rise of the system necessitates a reduction in rated current. The same applies
to vertical height rises > 1.3 m (see the table in the chapter "Type code (Page 108)").
The LD busbar trunking system is a ventilated system. When the degree of protection is
increased from IP34 to IP54 (enclosed system), the rated current must be derated as
specified in the tables in the next chapter.
4.2.2
Type code
Definition of the required system using the type code
The basic components of the LD system are determined using a type code. The type is
specified and selected on the basis of rated current, conductor material, system type and
degree of protection.
The resulting type code enables the required system to be precisely defined.
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Selection example
A rated current of 2500 A is calculated for a project. Aluminium conductors shall be used. A
4-pole system also has to be used. The cross section of the protective conductor needs to
be equal to the cross section of the phase conductor. The required degree of protection is
IP34. The mounting position is horizontal, edgewise, without height rises. Use of the above
table results in the selection of the following type:
LDA 5423
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4.2.3
Sizes, conductor configurations and structure of the busbar package
The LD busbar trunking system is available in two sizes. You can also select the line system
configuration (4-pole / 5-pole) and the size of the N/PEN cross section as appropriate for
your application.
Conductor configuration
4-pole
5-pole
180 mm x 180 mm
PEN = L
PE = N = L
LDA1.2. to LDA3.2.
LDC2.2. to LDC3.2.
240 mm x 180 mm
PEN = ½ L
PE = N = ½ L
LDA4.1. to LDA8.1.
LDC6.1. to LDC8.1.
240 mm x 180 mm
PEN = L
PE = ½ L, N = L
LDA4.2 to LDA8.2.
LDC6.2. to LDC8.2.
Structure of the busbar package
An example a 7-bar system (sectional view) is illustrated below. The positions of the
individual phases and the protective conductor PEN are indicated. You can also see the
enclosure profile.
Figure 4-2 Sectional drawing of a 7-bar system
LD busbar systems are available with aluminium (LDA....) and also copper (LDC....)
conductor materials. Due to the conductors’ special surface finishing, trunking units with
different conductor materials can be combined. In addition to tinning, aluminium bars are
also coated with a layer of nickel.
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Aluminium bar
Nickel layer, tinning
Moulded-plastic coating with high heat resistance
Figure 4-3 LDA busbar systems with aluminium conductors
Copper bar
Tinning
Moulded-plastic coating with high heat resistance
Figure 4-4 LDC busbar systems with copper conductors
In order for short-circuit rating to be assured and for the pitch of the bars to be maintained,
bar supports are fitted every 200 mm (see diagram):
Figure 4-5 Bar supports fitted
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4.2.4
Straight trunking units
Straight trunking units are used to transmit electrical power and to supply loads.
Straight trunking units for horizontal installation
Without tap
-off points
With tap-off points
Length
Type
Standard lengths
1.6 m
LD.....-1.6
2.4 m
LD.....-2.4
3.2 m
LD.....-3.2
Optional lengths
0.500.89 m
LD.....-1W*
0.901.59 m
LD.....-2W*
1.612.39 m
LD.....-3W*
2.413.19 m
LD.....-4W*
Straight trunking unit for expansion com-
pensation
1.2 m LD.....-D
Standard lengths
with 1, 2 or 3 tap-off points
3.2 m LD.....-K-3, 2-3AD
3 tap-off points
3.2 m LD.....-K-3,2-2AD
2 tap-off points
3.2 m LD.....-K-3.2-AD
1 tap-off point
Optional lengths
with 2 tap-off points
2.202.40 m
LD.....-K-2W*-2AD
2.413.20 m
LD.....-K-3W*-2AD
Optional lengths
with 1 tap-off point
1.201.60 m
LD.....-K-1W*-AD
1.612.40 m
LD.....-K-2W*-AD
2.413.20 m
LD.....-K-3W*-AD
W = optional length
* = length in m
AD = Tap-off point
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Straight trunking units for vertical installation
Without tap
-off points with integrated expan-
sion compensation
With 1 tap
-off point and integrated expansion
compensation
Length
Type
Standard length
2.4 m
LD.....-V-2.4
3.2 m
LD.....-V-3.2
Optional lengths
2.29 ... 2.80 m
LD.....-V-1W*
2.81 ... 3.00 m LD.....-V-2W*
3.01 ... 3.19 m LD.....-V-3W*
Standard lengths
with 1 tap-off point
2.4 m LD.....-K-V-2.4-AD
3.2 m LD.....-K-V-3.2-AD
Optional lengths
with 1 tap-off point
2.29 ... 2.80 m LD.....-K-V-1W*-AD
2.81 ... 3.00 m
LD.....-K-V-2W*-AD
3.01 ... 3.19 m
LD.....-K-V-3W*-AD
W = optional length
* = length in m
AD = Tap-off point
Note
Expansion compensation
Due to heat dissipation at rated load, the busbars in the trunking unit expand. To
compensate this expansion in length, you need to include expansion compensation units at
defined
intervals when planning your horizontal installation.
With trunking units for vertical installation, the expansion compensation is integrated.
When planning horizontal busbar runs, please remember:
A straight trunking run without expansion compensation between two junction units must
not exceed 10 m in length.
A straight trunking run between a junction unit and the end cap must not exceed 25 m in
length. In the case of longer trunking run lengths, planning provision has to be made
accordingly for expansion compensation units.
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Tap-off points
Tap-off points are only possible on straight trunking units (both standard lengths and optional
lengths possible). Options are:
Tap-off points at the TOP: ...-AD
Tap-off points at the BOTTOM: ...-ADU
Tap-off points at the TOP and BOTTOM: ...-ADO+U
With a trunking unit with a tap-off point at the TOP and BOTTOM, only one tap-off unit can
be used at a time. The required distance between tap-off points is 1 m.
The required type should be determined during engineering, based on the mounting position
of the busbar.
In the case of optional trunking units with tap-off point, a minimum clearance of 0.6 m is
required between the end of the busbar and a tap-off point.
A coding bracket is located on both sides of a tap-off point. This guarantees non-
interchangeability and correct phasing sequence installation of the tap-off units.
Figure 4-6 Trunking unit with tap-off point
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4.2.5
Junction units
Junction units for horizontal installation
Elbow LD.....
-L...
Z unit LD.....-Z.-Z*
Length
Type
X = 0.51.24 m
Y = 0.51.24 m
LD.....-L...
Length
System
Trunking unit
Type
X/Y = 0.5 m
Z = 0.36 ... 0.99 m
LD.1LD.3
180 x 180 mm
LD.....-Z.-Z*
Z = 0.48 ... 0.99 m
LD.4LD.8
240 x 180 mm
* = optional length in mm
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Junction units for horizontal and vertical installation
Elbow LD.....-L.
Z unit LD..
...-Z.-Z*
Length
Type
X = 0.51.24 m
Y = 0.51.24 m
LD.....-L...
X = 0.51.24 m
Y = 0.51.24 m
Z = 0.360.99 m
LD.....-Z.-Z*
* = optional length in mm
Offset knee LD.....
-L.
T unit LD.....-T.
Length
Type
X = 0.51.24 m
Y = 0.51.24 m
LD.....-L...
TX = 0.58 m
TY = 0.62 m
A = 0.5 m
LD.....-T.
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4.2.6
Distribution link for Siemens power distribution boards
Connection to the Siemens SIVACON power distribution system as type-tested low-voltage
switchgear assemblies in accordance with IEC / EN 61439-1 and -6.
The busbar trunking system can be linked to the distribution system from above or below.
The link between the busbar trunking system and the SIVACON S8 distribution systems
ensures high short-circuit strength backed up by type testing and a high level of reliability as
regards power transmission.
Rated currents
All modules have been type tested for rated currents up to 5000 A.
Figure 4-7 Distribution board link
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4.2.7
Busbar connection unit for non-Siemens distribution boards
If you wish to connect the busbar trunking system to a non-Siemens distribution board, you
can establish this connection using an LD. .... - FA1 connection unit for non-Siemens
distribution boards. The connection unit is built into the distribution board and serves as an
interface to the copper connections of the distribution system.
Rated currents
The maximum rated currents are listed in the chapter "Technical specifications
(Page 128)".
The temperature limit of busbars coated with insulating materials is 135 °C.
You can find possible conductor cross-sections for the copper connections in the chapter
"Technical specifications (Page 128)".
Installation of the busbar connection unit
The busbar connection unit in the distribution board must be copper-plated by the board
manufacturer or in compliance with that manufacturer's specifications. The board
manufacturer must ensure that the required short-circuit strength is achieved and the
permissible temperature limit of the busbar connection unit for non-Siemens distribution
boards is not exceeded.
Figure 4-8 Busbar connection unit for non-Siemens distribution boards
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4.2.8
Connection unit for transformers and distribution boards
There are four different transformer connection pieces (LD.....-AS.) available for all rated
current ranges to connect various transformers to a busbar trunking system:
Connection unit LD.....
-AS...
Connection unit LD.....-AS.-T
Connection unit type
Selectable phase clearance
Possible phase sequences
LD.....-AS1(-T) 150180 mm
a = 725 mm
L1, L2, L3, PEN
PEN, L3, L2, L1
LD.....-AS2(-T) 190380 mm
a = 1085 mm
L1, L2, L3, PEN
PEN, L3, L2, L1
LD.....-AS3(-T) 450750 mm
a = 1430 mm
Lx, PEN, L2, Lx
Lx, L2, PEN, Lx
Lx = L1 or L3
LD.....-AS4(-T) 450750 mm
a = 1930 mm
L1, L2, L3, PEN
PEN, L3, L2, L1
We recommend a maximum clearance of 200 mm between the tags on the connection unit.
The universal connection unit can also be used to connect distribution boards.
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4.2.9
Incoming cable connection unit
If power needs to be supplied to the busbar trunking system via cables, you should use an
LDA(C)....-KE incoming cable connection unit.
Figure 4-9 Incoming cable connection unit
The incoming cable connection unit is designed for the following rated currents:
1100 to 2600 A (with IP34)
900 to 2000 A (with IP54).
Enclosure sizes
Depending on the system, three sizes can be selected:
Size 1:
LDA1...-KE to LDA2...-KE
Size 2:
LDA3...
-KE and LDA4...-KE
LDC2...-KE
Size 3:
LDA5...
-KE.
LDC3...-KE.
The maximum dimensions are 920 mm x 639 mm x 490 mm (W x H x D).
IP34 or IP54 degree of protection can be selected.
You can connect single-core or multi-core cables. You can connect cross-sections up to
300 mm2 (bolted connection) directly to the connection bars of the incoming cable
connection unit.
The sheet steel flange plates and the cable sleeves are included in the scope of supply of
the standard product. Single-core cables are supplied with an undrilled aluminium plate for
cable entry.
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4.2.10
Coupling units
Coupling units are used if devices or sections of the power supply need to be disconnected
or connected accordingly. To adapt the busbar trunking system to the actual load, the busbar
cross section can be reduced and protected against short circuits and overloads with a
coupling unit.
Coupling units can be fitted with switch disconnectors or circuit breakers as appropriate for
their application. Coupling units resistant to accidental arcs can be supplied as an option.
Figure 4-10 Coupling units
Rated currents
Rated currents adapted to the systems between 1100 and 3000 A can be supplied as
appropriate for the application.
Operator control
The coupling units can be operated using a handle or even a motor drive.
Dimensions
The installation length in the busbar trunking run is 1600 mm.
The dimensions are dependent on the device type and the current size and must be
obtained project-specifically.
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4.2.11
Tap-off units
4.2.11.1
Tap-off units
Tap-off for different current ratings
Tap-offs for different current ratings are required, depending on the application and type and
size of loads. These tap-offs are implemented in the form of tap-off units with fuse switch-
disconnectors or with circuit breakers.
There are basically two types of tap-off unit:
With fuse switch disconnector
With circuit breaker
Figure 4-11 Tap-off unit with fuse switch disconnector and trunking unit with tap-off point
Early-make PE/PEN
The current tap in the tap-off unit is implemented as an early-make (mounting) or late-break
(removal) PE/PEN conductor contact.
In a 4-conductor system, this is ensured by a longer PEN bar at the contact mechanism. In a
5-conductor system the PE connection is established via grinding contacts on the coding
brackets.
Anti-rotation feature and non-interchangeability
The coding brackets on the tap-off unit and on the trunking unit's tap-off point (lock-and-key
principle) ensure:
Non-interchangeability and correct assignment of 4 or 5-pole tap-off units to the
associated LD systems
Anti-rotation feature to prevent incorrect mounting of the tap-off units on the tap-off points
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4.2.11.2
Tap-off units with fuse switch disconnector
Rated currents
Tap-off units 125 A, 2 x 125 A, 250 A, 400 A and 630 A are available for selection.
Depending on the current level, LV HRC fuses size NH 00, NH 1, NH 2 or NH 3 are used.
The compact dimensions mean that only one enclosure size is required for all rated current
ranges.
Operator control
The tap-off units with fuse switch disconnector are operated by hand using a swivel
mechanism.
Degree of protection
The standard degree of protection is IP30. IP54 degree of protection can be provided as an
option.
Degree of protection IP30
Degree of protection IP54
Cable compartment / cable entry
A bolted connection is used for cables with cross sections up to 2 x 240 mm2. In the
standard version, the cable entry is on the front face. Adding a cable compartment enables
cable entry from the side. The cables are routed via an integrated cable propping bar in the
tap-off unit (cleats to be provided by the customer). The sectional flange plate facilitates the
laying of the cables.
Opening the tap-off unit
Do not open the cable compartment cover until you have removed the fuse switch
disconnector handle and, consequently, the fuse. This will ensure that the cable
compartment is voltage-free when the cover is removed. The part of the contact device in the
front of the tap-off unit is "finger-proof".
Type designation
The type designation for tap-off units with LV HRC fuse switch disconnectors is
LD-.AK/3ST...
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4.2.11.3
Tap-off units resistant to accidental arcs and with fuse switch disconnector
Rated currents
Tap-off units for 250 A, 400 A and 540 A are available for selection for use with LV HRC
fuses.
Operator control
The LV HRC fuse links of sizes NH 2 (250 A) and NH 3 (400 A and 540 A) are switched on
and off via the door-coupling operating mechanism.
Degree of protection
The standard degree of protection is IP54.
Figure 4-12 Degree of protection IP54
Cable compartment / cable entry
A bolted connection is used for cables with cross sections up to 2 x 4 x 240 mm2. Cables can
be fed in on both sides. In the case of a single-core cable entry, an aluminium plate fitted
with metric screwed joints is included in the scope of supply.
Resistance to arc faults
The tap-off units are resistant to arc faults. This has been verified by means of accidental arc
testing to IEC / TR 61641, and confirmed by a test report.
Type designation
The type designation for tap-off units with LV HRC switch disconnector is:
LD-K-.AK./FSAM...
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4.2.11.4
Tap-off units with circuit-breakers
On tap-off units with circuit breakers you can select the switching capacity, the number of
actively switched poles, the type of operator control and the signalling options:
Rated currents from 100 A to 1250 A.
3 or 4-pole designs
Switching capacity: normal, strong or high (see "Tap-off units with circuit-breaker
(Page 146)").
Circuit breaker with manual operating mechanism
Figure 4-13 Circuit breaker with manual operating mechanism
This type of tap-off unit has a circuit breaker which can be controlled from the outside using
a handle.
Degree of protection
The tap-off units have IP54 degree of protection.
Opening the tap-off unit
The contact compartment and the copper connections between the contact mechanism and
the circuit breaker are encapsulated in a finger-proof casing. The cover can only be opened
if the breaker has been deactivated. This ensures voltage-free load when the cover is
removed.
Cable connection
On the load side, the outgoing cables are routed directly via the circuit breaker. The PE/PEN
conductor is fixed to a bolted connection as appropriate for the cross section. Single-core or
multi-core cables can be fed in from the side or via the front face. The sectional flange plate
facilitates the laying of the cables.
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Circuit breaker with door handle, also available with motor drive
This version has a motor drive instead of a door handle.
Furthermore, you can choose either an undervoltage or a shunt release as appropriate for
your application. The operating voltage of the motorised operating mechanism must be
ensured externally (220 V AC to 250 V AC). The connections for the motor drive are
designed for terminal connection.
The feeder compartment and the copper connections between the contact mechanism and
the circuit breaker are encapsulated in a finger-proof casing. The connection on the load side
is made in the same way as on the version with door handle.
Type designation
The type designation for tap-off units with circuit breakers is: LD-.AK./LS.
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4.2.12
Additional equipment
End caps
You will need to install an end cap with a hook or a bolt at the end of a busbar run depending
on the version of the trunking unit.
End cap with hook
End cap with bolt
Suspension bracket
The LD-B1/B2 suspension bracket is used to mount the busbar trunking system in a
horizontal installation.
B1 for enclosure dimensions 180 mm x 180 mm
B2 for enclosure dimensions 240 mm x 180 mm
Figure 4-14 Suspension bracket
Fixing bracket
If you install the LD system vertically, you must use the LD-BV fixing bracket. You can find
the fixing distances in the chapter "Dimension drawings (Page 149)").
Figure 4-15 Fixing bracket
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4.3
Technical specifications
4.3.1
LD general data
LD...
Standards and regulations
IEC / EN 61439-1 and -6
Resistance to extreme climates
Damp heat, constant, acc. to IEC 60068-2-78
40 °C / 93 % RH / 56d
Damp heat, cyclic, acc. to IEC 60068-2-30 56 x (25 ... 40 °C / 3 h; 40 °C / 9 h; 40 25 °C / 3_…_6 h;
25 °C / 6 h) 95 % RH
Cold according to IEC 60068-2-1
45 °C, 16 h
Temperature change in accordance with IEC 60068-2-14 45 °C … 55 °C; 5 cycles (1 °C / min); holding time min.
30 min
Salt spray test in accordance with IEC 60068-2-52
Degree of severity 3
Ice formation acc. to IEC 60068-2-61 Testing based on a combination of moist heat, cyclic + low
temperature
Ambient temperature min. / max. / 24-hour average
°C
–5 / +40 / +35
Environmental classes in accordance with IEC 60721
as derived from climatic proofing tests
Climatic 1K5 (storage) = 3K7L (operation without direct sunlight);
2K2 (transport)
Chemically active Salt spray, other contaminants optional,
1C2 (storage) = 3C2 (operation) = 2C2 (transport)
Biological Covered by IP degrees of protection and packaging method.
1B2 (storage) = 3B2 (operation) = 2B2 (transport)
Mechanically active Covered by IP degrees of protection and packaging method.
1S2 (storage) = 3S2 (operation); 2S2 (transport)
System-specific data
Degree of protection IP31 ventilated (with busbars installed horizontally and flat)
IP34 ventilated (with busbars installed horizontally and
edgewise)
IP54 enclosed
Standard mounting position Busbars installed edgewise in trunking units with horizontal
installation
Torque for single-bolt terminal
Nm
80
Busbar surface treatment Entire length coated with insulating material, nickel-plated
and tinned: LDA;
tinned: LDC
Material trunking units, tap-off units
Sheet steel with powdered paint finish
Colour of trunking units, tap-off units
RAL 7035 (light grey)
Dimensions
See "Dimension drawings (Page 149)"
Weight
See the chapter "Weights (Page 148)"
Rated insulation voltage to DIN EN 61439-1
AC / DC
V
1000
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LD...
Rated operational voltage (power transmission)
with overvoltage category III/3
AC
V
1000
with overvoltage category IV/3
AC
V
690
Rated operational voltage (power distribution)
with overvoltage category III/3
AC
V
400 (690)
1)
Rated frequency
Hz
50 / 60
2)
1)
Tap-off units on request
2)
In accordance with EN 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
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4.3.2
LDA.4.. trunking units (4-pole, aluminium)
System-specific data
LDA142.
LDA242.
LDA342.
LDA441.
LDA442.
LDA541.
LDA542.
PEN=L
PEN=L
PEN=L
PEN=½L
PEN=L
PEN=½L
PEN=L
Rated current
I
nA1)
Horizontal /
edgewise2)
IP34
I
nA
A
1100
1250
1600
2000
2000
2500
2500
IP54
I
nA
A
900
1000
1200
1500
1500
1800
1800
Vertical
IP34
I
nA
A
950
1100
1250
1700
1700
2100
2100
IP54
I
nA
A
900
1000
1200
1500
1500
1800
1800
Horizontal / flat
IP31 / IP54
I
nA
A
700
750
1000
1200
1200
1700
1700
Impedance
of the conduct-
ing paths at
50 Hz and
+ 20 °C busbar
temperature
Resistance
R
20
mΩ/m
0.061
0.047
0.047
0.029
0.031
0.032
0.034
Reactance
X
20
mΩ/m
0.052
0.043
0.043
0.03
0.031
0.024
0.029
Impedance Z20 mΩ/m 0.079 0.064 0.064 0.041 0.043 0.040 0.044
of the conduct-
ing paths at
50 Hz and final
heating of bus-
bars
Resistance
R
1
mΩ/m
0.072
0.054
0.057
0.035
0.036
0.036
0.034
Reactance
X
1
mΩ/m
0.051
0.043
0.043
0.028
0.031
0.021
0.027
Impedance Z1 mΩ/m 0.088 0.069 0.072 0.044 0.047 0.042 0.044
of the conduct-
ing paths for 4-
pole systems
under fault con-
ditions acc. to
EN 61439-6
Resistance
R
F
mΩ/m
0.144
0.106
0.106
0.085
0.083
0.079
0.062
Reactance
X
F
mΩ/m
0.167
0.178
0.178
0.113
0.117
0.094
0.104
Impedance ZF mΩ/m 0.218 0.207 0.207 0.147 0.144 0.123 0.121
Zero impedance
for 4-pole sys-
tems acc. to DIN
EN 60909-0 /
VDE 0102
- R0 mΩ/m 0.282 0.217 0.217 0.168 0.171 0.193 0.126
-
X0
mΩ/m
0.233
0.200
0.200
0.178
0.175
0.179
0.163
- Z0 mΩ/m 0.367 0.295 0.295 0.249 0.244 0.264 0.206
Short-circuit rating
Rated short-time
withstand cur-
rent
rms value
t = 0.1 s
I
cw kA 55 70 80 110 110 125 125
rms value
t = 1 s
I
cw kA 40 55 58 80 80 110 110
Rated impulse
withstand cur-
rent
Peak value
I
pk kA 121 154 176 242 242 275 275
Conductor material
Aluminium
No. of busbars
4
4
4
7
8
7
8
Conductor
cross-section
L1, L2, L3
A
mm
2
530
706
706
1060
1060
1232
1232
PEN A mm2 530 706 706 530 1060 616 1232
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 131
System-specific data
LDA142.
LDA242.
LDA342.
LDA441.
LDA442.
LDA541.
LDA542.
PEN=L
PEN=L
PEN=L
PEN=½L
PEN=L
PEN=½L
PEN=L
Fire load
Trunking unit without tap-off point
KWh/m
7.08
7.09
7.09
10.87
11.99
10.87
11.99
Per tap-off point
KWh
8.32
8.32
8.32
12.04
12.96
12.04
12.96
Max. fixing distances
for conven-
tional mechanical load
m 6 6 6 5 5 5 5
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
System-specific data
LDA641.
LDA642.
LDA741.
LDA742.
LDA841.
LDA842.
PEN=½L
PEN=L
PEN=½L
PEN=L
PEN=½L
PEN=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
3000
3000
3700
3700
4000
4000
IP54
I
nA
A
2000
2000
2400
2400
2700
2700
Vertical
IP34
I
nA
A
2300
2300
2800
2800
3400
3400
IP54
I
nA
A
2000
2000
2400
2400
2700
2700
Horizontal / flat
IP31 / IP54
I
nA
A
1800
1800
2200
2200
2350
2350
Impedance
of the conducting paths at
50 Hz and + 20 °C busbar
temperature
Resistance
R
20
mΩ/m
0.023
0.024
0.017
0.016
0.015
0.013
Reactance
X
20
mΩ/m
0.023
0.029
0.019
0.022
0.017
0.019
Impedance
Z
20
mΩ/m
0.033
0.037
0.026
0.027
0.023
0.023
of the conducting paths at
50 Hz and final heating of
busbars
Resistance
R
1
mΩ/m
0.030
0.029
0.021
0.020
0.018
0.016
Reactance
X
1
mΩ/m
0.024
0.029
0.019
0.022
0.017
0.019
Impedance
Z
1
mΩ/m
0.038
0.041
0.029
0.030
0.025
0.025
of the conducting paths for
4-pole systems under fault
conditions acc. to
EN 61439-6
Resistance
R
F
mΩ/m
0.075
0.056
0.055
0.041
0.049
0.038
Reactance XF mΩ/m 0.109 0.119 0.083 0.093 0.086 0.080
Impedance ZF mΩ/m 0.132 0.131 0.099 0.101 0.099 0.088
Zero impedance
for 4-pole systems acc. to
DIN EN 60909-0 /
VDE 0102
-
R0
mΩ/m
0.180
0.120
0.126
0.090
0.110
0.075
-
X0
mΩ/m
0.154
0.153
0.097
0.119
0.086
0.087
-
Z0
mΩ/m
0.237
0.194
0.159
0.149
0.140
0.115
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
132 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LDA641.
LDA642.
LDA741.
LDA742.
LDA841.
LDA842.
PEN=½L
PEN=L
PEN=½L
PEN=L
PEN=½L
PEN=L
Short-circuit rating
Rated short-time withstand
current
rms value
t = 0.1 s
I
cw kA 130 130 130 130 130 130
rms value
t = 1 s
I
cw kA 116 116 116 116 116 116
Rated impulse withstand
current
Peak value
I
pk kA 286 286 286 286 286 286
Conductor material
Aluminium
No. of busbars
7
8
7
8
7
8
Conductor cross section
L1, L2, L3
A
mm
2
1412
1412
2044
2044
2464
2464
PEN
A
mm
2
706
1412
1022
2044
1232
2464
Fire load
KWh/m
10.87
11.99
10.87
11.99
10.87
11.99
KWh
12.04
12.96
12.04
12.96
12.04
12.96
Max. fixing distances
for conventional mechan-
ical load
m 5 5 5 5 5 5
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 133
4.3.3
LDA.6.. trunking units (5-pole, aluminium)
System-specific data
LDA162.
LDA262.
LDA362.
LDA461.
LDA462.
LDA561.
LDA562.
N=L
N=L
N=L
N=½L
N=L
N=½L
N=L
Rated current
I
nA1)
Horizontal /
edgewise2)
IP34
I
nA
A
1100
1250
1600
2000
2000
2500
2500
IP54
I
nA
A
900
1000
1200
1500
1500
1800
1800
Vertical
IP34
I
nA
A
950
1100
1250
1700
1700
2100
2100
IP54
I
nA
A
900
1000
1200
1500
1500
1800
1800
Horizontal / flat
IP31 / IP54
I
nA
A
700
750
1000
1200
1200
1700
1700
Impedance
of the conduct-
ing paths at
50 Hz and
+ 20 °C busbar
temperature
Resistance
R
20
mΩ/m
0.061
0.048
0.048
0.030
0.030
0.027
0.029
Reactance
X
20
mΩ/m
0.052
0.043
0.043
0.031
0.031
0.026
0.033
Impedance Z20 mΩ/m 0.079 0.064 0.064 0.043 0.043 0.038 0.044
of the conduct-
ing paths at
50 Hz and final
heating of
busbars
Resistance
R
1
mΩ/m
0.072
0.054
0.059
0.036
0.036
0.032
0.036
Reactance
X
1
mΩ/m
0.051
0.043
0.042
0.031
0.031
0.026
0.031
Impedance Z1 mΩ/m 0.088 0.069 0.072 0.047 0.047 0.042 0.047
of the conduct-
ing paths for 5-
pole systems
(PE) under fault
conditions acc.
to EN 61439-6
Resistance
R
F
mΩ/m
0.162
0.108
0.108
0.109
0.109
0.101
0.089
Reactance
X
F
mΩ/m
0.231
0.201
0.201
0.126
0.128
0.133
0.133
Impedance ZF mΩ/m 0.283 0.228 0.228 0.168 0.168 0.167 0.160
of the conduct-
ing paths for
5-pole sys-
tems (N) under
fault conditions
acc. to
EN 61439-6
Resistance RF mΩ/m 0.147 0.108 0.108 0.112 0.067 0.092 0.067
Reactance XF mΩ/m 0.197 0.173 0.173 0.108 0.109 0.102 0.113
Impedance ZF mΩ/m 0.246 0.204 0.204 0.155 0.128 0.137 0.131
Zero impedance
for 5-pole sys-
tems (PE) acc.
to DIN
EN 60909-0 /
VDE 0102
-
R0
mΩ/m
0.310
0.240
0.240
0.250
0.250
0.238
0.264
-
X0
mΩ/m
0.415
0.200
0.200
0.235
0.235
0.211
0.272
- Z0 mΩ/m 0.518 0.295 0.295 0.343 0.343 0.318 0.379
for 5-pole
systems (N) acc.
to
DIN EN 60909-0
/ VDE 0102
-
R0
mΩ/m
0.293
0.231
0.231
0.267
0.146
0.195
0.136
-
X0
mΩ/m
0.260
0.219
0.219
0.144
0.144
0.135
0.161
- Z0 mΩ/m 0.392 0.319 0.319 0.303 0.205 0.237 0.211
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
134 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LDA162.
LDA262.
LDA362.
LDA461.
LDA462.
LDA561.
LDA562.
N=L
N=L
N=L
N=½L
N=L
N=½L
N=L
Short-circuit rating
Rated short-time
withstand
current
rms value
t = 0.1 s
I
cw kA 55 70 80 110 110 125 125
rms value
t = s
I
cw kA 40 55 58 80 80 110 110
Rated impulse
withstand
current
Peak value
I
pk kA 121 154 176 242 242 275 275
Rated short-time
withstand
current of the
5th conductor
rms value
t = 0.1 s
I
cw kA 33 42 48 66 66 75 75
rms value
t = 1 s
I
cw kA 24 33 35 48 48 66 66
Conductor material
Aluminium
No. of busbars
5
5
5
8
9
8
9
Conductor cross
section
L1, L2, L3
A
mm
2
530
706
706
1060
1060
1232
1232
N
A
mm
2
530
706
706
530
1060
616
1232
PE A mm2 530 706 706 530 530 616 616
Fire load
Trunking unit
without tap-off
point
- - KWh/m 7.28 7.29 7.29 10.87 11.99 10.87 11.99
per tap-off point - - KWh 8.32 8.32 8.32 12.04 12.96 12.04 12.96
Max. fixing dis-
tances
for con-
ventional
mechanical load
- - m 6 6 6 5 5 5 5
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 135
System-specific data
LDA661.
LDA662.
LDA761.
LDA762.
LDA861.
LDA862.
N=½L
N=L
N=½L
N=L
N=½L
N=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
3000
3000
3700
3700
4000
4000
IP54
I
nA
A
2000
2000
2400
2400
2700
2700
Vertical
IP34
I
nA
A
2300
2300
2800
2800
3400
3400
IP54
I
nA
A
2000
2000
2400
2400
2700
2700
Horizontal / flat
IP31 / IP54
I
nA
A
1800
1800
2200
2200
2350
2350
Impedance
of the conducting paths
at 50 Hz and +20 °C
busbar temperature
Resistance
R
20
mΩ/m
0.023
0.023
0.017
0.018
0.014
0.015
Reactance
X
20
mΩ/m
0.024
0.029
0.019
0.025
0.022
0.021
Impedance
Z
20
mΩ/m
0.033
0.037
0.026
0.030
0.026
0.026
of the conducting paths
at 50 Hz and final
heating of busbars
Resistance
R
1
mΩ/m
0.029
0.030
0.020
0.021
0.017
0.018
Reactance
X
1
mΩ/m
0.024
0.031
0.020
0.025
0.021
0.021
Impedance
Z
1
mΩ/m
0.037
0.043
0.028
0.033
0.027
0.027
of the conducting paths
for 5-pole systems (PE)
under fault conditions
acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.092
0.084
0.068
0.065
0.055
0.056
Reactance
X
F
mΩ/m
0.134
0.133
0.110
0.114
0.102
0.105
Impedance ZF mΩ/m 0.163 0.157 0.129 0.131 0.116 0.119
of the conducting paths
for 5-pole systems (N)
under fault conditions
acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.076
0.057
0.053
0.042
0.049
0.037
Reactance
X
F
mΩ/m
0.106
0.113
0.080
0.091
0.084
0.086
Impedance ZF mΩ/m 0.130 0.127 0.096 0.100 0.097 0.094
Zero impedance
for 5-pole systems (PE)
acc. to DIN EN 60909-0
/ VDE 0102
- R0 mΩ/m 0.217 0.212 0.163 0.166 0.145 0.146
- X0 mΩ/m 0.202 0.263 0.175 0.220 0.196 0.196
-
Z0
mΩ/m
0.297
0.338
0.240
0.275
0.243
0.244
for 5-pole systems (N)
acc. to DIN EN 60909-0
/ VDE 0102
-
R0
mΩ/m
0.181
0.122
0.130
0.089
0.115
0.079
-
X0
mΩ/m
0.128
0.155
0.102
0.093
0.095
0.100
-
Z0
mΩ/m
0.221
0.198
0.165
0.129
0.149
0.127
Short-circuit rating
Rated short-time
withstand current
rms value
t = 0.1 s
I
cw kA 130 130 130 130 130 130
rms value
t = 1 s
I
cw kA 116 116 116 116 116 116
Rated impulse with-
stand current
Peak value
I
pk kA 286 286 286 286 286 286
Rated short-time
withstand current of the
5th conductor
rms value
t = 0.1 s
I
cw kA 78 78 78 78 78 78
rms value
t = 1 s
I
cw kA 70 70 70 70 70 70
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
136 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LDA661.
LDA662.
LDA761.
LDA762.
LDA861.
LDA862.
N=½L
N=L
N=½L
N=L
N=½L
N=L
Conductor material
Aluminium
No. of busbars
8
9
8
9
8
9
Conductor
cross-section
L1, L2, L3 A mm2 1412 1412 2044 2044 2464 2464
N
A
mm
2
706
1412
1022
2044
1232
2464
PE
A
mm
2
706
706
1022
1022
1232
1232
Fire load
Trunking unit without
tap-off point
- - KWh/m 10.87 11.99 10.87 11.99 10.87 11.99
per tap-off point
-
-
KWh
12.04
12.96
12.04
12.96
12.04
12.96
Max. fixing distances
for conventional me-
chanical load
- - m 5 5 5 5 5 5
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 137
4.3.4
LDC.4.. trunking units (4-pole, copper)
System-specific data
LDC242.
LDC342.
LDC641.
LDC642.
PEN=L
PEN=L
PEN=½L
PEN=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
2000
2600
3400
3400
IP54
I
nA
A
1600
2000
2600
2600
Vertical
IP34
I
nA
A
1650
2100
2700
2700
IP54
I
nA
A
1600
2000
2600
2600
Horizontal / flat
IP31 / IP54
I
nA
A
1200
1550
2000
2000
Impedance
of the conducting paths at
50 Hz and + 20 °C busbar
temperature
Resistance
R
20
mΩ/m
0.030
0.026
0.015
0.015
Reactance
X
20
mΩ/m
0.042
0.035
0.026
0.026
Impedance
Z
20
mΩ/m
0.052
0.043
0.030
0.030
of the conducting paths at
50 Hz and final heating of
busbars
Resistance
R
1
mΩ/m
0.037
0.028
0.017
0.018
Reactance
X
1
mΩ/m
0.042
0.036
0.026
0.027
Impedance
Z
1
mΩ/m
0.056
0.046
0.031
0.032
of the conducting paths for 4-
pole systems under fault
conditions acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.075
0.056
0.048
0.037
Reactance
X
F
mΩ/m
0.170
0.163
0.107
0.107
Impedance
Z
F
mΩ/m
0.186
0.173
0.117
0.113
Zero impedance
acc. to DIN EN 60909-
0/VDE 0102
R
0
mΩ/m
0.144
0.114
0.116
0.079
X
0
mΩ/m
0.199
0.225
0.124
0.130
Z
0
mΩ/m
0.246
0.252
0.169
0.152
Short-circuit rating
Rated short-time withstand
current
rms value t = 0.1 s
I
cw
kA
80
80
130
130
rms value t = 1 s
I
cw kA 58 58 116 116
Rated impulse withstand cur-
rent
Peak value
I
pk kA 176 176 286 286
Conductor material
Copper
No. of busbars
4
4
7
8
Conductor cross-section
L1, L2, L3
A
mm
2
706
1022
1412
1412
PEN
A
mm
2
706
1022
706
1412
Fire load
Trunking unit without
tap-off point
- - KWh/m 7.09 7.09 10.87 11.99
per tap-off point
-
-
KWh
8.32
8.32
12.04
12.96
Max. fixing distances
for
conventional mechanical load
- - m 5 4 4 4
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
138 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LDC741.
LDC742.
LDC841.
LDC842.
PEN=½L
PEN=L
PEN=½L
PEN=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
4400
4400
5000
5000
IP54
I
nA
A
3200
3200
3600
3600
Vertical
IP34
I
nA
A
3500
3500
4250
4250
IP54
I
nA
A
3200
3200
3600
3600
Horizontal / flat
IP31 / IP54
I
nA
A
2600
2600
3000
3000
Impedance
of the conducting paths at 50 Hz
and + 20 °C busbar temperature
Resistance
R
20
mΩ/m
0.012
0.008
0.008
0.009
Reactance
X
20
mΩ/m
0.023
0.021
0.021
0.018
Impedance
Z
20
mΩ/m
0.026
0.024
0.022
0.020
of the conducting paths at 50 Hz
and final heating of busbars
Resistance
R
1
mΩ/m
0.012
0.013
0.011
0.011
Reactance
X
1
mΩ/m
0.023
0.022
0.020
0.018
Impedance
Z
1
mΩ/m
0.026
0.025
0.023
0.021
of the conducting paths for 4-pole
systems under fault conditions
acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.036
0.027
0.031
0.026
Reactance
X
F
mΩ/m
0.090
0.086
0.073
0.080
Impedance
Z
F
mΩ/m
0.097
0.090
0.079
0.085
Zero impedance
acc. to DIN EN 60909-
0/VDE 0102
-
R
0
mΩ/m
0.083
0.056
0.070
0.050
-
X
0
mΩ/m
0.072
0.093
0.088
0.106
-
Z
0
mΩ/m
0.109
0.109
0.113
0.118
Short-circuit rating
Rated short-time withstand
current
rms value t = 0.1 s
I
cw
kA
130
130
130
130
rms value t = 1 s
I
cw kA 116 116 116 116
Rated impulse withstand current Peak value
I
pk kA 286 286 286 286
Conductor material
Copper
No. of busbars
7
8
7
8
Conductor cross-section
L1, L2, L3
A
mm
2
2044
2044
2464
2464
PEN
A
mm
2
1022
2044
1232
2464
Fire load
Trunking unit without tap-off point
-
-
KWh/m
10.87
11.99
10.87
11.99
per tap-off point
-
-
KWh
12.04
12.96
12.04
12.96
Max. fixing distances
for
conventional mechanical load
- - m 3 3 2 2
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 139
4.3.5
LDC.6.. trunking units (5-pole, copper)
System-specific data
LDC262.
LDC362.
LDC661.
LDC662.
N=L
N=L
N=½L
PEN=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
2000
2600
3400
3400
IP54
I
nA
A
1600
2000
2600
2600
Vertical
IP34
I
nA
A
1650
2100
2700
2700
IP54
I
nA
A
1600
2000
2600
2600
Horizontal / flat
IP31 / IP54
I
nA
A
1200
1550
2000
2000
Impedance
of the conducting paths at 50 Hz
and + 20 °C busbar temperature
Resistance
R
20
mΩ/m
0.036
0.029
0.015
0.017
Reactance
X
20
mΩ/m
0.043
0.037
0.027
0.027
Impedance
Z
20
mΩ/m
0.056
0.047
0.031
0.032
of the conducting paths at 50 Hz
and final heating of busbars
Resistance
R
1
mΩ/m
0.037
0.031
0.017
0.018
Reactance
X
1
mΩ/m
0.043
0.038
0.028
0.028
Impedance
Z
1
mΩ/m
0.057
0.049
0.033
0.034
of the conducting paths for 5-pole
systems (PE) under fault condi-
tions acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.081
0.060
0.062
0.058
Reactance
X
F
mΩ/m
0.204
0.186
0.139
0.124
Impedance
Z
F
mΩ/m
0.220
0.195
0.153
0.137
of the conducting paths for 5-pole
systems (N) under fault condi-
tions acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.078
0.059
0.048
0.037
Reactance
X
F
mΩ/m
0.193
0.149
0.110
0.105
Impedance
Z
F
mΩ/m
0.208
0.160
0.120
0.112
Zero impedance
for 5-pole systems (PE) acc. to
DIN EN 60909-0 / VDE 0102
-
R
0
mΩ/m
0.179
0.134
0.149
0.149
-
X
0
mΩ/m
0.387
0.357
0.238
0.248
- Z0 mΩ/m 0.426 0.381 0.281 0.289
for 5-pole systems (N) acc. to
DIN EN 60909-0 / VDE 0102
- R0 mΩ/m 0.150 0.110 0.119 0.080
- X0 mΩ/m 0.189 0.180 0.145 0.135
-
Z0
mΩ/m
0.241
0.211
0.187
0.157
Short-circuit rating
Rated short-time withstand
current
rms value t = 0.1 s
I
cw
kA
80
80
130
130
rms value t = 1 s
I
cw
kA
58
58
116
116
Rated impulse withstand current
Peak value
I
pk
kA
176
176
286
286
Rated short-time withstand
current of the 5th conductor
rms value t = 0.1 s
I
cw
kA
48
48
78
78
rms value t = 1 s
I
cw
kA
35
35
70
70
Conductor material
Copper
No. of busbars
5
5
8
9
Conductor cross-section
L1, L2, L3
A
mm
2
706
1022
1412
1412
N
A
mm
2
706
1022
706
1412
PE
A
mm
2
706
1022
706
706
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
140 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LDC262.
LDC362.
LDC661.
LDC662.
N=L
N=L
N=½L
PEN=L
Fire load
Trunking unit without
tap-off point
- - KWh/m 7.29 7.29 10.87 11.99
per tap-off point
-
-
KWh
8.32
8.32
12.04
12.96
Max. fixing distances
for
conventional mechanical load
- - m 5 4 4 4
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
System-specific data
LDC761.
LDC762.
LDC861.
LDC862.
N=½L
N=L
N=½L
N=L
Rated current
I
nA1)
Horizontal / edgewise2)
IP34
I
nA
A
4400
4400
5000
5000
IP54
I
nA
A
3200
3200
3600
3600
Vertical
IP34
I
nA
A
3500
3500
4250
4250
IP54
I
nA
A
3200
3200
3600
3600
Horizontal / flat
IP31 / IP54
I
nA
A
2600
2600
3000
3000
Impedance
of the conducting paths at 50 Hz and
+ 20 °C busbar temperature
Resistance
R
20
mΩ/m
0.011
0.014
0.012
0.012
Reactance
X
20
mΩ/m
0.023
0.021
0.018
0.020
Impedance
Z
20
mΩ/m
0.025
0.025
0.022
0.023
of the conducting paths at 50 Hz and
final heating of busbars
Resistance
R
1
mΩ/m
0.013
0.015
0.013
0.013
Reactance
X
1
mΩ/m
0.024
0.022
0.020
0.020
Impedance
Z
1
mΩ/m
0.027
0.027
0.024
0.024
of the conducting paths for 5-pole
systems (PE) under fault conditions
acc. to EN 61439-6
Resistance
R
F
mΩ/m
0.048
0.050
0.045
0.048
Reactance XF mΩ/m 0.118 0.133 0.123 0.119
Impedance ZF mΩ/m 0.127 0.142 0.131 0.128
of the conducting paths for 5-pole
systems (N) under fault conditions
acc. to EN 61439-6
Resistance
RF
mΩ/m
0.038
0.027
0.031
0.025
Reactance
XF
mΩ/m
0.092
0.089
0.082
0.079
Impedance
ZF
mΩ/m
0.100
0.093
0.088
0.083
Zero impedance
for 5-pole systems (PE) acc. to DIN
EN 60909-0 / VDE 0102
-
R0
mΩ/m
0.116
0.100
0.103
0.103
-
X0
mΩ/m
0.186
0.216
0.188
0.184
-
Z0
mΩ/m
0.219
0.238
0.214
0.211
for 5-pole systems (N) acc. to
DIN EN 60909-0 / VDE 0102
-
R0
mΩ/m
0.087
0.058
0.072
0.050
-
X0
mΩ/m
0.105
0.112
0.093
0.091
-
Z0
mΩ/m
0.137
0.126
0.118
0.104
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 141
System-specific data
LDC761.
LDC762.
LDC861.
LDC862.
N=½L
N=L
N=½L
N=L
Short-circuit rating
Rated short-time withstand
current
rms value t = 0.1 s
I
cw
kA
130
130
130
130
rms value t = 1 s
I
cw
kA
116
116
116
116
Rated impulse withstand
current
Peak value
I
pk kA 286 286 286 286
Rated short-time withstand
current of the 5th conductor
rms value t = 0.1 s
I
cw
kA
78
78
78
78
rms value t = 1 s
I
cw
kA
70
70
70
70
Conductor material
Copper
No. of busbars
8
9
8
9
Conductor cross-section
L1, L2, L3
A
mm
2
2044
2044
2464
2464
N
A
mm
2
1022
2044
1232
2464
PE
A
mm
2
1022
1022
1232
1232
Fire load
Trunking unit without tap-off
point
- - KWh/m 10.87 11.99 10.87 11.99
per tap-off point
-
-
KWh
12.04
12.96
12.04
12.96
Max. fixing distances
for
conventional mechanical load
- - m 3 3 2 2
1)
Dependent upon degree of protection and laying method
2) Incl. height rises ≤ 1.3 m
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
142 Planning Manual, 11/2016, A5E01541101-04
4.3.6
Feeder units
Busbar connection units for non-Siemens distribution boards, recommended cross-sections per
conductor
Recommended conductor cross-
section
per conductor [mm2]
Compatible LDA / LDC system
LDA2420
CU 2 x 60 x 10
LDA142. and LDA242.
LDA2620
CU 2 x 60 x 10
LDA162. and LDA262.
LDA3420
CU 100 x 15
LDA342.
LDA3620
CU 100 x 15
LDA362.
LDA5410
CU 2 x 60 x 10
LDA441. and LDA541.
LDA5610
CU 2 x 60 x 10
LDA461. and LDA561.
LDA7410
CU 2 x 100 x 10
LDA641. and LDA741.
LDA7610
CU 2 x 100 x 10
LDA661. and LDA761.
LDA8410
CU 4 x 100 x 12
LDA841.
LDA8610
CU 4 x 100 x 12
LDA861.
LDA5420
CU 2 x 60 x 10
LDA442. and LDA542.
LDA5620
CU 2 x 60 x 10
LDA462. and LDA562.
LDA7420
CU 2 x 100 x 10
LDA642. and LDA742.
LDA7620
CU 2 x 100 x 10
LDA662. and LDA762.
LDA8420
CU 4 x 100 x 12
LDA842.
LDA8620
CU 4 x 100 x 12
LDA862.
LDC2420
CU 100 x 15
LDC241.
LDC2620
CU 100 x 15
LDC262.
LDC3420
CU 100 x 15
LDC342.
LDC3620
CU 100 x 15
LDC362.
LDC6410
CU 2 x 100 x 10
LDC641.
LDC6420
CU 2 x 100 x 10
LDC642.
LDC6610 CU 2 x 100 x 10 LDC661
LDC6620 CU 2 x 100 x 10 LDC662.
LDC7410 CU 4 x 100 x 12 LDC741.
LDC7420
CU 4 x 100 x 12
LDC742.
LDC7610
CU 4 x 100 x 12
LDC761.
LDC7620
CU 4 x 100 x 12
LDC762.
LDC8410
CU 4 x 120 x 12
LDC841.
LDC8420
CU 4 x 120 x 12
LDC842.
LDC8610
CU 4 x 120 x 12
LDC861.
LDC8620
CU 4 x 120 x 12
LDC862.
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 143
4.3.7
Tap-off units with fuse switch disconnector
System-specific data
Standards and regulations
IEC / EN 61439-1 and -6
Resistance to extreme climates Damp heat, constant, acc. to IEC 60068-2-78
Damp heat, cyclic, acc. to IEC 60068-2-30
Degree of protection
IP30 standard, IP54 with retrofit kit
Ambient temperature min. / max. /
24-hour average
°C –5 / 40 / 35
Rated insulation voltage
U
i acc.
to IEC / EN 61439-1
AC V 400
Overvoltage category / pollution degree
III/3
Rated frequency
Hz
50 / 60
1)
Rated operating voltage
U
e
AC
V
400
Typ LD-K-.AK./…….
31ST125
32ST125
3ST250
3ST400
3ST630
Fuse link
NH00
2 x NH00
NH1
NH2
NH3
Rated current
I
nc
125
2 x 125
250
400
630
Max. rated current
I
max
of the fuse
A
125
2 x 125
250
400
630
Max. permissible operating current
I
r
max
with IP30
A 125 2 x 125 250 400 545
Max. permissible operating current
I
r
max
with IP54
A 125 2 x 100 200 315 520
Switching capacity of the installed fuse
switch disconnector acc to
EN 60947-3
AC-22 B AC-22 B AC-21 B AC-22 B AC-21 B
Short-circuit strength with fuse protec-
tion
I
cf 2)
80 80 80 80 80
Cable entries:
Entry on front without cable compart-
ment
Entry on side with cable compartment
Multi-core cable
Cable grommets (KT 4) for cable
diameters from 14 to 68 mm
2 2 2 2 3
Single-core cable
Aluminium plate, undrilled for cable glands 10 × M50
Bolted connection
mm
M8
M8
M10
M10
M10
L1, L2, L3
mm
min. 1 x 10
min. 1 x 10
min. 1 x 25
min. 1 x 25
min. 1 x 25
mm
max. 1 x 95
max. 1 x 95
max. 1 x 150
max. 2 x 240
max. 2 x 240
N, PEN / PE
mm
min. 1 x 10
min. 1 x 10
min. 1 x 25
min. 1 x 25
min. 1 x 25
mm
max. 1 x 95
max. 1 x 95
max. 1 x 150
max. 2 x 240
max. 2 x 240
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
144 Planning Manual, 11/2016, A5E01541101-04
System-specific data
Colour of tap-off units
RAL 7035, light grey
Tap-off unit material
Sheet steel, zinc-plated and painted
Weights
kg
33
1)
In accordance with EN 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
2) Fuses: IEC 269-1-2, NF EN 60269-1, NFC 63211, NFC 63210, VDE 0636-1, DIN 43620
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 145
4.3.8
Tap-off units resistant to accidental arcs and with fuse switch disconnector
LD...
Standards and regulations
IEC / EN 61439-1 and -6
Resistance to extreme climates Damp heat, constant, acc. to IEC 60068-2-78
Damp heat, cyclic, acc. to IEC 60068-2-30
Degree of protection
IP54, IP40 (Version KS)
Ambient temperature min. / max. /
24-hour average
°C –5 / 40 / 35
Rated insulation voltage
U
i acc. to
IEC / EN 61439-1
AC V 400
Overvoltage category / pollution degree
III/3
Rated frequency
Hz
50
Rated operating voltage
U
e
AC
V
400
Typ LD-K-.AK./…….
FSAM-250
FSAM-400
FSAM-630
Rated current
I
nc
A
250
400
630
Max. rated current
I
max
of the fuse
A
250
400
630
Max. permissible operating current
I
r max
A
230
400
1)
540
2)
Switching capacity of the installed fuse switch
disconnector acc to EN 60947-3
AC 22 B AC 22 B AC 22 B
Short-circuit strength with fuse protection
3)
110
110
110
Cable entries
Multi-core cable with add-on cable
compartment for cable entry from the side
2 cable grommets
(KT 4) for cable
diameters from
1468 m
2 cable grommets
(KT 4) for cable
diameters from
1468 m
2 cable grommets
(KT 4) for cable
diameters from
1468 m
Single-core cable Aluminium plate
undrilled for cable
diameters
2135 mm
Aluminium plate with
5x M50 cable glands
for cable diameters
2135 mm
Aluminium plate with
5x M50 cable glands
for cable diameters
2135 mm
Conductor cross-sections (copper, bolted connection with cable lugs)
L1, L2, L3 mm 1 x 25 to 1 x 300/2 x
240
1 x 25 to 1 x 300/2 x
240
1 x 25 to 1 x 300/2 x
240
N / PEN / PE mm 1 x 25 to 1 x 300/2 x
240
1 x 25 to 1 x 300/2 x
240
1 x 25 to 1 x 300/2 x
240
Colour of tap-off units
RAL 7035, light grey
Tap-off unit material
Sheet steel, zinc-plated and painted
Weights
kg
45
69
75
1)
For vertical installation of the tap-off units, a reduction by 5% is necessary (reduction factor 0.95)
2)
For vertical installation of the tap-off units, a reduction by 12 % is necessary (reduction factor 0.88)
3) Fuses: IEC 269-1-2, NF EN 60269-1, NFC 63211, NFC 63210, VDE 0636-1, DIN 43620
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
146 Planning Manual, 11/2016, A5E01541101-04
4.3.9
Tap-off units with circuit-breaker
Size
1
2
3
Circuit breaker type
VL160
VL250
VL400
VL630
VL1250
Standards and regulations
IEC / EN 61439-1 and -6
Resistance to extreme climates Damp heat, constant, acc. to IEC 60068-2-78
Damp heat, cyclic, acc. to IEC 60068-2-30
Degree of protection
IP54
Ambient temperature
°C –5 / 40 / 35 (min. / max. / 24-h average)
Overvoltage category / pollution degree to
DIN EN 61439-1
III/3
Rated insulation voltage
U
i acc. to
IEC / EN 61439-1
AC V 400
Rated operating voltage
U
e
AC
V
400
Rated frequency
Hz
50 / 60
2)
Rated current
I
nc A 100,
125,
160
200,
250
315,
400
630 800,
1000,
1250
Max. permissible operating current
I
r max
1001),
1251),
160
1)
2001),
2501)
3151),
4001)
5801) 800,
1000,
1250
1)
Switching capacity of the circuit breaker
H (70 kA) or L (100 kA)
L (100 kA)
Conditional rated short-circuit current
I
cc
(values for 690 V on request)
kA 70 or 100 100
Current setting of overload release
AE design A 40100
64160
80200
100250
126315
160400
252630 4001000
500250
DC, EC design A 80100
100125
125160
160200
200250
215315
320400
500630 -
Connections
Cable entries
Multi-core cable
Cable grommets 2 × KT 3 2 x KT 4 4 x KT 4
Cable diameters mm2 1454 1468 1468
Single-core cable
Aluminium plate undrilled, for cable glands 8 × M40 12 x M40 24 x M40
Cable entry from the side Yes Yes Yes
Planning with LD
4.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 147
Size
1
2
3
Circuit breaker type
VL160
VL250
VL400
VL630
VL1250
Conductor cross-sections (copper)
Connection system Direct connection on the
device
Tags Cable
connection
system
Bolted connection
1 x M8
1 x M8
1 x M8
2 x M10
3)
4 x M12
4)
L1, L2, L3; N, PEN/PE
min.
mm
2
5)
5)
5)
5)
4 x (4) x 70
max. mm2 5) 5) 5) 5) 4 x (4) x
240
Colour
RAL 7035 (light grey)
Material
Sheet steel, zinc-plated / painted
Weights
kg
-
37
58
61
107
1)
For "suspended, bottom" installation of the tap-off units, a reduction by 10% is necessary (reduction factor 0.9).
2)
In accordance with IEC / 61439-1, a reduction to 95 % must be taken into account for currents > 800 A at a frequency of
60 Hz.
3)
For 2 cable lugs per conductor
4)
For 4 cable lugs per conductor
5) In accordance with the valid standards
Planning with LD
4.4 Weights
SIVACON 8PS - Planning with SIVACON 8PS
148 Planning Manual, 11/2016, A5E01541101-04
4.4
Weights
4.4.1
Trunking units
Trunking unit with aluminium conductors
The weights given are metre weights (kg/m) for trunking units without tap-off points in IP34
degree of protection. An additional 0.6 kg/m must be taken into account for degree of
protection IP54. In the case of trunking units with tap-off points, an additional 7 kg per tap-off
point must be taken into account.
LDA1...
LDA2...
LDA3...
LDA4...
LDA5...
LDA6...
LDA7...
LDA8...
LDA.413
-
-
-
24.1
27.4
27.4
33.7
37.2
LDA.423
18.1
20.0
20.0
25.6
29.4
29.4
36.6
40.6
LDA.613
-
-
25.6
29.4
29.4
36.6
40.6
LDA.623
20.1
22.0
22.0
27.1
31.4
31.4
39.5
44.0
Trunking units with copper conductors
The weights given are metre weights (kg/m) for trunking units without tap-off points in IP34
degree of protection. In the case of trunking units with tap-off points, an additional 7 kg per
tap-off point must be taken into account. An additional 0.6 kg/m must be taken into account
for degree of protection IP54.
LDC2...
LDC3...
LDC6...
LDC7...
LDC8...
LDC.413
-
-
60.3
82.0
100.2
LDC.423
38.8
51.2
67.0
91.8
112.6
LDC.613
-
-
67.0
91.8
112.6
LDC.623
45.5
61.0
73.7
101.6
125.0
Planning with LD
4.5 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 149
4.5
Dimension drawings
Unless otherwise specified, all dimensions are in mm.
4.5.1
Trunking units
Figure 4-16 LDA(C)...-..., LDA(C)...-D-..., LDA(C)...-V-...
Figure 4-17 LDA(C)...-J-...
LDA(C)1... t
o LDA(C)3...
LDA(C)1...
-K-... to LDA(C)3...-K-...
Coding bracket (busbars with tap-
off points
only)
LDA(C)4... to LDA(C)8...
LDA(C)4...-K-... to LDA(C)8...-K-...
Planning with LD
4.5 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
150 Planning Manual, 11/2016, A5E01541101-04
4.5.2
Tap-off units with fuse switch disconnector
LD
-K-.AK/.ST...
without cable compartment (cab
le
entry from the front)
LD
-K-.AK/.ST... +LD-KR
with cable compartment (cable
entry from the side)
Tap-off unit mounted
Space requirements for mounting
Planning with LD
4.5 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 151
4.5.3
Arc fault resistant tap-off units with fuse switch disconnector
LD-K-.AK./FSAM250
Figure 4-18 Tap-off units with LV HRC fuse switch disconnector
Planning with LD
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Tap
-off unit mounted
Space requirements for mounting
Planning with LD
4.5 Dimension drawings
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4.5.4
Arc fault resistant tap-off units with fuse switch disconnector
Figure 4-19 Tap-off units with fuse switch disconnector: LD-K-.AK./FSAM400(630)
Tap-off unit mounted
Space requirements for mounting
Planning with LD
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4.5.5
Tap-off units with circuit breaker
Sizes up to 250 A and 400 A to 630 A
LD-K.AK./LSH-...-.
LD-K.AK/LSM-...-.
Tap-off unit mounted
Space requirements for mounting
a
b
c
d
e
f
g
h
Size 1
158
317.5
136.5
600
47
424
410
559
Size 2
187
387.5
136.5
900
47
424
410
604
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Tap-off units with SENTRON 3VL circuit breaker, sizes 800 A to 1250 A
LD-K.AK./LSH-.....-LS
Figure 4-20 LD-K.AK./LSH-.....-LS
Tap
-off units with circuit-breaker:
LD
-K.AK./LSH-.....-LS space requirements
for mounting
Tap
-off units with circuit-breaker:
LD
-K.AK./LSH-.....-LS tap-off unit mounted
Planning with LD
4.5 Dimension drawings
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LD-K.AK./LSM-.....-LS
Figure 4-21 LD-K.AK./LSM-.....-LS
Tap
-off units with circuit-breaker:
LD
-K.AK./LSM-.....-
LS space requirements for
mounting
Tap
-off units with circuit-breaker:
LD
-K.AK./LSM-.....-LS tap-off unit mounted
Planning with LD
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4.5.6
Additional equipment
Suspension bracket for horizontal mounting
LD-B1
LD-B2
Fixing brackets for vertical mounting
LD-BV
LD system
Front
Site
Type
a
[mm]
b
[mm]
LDA1LDA3
LDC2LDC3
300
300
245
245
LDA4LDA8
LDC6LDC8
357
357
302
302
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Planning with LI
5
5.1
System description
Straight trunking units with and without tap-off points
Tap-off units
Infeeds
Distribution board terminal boxes
Junction units
Fire protection
Additional equipment for installation
Figure 5-1 Overview of the LI-A, LI-C busbar trunking systems
Planning with LI
5.2 System components
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The LI busbar trunking system is used for:
Power transmission
Power distribution
The system is characterised by a high degree of flexibility as it is not tied to a specific
position and is particularly suitable for power distribution in multi-storey buildings. The high
degree of protection up to IP55 and tap-off units up to 1250 A ensure reliable power supply
in industrial applications with high power requirements.
5.2
System components
5.2.1
Preliminary technical descriptions for specifications
Basic description busbar trunking systems 800 A to 6300 A
Busbar trunking systems shall be supplied and installed as type-tested and ready-to-use low-
voltage switchgear assemblies in accordance with IEC / EN 61439-1 and -6.
The following descriptions are part of the costing and contracts process. They must be
considered when specifying individual systems and equipment, even if they are not
subsequently referred to in more detail.
The busbar trunking systems must be suitable:
For power transmission, e.g. between transformer and low-voltage main distribution
board.
For power distribution supplying an entire area
For horizontal and vertical installation
The busbar trunking system must comprise standardized system components such as:
Straight trunking units with and without tap-off points
Feeder units for incoming transformer, distribution board and cable connection units
Junction units with elbow, offset elbow, knee, offset knee, Z units and T units
Tap-off units
Accessories
All straight trunking units must be available in lengths up to 3 m ex-works. It is not permitted
to set up flexible junction units and junction units using cable connections. Expansion units
and fixed points must be planned as per requirements.
Tap-off units are connected to the tap-off openings on the trunking units as required. It must
be possible to select the number and position of tap-off points.
If required, it must be possible to fit the busbar trunking system with an asbestos-free
fireproof barrier for wall or ceiling mounting, that is tested to EN 1366-3 and that complies
optionally with fire resistance class EI90 or EI120 in accordance with EN 13501.
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If required, it must be possible to offer the busbar trunking system with functional endurance
class E15, E30, E60 or E90 acc. to DIN 4102-12. Fire protection for functional endurance
must be installed on-site by the installation engineer. The certificate for functional endurance
must be included with the offer.
The enclosure consists of aluminium painted light grey (RAL 7035).
The individual system modules are connected by hanging a hook from a bolt and tightening
a state-of-the-art maintenance-free bolt clamp. The torque of 50 Nm required for terminal
connection must be indicated by shearing the outer part of the shear nut. If the shear nut is
not tightened with 50 Nm, the cover of the terminal connection must not be put in place.
The busbars must be made of aluminium or copper and must be insulated along their entire
length. The aluminium busbars are coated with nickel and tin, and the copper busbars are
coated with tin. The moulded-plastic coating consists of Mylar or, optionally, a combination of
epoxy resin and Mylar.
The conductor cross sections must not go below the values specified in the technical data.
5.3
Conformity and test certificates
The manufacturer of the busbar system must have in place and be able to prove compliance
with a quality management system in accordance with EN ISO 9001.
Proof of compliance with the following requirements must be provided for the entire system
in the form of certificates or declarations of conformity:
Type test IEC / EN 61 439-1 and -6 (VDE 0660-600-1 and -6)
Resistance to extreme climates IEC 60068-2 Part 1, Part 14, Part 30, Part 52, Part 61
and Part 78
Fire protection, tested to EN 1366-3
Functional endurance, tested to DIN 4102-12 (optional)
Maintenance-free
Silicone-free and halogen-free
Suitable for sprinklers
Reliable proof of special additional characteristics of system components must be provided.
Planning with LI
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Technical data of the busbar trunking systems
Type
Value
Ambient temperature min. / max. / 24-hour aver-
age
-5 / +40 / +35 ° C
Degree of protection
IP55
Torque for joint block
50 ± 5 Nm
Busbar surface treatment
Insulated along entire length
Trunking unit material
Painted aluminium casing
Colour of trunking units
RAL 7035 (light grey)
Rated insulation voltage
AC
1000 V
Rated operating voltage
AC
Up to 1000 V for power transmission
1)
Rated operating voltage
AC
Up to 690 V for power distribution
1)
Rated frequency
50 / 60 Hz
Rated current
______
2)
Rated short-time withstand current
External conductor
I
CW
(1 s)
______
2)
Neutral conductor
I
CW
(1 s)
______
2)
5. Conductor
I
CW
(
1 s)
______
2)
Rated peak withstand current
I
pk
______
2)
Conductor material
Al / Cu
1)
No. of busbars
______
2)
Conductor cross-section
L1, L2, L3 ______ 2)
N ______ 2)
PE (equivalent CU cross section) ______ 2)
Clean earth ______ 2)
Fire loads
Trunking unit without tap-off point
______ 2)
Per tap-off point
0.98 kWh
Max. fixing distances
Horizontal, edgewise
______
2)
Horizontal, flat
2 m
Enclosure dimensions
______
2)
1)
Please delete as appropriate.
2) Enter data for selected systems. You will find the values in the technical specifications.
Planning with LI
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5.3.1
Type code
The basic components of the LI system are determined using a type code. The type is
specified and selected on the basis of rated current, conductor material and system type or
conductor configuration.
The following type code enables precise definition of the system.
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1)
On request
2)
PE conductor = enclosure
3)
PE or PEN conductor = enclosure and additional busbar
4)
An additional busbar doubles the cross section of the neutral conductor (200 %)
5)
Separate PE conductor routed through additionally insulated busbar (clean earth)
6)
For power transmission and interior installation
Figure 5-2 Type code of the LI system
Planning with LI
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Selection example
A rated current of 2500 A is calculated for a project. Aluminium shall be used as the
conductor material, and Mylar as the insulation material. A 5-pole system has to be used.
The cross section of the neutral conductor needs to be equal to the cross section of the
phase conductor.
The following type is obtained:
LI-AM25005B
Sizes
Sizes are dependent upon rated current and conductor material. In total, there are ten sizes.
Six sizes are set up as single systems and three as double systems for the version with
aluminium and copper.
Single systems comprise one enclosure with between 3 and 6 aluminium or copper bars.
Double systems have between 6 and 12 bars in two enclosures.
The precise number of bars is determined by the required conductor configuration.
Sizes (H x W), single system
Figure 5-3 Sizes, single system SB
Table 5- 1 AL system
Height H [mm]
System
111
LI-A.0800
132
LI-A.1000
146
LI-A.1250
182
LI-A.1600
230
LI-A.2000
297
LI-A.2500
The width W is always 155 mm.
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Table 5- 2 CU system
Height H [mm]
System
111
LI-C.1000
117 LI-C.1250
146
LI-C.1600
174 LI-C.2000
213
LI-C.2500
280
LI-C.3200
The width W is always 155 mm.
Sizes (H x W), double system
Figure 5-4 Sizes, double system DB
Table 5- 3 AL system
Height H [mm]
System
182
LI-A.3200
230
LI-A.4000
297 LI-A.5000
The width W is always 410 mm.
Table 5- 4 CU system
Height H [in mm]
System
174
LI-C.4000
213
LI-C.5000
280
LI-C.6300
The width W is always 410 mm.
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Structure of the busbars
The bars in the LI busbar system are usually tinned and enclosed in a sleeve made of highly
resistant insulating material. The LI-A system features aluminium conductors and the LI-C
system copper conductors. In addition to tinning, aluminium bars are also coated with a layer
of nickel.
Aluminium bar (LI-A), copper bar (LI-C)
Nickel layer, tinning (LI-A), tinning (LI-C)
Insulating material sleeve with high heat resistance or epoxy resin coating and insulating mate-
rial sleeve with high heat resistance (on request)
Figure 5-5 Structure of a busbar
Mounting positions and rated current
The sandwich design means that the current carrying capacity of the LI busbar system is not
affected by the mounting position. This guarantees high flexibility for positioning the busbar
runs. Current derating is not normally required for busbars in edgewise and flat positions on
horizontal busbar runs or on rising main busbars (vertical busbar runs). Deviations for the
horizontal flat mounting position are listed in the technical data of the respective system size.
Horizontal busbar run, edg
e-
wise busbars
Horizontal busbar run, flat
busbars
Vertical busbar run
Planning with LI
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5.4
Conductor configuration
The LI busbar system is available in eight different conductor configurations. The conductor
configurations depend on the following:
The line system configuration
The size of the neutral and PE cross-section
A possible additional insulated PE conductor (clean earth)
Planning with LI
5.4 Conductor configuration
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System
Conductor configurations / bars
Enclosure
(1)
(2)
(3)
(4)
(5)
(6)
(7)
LI-...3B L1 L2 L3 1) - - - is the PE conductor
LI-...4B PEN L1 L2 L3 1) - - Electrical connection be-
tween enclosure and PEN
bus
LI-...5B N L1 L2 L3 1) - - is the PE conductor
LI-...5C
N
N
L1
L2
L3
1)
-
is the PE conductor
LI-...5G N L1 L2 L3 0.5 PE 1) - Electrical connection be-
tween enclosure and PE bus
LI-...5H N L1 L2 L3 PE 1) - Electrical connection be-
tween enclosure and PE bus
LI-...6B N L1 L2 L3 Clean
earth
1) - is the PE conductor
LI-...6C N N L1 L2 L3 Clean
earth
1) is the PE conductor
1) Enclosure
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5.4.1
Straight trunking units
Straight trunking units for horizontal installation without tap-off points
Figure 5-6 Without tap-off points
Length
Type1)
Lengths
0.503.00 m
LI-......-L-...
1) Lengths L from 0.50 m to 3.00 m can be configured in 0.01 m intervals.
Planning with LI
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Straight trunking units for horizontal and vertical installation with tap-off points
Figure 5-7 With tap-off points, single system
Length
Type1)
Lengths, single system
max, 3 tap-off points
top or bottom selectable
1.153.00 m
LI-......-L-...
Single-sided
LI-......-LTP-10-... (1 tap-off point at top)
LI-......-LTP-20-... (2 tap-off points at top)
LI-......-LTP-30-... (3 tap-off points at top)
LI-......-LTP-01-... (1 tap-off point at bottom)
LI-......-LPT-02-... (2 tap-off points at bottom)
LI-......-LPT-03-... (3 tap-off points at bottom)
1)
Lengths L from 1.15 m to 3.00 m can be configured in 0.01 m intervals.
Tap
-off points at the top can be selected between 670 and 2510 mm
Tap
-off points at the bottom can be selected between 490 and 2330 mm
Spacing of tap-off points is 660 mm.
Planning with LI
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Figure 5-8 With tap-off points, double system
Length
Type1)
Lengths, double system
max, 6 tap-off points
top and bottom selectable
1.153.00 m
LI-......-L-...
Two-sided
LI-......-LTP-11-... (1 tap-off point at top and 1 tap-off point at bottom)
LI-......-LTP-12-... (1 tap-off point at top and 2 tap-off points at bottom)
LI-......-LTP-13-... (1 tap-off point at top and 3 tap-off points at bottom)
LI-......-LTP-21-... (2 tap-off points at top and 1 tap-off point at bottom)
LI-......-LTP-22-... (2 tap-off points at top and 2 tap-off points at bottom)
LI-......-LTP-23-... (2 tap-off points at top and 3 tap-off points at bottom)
LI-......-LTP-31-... (3 tap-off points at top and 1 tap-off point at bottom)
LI-......-LTP-32-... (3 tap-off points at top and 2 tap-off points at bottom)
LI-......-LTP-33-... (3 tap-off points at top and 3 tap-off points at bottom)
1)
Lengths L from 1.15 m to 3.00 m can be configured in 0.01 m intervals.
Tap
-off points at the top can be selected between 670 and 2510 mm
Tap
-off points at the bottom can be selected between 490 and 2330 mm
Spacing of tap
-off points is 660 mm.
On
a double system, the tap-off points must always be distributed equally between the two busbar runs, at the top on one,
and at the bottom on the other.
Planning with LI
5.4 Conductor configuration
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5.4.2
Junction units
Junction units for horizontal installation
Figure 5-9 Elbow LI-......-LR(L)-FX(FY)-...
Length
System
Type
X = 0.481.90 m
FY = 0.27 m
Y = 0.481.90 m
FY = 0.27 m
LI-A.0800LI-A.2500
LI-C.1000 … LI-C.3200
LI-......-LR(L)-FX(FY)-...
X = 0.741.90 m
FY = 0.525 m
Y = 0.741.90 m
FY = 0.525 m
LI-A.3200LI-A.5000
LI-C.4000LI-C.6300
Figure 5-10 Elbow LI-......-LR(L)-...
Length
System
Type
X = 0.481.90 m
Y = 0.481.90 m
LI-A.0800LI-A.2500
LI-C.1000LI-C.3200
LI-......-LR(L)-...
X = 0.741.90 m
Y = 0.741.90 m
LI-A.3200LI-A.5000
LI-C.4000LI-C.6300
Max. X, Y = 2800 mm
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Figure 5-11 Z units LI......-ZR(L)45-.....
Length
System
Type
X/Y min = 0.40 m
Z min. = 0.38 m
LI-A.0800LI-A.2500
LI-C.1000LI-C.3200
LI.....-ZR(L)45-.....
X/Y min = 0.50 m
Z min. = 0.63 m
LI-A.3200LI-A.5000
LI-C.4000LI-C.6300
Max. X + Y + Z = 2800 mm
Max. Z = 1200 mm
Max. X and Y = 1500 mm
Planning with LI
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Junction units for horizontal and vertical installation
Figure 5-12 Knee LI-......-LV(H)-FX(FY)-...
Length
System
Type
X = 0.421.90 m
FY = 0.30 m
Y = 0.421.90 m
FY = 0.30 m
LI-A.0800 / LI-C.1000 LI-......-LV(H)-FX(FY)
X = 0.431.90 m
FY = 0.32 m
Y = 0.431.90 m
FY = 0.32 m
LI-A.1000 / LI.C.1250
X = 0.451.90 m
FY = 0.32 m
Y = 0.451.90 m
FY = 0.32 m
LI-A.1250 / LI-C.1600
X = 0.481.90 m
FY = 0.37 m
Y = 0.481.90 m
FY = 0.37 m
LI-A.1600 / LI-C.2000
LI-A.3200 / LI-C.4000
X = 0.531.90 m
FY = 0.42 m
Y = 0.531.90 m
FY = 0.42 m
LI-A.2000 / LI-C.2500
LI-A.4000 / LI-C.5000
X = 0.601.90 m
FY = 0.47 m
Y = 0.601.90 m
FY = 0.47 m
LI-A.2500 / LI-C.3200
LI-A.5000 / LI-C.6300
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Figure 5-13 Knee LI-......-LV(H)-...
Length
System
Type
X = 0.441.90 m
Y = 0.441.90 m
LI-A.0800 / LI-C.1000 LI-......-LV(H)-FX(FY)-...
X = 0.461.90 m
Y = 0.461.90 m
LI-A.1000 / LI-C.1250
X = 0.471.90 m
Y = 0.471.90 m
LI-A.1250 / LI-C.1600
X = 0.511.90 m
Y = 0.511.90 m
LI-A.1600 / LI-C.2000
LI-A.3200 / LI-C.4000
X = 0.561.90 m
Y = 0.561.90 m
LI-A.2000 / LI-C.2500
LI-A.4000 / LI-C.5000
X = 0.621.90 m
Y = 0.621.90 m
LI-A.2500 / LI-C.3200
LI-A.5000 / LI-C.6300
Max. X, Y = 3000 mm
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5.4 Conductor configuration
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Figure 5-14 Z units LI. ....-ZV(H)45-.....
Length
System
Type
X / Y min = 0.40 m
Z min. = 0.37 m
LI-A.0800 / LI-C.1000 LI.....-ZV(H)45-.....
X / Y min = 0.42 m
Z min. = 0.38 m
LI-A.1000 / LI-C.1250
X / Y min = 0.42 m
Z min. = 0.40 m
LI-A.1250 / LI-C.1600
X / Y min = 0.42 m
Z min. = 0.43 m
LI-A.2000 / LI-C.2500
LI-A.2500 / LI-C.3200
X / Y min = 0.44 m
Z min. = 0.48 m
LI-A.1600 / LI-C.2000
LI-A.3200 / LI-C.4000
X / Y min = 0.45 m
Z min. = 0.55 m
LI-A.4000 / LI-C.5000
LI-A.5000 / LI-C.6300
Max. X + Y + Z = 2800 mm
Max. X / Y = 1500 mm
Max. Z = 1200 mm
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Figure 5-15 Elbow offset LI-......-LR(L)V(H)_...
Length
System
Type
X = 0.441.20 m / Y = 0.481.20 m
Z = 0.511.20 m
LI-A.0800 / LI-C.1000 LI-......-LR(L)V(H)-...
X = 0.461.20 m / Y = 0.481.20 m
Z = 0.541.20 m
LI-A.1000 / LI-C.1250
X = 0.471.20 m / Y = 0.481.20 m
Z = 0.551.20 m
LI-A.1250 / LI-C.1600
X = 0.511.20 m / Y = 0.481.20 m
Z = 0.581.20 m
LI-A.1600 / LI-C.2000
X = 0.561.20 m / Y = 0.481.20 m
Z = 0.631.20 m
LI-A.2000 / LI.C.2500
X = 0.621.20 m / Y = 0.481.20 m
Z = 0.701.20 m
LI-A.2500 / LI-C3200
X = 0.511.20 m / Y = 0.741.20 m
Z = 0.841.20 m
LI-A.3200 / LI-C.4000
X = 0.561.20 m / Y = 0.741.20 m
Z = 0.891.20 m
LI-A.4000 / LI-C.5000
X = 0.621.20 m / Y = 0.741.20 m
Z = 0.951.20 m
LI-A.5000 / LI-C.6300
Max. X + Y + Z = 3000 mm
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Figure 5-16 Knee offset LI-......-LV(H)R(L)
Length
System
Type
X = 0.481.20 m / Y = 0.441.20 m
Z = 0.511.20 m
LI-A.0800 / LI-C.1000 LI-......-LV(H)R(L)-…
X = 0.481.20 m / Y = 0.461.20 m
Z = 0.541.20 m
LI-A.1000 / LI-C.1250
X = 0.481.20 m / Y = 0.471.20 m
Z = 0.551.20 m
LI-A.1250 / LI-C.1600
X = 0.481.20 m / Y = 0.511.20 m
Z = 0.581.20 m
LI-A.1600 / LI-C.2000
X = 0.481.20 m / Y = 0.561.20 m
Z = 0.631.20 m
LI-A.2000 / LI-C.2500
X = 0.481.20 m / Y = 0.621.20 m
Z = 0.701.20 m
LI-A.2500 / LI-C.3200
X = 0.741.20 m / Y = 0.511.20 m
Z = 0.841.20 m
LI-A.3200 / LI-C.4000
X = 0.741.20 m / Y = 0.561.20 m
Z = 0.891.20 m
LI-A.4000 / LI-C.5000
X = 0.741.20 m / Y = 0.621.20 m
Z = 0.951.20 m
LI-A.5000 / LI-C.6300
Max. X + Y + Z = 3000 mm
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Figure 5-17 T unit LI......-T-X* /Y* /Z*
Length
System
Type
X / Y min = 0.45 m Z = 0.311 m
Z = 0.332 m
Z = 0.317 m
LI-A.0800 / LI-C.1000
LI-A.1000
LI-C.1250
LI-......-T.-...
X / Y min = 0.50 m Z = 0.346 m
Z = 0.382 m
Z = 0.430 m
Z = 0.374 m
Z = 0.413 m
LI-A.1250 / LI-C.1600
LI-A.1600
LI-A.2000
LI-C.2000
LI-C.2500
X / Y min = 0.55 m Z = 0.497 m
Z = 0.382 m
Z = 0.480 m
Z = 0.374 m
LI-A.2500
LI-A.3200
LI-C.3200
LI-C.4000
X / Y min = 0.60 m Z = 0.430 m
Z = 0.413 m
LI-A.4000
LI-C.5000
X / Y min = 0.70 m Z = 0.497 m
Z = 0.480 m
LI-A.5000
LI-C.6300
Max. X, Y = 1500 mm
Max. X + Y + Z = 2500 mm
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5.4.3
Distribution board connection for Siemens power distribution boards
Connection to power distribution systems as type-tested low-voltage switchgear assemblies compliant
with DIN EN 61439-1 and DIN EN 61439-6
The distribution board and LI busbar trunking system are connected using an integrated
busbar trunking connection unit for rated currents up to 6300 A (
I
e = 6300 A on request). The
busbars can be connected:
From above
From below (on request)
This enables a flexible arrangement. The link between the busbar trunking system and the
SIVACON S8 distribution systems ensures high short-circuit strength backed up by type
testing and a high level of reliability as regards power transmission.
Figure 5-18 Distribution board link
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5.4.4
Busbar connection unit for non-Siemens distribution boards
If you wish to connect the busbar trunking system to a non-Siemens distribution board, you
can establish this connection using a busbar connection unit LI. .... - FA for non-Siemens
distribution boards. The connection unit is built into the distribution board and serves as an
interface to the copper connections of the distribution system.
Versions
Depending on system type, a total of eight different conductor configurations are available
for selection. The rated currents up to a maximum of 6300 A correspond to the specifications
in the chapter "Technical specifications (Page 197)". In accordance with DIN EN 61439-1
and DIN EN 61439-6, the temperature limit in distribution systems in the event of heat rise
must not be exceeded by the current heat. The temperature limit of busbars sheathed with
insulating materials is 135 °C. You can find the required conductor cross-sections for the
copper connections in the chapter "Technical specifications (Page 197)".
Installation of the busbar connection unit
The busbar connection unit in the distribution board must be copper-plated by the board
manufacturer or in compliance with that manufacturer's specifications. The board
manufacturer must ensure that the required short-circuit strength is achieved and the
permissible temperature limit of the busbar connection unit for non-Siemens distribution
boards is not exceeded.
Figure 5-19 Busbar connection unit for non-Siemens distribution boards
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5.4.5
Connection unit for transformers and distribution boards
The wide variety of transformer types reflects the variety of rated currents and the different
phase sequences and clearances.
This type variety requires high flexibility as regards transformer connection in busbar
trunking systems.
You can also use the universal connection unit for connecting distribution boards.
For LI busbar trunking systems up to 6300 A, transformer connection units are available with
busbar connection on the side (LI.....-TCE.) and on the top (LI.....-TCET.).
Busbar connection on the side
Busbar connection on the top
The total length is calculated from the phase clearances of the connection units to be
planned (approx. 3 x phase clearance + 300 mm).
Connection unit type
Selectable phase clearance
LI......-TCEL
135800 mm
LI......-TCER
135800 mm
LI......-TCETL
135800 mm
LI......-TCETR
135800 mm
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Phase sequence
Different phase sequences are available for selecting and for adapting to the transformer.
TCE unit is available as standard with the conductor configurations 3B, 4B and 5B. Other
conductor configurations can be requested as SOND if required.
Table 5- 5 Table for 3-, 4- and 5-conductor systems
P1
P2
P3
P4
P5
L1
L2
L3
PEN(N)
(PE)
PEN(N) L3 L2 L1 (PE)
L3
L2
L1
PEN(N)
(PE)
PEN(N) L1 L2 L3 (PE)
L1
L2
PEN(N)
L3
(PE)
L3
PEN(N)
L2
L1
(PE)
L3
L2
PEN(N)
L1
(PE)
L1
PEN(N)
L2
L3
(PE)
L1
L2
L3
-
PE
L3
L2
L1
-
PE
The values in brackets in the table apply for the 5-conductor system
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Phase clearances
For configuring, you can select any distances (a, b, c) between the phases (P1, P2, P3 and
P4) within min. and max. values. The distance between c and phase P4 can be omitted for
3B-. Solution:
With the TCET version, there is only the dimension Fix2. Instead of Fix1 and Fix2, there is
2xFix2.
Figure 5-20 Phase clearances
System
Fix1
Fix2
a /b (/c) min.
a /b (/c) max.
4B, 5B (3B)
4B, 5B (3B)
LIA800, LIC1000
266
120
135
800 (1200)
LIA1000
278
132
160
800 (1200)
LIA1250, LIC1600
286
140
175
800 (1200)
LIA1600, LIA3200 306 160 215 800 (1200)
LIA2000, LIA4000
333
187
270
800 (1200)
LIA2500, LIA5000 368 222 340 800 (1200)
LIC1250
271
125
145
800 (1200)
LIC2000, LIC4000
301
155
205
800 (1200)
LIC2500, LIC5000
323
177
250
800 (1200)
LIC3200, LIC6300
361
215
325
800 (1200)
Maximum possible total length TCE version:
L = a + b (+ c) + Fix1 + Fix2 = 3000 mm
Maximum possible total length TCET version:
L = a + b (+ c) + 2 x Fix2 = 3000 mm
Incoming transformer connections are only available on request for the following systems:
System with conductor configurations of the code numbers 5C, 5G, 5H, 6B, 6C
If equipped with an adapter frame, the connection unit can be flange-mounted on a
distribution board enclosure / transformer enclosure.
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5.4.6
Incoming cable connection unit
If power needs to be supplied to the busbar trunking system via cables, you should use an
incoming cable connection unit LI-....-CFE.
Figure 5-21 Incoming cable connection unit
The incoming cable connection unit is designed for rated currents from 800 to 3200 A.
Enclosure sizes
Depending on the system, two sizes can be selected:
Size 1:
LI-A.0800...-CFE.-..-H to LI-A.1600...-CFE.-..-H
LI-C.1000...-CFE.-..-H to LI-C.1600...-CFE.-..-H
Size 2:
LI-A.2000...-CFE.-..-H to LI-A.2500...-CFE.-..-H
LI-C.2000...-CFE.-..-H to LI-C.3200...-CFE.-..-H
The maximum dimensions are 1000 mm x 950 mm x 655 mm (W x H x D).
You can connect single-core or multi-core cables. You can connect cross-sections up to
300 mm2 (bolted connection) directly to the connection bars of the incoming cable
connection unit.
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Cable entries
You can order the incoming cable connection either as a multi-core version or a single-core
version:
Type LI-...-CFE.MD-H with flange plate for multi-core cable (sheet steel plate with
sleeves, including strain-relief bar)
Type LI-...-CFE.-BD-H with flange plate for single-core cable (aluminium blank plate
without drill holes)
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5.4.7
Tap-off units
5.4.7.1
General information
Table 5- 6 Sizes / protection and switching devices
Size S
Tap-off unit with circuit
breaker
Tap-off unit with fuse
switch disconnector
Tap-off unit with fuse
base
Tap-off unit with switch
disconnector + fuse
3VL
3NP
3NH
FSF
1
50160 A
1)
-
160 A
-
2
200250 A
160 A
250 A
160 A
3 315400 A 250 A 400 A 250 A
4
500630 A (3VL5)
400 A
630 A
400 A
5 630 A (3VL6) 630 A - 630 A
6
On request: 4 x 160
-
-
-
7
8001250 A
-
-
-
1)
Size 2 with transformer use and with or without motorised operating mechanism
Transformer use is available for sizes 1 to 7, and a motorised operating mechanism for size 2.
Table 5- 7 Permissible combination of tap-off unit / busbar
Conductor configuration
Busbar
Tap-off unit
LI-.T....-XX-...
Remarks
L1-L2-L3-PEh
3B
3B
-
PEN-L1-L2-L3
4B
3B, 5H
A PEN jumper is additionally required for the TN-C-S system.
N1-L1-L2-L3-PEh
5B
3B, 5H
-
N2-N1-L1-L2-L3-PE
h
5C
3B, 5C, 5H
-
N1-L1-L2-L3-0.5 PE
5G
3B, 5H
-
N1-L1-L2-L3-PE
5H
3B, 5H
-
N1-L1-L2-L3-CPE-PEh
6B
3B, 5H, 6B
-
N2-N1-L1-L2-L3-CPE-PE
h
6C
3B, 5H, 5C, 6B, 6C
-
h = housing / enclosure
Characteristics of tap-off units
For a comprehensive power distribution structure, tap-off units are available in seven sizes:
Tap-off units up to 160 A
Tap-off units for 250 A
Tap-off units for 400 A
Tap-off units for 630 A
Tap-off units for 800 to 1250 A (on request)
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The rated operating voltage
U
e is 400 V. Regardless of the mounting position, the closed
enclosures ensure degree of protection IP55. As a general rule, they are equipped with:
Fuse bases, fuse switch disconnectors, switch disconnectors with fuses or circuit
breakers with handle or motorised operating mechanism
Bolts for cable connection
Conductor configurations in acc. with type LI...-6.:
For conductor systems with insulated PE conductor, the tap-off units are supplied with the
addition of a separate PE connection.
Tap-off units
Tap-off via tap-off point
Anti-rotation feature prevents incorrect mounting
IP20 touch protection whilst the unit is being connected to the tap-off point
Note
Hot plugging
In accordance with DIN EN 50110
-1 (VDE 0105-1), national regulations must be observed.
Country
-specific regulations may prohibit plugging when the busbar run is not switched off
and energized with electrical power.
Cable entry
You can insert the cables optionally from the side or the front. Integrated flange with cable
grommets facilitates multi-core cable entry. Aluminium plates are used for single-core cable
entry; you have to fit these with cable glands locally. Blanking plates are attached at the side
for delivery.
Safety during operation
To open the tap-off units, you must switch the breaker off either by actuation of the handle
or at the motorised operating mechanism of the breaker. Once this is done, the cable
connection area is no longer energized. The part of the contact device in the front of the tap-
off unit is “finger-safe".
Implementing the tap-offs
Tap-offs are required for different amperages depending on the size and type of loads
involved. These are implemented by means of plug-in tap-off units up to 1250 A.
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5.4.7.2
Tap-off units with fuse base up to 630 A
Rated currents
Plug-in tap-off units in four sizes are available for selection:
For 160 A
For 250 A
For 400 A
For 630 A
Tap
-off unit with fuse base up to 400 A
Tap-off unit with fuse base up to 630 A
Short-circuit rating
If you are using IEC-standard-compliant fuse links, the conditional rated short-circuit current
of the tap-off units is 120 kA.
Installed equipment
The fuse bases are available for fuses in accordance with the IEC standard. They are set up
with 3 poles
Cable connections
Bolts are used to connect cables with pre-fabricated cable lug. For the small size, the
maximum compatible cross section per phase is up to 150 mm2, for the other sizes, it is 2 x
120 mm2 up to a maximum of 1 x 240 mm2.
IEC type designation
The type designation of the tap-off unit with fuse base up to 630 A is:
LI-T-....-..-NH..
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5.4.7.3
Tap-off units with fuse switch disconnector up to 630 A
Rated currents
Plug-in tap-off units in four sizes are available for selection:
For 160 A
For 250 A
For 400 A
For 630 A
Tap-off units with fuse switch disconnector up to 250 A and 400 to 630 A
Short-circuit rating
If using IEC-standard-compliant fuse links, the conditional rated short-circuit current of the
tap-off units is 100 kA, and for BS-standard-compliant fuse links it is 80 kA.
Installed equipment
The fuse switch disconnectors are available for fuses in accordance with the IEC or BS
standard. They can be set up with 3 or 4 poles.
Cable connections
Bolts are used to connect cables with pre-fabricated cable lug. For the small size, the
maximum compatible cross section per phase is up to 150 mm2, for the other sizes, it is 2 x
120 mm2 up to a maximum of 1 x 240 mm2.
IEC / BS type designation
The type designation of the tap-off unit with fuse switch disconnector up to 630 A is:
LI-T-....-..-3NP..
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5.4.7.4
Tap-off unit with switch disconnector with fuses up to 630 A
Rated currents
Plug-in tap-off units in four sizes are available for selection:
For 160 A
For 250 A
For 400 A
For 630 A
Tap-off unit with switch disconnector with fuses up to 250 A and 400 A to 630 A
Short-circuit rating
If using IEC-standard-compliant fuse links, the conditional rated short-circuit current of the
tap-off units is 100 kA, and for BS-standard-compliant fuse links it is 80 kA.
Installed equipment
The switch disconnectors with fuses are available for fuses in accordance with the IEC or BS
standard. They can be set up with 3 or 4 poles.
Cable connections
Bolts are used to connect cables with pre-fabricated cable lug. For the small size, the
maximum compatible cross section per phase is up to 150 mm2, for the other sizes, it is 2 x
120 mm2 up to a maximum of 1 x 240 mm2.
IEC / BS type designation
The type designation of the tap-off unit with switch disconnector with fuses up to 630 A is:
LI-T-....-..-FSF..
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5.4.7.5
Tap-off units with circuit-breaker up to 1250 A
Rated currents
Tap-off units up to 630 A in six sizes are available for selection:
For 160 A
For 250 A
For 400 A
For 630 A
For 800 A
For 1250 A
Tap
-off unit with circuit breaker up to 400 A
Tap-off unit with circuit breaker up to 630 A
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Tap-off units with circuit-breaker from 800 A to 1250 A
The tap-off units are supplied in a standard size for 800 A, 1000 A and 1250 A. They are
mounted on special busbar units LI-......-LTB and bolted at the tap-off point. There is a
mounting aid for these tap-off units.
Tap-off unit from 800 A to 1250 A
Mounting aid
Short-circuit rating
If you use circuit breakers, the conditional rated short-circuit current of the tap-off units with
switching capacity N is 55 kA, with switching capacity H 77 kA, and with switching capacity L
110 kA.
Installed equipment
The circuit breakers have the switching capacity N, H and L. They can come optionally with 3
or 4 poles.
Cable connection
Bolts are used to connect cables with pre-fabricated cable lug. For the small size the
maximum compatible cross section per phase is up to 150 mm2, for the medium size up to
240 mm2, and for the large size up to 4 x 240 mm2.
Type designation
The type designation for tap-off units with circuit breaker is:
LI-T....-..-3VL...
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5.4.7.6
Empty tap-off units up to 630 A
Empty tap-off units are available in addition to the equipped tap-off units. Purchasers can
configure and finally equip these empty tap-off units (including selection of the built-in
devices) under their own responsibility. Observe the notes and instructions of Siemens as
the manufacturer of the empty tap-off unit.
Note
Availability
Empty tap
-
off units are only available for certain countries. You can obtain further information
on request.
Versions
The following versions are available:
Prepared for installation of SENTRON 3VL moulded case circuit breakers
For free equipping
You will find important information on the tap-off units, prepared for installation of SENTRON
3VL moulded case circuit breakers, in "Notes on empty tap-off units up to 630 A (Page 274)".
5.4.8
Additional equipment
End cap
If a busbar run is not to continue to another distribution board, you will need to fit an end cap.
Figure 5-22 End cap
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Fixing brackets for horizontal installation
Different U profiles and terminal clamps are available.
Type LI-Z-BH.
U profiles
Type LI-Z-
BKK.
Terminal clamp flexible
Type LI-Z-BKF.
Terminal clamp fixed point
Two LI-Z-BK... type terminal clamps guide the busbar trunking system on the LI-Z-BH
carriers.
U profile LI
-Z-BH.
Terminal
clamp flexible
LI-Z-BKK.
Terminal clamp fixed point LI
-Z-BKF.
Fixing brackets for vertical installation
Special spring brackets and fixed-point brackets have to be used to install vertical busbar
runs.
Type LI-Z-BV-..
Spring clamp
Type LI-Z-BVFB-..
Fixed point bracket
Type selection is weight-dependent and distance-dependent.
Spring bracket LI-Z-BV-..
Wall fixing, fixed-point bracket LI-Z-BVFP-..
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5.5
Technical specifications
5.5.1
LI in general
LI...
Standards and regulations
IEC 61439-1 and -6, DIN EN 61439-1 and -6
Resistance to extreme climates
Damp heat, constant, acc. to IEC 60068-2-78
40 °C / 93 % RH / 56d
Damp heat, cyclic, acc. to IEC 60068-2-30 56 x (2540 °C / 3 h; 40 °C / 9 h; 4025 °C / 3 … 6 h;
25 °C / 6 h) / 95 % RH
Cold according to IEC 60068-2-1
-45 °C, 16 h
Temperature change in accordance with IEC 60068-2-14 -45 °C … 55 °C; 5 cycles (1 °C / min); holding time min.
30 min
Salt spray test in accordance with IEC 60068-2-52
Degree of severity 3
Ice formation acc. to IEC 60068-2-61 Testing based on a combination of moist heat, cyclic + low
temperature
Environmental classes in accordance with IEC 60721
as derived from climatic proofing tests
Climatic 1K5 (storage) = 3K7L (operation without direct sunlight);
2K2 (transport)
Chemically active Salt spray, other contaminants optional,
1C2 (storage) = 3C2 (operation) = 2C2 (transport)
Biological Covered by IP degrees of protection and packaging method
1B2 (storage) = 3B2 (operation) = 2B2 (transport)
Mechanically active Covered by IP degrees of protection and packaging method
1S2 (storage) = 3S2 (operation); 2S2 (transport)
Ambient temperature
*
All positions -5 / +40 / +35 (min. / max. / 24-h average)
Degree of protection IP55
Torque for joint block
(For re-use)
Nm 50 ± 5
Busbar surface treatment Insulated along entire length
Aluminium nickel-plated and tinned at the current transitions
Copper tinned at the current transitions
Current transitions at the tap-off points silver-coated
Trunking unit material
Painted aluminium casing
Colour of trunking units
RAL 7035 (light grey)
Dimensions
Chapter "Dimension drawings (Page 216)"
Rated insulation voltage
U
i
Trunking units in acc. with IEC 61439-1
AC V 1000
Overvoltage category / pollution degree
III/3 acc. to EN 60947
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LI...
Rated voltage
U
e
For power transmission
AC
V
1000
For power distribution
AC
V
690
Rated frequency
Hz
50 / 60
* Observe the derating factors at high ambient temperatures.
Thermal characteristics
Ambient temperature (24-hour average)
20 °C
25 °C
30 °C
35 °C
40 °C
45 °C
50 °C
Conversion factor, all mounting positions
1)
1.075
1.05
1.025
1
0.95
0.9
0.85
1) Frequency 50
Hz; in accordance with IEC 61439, at 60 Hz, a reduction to 95 % must be taken into account for currents
> 800 A.
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5.5.2
Trunking units LI-A.. (4-pole, aluminium)
System-specific data
LI-A.
0800
1000
1250
1600
2000
Rated current
I
nA
A
800
1000
1250
1600
2000
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.090 0.063 0.053 0.037 0.027
At 50 Hz and final heating of busbars
Resistance
R
1
mΩ/m
0.125
0.088
0.074
0.052
0.038
Reactance
X
1
mΩ/m
0.021
0.016
0.014
0.010
0.008
Impedance
Z
1
mΩ/m
0.127
0.089
0.075
0.053
0.038
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems under fault
conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.127
0.096
0.083
0.062
0.047
Reactance
X
b20
mΩ/m
0.045
0.035
0.030
0.023
0.016
Impedance Zb20 mΩ/m 0.134 0.102 0.088 0.066 0.050
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.045 0.042 0.041 0.039 0.034
Zero impedance
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems acc. to DIN
EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.202
0.163
0.143
0.112
0.088
Reactance
X
0_b20
mΩ/m
0.102
0.078
0.069
0.051
0.039
Impedance Z0_b20 mΩ/m 0.226 0.181 0.158 0.123 0.096
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
35
50
60
65
80
Rated impulse withstand current
Peak value
I
pk
kA
74
105
132
143
176
Conductor material Aluminium
No. of busbars
-
-
-
4
4
4
4
4
Conductor cross-section L1, L2, L3, PEN A mm2 350 499 599 849 1185
Weights
-
-
kg/m
12.2
14.1
15.4
18.5
22.8
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System-specific data
LI-A.
2500
3200
4000
5000
Rated current
-
I
nA
A
2500
3200
4000
5000
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.020 0.019 0.013 0.010
At 50 Hz and final heating of busbars
Resistance
R
1
mΩ/m
0.027
0.026
0.018
0.013
Reactance
X
1
mΩ/m
0.006
0.005
0.004
0.003
Impedance
Z
1
mΩ/m
0.028
0.027
0.018
0.014
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems under fault conditions
acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.035
0.032
0.024
0.018
Reactance
X
b20
mΩ/m
0.012
0.012
0.009
0.006
Impedance Zb20 mΩ/m 0.037 0.034 0.026 0.019
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.032 0.021 0.019 0.015
Zero impedance
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems acc. to DIN
EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.067
0.058
0.046
0.035
Reactance
X
0_b20
mΩ/m
0.030
0.039
0.018
0.015
Impedance Z0_b20 mΩ/m 0.074 0.070 0.049 0.038
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
100
120
150
150
Rated impulse withstand current
Peak value
I
pk
kA
220
264
330
330
Conductor material Aluminium
Number of busbars - - - 4 8 8 8
Conductor cross-section
L1, L2, L3, PEN
A
mm
2
1652
1699
2370
3304
Weights
-
-
kg/m
28.8
37.1
45.7
57.5
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 201
5.5.3
Trunking units LI-A.. (5-pole, aluminium)
System-specific data
LI-A.
0800
1000
1250
1600
2000
Rated current
-
I
nA
A
800
1000
1250
1600
2000
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.090 0.063 0.053 0.037 0.027
At 50 Hz and final heating of busbars
Resistance
R
1
mΩ/m
0.125
0.088
0.074
0.052
0.038
Reactance
X
1
mΩ/m
0.021
0.016
0.014
0.010
0.008
Impedance
Z
1
mΩ/m
0.127
0.089
0.075
0.053
0.038
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (PE) under fault conditions
acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.136
0.106
0.095
0.076
0.061
Reactance
X
b20
mΩ/m
0.053
0.044
0.039
0.031
0.024
Impedance Zb20 mΩ/m 0.146 0.115 0.102 0.082 0.066
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (N) under fault conditions
acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.190
0.134
0.113
0.081
0.058
Reactance
X
b20
mΩ/m
0.052
0.043
0.033
0.025
0.019
Impedance Zb20 mΩ/m 0.197 0.141 0.117 0.084 0.061
Impedance of PE path as pure return conductor
At 50 Hz and +20 °C busbar temperature
Resistance
R
20
mΩ/m
0.045
0.042
0.041
0.039
0.034
Zero impedance
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (PE) acc. to DIN EN
60909-0/VDE 0102
Resistance
R
0_b20
mΩ/m
0.229
0.192
0.179
0.154
0.129
Reactance
X
0_b20
mΩ/m
0.126
0.108
0.096
0.078
0.060
Impedance Z0_b20 mΩ/m 0.262 0.220 0.203 0.173 0.142
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (N) acc. to
DIN EN 60909-0 / VDE 0102
Resistance R0_b20 mΩ/m 0.387 0.273 0.231 0.165 0.120
Reactance X0_b20 mΩ/m 0.117 0.096 0.075 0.054 0.048
Impedance Z0_b20 mΩ/m 0.404 0.289 0.243 0.174 0.129
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
35
50
60
65
80
Rated withstand current
Peak value
I
pk
kA
74
105
132
143
176
Conductor material
Aluminium
No. of busbars
-
-
-
4
4
4
4
4
Conductor cross-section
L1, L2, L3, N
A
mm
2
350
499
599
849
1185
Weights
-
-
kg/m
12.2
14.1
15.4
18.5
22.8
Planning with LI
5.5 Technical specifications
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202 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LI-A.
2500
3200
4000
5000
Rated current
-
I
nA
A
2500
3200
4000
5000
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.020 0.019 0.013 0.010
At 50 Hz and final heating
of the busbars
Resistance
R
1
mΩ/m
0.027
0.026
0.018
0.013
Reactance
X
1
mΩ/m
0.006
0.005
0.004
0.003
Impedance
Z
1
mΩ/m
0.028
0.027
0.018
0.014
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (PE)
under fault conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.052
0.039
0.033
0.025
Reactance
X
b20
mΩ/m
0.018
0.016
0.012
0.007
Impedance
Z
b20
mΩ/m
0.055
0.042
0.035
0.026
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (N)
under fault conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.042
0.040
0.029
0.021
Reactance
X
b20
mΩ/m
0.013
0.014
0.009
0.008
Impedance
Z
b20
mΩ/m
0.044
0.042
0.030
0.022
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.032 0.021 0.019 0.015
Zero impedance
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (PE)
acc. to DIN EN 60909-0/VDE 0102
Resistance
R
0_b20
mΩ/m
0.116
0.080
0.073
0.055
Reactance
X
0_b20
mΩ/m
0.045
0.039
0.030
0.033
Impedance
Z
0_b20
mΩ/m
0.124
0.089
0.079
0.064
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (N)
acc. to DIN EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.087
0.081
0.060
0.042
Reactance
X
0_b20
mΩ/m
0.030
0.030
0.018
0.018
Impedance Z0_b20 mΩ/m 0.092 0.086 0.063 0.046
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
100
120
150
150
Rated withstand current Peak value
I
pk kA 220 264 330 330
Conductor material
Aluminium
No. of busbars
-
-
-
4
8
8
8
Conductor cross-section
L1, L2, L3, N
A
mm
2
1652
1699
2370
3304
Weights
-
-
kg/m
28.8
37.1
45.7
57.5
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 203
5.5.4
Trunking units LI-C.. (4-pole, copper)
System-specific data
LI-C.
1000
1250
1600
2000
2500
Rated current
-
I
nA
A
1000
1250
1600
2000
2500
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.053 0.047 0.031 0.024 0.018
At 50 Hz and +20°C
Busbar temperature
Resistance
R
1
mΩ/m
0.074
0.065
0.044
0.034
0.025
Reactance
X
1
mΩ/m
0.021
0.019
0.012
0.010
0.008
Impedance
Z
1
mΩ/m
0.077
0.068
0.045
0.035
0.026
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems under fault conditions
acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.086
0.079
0.056
0.045
0.035
Reactance
X
b20
mΩ/m
0.041
0.037
0.028
0.022
0.017
Impedance Zb20 mΩ/m 0.096 0.087 0.062 0.050 0.039
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.047 0.046 0.041 0.039 0.036
Zero impedance
At 50 Hz and +20°C
Busbar temperature
for 4-pole systems acc. to DIN
EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.154
0.144
0.106
0.088
0.069
Reactance
X
0_b20
mΩ/m
0.090
0.084
0.060
0.048
0.036
Impedance Z0_b20 mΩ/m 0.179 0.167 0.122 0.100 0.078
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
43
60
65
80
100
Rated impulse withstand current
Peak value
I
pk
kA
90
132
143
176
220
Conductor material Copper
No. of busbars
-
-
-
4
4
4
4
4
Conductor cross-section L1, L2, L3, PEN A mm2 328 397 562 795 1068
Weights
-
-
kg/m
20.4
23.0
29.4
38.4
48.9
Planning with LI
5.5 Technical specifications
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204 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LI-C
3200
4000
5000
6300
Rated current
-
I
nA
A
3200
4000
5000
6300
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.012 0.012 0.009 0.006
At 50 Hz and +20°C
Busbar temperature
Resistance
R
1
mΩ/m
0.017
0.017
0.012
0.009
Reactance
X
1
mΩ/m
0.006
0.005
0.004
0.003
Impedance
Z
1
mΩ/m
0.018
0.017
0.013
0.009
At 50 Hz and +20°C
Busbar temperature for 4-pole systems
under fault conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.025
0.023
0.018
0.014
Reactance
X
b20
mΩ/m
0.012
0.011
0.008
0.006
Impedance
Z
b20
mΩ/m
0.028
0.025
0.020
0.015
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.033 0.020 0.019 0.017
Zero impedance
At 50 Hz and +20°C
Busbar temperature for 4-pole systems
acc. to DIN EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.051
0.045
0.036
0.029
Reactance
X
0_b20
mΩ/m
0.027
0.024
0.021
0.012
Impedance
Z
0_b20
mΩ/m
0.058
0.051
0.042
0.031
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
cw
kA
100
150
150
150
Rated impulse withstand current
Peak value
I
pk
kA
220
330
330
330
Conductor material
Copper
No. of busbars - - - 4 8 8 8
Conductor cross-section L1, L2, L3, PEN A mm2 1537 1589 2135 3073
Weights
-
-
kg/m
67.0
76.2
97.3
133.4
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 205
5.5.5
Trunking units LI-C.. (5-pole, copper)
System-specific data
LI-C.
1000
1250
1600
2000
2500
Rated current
-
I
nA
A
1000
1250
1600
2000
2500
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.053 0.047 0.031 0.024 0.018
At 50 Hz and final heating of busbars
Resistance
R
1
mΩ/m
0.074
0.065
0.044
0.034
0.025
Reactance
X
1
mΩ/m
0.021
0.019
0.012
0.010
0.008
Impedance
Z
1
mΩ/m
0.077
0.068
0.045
0.035
0.026
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (PE) under fault
conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.101
0.093
0.073
0.063
0.054
Reactance
X
b20
mΩ/m
0.050
0.047
0.038
0.030
0.024
Impedance Zb20 mΩ/m 0.112 0.104 0.082 0.070 0.059
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (N) under fault conditions
acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.116
0.103
0.069
0.053
0.040
Reactance
X
b20
mΩ/m
0.047
0.047
0.030
0.024
0.021
Impedance Zb20 mΩ/m 0.126 0.114 0.076 0.058 0.045
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.047 0.046 0.041 0.039 0.036
Zero impedance
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (PE) acc. to DIN EN
60909-0/VDE 0102
Resistance
R
0_b20
mΩ/m
0.196
0.185
0.156
0.140
0.127
Reactance
X
0_b20
mΩ/m
0.123
0.120
0.093
0.078
0.063
Impedance Z0_b20 mΩ/m 0.231 0.221 0.181 0.160 0.142
At 50 Hz and +20°C
Busbar temperature
for 5-pole systems (N) acc. to DIN
EN 60909-0 / VDE 0102
Resistance R0_b20 mΩ/m 0.240 0.213 0.144 0.111 0.084
Reactance
X0_b20
mΩ/m
0.108
0.105
0.066
0.051
0.045
Impedance Z0_b20 mΩ/m 0.263 0.237 0.158 0.122 0.095
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
CW
kA
43
60
65
80
100
Rated impulse withstand current
Peak value
I
pk
kA
90
132
143
176
220
Conductor material
Copper
No. of busbars
-
-
-
4
4
4
4
4
Conductor cross-section
L1, L2, L3, N
A
mm
2
328
397
562
795
1068
Weights
-
-
kg/m
20.4
23.0
29.4
38.4
48.9
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
206 Planning Manual, 11/2016, A5E01541101-04
System-specific data
LI-C.
3200
4000
5000
6300
Rated current
-
-
I
nA
3200
400
5000
6300
Conductor impedance
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.012 0.012 0.009 0.006
At 50 Hz and final heating
of the busbars
Resistance
R
1
mΩ/m
0.017
0.017
0.012
0.009
Reactance
X
1
mΩ/m
0.006
0.005
0.004
0.003
Impedance
Z
1
mΩ/m
0.018
0.017
0.013
0.009
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (PE)
under fault conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.045
0.032
0.028
0.023
Reactance
X
b20
mΩ/m
0.017
0.016
0.012
0.009
Impedance Zb20 mΩ/m 0.049 0.036 0.030 0.025
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (N)
under fault conditions acc. to EN 61439-6
Resistance
R
b20
mΩ/m
0.028
0.027
0.021
0.014
Reactance
X
b20
mΩ/m
0.014
0.014
0.011
0.008
Impedance
Z
b20
mΩ/m
0.031
0.030
0.023
0.016
Impedance of PE path as pure return conductor
At 50 Hz and +20°C
Busbar temperature
Resistance R20 mΩ/m 0.033 0.020 0.019 0.017
Zero impedance
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (PE)
acc. to DIN EN 60909-0/VDE 0102
Resistance
R
0_b20
mΩ/m
0.111
0.072
0.066
0.056
Reactance
X
0_b20
mΩ/m
0.045
0.042
0.033
0.024
Impedance
Z
0_b20
mΩ/m
0.120
0.083
0.073
0.061
At 50 Hz and +20°C
Busbar temperature for 5-pole systems (N)
acc. to DIN EN 60909-0 / VDE 0102
Resistance
R
0_b20
mΩ/m
0.060
0.054
0.042
0.030
Reactance X0_b20 mΩ/m 0.033 0.030 0.024 0.015
Impedance Z0_b20 mΩ/m 0.068 0.062 0.048 0.034
Short-circuit rating
Rated short-time withstand current
rms value t = 1 s
I
CW
kA
100
150
150
150
Rated impulse withstand current
Peak value
I
pk
kA
220
330
330
330
Conductor material
Copper
No. of busbars
-
-
-
4
8
8
8
Conductor cross-section
L1, L2, L3, N
A
mm
2
1537
1589
2135
3073
Weights
-
-
kg/m
67.0
76.2
97.3
133.4
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 207
5.5.6
Fire load for trunking units without tap-off points
System
Fire load [kWh / m]
LI-A.800..
2.37
LI-A.1000...
LI-C.1000..
2.80
2.37
LI-A.1250...
LI-C.1250...
3.12
2.56
LI-A.1600...
LI-C.1600...
3.73
3.06
LI-A.2000..
LI-C.2000..
4.81
3.57
LI-A.2500...
LI-C.2500...
6.03
4.43
LI-A.3200...
LI-C.3200...
7.46
5.76
LI-A.4000...
LI-C.4000
9.62
7.40
LI-A.5000...
LI-C.5000
12.06
8.85
LI-C.6300
11.07
Note
Trunking units with tap-off points
Regardless of system size, a fire load of 0.98 kWh must be taken into account for each tap
-
off point.
You can obtain fire load values for other conductor configurations on request.
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
208 Planning Manual, 11/2016, A5E01541101-04
5.5.7
Fixing distances
Table 5- 8 Fixing distances [m] for conventional mechanical load with horizontal installation
System
Edgewise busbars
Flat busbars
LI-A.800..
3
2
LI-A.1000...
LI-C.1000..
3 2
LI-A.1250...
LI-C.1250...
3 2
LI-A.1600...
LI-C.1600...
3 2
LI-A.2000..
LI-C.2000..
3 2
LI-A.2500...
LI-C.2500...
3 2
LI-A.3200...
LI-C.3200...
3 2
LI-A.4000...
LI-C.4000
3 2
LI-A.5000...
LI-C.5000
3 2
LI-C.6300
3
2
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 209
5.5.8
Connection units for non-Siemens distribution boards
Table 5- 9 Required conductor cross sections for bare copper bars for connection to non-Siemens distribution boards.
System1)
InA [A]
Number of copper busbars
Width x thickness
Suitable
LI-A / LI-C
system
1
2
3
4
LI-A.0800
800
60 x 10
30 x 10
20 x 10
-
LI-A.0800
LI-C.1000
1000
60 x 10
30 x 10
20 x 10
-
LI-C.1000
LI-A.1000
1000
80 x 10
40 x 10
30 x 10
-
LI-A.1000
LI-C.1250
1250
80 x 10
40 x 10
30 x 10
-
LI-C.1250
LI-A.1250
1250
100 x 10
60 x 10
30 x 10
-
LI-A.1250
LI-C.1600
1600
100 x 10
60 x 10
30 x 10
-
LI-C.1600
LI-A.1600
1600
100 x 10
60 x 10
30 x 10
-
LI-A.1600
LI-C.2000
2000
160 x 10
80 x 10
50 x 10
-
LI-C.2000
LI-A.2000
2000
200 x 10
100 x 10
60 x 10
50 x 10
LI-A.2000
LI-C.2500
2500
200 x 10
100 x 10
60 x 10
50 x 10
LI-C.2500
LI-A.2500
2500
-
160 x 10
100 x 10
80 x 10
LI-A.2500
LI-C.3200
3200
-
160 x 10
100 x 10
80 x 10
LI-C.3200
LI-A.3200
3200
-
200 x 10
120 x 10
100 x 10
1)
LI-A.3200
LI-C.4000
4000
-
200 x 10
120 x 10
100 x 10
1)
LI-C.4000
LI-A.4000
4000
-
-
200 x 10
160 x 10
LI-A.4000
LI-C.5000
5000
-
-
200 x 10
160 x 10
LI-C.5000
LI-A.5000
5000
-
-
200 x 10
160 x 10
LI-A.5000
LI-C.6300
6300
-
-
200 x 10
160 x 10
LI-C.6300
1)
In accordance with DIN 43671, Table 1, the maximum continuous current for for this conductor cross-section for bare
copper busbars is 3980 A.
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
210 Planning Manual, 11/2016, A5E01541101-04
5.5.9
Tap-off units
LI...
Standards and regulations IEC 61439-1 / DIN EN 61439-1
IEC 61439-1 / DIN EN 61439-6
Resistance to extreme climates Damp heat, constant, acc. to IEC 60068-2-78
Damp heat, cyclic, acc. to IEC 60068-2-30
Ambient temperature
°C
-5 / +40 / +35 (min. / max. 24-h average)
Degree of protection
IP55
Trunking unit material
Sheet steel, painted
Colour of tap-off units
RAL 7035 (light grey)
Dimensions
Chapter "Tap-off units (Page 222)"
Rated insulation voltage
U
i
AC
V
690
Overvoltage category / pollution degree
III/3 acc. to DIN EN 60947-1 / VDE 0660-100
Rated operating voltage
U
e
AC
V
400
Rated frequency
Hz
50
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 211
Tap-off units with circuit breaker
System-specific data
3VL1
3VL2
3VL3
Rated current
I
nc
A
50, 63, 80, 100, 125, 160
50, 63, 80, 100, 125, 160
200, 250
Max. permissible operating current
I
nc
A
40, 50, 63, 80, 100, 130
50, 63, 80, 100, 125, 160
1)
185, 230
Conditional rated short-circuit current
I
cc
Switching capacity N
kA 55 55 55
Conditional rated short-circuit current
I
cc
Switching capacity H
kA 70 70 70
Conditional rated short-circuit current
I
cc
Switching capacity L
kA - 100 100
Suitable cross-sections (copper)
L1, L2, L3 mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
N, PE, ISO-PE mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
Bolted connection
M8
M8
M8
Cable entry
From front
Yes
Yes
Yes
From side
Yes
Yes
Yes
Multi-core cable
Cable grommets
KT4
KT4
KT4
Cable diameters mm 1468 1468 1468
Single-core cable
2)
Aluminium plate, undrilled 7 x M32 7 x M40 7 x M40
Weights
kg
20
20
40
1)
Max. permissible operating current
I
nc for system mounting position horizontal, tap-off unit at top, all other lengths 155 A
2) Cable glands with strain relief are required (not included in the scope of supply).
Planning with LI
5.5 Technical specifications
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System-specific data
3VL4
3VL5
3VL6
3VL7
3VL8
Rated current
I
nc
A
315, 400
500, 630
630
800
1250
Max. permissible operating cur-
rent
I
nc
A 285, 365 375, 475 600 800 1130
Conditional rated short-circuit
current
I
cc
Switching capacity N
kA 55 55 55 55 55
Conditional rated short-circuit
current
I
cc
Switching capacity H
kA 70 70 70 70 70
Conditional rated short-circuit
current
I
cc
Switching capacity L
kA 100 100 100 100 100
Suitable cross-sections (copper)
L1, L2, L3 mm2 1 x 95240
2 x 95120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
1 x 95300
4 x 95300
1 x 95300
4 x 95300
N, PE, ISO-PE mm2 1 x 95240
2 x 95120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
1 x 95300
4 x 95300
1 x 95300
4 x 95300
Bolted connection
M10
M10
M10
M12
M12
Cable entry
From front
Yes
Yes
Yes
Yes
Yes
From side
Yes
Yes
Yes
Yes
Yes
Multi-core cable
Cable grommets 2 x KT4 2 x KT4 2 x KT4 4 x KT4 4 x KT4
Cable diameters mm 1468 1468 1468 1468 1468
Single-core cable
1)
Aluminium plate, undrilled
7 x M50
14 x M50
14 x M50
2x14 x M50
2x14 x M50
Weights
kg
60
80
90
150
150
1) Cable glands with strain relief are required (not included in the scope of supply).
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 213
Tap-off units with fuse bases
System-specific data
NH00
NH1
NH2
NH3
Rated current
I
nc
A
160
250
400
630
Max. rated current
I
max
of the fuse
A
160
250
400
630
Max. permissible operating current
I
nc
A
160
250
385
520
1)
Conditional rated short-circuit current
with fuse protection
2)
kA 120 120 120 120
Suitable cross-sections (copper)
L1, L2, L3 mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
N, PE, ISO-PE mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
Bolted connection
M8
M10
M10
M10
Cable entry
From front
Yes
Yes
Yes
Yes
From side
Yes
Yes
Yes
Yes
Multi-core cable
Cable grommets
KT4
KT4
2 x KT4
2 x KT4
Cable diameters
mm
1468
1468
1468
1468
Single-core cable
3)
Aluminium plate, undrilled
10 x M50
10 x M50
10 x M50
10 x M50
Weights
kg
20
40
60
80
1)
Max. permissible operating current
I
nc for system mounting position vertical 475 A
2)
Fuses: IEC 269-1-2, NF EN 60269, NFC 63210, VDE 0636-1, DIN 4360
3) Cable glands with strain relief are required (not included in the scope of supply).
Planning with LI
5.5 Technical specifications
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Tap-off units with fuse switch disconnector
System-specific data
FSF160
FSF250
FSF400
FSF630
LV HRC fuse link
NH00
NH1
NH2
NH3
Rated current
I
nc
A
160
250
400
630
Max. rated current
I
max
of the fuses
A
160
250
400
630
Max. permissible operating current
I
nc
A
130
1)
250
320
485
2)
Conditional rated short-circuit current
with fuse protection
3)
kA 100 (80) 100 (80) 100 (80) 100 (80)
Suitable cross-sections (copper)
L1, L2, L3 mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
N, PE, ISO-PE mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
Bolted connection
M8
M10
M10
M10
Cable entry
From front
Yes
Yes
Yes
Yes
From side
Yes
Yes
Yes
Yes
Multi-core cable
Cable grommets
KT4
KT4
2 x KT4
2 x KT4
Cable diameters
mm
1468
1468
1468
1468
Single-core cable
4)
Aluminium plate, undrilled
10 x M50
10 x M50
10 x M50
10 x M50
Weights
5)
kg
40 (60)
60 (80)
80 (90)
90
1)
Max. permissible operating current
I
nc for system mounting position horizontal, tap-off unit at top, all other lengths 125 A
2)
Max. permissible operating current
I
nc for system mounting position horizontal, tap-off unit at top, all other lengths 465 A
3)
Fuses IEC 269-1-2, NF EN 60269-1, NFC 63211, NFC 63210, VDE 0636-1, DIN 43620; the values in brackets apply
when using fuses in accordance with BS standard.
4)
Cable glands with strain relief are required (not included in the scope of supply).
5) The values in brackets apply when using fuses in accordance with BS standard.
Planning with LI
5.5 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 215
Tap-off units, switch disconnectors with fuse bases
3NP1133
3NP1143
3NP1153
3NP1163
LV HRC fuse link
NH00
NH1
NH2
NH3
Rated current
I
nc
A
160
250
400
630
Max. rated current
I
max
of the fuses
A
160
250
400
630
Max. permissible operating current
I
nc
A
160
225
340
460
Conditional rated short-circuit current
with fuse protection
1)
kA 100 100 100 100
Suitable cross-sections (copper)
L1, L2, L3 mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
N, PE, ISO-PE mm2 1 x 50150
2 x 50120
1 x 50150
2 x 50120
1 x 95240
2 x 95120
1 x 95240
2 x 95120
Bolted connection
M8
M10
M10
M10
Cable entry
From front
Yes
Yes
Yes
Yes
From side
Yes
Yes
Yes
Yes
Multi-core cable
Cable grommets
KT4
KT4
2 x KT4
2 x KT4
Cable diameters
mm
1468
1468
1468
1468
Single-core cable
2)
Aluminium plate, undrilled
10 x M50
10 x M50
10 x M50
10 x M50
Weights
kg
40
60
80
90
1)
Fuses IEC 269-1-2, NF EN 60269-1, NFC 63211, NFC 63210, VDE 0636-1, DIN 43620.
2) Cable glands with strain relief are required (not included in the scope of supply).
Planning with LI
5.6 Dimension drawings
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216 Planning Manual, 11/2016, A5E01541101-04
5.6
Dimension drawings
Unless otherwise specified, all dimensions are in mm.
5.6.1
Trunking units
Sizes, single system
Figure 5-23 Sizes H x W, single system
Table 5- 10 AL system
Height H [mm]
System
111
LI-A.0800
132
LI-A.1000
146
LI-A.1250
182
LI-A.1600
230
LI-A.2000
297
LI-A.2500
Table 5- 11 CU system
Height H [mm]
System
111
LI-C.1000
117
LI-C.1250
146
LI-C.1600
174
LI-C.2000
213
LI-C.2500
280
LI-C.3200
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
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Sizes, double system
Figure 5-24 Sizes (H x W), double system
Table 5- 12 AL system
Height H [mm]
System
182
LI-A.3200
230
LI-A.4000
297
LI-A.5000
Table 5- 13 CU system
Height H [mm]
System
174
LI-C.4000
213
LI-C.5000
280
LI-C.6300
Planning with LI
5.6 Dimension drawings
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Straight length
Figure 5-25 Straight length
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 219
Double system
Figure 5-26 Double system
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
220 Planning Manual, 11/2016, A5E01541101-04
Incoming cable connection unit
Figure 5-27 Incoming cable connection unit
Figure 5-28 Single-core cable entry plate
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 221
Type
Enclosure dimensions
Cable entry
Cable connections
a
b
c
n1
n2
n3
Bolt
Max. cross-
section
LI-AM0800-..-CFE...
670
110.5
540
3
0
3
3 x M16
300 mm
2
LI-AM1000-..-CFE...
670
131.8
540
3
1
4
4 x M16
300 mm
2
LI-AM1250-..-CFE...
670
146.1
540
3
2
5
5 x M16
300 mm
2
LI-AM1600-..-CFE...
670
181.8
540
3
3
6
6 x M16
300 mm
2
LI-AM2000-..-CFE...
1000
229.8
880
6
2
8
8 x M16
300 mm
2
LI-AM2500-..-CFE...
1000
296.5
880
6
4
10
10 x M16
300 mm
2
LI-CM1000-..-CFE...
670
110.5
540
3
1
4
4 x M16
300 mm
2
LI-CM1250-..-CFE...
670
117.2
540
3
2
5
5 x M16
300 mm
2
LI-CM1600-..-CFE...
670
146.1
540
3
3
6
6 x M16
300 mm
2
LI-CM2000-..-CFE...
1000
174
880
6
2
8
8 x M16
300 mm
2
LI-CM2500-..-CFE...
1000
213
880
6
4
10
10 x M16
300 mm
2
LI-CM3200-..-CFE...
1000
280
880
6
5
11
11 x M16
300 mm
2
Planning with LI
5.6 Dimension drawings
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5.6.2
Tap-off units
Tap-off units up to 630 A
Figure 5-29 Tap-off units up to 630 A
Size 1
Size 2
Size 3
Size 4
Size 5
A
510 mm
600 mm
800 mm
860 mm
860 mm
B
250 mm
320 mm
400 mm
440 mm
530 mm
C
250 mm
280 mm
352 mm
352 mm
382 mm
D
345 mm
435 mm
635 mm
695 mm
695 mm
E
85 mm
85 mm
85 mm
85 mm
85 mm
F
50 mm
50 mm
50 mm
50 mm
50 mm
G
57 mm
57 mm
57 mm
57 mm
57 mm
H
95 mm
95 mm
95 mm
95 mm
95 mm
I
No handles
47 mm
47 mm
47 mm
47 mm
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 223
Tap-off units up to 800 A, 1250 A
BG7 [mm]
A
1 500
B
530
C
382
D
1 400
E
64
F
64
G
87
H
159
I 47
Planning with LI
5.6 Dimension drawings
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5.6.3
Additional equipment
5.6.3.1
Fixing for horizontal busbar run
U profiles
Figure 5-30 U profiles
Type
a [mm]
b [mm]
c [mm]
d [mm]
LI-Z-BH1
312
280
59
57
LI-Z-BH2
382
350
56
56
LI-Z-BH3
482
450
59
56
LI-Z-BH4
567
535
56
59
LI-Z-BH5
667
635
59
59
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 225
Straight trunking unit
Mounting position flat
Mounting position edgewise
LI-A.0800...
LI-Z-BH1
LI-Z-BH1
LI-A.1000... LI-Z-BH1 LI-Z-BH1
LI-A.1250...
LI-Z-BH1
LI-Z-BH1
LI-A.1600...
LI-Z-BH2
LI-Z-BH1
LI-A.2000...
LI-Z-BH2
LI-Z-BH1
LI-A.2500...
LI-Z-BH3
LI-Z-BH1
LI-A.3200...
LI-Z-BH2
LI-Z-BH4
LI-A.4000...
LI-Z-BH2
LI-Z-BH4
LI-A.5000...
LI-Z-BH3
LI-Z-BH4
LI-C.1000...
LI-Z-BH1
LI-Z-BH1
LI-C.1250...
LI-Z-BH1
LI-Z-BH1
LI-C.1600...
LI-Z-BH1
LI-Z-BH1
LI-C.2000...
LI-Z-BH2
LI-Z-BH1
LI-C.2500...
LI-Z-BH2
LI-Z-BH1
LI-C.3200...
LI-Z-BH3
LI-Z-BH1
LI-C.4000...
LI-Z-BH2
LI-Z-BH4
LI-C.5000...
LI-Z-BH2
LI-Z-BH4
LI-C.6300...
LI-Z-BH3
LI-Z-BH4
LI-A.0800LI-C.6300
LI-Z-BH5
LI-Z-BH5
Terminal clamp flexible
Fixing area, flat mounting position
Fixing area, edgewise mounting position
Figure 5-31 Terminal clamp flexible LI-Z-BKK8
Planning with LI
5.6 Dimension drawings
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Fixing area, flat mounting position
Fixing area, edgewise mounting position
Figure 5-32 Terminal clamp, fixed LI-Z-BKFK2
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 227
5.6.3.2
Fixing bracket for vertical busbar run
Figure 5-33 Fixing brackets for vertical run bracket
Planning with LI
5.6 Dimension drawings
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228 Planning Manual, 11/2016, A5E01541101-04
Article number
Type
Colour of the springs
Number of springs
Setting dimension
A of the springs
[mm]
8PS7073-0AA00-0AA3
LI-Z-BV-01
Yellow
3
106
8PS7073-0AA00-0AA4
LI-Z-BV-02
Red
3
101
8PS7073-0AA00-0AA1
LI-Z-BV-03
Red
4
99
8PS7073-0AA00-0AA2
LI-Z-BV-04
Blue
4
108
8PS7073-0AA00-0AA5
LI-Z-BV-05
Green
4
118
8PS7073-0AA00-0AA6
LI-Z-BV-06
Grey
4
127
8PS7073-0AA00-1AA0
LI-Z-BV-07
Dark grey
4
137
8PS7073-0AA00-1AA1
LI-Z-BV-08
Dark grey
4
134
LI-Z-BVFP-SB
Figure 5-34 LI-Z-BVFP-SB
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 229
LI-Z-BVFP-DB
Figure 5-35 LI-Z-BVFP-DB
Planning with LI
5.6 Dimension drawings
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230 Planning Manual, 11/2016, A5E01541101-04
LI-Z-BVD-SB
Figure 5-36 LI-Z-BVD-SB with drilling diagram
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 231
LI-Z-BVD-DB
Figure 5-37 LI-Z-BVD-DB
Planning with LI
5.6 Dimension drawings
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LI-Z-BVF-SB, LI-Z-BVF-DB
Figure 5-38 LI-Z-BVF-SB, LI-Z-BVF-DB
Figure 5-39 LI-Z-BVF-SB drilling diagram
Planning with LI
5.6 Dimension drawings
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 233
Figure 5-40 LI-Z-BVF-SB drilling diagram
System
b [mm]
LIA.0800...-L...
198
LIA.1000...-L...
219
LIA.1250...-L...
234
LIA.1600...-L...
269
LIA.2000...-L...
317
LIA.2500...-L... 384
LIA.3200...-L... 269
LIA.4000...-L...
317
LIA.5000...-L...
384
LIC.1000...-L...
198
LIC.1250...-L...
205
LIC.1600...-L...
234
LIC.2000...-L...
262
LIC.2500...-L...
300
LIC.3200...-L...
368
LIC.4000...-L...
262
LIC.5000...-L...
300
LIC.6300...-L...
368
Planning with LI
5.6 Dimension drawings
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End cap
Figure 5-41 End cap
Type
H [mm]
LI-A.08..., LI-C.10...
114.5
LI-C.12...
121.2
LI-A.10...
135.8
LI-A.12..., LI-C.16...
150.1
LI.C.20..., LI-C.40...
178.0
LI-A.16..., LI-A.32...
185.8
LI-C.25..., LI-C.50
217.0
LI-A.20..., LI-A.40...
233.8
LI-C.32..., LI-C.63...
284.0
LI-A.25..., LI-A.50
300.5
SIVACON 8PS - Planning with SIVACON 8PS
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Planning with LR
6
6.1
System description
Straight trunking units
Feeder units
Junction units
Tap-off units
Accessories
Adapter for the LI system
Expansion compensation
Encapsulated joint unit
Figure 6-1 LR system structure
Planning with LR
6.2 System components
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236 Planning Manual, 11/2016, A5E01541101-04
Thanks to its cast epoxy enclosure with high IP68 degree of protection and high short-circuit
rating, the LR system can provide an assurance of reliable power transmission even under
the harshest ambient conditions. It is entirely resistant to environmental factors such as air
humidity and corrosive or salty atmospheres.
The compact system is suitable for flat, edgewise, vertical or horizontal installation as per
requirements in applications from 400 A to 6300 A. Bracket pieces, connectors and T pieces
to create junction units facilitate optimisation in line with structural conditions within the most
compact of dimensions. The LR system is even ideal for use outdoors.
6.2
System components
6.2.1
Preliminary remark for specifications
Basic description busbar trunking systems 400 A to 6300 A
Busbar trunking systems shall be supplied and installed as type-tested and ready-to-use low-
voltage switchgear assemblies.
The following descriptions are part of the costing and contracts process. They must be
considered when specifying individual systems and equipment, even if they are not
subsequently referred to in more detail.
The busbar trunking system has to be suitable for power transmission, e.g. between
transformer and low-voltage main distribution board, and power distribution in the form of a
power supply, as well as for horizontal and vertical installation.
The busbar trunking system must comprise listed system components such as:
Straight trunking units
Feeder units for incoming transformer, distribution board and cable connection units
Junction units with elbow, offset elbow, knee, offset knee, Z units and T units
Joint units
Accessories
The busbar trunking system must comprise standardised factory-built system components. It
is not permitted to set up flexible junction units and junction units using cable connections.
Expansion units and fixed points must be planned as per requirements.
Standard components are connected to the tap points on the trunking units as required. It
must be possible to select the number and position of tap-off points. The bolt-on tap-off units
can only be installed and removed when voltage-free.
If required, it must be possible to fit the busbar trunking system with an asbestos-free
fireproof barrier for wall or ceiling mounting which is compliant with the fire resistance class
S60, S90 or S120.
The enclosure is of epoxy resin and is corrosion-free. The cross section of the trunking units
must not exceed the dimensions specified in the technical data.
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The individual system components must be connected by screwing on a state-of-the-art
bolted joint block.
The connection must be encapsulated in cast resin and closed following installation of the
bolted joint block.
The busbars must be made of copper-coated aluminium or copper. The outer dimensions of
the enclosure/casing must not exceed the values specified in the technical data.
The fire load must not exceed the value specified in the technical data.
Conformity and test certificates
The manufacturer of the busbar system must have in place and be able to prove compliance
with a quality management system in accordance with EN ISO 9001.
Proof of compliance with the following requirements must be provided for the entire system
in the form of certificates or declarations of conformity:
Type test acc. to IEC / EN 61439-1 and -6
Resistance to extreme climates acc. to IEC 60068-2-78 (constant) and IEC 60068-2-30
(cyclic)
Fire protection acc. to DIN 4102--9
Reliable proof of special additional characteristics (e.g. functional endurance) of system
components must be provided.
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Technical data for busbar trunking systems
LR...
Ambient temperature min./max./24-hour average
5/+40/35°C
Degree of protection
IP68
Torque for joint block LR.01 LR03: 40 Nm 1)
LR.04LR29: 84 Nm
1)
Trunking unit material
Epoxy resin
Colour of trunking units
Similar to RAL 7030 (stone grey)
Rated insulation voltage
AC
1000 V
Rated operating voltage
AC
1000 V
Rated frequency
5060 Hz
Rated current
_______
2)
Rated short-time withstand current
External conductor
I
cw
(1 s)
_______
2)
Neutral conductor
I
cw
(1 s)
_______
2)
5th conductor
I
cw
(1 s)
_______
2)
Rated peak withstand current
I
pk
_______
2)
Conductor material
AL / Cu
1)
No. of busbars
_______
2)
Conductor cross-section
L1, L2, L3
_______
2)
N
_______
2)
PE _______2)
Fire loads
Trunking unit _______2)
Max. fixing distances
Horizontal edgewise _______2)
Horizontal flat
_______
2)
Vertical
_______
2)
Enclosure dimensions
_______
2)
1)
Please delete as appropriate.
2) Enter data for selected systems.
You can find the values for the selected systems in the chapter "Technical specifications
(Page 252)".
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6.2.2
Type code
The components of the LR system are determined using a type code. The type is specified
and selected on the basis of rated current, conductor material and system type or conductor
configuration.
The resulting type code enables the product to be ordered to be precisely defined.
Figure 6-2 Type codes LRA/LRC
Selection example:
A rated current of 2500 A is calculated for a project. A 5-pole system has to be used.
This results in type
LRC0851-0
.
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6.2.3
System sizes and structure
Sizes
The sizes are dependent upon the rated current rating. In total, there are nine sizes. Six
sizes are set up as single systems and three as double systems.
Single systems comprise one enclosure with 4 to 5 aluminium busbars for the LRA system
and 4 to 5 copper bars for the LRC system. Double systems have between 8 and 10 bars in
two enclosures.
The precise number of bars is determined by the required conductor configuration.
Structure of the busbars
The busbars of the LRA system are surface-treated (copper-coated), and the busbars of the
LRC system are not.
Aluminium bar
Copper coating
Figure 6-3 LRA busbar trunking system
Copper bar
Figure 6-4 LRC busbar system
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Mounting positions and rated current
The cast resin construction means that the current carrying capacity of the the LR busbar
system is independent of the mounting position. This guarantees high flexibility for
positioning the busbar runs. Current derating is not required for busbars in edgewise and flat
positions on horizontal busbar runs or on rising main busbars (vertical busbar runs).
Horizontal busbar run, edg
e-
wise busbars
Horizontal busbar run, flat
busbars
Vertical busbar run
6.2.4
Conductor configuration and sizes
The LRA/LRC busbar system is available with two different conductor configurations
dependent upon system type and the size of the N and PE cross sections.
I
nA [A]
4-conductor system
5-conductor system
LRA
LRC
System
A
B
System
A
B
400
630
LR.0141
90 90
LR.0151
90 90
630
800
LR.0241
LR.0251
800
1000
LR.0341
LR.0351
1000
1350
LR.0441
100
110
LR.0451
120
110
1200
1600
LR.0541
130
LR.0551
130
1400
1700
LR.0641
150
LR.0651
150
1600
2000
LR.0741
190
LR.0751
190
2000
2500
LR.0841
230
LR.0851
230
2500
3200
LR.0941
270
LR.0951
270
3200
4000
LR.2741
100
380
LR.2751
120
380
4000
5000
LR.2841
460
LR.2851
460
5000 6300 LR.2941 540 LR.2951 540
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6.2.5
Straight trunking units
Straight trunking units for horizontal and vertical installation without tap points and joint unit
Configurable lengths X from 0.30 m to 3.00 m in 0.01 m steps available
Straight trunking units for tap-off units on request
Straight trunking units to adapt to LI systems for indoor applications
Figure 6-5 LR-LI adapter element (x = 0.8 m or 0.95 m)
Straight trunking units to adapt to LD systems for indoor applications
Figure 6-6 Adapter element (X = 1.0 m)
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6.2.6
Junction units
Junction units for horizontal installation
Elbow LR....-E(-1.0 / -1.5)
Z unit LR....-ZE
Length
System
Type
X = 0.301.20 m
Y = 0.301.20 m
LR.01LR.29 LR....-E(-1.0 / -1.5)
X/Y = 0.35 m
Z = 0.010.70 m
LR.01LR.29 Z unit LR....-ZE
Junction units for horizontal and vertical installation
Knee LR....-K(-1.0 / -1.5)
Z unit LR....-ZK
Length
System
Type
X/Y = 0.351.15 m
LR.01LR.09
LR....-K(-1.0 / -1.5)
X/Y = 0.501.00 m
LR.27LR.29
X/Y = 0.35 m
Z = 0.010.70 m
LR.01LR.09 LR....-ZK
X/Y = 0.50 m
Z = 0.011.00 m
LR.27LR.29
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Offset knee LR...-XL
T unit LR....-TV(-2.0)
Length
System
Type
X/Y = 0.35 m
Z = 0.090.70 m
LR.01LR.09 LR....-XL
X/Y = 0.50 m
Z = 0.251.00 m
LR.27LR.29
X/Y = 0.350.75 m
Z = 0.350.50 m
LR.01LR.09 LR....-TV(-2.0)
X/Y = 0.500.75 m
Z = 0.50 m
LR.27LR.29
6.2.7
Distribution board connection for Siemens power distribution boards
For the LR system, an LI-connection unit in conjunction with an LR adapter element can be
used to achieve a type-tested link to Siemens power distribution boards.
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6.2.8
Busbar connection unit for non-Siemens distribution boards
If you wish to connect the busbar trunking system to a non-Siemens distribution board, you
can establish this connection using a busbar connection unit LR....-T. for non-Siemens
distribution boards. The connection unit is built into the distribution board and serves as an
interface to the copper connections of the distribution system.
Versions
Aluminium or copper conductors are used for connection units for non-Siemens distribution
boards. The rated currents up to a maximum of 6300 A correspond to the specifications in
chapter "Technical specifications (Page 252)". The required conductor cross sections for
copper connections are also listed in the chapter "Technical specifications (Page 252)".
Installation of the busbar connection unit
The busbar connection unit in the distribution board must be copper-plated by the board
manufacturer or in compliance with that manufacturer's specifications. The board
manufacturer must ensure that the required short-circuit strength is achieved and the
permissible temperature limit of the busbar connection unit for non-Siemens distribution
boards is not exceeded.
Figure 6-7 Busbar connection unit for non-Siemens distribution boards
The dimensions correspond to those of the incoming cable connection units.
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6.2.9
Connection unit for transformers and distribution boards
The wide variety of transformer types reflects the variety of rated currents and the different
phase sequences and clearances.
This type variety requires high flexibility as regards transformer connection in busbar
trunking systems.
The universal connection unit can also be used to connect distribution boards.
For LR busbar trunking systems up to 6300 A, transformer connection units are available
with busbar connection on the side (LR....-TC, -TD or -TE) and on the top (LR....-TJ, -TG, -
TM, -TK or -TX).
Busbar connection on the side and customer connection on the bottom
LR.....-TE(-F)
Length
System
X ≤ 0.70 m
Z = 0.300.50 m
LR.01LR.09
X ≤ 1.00 m
Z = 0.300.50 m
LR.27LR.29
Busbar connection on the side and customer connection on the side
LR.....-TC(-F)
Length
System
X ≤ 0.400.70 m (4L), 0.500.70 m (5L)
Z = 0.300.50 m
LR.01LR.29
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Busbar connection on the top and customer connection on the bottom
LR.....-TX(-F)
Length
System
X ≤ 0.70 m
Z = 0.50 m
LR.01LR.09
X ≤ 1.00 m
Z = 0.70 m
LR.27LR.29
The phase clearances can be selected up to 750 mm.
Minimum phase clearance: Tag width + 25 mm
The sequence of the connection tags from conductors L1, L2, L3, N (PEN) and PE can be
freely selected.
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6.2.10
Incoming cable connection unit
If power needs to be supplied to the busbar trunking system via cables, you should use an
LR....-KE incoming cable connection unit.
Figure 6-8 Incoming cable connection unit
Design
Size
4-conductor X = 0.40 m
Z = 0.30 m
Z1 = 0.06 m
5-conductor X = 0.50 m
Z = 0.30 m
Z1 = 0.06 m
Tags
Clearance
Width
Type
X1 = X2 = X3 = 0.10 m
Y = 0.06 m
LR.01LR.03
Y = 0.09 m
LR.04
Y = 0.11 m
LR.05
Y = 0.12 m
LR.06
Y = 0.16 m
LR.07
Y = 0.19 m
LR.08
Y = 0.21 m
LR.09LR.29
You can connect single-core or multi-core cables. You can connect cross-sections up to
300 mm2 (bolted connection) directly to the connection bars of the incoming cable
connection unit.
The cable connections are moulded to the tags on site once the cables have been
connected. A moulding cast and cast resin mix are included in the scope of supply for this
purpose.
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6.2.11
Tap-offs for power distribution
The LR system has been designed purely for power transmission. However, power tap-offs
for loads can be created by adding straight trunking units with junction points and
corresponding junction boxes to the LR run.
Note
Junction boxes are available on request.
x =
X = 0.503.00 m
Figure 6-9 Straight trunking unit with junction box
The tap-off unit permits rated currents of up to 630 A. An equipment compartment is built
onto the tap-off unit. Project-specific switchgear (e.g. circuit breakers) is installed in the
compartment and connected - both electrically and mechanically - to the tap-off unit.
Tap-off units are not designed for connection whilst the LRC system is live.
All other characteristics and technical data can only be provided on request for specific
projects.
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6.2.12
Additional equipment
Joint block
The joint block is used for the trunking units' electrical and mechanical connections. LR
trunking units are usually supplied without joint units (junction blocks or monoblocks, as they
are also known). Accordingly, you need to make provision to plan and order joint blocks
separately as appropriate for the number of trunking unit connections.
Figure 6-10 Joint unit
Accessories for busbar connections with joint blocks
Once the electrical link with the joint block has been established, it needs to be cast with
epoxy resin. For this purpose, moulding casts, cast resin mix, separators and various tools
are provided as accessories.
Casting mould
Cast resin mix
Tool set
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Fixing brackets for horizontal installation
Various types of fixing bracket are available:
Mounting position: edgewise or flat
Mounting characteristic: run supported or fixed.
The standard supporting brackets are:
LR..-BHF type for edgewise mounting
LR..-BHH type for flat mounting
Figure 6-11 Flat (left) and edgewise (right) mounting position
The fixed points, as they are called, are created using long run lengths in conjunction with
expansion compensation units.
Fixing brackets for vertical installation
Various types of bracket have to be used to install vertical busbar runs:
Spring clamp to carry the weight of the run, type LR..-BV.
Sliding bracket to guide the run in the prescribed position, type LR..-BG.
Fixed points to fix the run to the building structure, type LR..-BF.
LR..-BVW (wall mounting)
LR..-BF
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6.3
Technical specifications
6.3.1
LR general data
LR...
Standards and regulations
IEC / EN 61439-1 and -6
Rated insulation voltage
1)
U
i
AC
V
1000
Overvoltage category / pollution degree
III/3
Rated operating voltage
1)
U
e
AC
V
1000
Frequency
Hz
5060
Rated current
I
nA A 4005000 (LRA)
6306300 (LRC)
Resistance to extreme climates
Damp heat (constant) acc. to IEC 60068-2-78
Damp heat (cyclic) acc. to IEC 60068-2-30
Ambient temperature*
°C
-5 … +40
Degree of protection acc. to IEC/EN 60529 (type 2)
Busbar elements
IP68
Connection elements/tap-off units
IP68
Material
Enclosure for busbar elements, connection elements
Busbars
Epoxy resin
Aluminium with copper coating (LRA)
Copper (LRC)
Mounting positions
Horizontal edgewise, horizontal flat, vertical
Colour
Stone grey, similar to RAL 7030
* Observe the derating factor for the rated current at high ambient temperatures
1) For power distribution when using junction boxes on request
Thermal characteristics
Parameter
Values
Ambient temperature [°C]
20
25
30
35
40
45
50
55
60
Conversion factor 1.15 1.10 1.05 1.00 0.96 0.89 0.84 0.78 0.72
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6.3.2
Trunking units LRA..41 (4-pole, aluminium)
LRA0141 to LRA0341
LRA
0141
0241
0341
Rated current
I
nA
A
400
630
800
Degree of protection
IP68
At 50 Hz and +20 °C busbar temperature
Resistance
R
20
mΩ/m
0.161
0.121
0.081
Reactance
X
20
mΩ/m
0.050
0.042
0.026
Impedance
Z
20
mΩ/m
0.169
0.128
0.085
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.176
0.142
0.096
Reactance
X
warm
mΩ/m
0.050
0.042
0.026
Impedance
Z
warm
mΩ/m
0.178
0.151
0.102
For 4-pole systems under fault conditions
acc. to EN 61439-6 Annex N
Resistance
R
F
mΩ/m
0.353
0.284
0.193
Reactance
X
F
mΩ/m
0.175
0.100
0.155
Impedance
Z
F
mΩ/m
0.394
0.301
0.247
Zero impedance for 4-pole systems to
DIN VDE 0102, IEC 909
Resistance PEN
R
0
mΩ/m
0.470
0.379
0.257
Reactance PEN
X
0
mΩ/m
0.609
0.509
0.529
Impedance PEN
Z
0
mΩ/m
0.769
0.634
0.588
Short-circuit rating
Rated impulse withstand current
I
pk
kA
24
24
55.7
Rated short-time withstand current
t = 1 s
I
cw
kA
12
12
26.5
Conductor material
Aluminium
Conductor cross-section
PEN
mm
2
176
236
354
Cross-section of active conductors
mm
2
176
236
354
Fire load
kWh/m
13.01
12.59
11.76
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection) kg/m 21.89 22.08 22.46
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LRA0441 to LRA0941
LRA
0441
0541
0641
0741
0841
0941
Rated current
I
nA
A
1000
1200
1400
1600
2000
2500
Degree of protection
IP68
At 50 Hz and +20 °C
busbar temperature
Resistance
R
20
mΩ/m
0.060
0.048
0.040
0.030
0.024
0.020
Reactance
X
20
mΩ/m
0.055
0.050
0.042
0.046
0.031
0.029
Impedance
Z
20
mΩ/m
0.081
0.070
0.058
0.055
0.040
0.035
At 50 Hz and final
heating of busbars
Resistance
R
warm
mΩ/m
0.074
0.059
0.050
0.036
0.029
0.026
Reactance
X
warm
mΩ/m
0.055
0.050
0.042
0.046
0.031
0.029
Impedance
Z
warm
mΩ/m
0.094
0.079
0.066
0.059
0.043
0.038
For 4-pole systems
under fault conditions
acc. to EN 61439-6
Annex N
Resistance
R
F
mΩ/m
0.149
0.119
0.099
0.073
0.060
0.051
Reactance
X
F
mΩ/m
0.147
0.118
0.098
0.091
0.116
0.118
Impedance ZF mΩ/m 0.209 0.167 0.139 0.117 0.131 0.129
Zero impedance for 4-
pole systems to
DIN VDE 0102,
IEC 909
Resistance
PEN
R0 mΩ/m 0.198 0.159 0.132 0.097 0.080 0.068
Reactance
PEN
X0 mΩ/m 0.355 0.284 0.237 0.220 0.212 0.204
Impedance
PEN
Z0 mΩ/m 0.407 0.325 0.271 0.240 0.227 0.215
Short-circuit rating
Rated impulse withstand current
I
pk
kA
55.7
117
117
143
143
143
Rated short-time with-
stand current
t = 1 s
I
cw kA 26.5 53 53 65 65 65
Conductor material Aluminium
Conductor cross-
section
PEN mm2 472 592 712 944 1184 1424
Cross-section of active conductors mm2 472 592 712 944 1184 1424
Fire load
kWh/m
15.72
19.19
21.32
27.51
32.05
36.68
Fixing distances
m
1.5
1.5
1.5
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
29.74
34.66
38.81
48.87
58.17
67.97
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LRA2741 to LRA2941
LRA
2741
2841
2941
Rated current
I
nA
A
3200
4000
5000
Degree of protection
IP68
At 50 Hz and +20 °C busbar tempera-
ture
Resistance
R
20
mΩ/m
0.015
0.012
0.010
Reactance
X
20
mΩ/m
0.024
0.026
0.023
Impedance
Z
20
mΩ/m
0.028
0.029
0.025
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.019
0.015
0.013
Reactance
X
warm
mΩ/m
0.024
0.026
0.023
Impedance
Z
warm
mΩ/m
0.031
0.030
0.026
For 4-pole systems under fault condi-
tions acc. to EN 61439-6 Annex N
Resistance
RF
mΩ/m
0.038
0.030
0.025
Reactance
X
F
mΩ/m
0.093
0.084
0.068
Impedance
Z
F
mΩ/m
0.100
0.089
0.073
Zero impedance for 4-pole systems to
DIN VDE 0102, IEC 909
Resistance PEN
R
0
mΩ/m
0.051
0.041
0.034
Reactance PEN
X
0
mΩ/m
0.197
0.192
0.167
Impedance PEN
Z
0
mΩ/m
0.204
0.196
0.170
Short-circuit rating
Rated impulse withstand current
I
pk
kA
220
220
220
Rated short-time withstand current
t = 1 s
I
cw
kA
100
100
100
Conductor material
Aluminium
Conductor cross-section
PEN
mm
2
1889
2368
2849
Cross-section of active conductors
mm
2
1889
2368
2849
Fire load
kWh/m
55.01
64.11
73.36
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection) kg/m 97.74 116.34 135.95
Resistance per unit length from measurements / derivations
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6.3.3
Trunking units LRA..51 (5-pole, aluminium)
LRA0151 to LRA0351
LRA
0151
0251
0351
Rated current
I
nA
A
400
630
800
Degree of protection
IP68
At 50 Hz and +20 °C busbar tempera-
ture
Resistance
R
20
mΩ/m
0.161
0.121
0.081
Reactance
X
20
mΩ/m
0.050
0.042
0.026
Impedance
Z
20
mΩ/m
0.169
0.128
0.085
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.176
0.142
0.096
Reactance
X
warm
mΩ/m
0.050
0.042
0.026
Impedance
Z
warm
mΩ/m
0.178
0.151
0.102
For 5-pole systems (PE) under fault
conditions acc. to
EN 61439-6 Annex N
AC resistance per unit length
PE
RF mΩ/m 0.353 0.284 0.193
Reactance PE
X
F
mΩ/m
0.157
0.090
0.140
Impedance PE
Z
F
mΩ/m
0.386
0.298
0.238
For 5-pole systems (N) under fault
conditions acc. to EN 61439-6 Annex
N
Resistance N
R
F
mΩ/m
0.353
0.284
0.193
Reactance N
X
F
mΩ/m
0.175
0.100
0.155
Impedance N
Z
F
mΩ/m
0.394
0.301
0.209
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.447
0.360
0.244
Reactance 1 N
X
0
mΩ/m
0.974
0.814
0.846
Impedance 1 N
Z
0
mΩ/m
1.071
0.890
0.880
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.470
0.379
0.257
Reactance 2 PE
X
0
mΩ/m
0.609
0.509
0.529
Impedance 2 PE
Z
0
mΩ/m
0.769
0.634
0.588
Short-circuit rating
Rated impulse withstand current
I
pk kA 24 24 55.7
Rated short-time withstand current t = 1 s
I
cw kA 12 12 26.5
Conductor material Aluminium
Conductor cross-section N mm2 176 236 354
Cross-section of active conductors
mm
2
176
236
354
Conductor cross-section
PE
mm
2
176
236
354
Fire load
kWh/m
12.70
12.17
11.13
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
22.03
22.27
22.75
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 257
LRA0451 to LRA0951
LRA
0451
0551
0651
0751
0851
0951
Rated current
I
nA
A
1000
1200
1400
1600
2000
2500
Degree of protection
IP68
At 50 Hz and +20° C bus-
bar temperature
Resistance
R
20
mΩ/m
0.060
0.048
0.040
0.030
0.024
0.020
Reactance
X
20
mΩ/m
0.055
0.050
0.042
0.046
0.031
0.029
Impedance
Z
20
mΩ/m
0.081
0.070
0.058
0.055
0.040
0.035
At 50 Hz and final heating
of busbar
Resistance
R
warm
mΩ/m
0.074
0.059
0.050
0.036
0.029
0.026
Reactance
X
warm
mΩ/m
0.055
0.050
0.042
0.046
0.031
0.029
Impedance
Z
warm
mΩ/m
0.094
0.079
0.066
0.059
0.043
0.038
For 5-pole (PE) systems
under fault conditions acc.
to EN 61439-6 Annex N
AC resistance per unit
length PE
RF mΩ/m 0.149 0.119 0.099 0.073 0.060 0.051
Reactance PE
X
F
mΩ/m
0.132
0.106
0.088
0.082
0.105
0.106
Impedance PE
Z
F
mΩ/m
0.199
0.159
0.133
0.110
0.121
0.118
For 5-pole (N) systems
under fault conditions acc.
to EN 61439-6 Annex N
AC resistance per unit
length N
RF mΩ/m 0.149 0.119 0.099 0.073 0.060 0.051
Reactance N
X
F
mΩ/m
0.147
0.118
0.098
0.091
0.116
0.118
Impedance N
Z
F
mΩ/m
0.167
0.167
0.139
0.117
0.131
0.129
Zero impedance for 5-pole
systems (N) to
DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.188
0.151
0.126
0.092
0.076
0.065
Reactance 1 N
X
0
mΩ/m
0.568
0.454
0.379
0.352
0.339
0.326
Impedance N
Z
0
mΩ/m
0.598
0.479
0.399
0.364
0.348
0.333
Zero impedance for 5-pole
systems (PE) to
DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.198
0.159
0.132
0.097
0.080
0.068
Impedance 2 PE
X
0
mΩ/m
0.355
0.284
0.237
0.220
0.212
0.204
Impedance 2 PE
Z
0
mΩ/m
0.407
0.325
0.271
0.240
0.227
0.215
Short-circuit rating
Rated short-time withstand current
I
pk kA 55.7 117 117 143 143 143
Rated short-time withstand
current
t = 1 s
I
cw kA 26.5 53 53 65 65 65
Conductor material
Aluminium
Conductor cross-section
N
mm2
472
592
712
944
1184
1424
Cross-section of active conductors
mm2
472
592
712
944
1184
1424
Conductor cross-section
PE
mm2
472
592
712
944
1184
1424
Fire load
kWh/m
18.69
22.84
25.33
32.71
38.04
43.48
Fixing distances
m
1.5
1.5
1.5
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
34.26
40.04
45.04
56.79
67.80
79.30
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
258 Planning Manual, 11/2016, A5E01541101-04
LRA2751 to LRA2951
LRA
2751
2851
2951
Rated current
I
nA
A
3200
4000
5000
Degree of protection
IP68
At 50 Hz and +20 °C busbar temperature
Resistance
R
20
mΩ/m
0.015
0.012
0.010
Reactance
X
20
mΩ/m
0.024
0.026
0.023
Impedance
Z
20
mΩ/m
0.028
0.029
0.025
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.019
0.015
0.013
Reactance
X
warm
mΩ/m
0.024
0.026
0.023
Impedance
Z
warm
mΩ/m
0.031
0.030
0.026
For 5-pole systems (PE) under fault condi-
tions acc. to EN 61439-6 Annex N
AC resistance per unit
length PE
RF mΩ/m 0.038 0.030 0.025
Reactance PE
X
F
mΩ/m
0.084
0.076
0.061
Impedance PE
Z
F
mΩ/m
0.092
0.082
0.066
For 5-pole systems (N) under fault condi-
tions acc. to EN 61439-6 Annex N
Resistance N
R
F
mΩ/m
0.038
0.030
0.025
Reactance N
X
F
mΩ/m
0.093
0.084
0.068
Impedance N
Z
F
mΩ/m
0.100
0.089
0.073
Zero impedance for 5-pole systems (PE) to
DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.048
0.039
0.032
Reactance 1 N
X
0
mΩ/m
0.316
0.307
0.267
Impedance 1 N
Z
0
mΩ/m
0.319
0.310
0.269
Zero impedance for 5-pole systems (PE) to
DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.051
0.041
0.034
Reactance 2 PE
X
0
mΩ/m
0.197
0.192
0.167
Impedance 2 PE
Z
0
mΩ/m
0.204
0.196
0.170
Short-circuit rating
Rated impulse withstand current
I
pk kA 220 220 220
Rated short-time withstand current t = 1 s
I
cw kA 100 100 100
Conductor material Aluminium
Conductor cross-section N mm2 1889 2368 2849
Cross-section of active conductors
mm2
1889
2368
2849
Conductor cross-section
PE
mm2
1889
2368
2849
Fire load
kWh/m
65.43
76.08
86.96
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
113.59
135.59
158.59
Resistance per unit length from measurements / derivations
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 259
6.3.4
Trunking units LRC..41 (4-pole, copper)
LRC0141 to LRC0341
LRC
0141
0241
0341
Rated current
I
nA
A
630
800
1000
Degree of protection
IP68
At 50 Hz and +20 °C busbar temperature
Resistance
R
20
mΩ/m
0.099
0.074
0.049
Reactance
X
20
mΩ/m
0.068
0.058
0.057
Impedance
Z
20
mΩ/m
0.120
0.094
0.075
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.119
0.093
0.062
Reactance
X
warm
mΩ/m
0.106
0.085
0.069
Impedance
Z
warm
mΩ/m
0.159
0.126
0.092
For 4-pole systems under fault conditions
acc. to EN 61439-6 Annex N
Resistance
R
F
mΩ/m
0.197
0.15
0.117
Reactance
X
F
mΩ/m
0.231
0.191
0.16
Impedance
Z
F
mΩ/m
0.304
0.243
0.198
Zero impedance for 4-pole systems to
DIN VDE 0102, IEC 909
Resistance
R
0
mΩ/m
0.275
0.217
0.173
Reactance
X
0
mΩ/m
0.269
0.227
0.193
Impedance
Z
0
mΩ/m
0.385
0.313
0.259
Short-circuit rating
Rated impulse withstand current
I
pk
kA
48
48
80
Rated short-time withstand current
t = 1 s
I
cw
kA
23
23
38
Conductor material
Copper
Conductor cross-section
PEN
mm
2
176
236
354
Cross-section of active conductors
mm
2
176
236
354
Fire load
kWh/m
13.01
12.59
11.76
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection) kg/m 25.24 26.93 30.31
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
260 Planning Manual, 11/2016, A5E01541101-04
LRC0441 to LRC0941
LRC
0441
0541
0641
0741
0841
0941
Rated current
I
nA
A
1350
1600
1700
2000
2500
3200
Degree of protection
IP68
At 50 Hz and +20 °C
busbar temperature
Resistance
R
20
mΩ/m
0.039
0.031
0.026
0.021
0.017
0.015
Reactance
X
20
mΩ/m
0.051
0.046
0.038
0.034
0.031
0.029
Impedance
Z
20
mΩ/m
0.065
0.056
0.046
0.040
0.035
0.033
At 50 Hz and final heat-
ing of busbars
Resistance
R
warm
mΩ/m
0.050
0.040
0.031
0.025
0.020
0.018
Reactance
X
warm
mΩ/m
0.051
0.046
0.038
0.034
0.031
0.029
Impedance
Z
warm
mΩ/m
0.071
0.061
0.049
0.042
0.037
0.034
For 4-pole systems
under fault conditions
acc. to EN 61439-6 An-
nex N
Resistance
R
F
mΩ/m
0.094
0.075
0.060
0.048
0.038
0.031
Reactance
X
F
mΩ/m
0.136
0.116
0.098
0.084
0.071
0.060
Impedance ZF mΩ/m 0.165 0.138 0.115 0.096 0.081 0.068
Zero impedance for 4-
pole systems to
DIN VDE 0102, IEC 909
Resistance
PEN
R0 mΩ/m 0.142 0.116 0.095 0.078 0.064 0.053
Reactance
PEN
X0 mΩ/m 0.164 0.139 0.119 0.101 0.086 0.073
Impedance
PEN
Z0 mΩ/m 0.217 0.182 0.152 0.128 0.107 0.090
Short-circuit rating
Rated impulse withstand current
I
pk
kA
80
140
140
140
176
176
Rated short-time with-
stand current
t = 1 s
I
cw kA 38 65 65 65 80 80
Conductor material Copper
Conductor cross-section PEN mm2 472 592 712 944 1184 1424
Cross-section of active conductors mm2 472 592 712 944 1184 1424
Fire load kWh/m 15.72 19.19 21.32 27.51 32.05 36.68
Fixing distances
m
1.5
1.5
1.5
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
40.56
47.39
55.69
71.72
86.59
102.34
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 261
LRC2741 to LRC2941
LRC
2741
2841
2941
Rated current
I
nA
A
4000
5000
6300
Degree of protection
IP68
At 50 Hz and +20 °C busbar temperature
Resistance
R
20
mΩ/m
0.010
0.008
0.006
Reactance
X
20
mΩ/m
0.014
0.013
0.011
Impedance
Z
20
mΩ/m
0.017
0.015
0.013
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.013
0.010
0.008
Reactance
X
warm
mΩ/m
0.014
0.013
0.011
Impedance
Z
warm
mΩ/m
0.019
0.016
0.014
For 4-pole systems under fault conditions
acc. to EN 61439-6 Annex N
Resistance
R
F
mΩ/m
0.022
0.018
0.014
Reactance
X
F
mΩ/m
0.054
0.046
0.039
Impedance
Z
F
mΩ/m
0.059
0.049
0.041
Zero impedance for 4-pole systems to
DIN VDE 0102, IEC 909
Resistance PEN
R
0
mΩ/m
0.046
0.038
0.031
Reactance PEN
X
0
mΩ/m
0.067
0.057
0.048
Impedance PEN
Z
0
mΩ/m
0.082
0.068
0.057
Short-circuit rating
Rated impulse withstand current
I
pk
kA
220
220
220
Rated short-time withstand current
t = 1 s
I
cw
100
100
100
Conductor material
Copper
Conductor cross-section
PEN
mm
2
1889
2368
2849
Cross-section of active conductors
mm
2
1889
2368
2849
Fire load
kWh/m
55.01
64.11
73.36
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection) kg/m 140.49 171.99 186.69
Resistance per unit length from measurements / derivations
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
262 Planning Manual, 11/2016, A5E01541101-04
6.3.5
Trunking units LRC..51 (5-pole, copper)
LRC0151 to 0351
LRC
0151
0251
0351
Rated current
I
nA
A
630
800
1000
Degree of protection
IP68
At 50 Hz and +20 °C busbar tempera-
ture
Resistance
R
20
mΩ/m
0.099
0.074
0.049
Reactance
X
20
mΩ/m
0.068
0.058
0.057
Impedance
Z
20
mΩ/m
0.120
0.094
0.075
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.119
0.093
0.062
Reactance
X
warm
mΩ/m
0.106
0.085
0.069
Impedance
Z
warm
mΩ/m
0.159
0.126
0.092
For 5-pole systems (PE) under fault
conditions acc. to
EN 61439-6 Annex N
AC resistance per unit length
PE
RF mΩ/m 0.197 0.150 0.117
Reactance PE
X
F
mΩ/m
0.231
0.191
0.16
Impedance PE
Z
F
mΩ/m
0.304
0.243
0.198
For 5-pole systems (N) under fault
conditions acc. to EN 61439-6 Annex
N
Resistance N
R
F
mΩ/m
0.197
0.150
0.117
Reactance N
X
F
mΩ/m
0.231
0.191
0.16
Impedance N
Z
F
mΩ/m
0.304
0.243
0.198
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.275
0.217
0.173
Reactance 1 N
X
0
mΩ/m
0.269
0.227
0.193
Impedance 1 N
Z
0
mΩ/m
0.385
0.313
0.259
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.275
0.217
0.173
Reactance 2 PE
X
0
mΩ/m
0.269
0.227
0.193
Impedance 2 PE
Z
0
mΩ/m
0.385
0.313
0.259
Short-circuit rating
Rated impulse withstand current
I
pk kA 48 48 80
Rated short-time withstand current t = 1 s
I
cw kA 23 23 38
Conductor material Copper
Conductor cross-section N - mm2 176 236 354
Cross-section of active conductors
mm
2
176
236
354
Conductor cross-section
PE
-
mm
2
176
236
354
Fire load
kWh/m
12.70
12.17
11.13
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
26.70
28.82
33.04
Planning with LR
6.3 Technical specifications
SIVACON 8PS - Planning with SIVACON 8PS
Planning Manual, 11/2016, A5E01541101-04 263
LRC0451 to LRC0951
LRC
0451
0551
0651
0751
0851
0951
Rated current
I
nA
A
1350
1600
1700
2000
2500
3200
Degree of protection
IP68
At 50 Hz and +20 °C
busbar temperature
Resistance
R
20
mΩ/m
0.039
0.031
0.026
0.021
0.017
0.015
Reactance
X
20
mΩ/m
0.051
0.046
0.038
0.034
0.031
0.029
Impedance
Z
20
mΩ/m
0.065
0.056
0.046
0.040
0.035
0.033
At 50 Hz and final
heating of busbar
Resistance
R
warm
mΩ/m
0.050
0.040
0.031
0.025
0.020
0.018
Reactance
X
warm
mΩ/m
0.051
0.046
0.038
0.034
0.031
0.029
Impedance
Z
warm
mΩ/m
0.071
0.061
0.049
0.042
0.037
0.034
For 5-pole (PE) systems
under fault conditions
acc. to EN 61439-6
Annex N
AC resistance per
unit length PE
RF mΩ/m 0.094 0.075 0.060 0.048 0.038 0.031
Reactance PE
X
F
mΩ/m
0.150
0.127
0.108
0.092
0.078
0.066
Impedance PE
Z
F
mΩ/m
0.176
0.148
0.124
0.104
0.087
0.073
For 5-pole (N) systems
under fault conditions
acc. to EN 61439-6 An-
nex N
AC resistance per
unit length N
RF mΩ/m 0.094 0.075 0.060 0.048 0.038 0.031
Reactance N
X
F
mΩ/m
0.136
0.116
0.098
0.084
0.071
0.060
Impedance N
Z
F
mΩ/m
0.165
0.138
0.115
0.096
0.081
0.068
Zero impedance for 5-
pole systems (N) to
DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.163
0.134
0.110
0.090
0.074
0.060
Reactance 1 N
X
0
mΩ/m
0.328
0.279
0.237
0.201
0.171
0.146
Impedance N
Z
0
mΩ/m
0.366
0.309
0.261
0.221
0.186
0.158
Zero impedance for 5-
pole systems (PE) to
DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.142
0.116
0.095
0.078
0.064
0.053
Impedance 2 PE
X
0
mΩ/m
0.164
0.139
0.119
0.101
0.086
0.073
Impedance 2 PE
Z
0
mΩ/m
0.217
0.182
0.152
0.128
0.107
0.090
Short-circuit rating
Rated short-time withstand current
I
pk kA 80 140 140 140 176 176
Rated short-time with-
stand current
t = 1 s
I
cw kA 38 65 65 65 80 80
Conductor material
Copper
Conductor cross-section
N
-
mm
2
472
592
712
944
1184
1424
Cross-section of active conductors
mm
2
472
592
712
944
1184
1424
Conductor cross-section PE
mm
2
472
592
712
944
1184
1424
Fire load
kWh/m
18.69
22.84
25.33
32.71
38.04
43.48
Fixing distances
m
1.5
1.5
1.5
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
48.77
58.09
67.03
86.77
104.94
123.99
Planning with LR
6.3 Technical specifications
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LRC2751 to LRC2951
LRC
2751
2851
2951
Rated current
I
nA
A
4000
5000
6300
Degree of protection
IP68
At 50 Hz and +20 °C busbar tempera-
ture
Resistance
R
20
mΩ/m
0.010
0.008
0.006
Reactance
X
20
mΩ/m
0.014
0.013
0.011
Impedance
Z
20
mΩ/m
0.017
0.015
0.013
At 50 Hz and final heating of busbars
Resistance
R
warm
mΩ/m
0.013
0.010
0.008
Reactance
X
warm
mΩ/m
0.014
0.013
0.011
Impedance
Z
warm
mΩ/m
0.019
0.016
0.014
For 5-pole systems (PE) under fault
conditions acc. to
EN 61439-6 Annex N
AC resistance per unit length
PE
RF mΩ/m 0.022 0.018 0.014
Reactance PE
X
F
mΩ/m
0.059
0.050
0.043
Impedance PE
Z
F
mΩ/m
0.063
0.053
0.045
For 5-pole systems (N) under fault
conditions acc. to EN 61439-
6 Annex N
Resistance N
R
F
mΩ/m
0.022
0.018
0.014
Reactance N
X
F
mΩ/m
0.054
0.046
0.039
Impedance N
Z
F
mΩ/m
0.059
0.049
0.041
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 1 N
R
0
mΩ/m
0.053
0.043
0.036
Reactance 1 N
X
0
mΩ/m
0.134
0.114
0.097
Impedance 1 N
Z
0
mΩ/m
0.144
0.122
0.103
Zero impedance for 5-pole systems
(PE) to DIN VDE 0102, IEC 909
Resistance 2 PE
R
0
mΩ/m
0.046
0.038
0.031
Reactance 2 PE
X
0
mΩ/m
0.067
0.057
0.048
Impedance 2 PE
Z
0
mΩ/m
0.082
0.068
0.057
Short-circuit rating
Rated impulse withstand current
I
pk kA 220 220 220
Rated short-time withstand current t = 1 s
I
cw kA 100 100 100
Conductor material Copper
Conductor cross-section N - mm2 1889 2368 2849
Cross-section of active conductors
mm
2
1889
2368
2849
Conductor cross-section
PE
-
mm
2
1889
2368
2849
Fire load
kWh/m
65.43
76.08
86.96
Fixing distances
m
1.5
1.5
1.5
Weight (2 m length with clamped connection)
kg/m
170.30
208.77
264.47
Resistance per unit length from measurements / derivations
Planning with LR
6.4 Dimension drawings
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6.4
Dimension drawings
Unless otherwise specified, all dimensions are in mm.
6.4.1
Straight busbar elements LR
4-conductor system
Figure 6-12 LR.0141 to LR.0941
Figure 6-13 LR.2741 to LR.2941
System
A [mm]
B [mm]
x [mm]
LR.0141
90 90 3003000
LR.0241
LR.0341
LRC.441
100
110
LR.0541
130
LR.0641
150
LR.0741
190
LR.0841
230
LR.0941
270
LR.2741
380
LR.2841
460
LR.2941
540
Planning with LR
6.4 Dimension drawings
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5-conductor system
Figure 6-14 LR.0151 to LR.0951
Figure 6-15 LR.2751 to LR.2951
System
A [mm]
B [mm]
x [mm]
LR.0151
90 90 3003000
LR.0251
LR.0351
LR.0451
120
110
LR.0551
130
LR.0651
150
LR.0751
190
LR.0851
230
LR.0951
270
LR.2751
380
LR.2851
460
LR.2951
540
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Further information about planning
7
7.1
Dimensioning and selection
7.1.1
Determining the voltage drop
Formula for voltage drop
With long trunking runs it may be necessary to calculate the voltage drop:
Δ
U
= voltage drop (V)
I
B
= rated current (A)
l
= total length of system (m)
k
= load distribution factor
R1
= ohmic resistance (mΩ/m) with busbar final heating
X1
= inductive resistance (mΩ/m) with busbar final heating
cos φ
= power factor
The load distribution factor k for calculating the voltage drop at the end of the busbar
trunking system is defined as follows:
k = 1, if the load is concentrated at the end of the busbar trunking system (power
transmission).
k = (n +1)/(2 x n), if the load is distributed across n taps.
To calculate the voltage drop in the distance d between the start of a tap and the start of the
busbar system, proceed as follows:
k = (2 x n + 1 n x d/L)/(2 x n)
Voltage drop diagrams
The following diagrams illustrate the voltage drop on the BD2, LD, LI and LR systems
taking into account the final heating resistances (in accordance with 61439-6)
with a load distribution factor
k = 1 for LD and LR
k = 0.5 for BD2 and LI
at rated current load. (In the case of a different current diversity factor, the value of the
curve must be multiplied by the appropriate distribution factor).
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For systems with unevenly distributed loads, we recommend the SIMARIS design program
for calculating short circuits and load flows (see the chapter "Tools and services
(Page 307)").
Voltage drop BD2A
Voltage drop BD2C
Voltage drop LDA
Voltage drop LDC
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Voltage drop LI-A
Voltage drop LI-C
Voltage drop LRC01 to LRC07
Voltage drop LRC08 to LRC29
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Voltage drop LRA01 to LRA07
Voltage drop LRA08 to LRA29
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7.1.2
Overload protection and short-circuit protection
Busbar trunking systems need to be protected against short circuits and overloads. Fuses
and circuit breakers are available for use as protective devices. When selecting protective
devices, the level of the expected short-circuit currents, selectivity requirements or operating
and signalling functions are also factors for consideration.
When deciding to provide short-circuit protection using fuses and circuit breakers, you must
not exceed the specified short-circuit ratings of the busbar trunking systems. Whether a
current limiting protective device is required and what short-circuit breaking capacity the
protective device must have depend on the level of expected short-circuit current.
The table below offers an overview of the circuit-breakers which are able to provide short-
circuit and overload protection (400 V and 50 Hz) for the corresponding busbar system.
The following applies:
I"
k
I
cc
I
cu
I''
k
=
anticipated short-circuit current at installation location
I
cc
=
conditional rated short
-circuit current of the trunking run
I
cu
=
rated short-circuit breaking capacity of the circuit breaker
Table 7- 1 Circuit-breakers which are able to provide short-circuit and overload protection (400 V and 50 Hz) for the cor-
responding busbar system1)
Type
Rated
cur-
rent
Circuit breakers
with normal
switching capacity
Rated
short-
circuit
current 1)
Circuit breakers
with strong
switching capacity
Rated
short-
circuit
current 2)
Circuit breakers
with high switch-
ing capacity
Rated
short-
circuit
current 1)
I
n
I
cu
I
cc
I
cu
I
cc
I
cu
I
cc
A
kA
kA
kA
kA
kA
kA
BD2A(C)-160
160
3VL27 16-1...
40
20
3VL27 16-2...
70
20
3VL27 16-3...
100
20
BD2A(C)-250
250
3VL37 25-1...
40
40
3VL37 25-2...
70
50
3VL37 25-3...
100
50
BD2A(C)-400 400 3VL47 40-1... 45 45 3VL47 40-2... 70 45 3VL47 40-3... 100 45
BD2A(C)-630 630 3VL57 63-1DC36 45 45 3VL57 63-2DC36 70 70 3VL57 63-3DC36 100 100
BD2A(C)-800 800 3VL57 80-1SE36 - 50 3VL57 80-2SE36 70 70 3VL57 80-3SE36 100 100
BD2A(C)-1000
1000
3VL77 10-1SE36
-
50
3VL77 10-2SE36
70
60
3VL77 10-3SE36
100
60
BD2C-1250
1250
3VL77 12-1SE36
-
50
3VL77 12-2SE36
70
60
3VL77 12-3SE36
100
60
1)
The tripping characteristic of the protective device must be selected as appropriate for the short-circuit rating of the
busbar systems, the type of system, the type and number of loads, as well as in line with country-specific regulations
and type series. This table contains only a brief overview of BD2 on the use of circuit breakers for protection against
short-circuit and overload, and it is intended only as a recommendation. We always recommend that you carry out a
calculation using the SIMARIS design network tool to determine the appropriate protection. Please contact our TIP spe-
cialists for this purpose.
2)
The values for the conditional rated short-circuit current
I
cc apply for the busbar trunking systems without taking account
of the tap-off units.
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7.1.3
Loop impedance
As the level of loop impedance is decisive as regards the magnitude of the 1-pole short-
circuit current, DIN VDE 0100-600 prescribes that loop impedance must be determined
between:
Phasel conductor and protective conductor or
Phase conductor and PEN conductor
The value can be determined by means of:
Measurements taken using measuring instruments
Calculation
Simulating the network in the network model
The loop impedances of a busbar trunking system represent part of the total loop
impedance. You can find the impedance values for calculating the loop impedances of a
busbar trunking system in the following chapters:
For the BD2 busbar trunking system in the chapter titled "Technical specifications
(Page 62)"
For the LD busbar trunking system in the chapter "Technical specifications (Page 128)"
For the LI busbar trunking system in the chapter "Technical specifications (Page 197)"
For the LR busbar trunking system in the chapter "Technical specifications (Page 252)"
Calculating the loop impedance of all contributory equipment in a system (incoming power
supply, transformers, distribution boards, cable runs, etc.) takes a great deal of time and
effort. In this regard, planning time and effort can be reduced significantly by using a
dimensioning program such as SIMARIS design which stores the necessary data for most
common electrical equipment in a database.
7.1.4
Degrees of protection for busbar trunking systems
Use in areas at risk of fire
In areas at risk of fire, in accordance with European standard HD 384.4.482 S1, increased
requirements are placed on the degree of protection to be afforded for electrical equipment.
In the event of a fire risk due to the nature of the materials being processed or stored, the
minimum degree of protection must be equivalent to IP5X if there is a potential for dust
accumulation. If dust is not to be expected, national regulations shall apply accordingly.
The risk prevention arm of the association of German insurers sets out the following
requirements:
In the event of a fire risk due to dust and/or fibres: IP5X degree of protection
In the event of a fire risk due to other readily flammable solid foreign bodies with a
diameter of 1 mm or more: IP4X degree of protection
SIVACON 8PS busbar trunking systems meet these requirements. They are therefore
suitable for such applications.
Further information about planning
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7.1.5
Degrees of protection for electrical equipment in accordance with
IEC / EN 60529
Degree
of pro-
tection
1st code no.
2nd code no.
Touch protection
Protection against solid for-
eign bodies and dust
Protection against ingress of liquid
IP00
No special protection
No special protection
No special protection
IP20 Against finger contact Against solid particles ≥
12.5 mm
No special protection
IP34 Against tools Against solid particles ≥
2.5 mm
No damage caused by splashwater
IP41 Against wire Against solid particles ≥ 1 mm No damage caused by dripping water (vertical
drops)
IP43 Against wire Against solid particles ≥ 1 mm Protected against damage caused by water
spray
IP54 Against wire Against hazardous dust de-
posits inside (dust-tight)
No damage caused by splashwater
IP55 Against wire Against hazardous dust de-
posits inside (dust-tight)
No damage caused by water jet
IP65 Against wire Against penetration of dust
(dust-tight)
No damage caused by water jet
IP66 Against wire Against penetration of dust
(dust-tight)
In the event of temporary immersion, ingress of
water will have no harmful effects (water jet)
IP67 Against wire Against penetration of dust
(dust-tight)
Water may not ingress in harmful quantities
during immersion (temporary immersion)
IP68 Against wire Against penetration of dust
(dust-tight)
Water may not ingress in harmful quantities
during immersion for indefinite periods
(continuous immersion)
Protection against direct contact according to DIN EN 50274
These regulations must be complied with when dimensioning and laying out electrical
equipment in electrical systems with rated voltages up to 1000 V AC or 1500 V DC with
regard to protection against direct contact, insofar as actuators (pushbuttons, rockers, etc.)
are located in the vicinity of touch-hazardous parts.
“Finger-safe" touch protection only applies to the actuator in the actuating direction.
Measured from the central point, a clearance with a radius of r = 30 mm must be maintained
between the actuator and touch-hazardous parts. Degree of protection IP20 is more than
“finger-safe" touch protection. It includes touch protection of electrical equipment from all
directions. For devices with “finger-safe" touch protection and IP00 degree of protection,
direct contact protection can be provided on request in the form of covers.
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7.1.6
Notes on empty tap-off units up to 630 A
Important information on the tap-off units, prepared for installation of SENTRON 3VL moulded case
circuit breakers and for free assembly
At the customer's request, the SIVACON 8PS … tap-off unit is supplied as an empty tap-off
unit without installation of additional devices such as switching devices. As an empty tap-off
unit, the tap-off unit was installed expertly by Siemens and tested in accordance with
IEC 61439. Customers must configure the empty tap-off unit and finally equip it under their
own responsibility. This includes selection of the switching devices.
Note
Observe the notes and instructions of Siemens as the manufacturer of the empty tap
-off unit.
Responsibility and risks for use of the empty tap-off unit lie solely with the purchaser.
Purchasers must comply with all applicable regulations in their countries. In particular, it is
the purchaser's own responsibility to comply with the product safety law.
Purchasers are solely responsible for conclusive routine testing of a finally equipped tap-
off unit and for its warranty.
Purchasers accept the obligation to release Siemens from all third-party claims arising
from the customer-equipped tap-off unit.
For each tap-off unit, the scope of supply includes configuration instructions for installed
devices and assembly instructions for plugging on to the busbar trunking system.
WARNING
Electrical Voltage. Improper working on the empty tap-off unit can lead to severe injury
or death.
Perform all modification and expansion work only after removing the empty tap-off unit,
i.e. after it is no longer connected electrically to the busbar trunking system.
Observe the five safety rules.
Only appropriately trained and qualified specialists may perform modification and
expansion work on the empty tap-off unit.
WARNING
Failure to observe the maximum permissible data can lead to severe injury or death.
For safety reasons, the maximum permissible data specified in the configuration
instructions must not be exceeded.
The finally configured tap-off unit with 3VL moulded case circuit breaker corresponds to
the type test of the comparable factory-equipped tap-off unit only if devices have been
installed in compliance with the configuration instructions and conditions.
Availability and sales of empty tap-off units are regionally limited. Permission and release
must be coordinated and obtained separately for each region from the central sales
departments at head office.
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7.1.7
Distribution systems
Determining the protective measure and selecting the electrical equipment appropriate for your
distribution system
TN systems
TN-S system: The neutral conductor and protective conductor function are separate
throughout the system.
Exposed part
Figure 7-1 TN-S system
TN-C system: The neutral conductor and protective conductor function are combined
throughout the system.
Exposed part
Figure 7-2 TN-C system
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TN-C-S system: Hybrid neutral conductor and protective conductor function. In one part of
the system they are combined, in the other part they are separate.
Exposed part
Figure 7-3 TN-C-S system
TT system
In TT systems, one point is directly earthed; the exposed parts of the electrical installation
are connected to earth electrodes which are isolated from the system earth electrode.
Exposed part
Figure 7-4 TT system
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IT system
The IT system has no direct link between active conductors and earthed parts; the exposed
parts of the electrical installation are earthed.
Today's IT systems feature protective measures in the form of a protective-conductor
system.
Exposed part
Impedance
Figure 7-5 IT system
First letter: Earthing condition of the incoming current source
T =
Direct earthing of a point
I =
Either insulation
of all active parts from earth or connection between a point and
earth via an impedance
Second letter: Earthing condition of the exposed parts of the electrical installation
T =
Exposed part directly earthed
regardless of whether or not a point in the power sup-
ply is earthed
N =
Exposed part linked directly to system earth
, in alternating voltage systems, the
earthed point is usually the star point.
Additional letters = Arrangement of the neutral conductor and the protective conductor
S =
Neutral conductor and protective conductor functions via separate conductors
C =
Neutral conductor and protective conductor functions combined
in a single conductor
(PEN)
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7.2
Planning example
Power distribution board
Busbar trunking system
Tap-off point
Figure 7-6 Power supply for a high rise building
Planned values
No. of floors
15 (of which 8 are residential units)
Effective installed loads per residential unit
26 kW
Rated operating voltage
U
e
400 V
Power factor cos φ
0.9
Load factor α
0.6
Utilization factor β
0.5
Supply transformers
1 x 1250 kVA,
U
k = 6 %
Degree of protection
IP30 / IP54
Line system configuration
TN-S
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7.2 Planning example
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Determining the rated current per floor
I
nS
= Rated current per storey (A)
U
e
= Rated operating voltage (V)
cos
φ
= Power factor
Pinst
= Installed power rating [kW]
α
= Rated diversity factor
Determining the rated current of the trunking run
I
n
= N ·
I
nS· β
I
n = 15 · 200 · 0.5 = 1500 A
I
n
I
e
The rated diversity factor in accordance with IEC / EN 61439-1 applies for the total number
of loads and the demand factor for the type of load. In the absence of precise figures for the
demand factor, reliable empirical values can be obtained from local utility companies.
However, these vary from region to region. Average values are listed in the table below:
Type of load
β
Residential accommodation with electric ovens and water heaters
0.10.2
Off-peak storage heating
0.8 … 1
Lighting in office blocks and commercial buildings
0.70.9
Lifts and and general facilities
0.60.8
Conference rooms
0.60.8
Small offices
0.50.7
Large offices
0.40.8
In accordance with the system selection criteria based on technical data and areas of
application in the chapter "Planning principles (Page 19)", the LI high-voltage system is used
in the planning for this example (power distribution in multi-storey buildings with primarily
vertical trunking layout).
Combining the assessment criteria and calculations results in an LI-A busbar system being
selected with 5 conductors and full neutral conductor cross section, a current carrying
capacity of 1600 A and a short-circuit rating of
I
cw (t = 1 s) 65 kA.
Selected busbar system:
LI-A.1600
Tap-off units with 3-pole 250 A fuse switch disconnectors (designed for use with NH1 fuse
links) are used to supply power to the distribution boards on each floor.
Selected tap-off unit:
LI-T-0250-5H-55-FSF-IEC-3-RD-G-BD-00
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7.3
Functional endurance
7.3.1
Applicable regulations
"Fire prevention devices and fire prevention measures" for electrical installations are
required in particular in buildings of special types and used for special purposes. Examples
of these types of building include hospitals and public buildings. In this regard,
DIN VDE 0100-560 relating to buildings and structures for public use and DIN VDE 0100-710
(previously DIN VDE 0107) relating to medical locations, and/or legal requirements specify
that the electrical installations in such buildings must maintain functional endurance for
specific lengths of time even in the event of a fire. This requirement affects the following
equipment in particular:
Fire alarm systems
Systems for alerting and providing instructions to visitors and employees
Emergency lighting
Passenger lifts with evacuation circuits that assure functional performance for at least
30 minutes in the incoming cable area under full fire conditions
Water pressure boosting systems for the supply of extinguishing water
Ventilating systems of safety stairwells, fire department lifts and machine rooms where
functioning must be guaranteed for at least 90 minutes.
To be able to offer the required functional endurance for busbar trunking systems, we have,
for example (in some cases working together with Promat), had the BD2, LD, LI and LR
busbar trunking systems tested successfully at the Materials Testing Institute in
Braunschweig and Leipzig in Germany.
During fire testing the busbar trunking systems concerned (housed in Promatect plate
casings of varying thicknesses) were subjected in this respect to an external fire load in
compliance with the standard temperature curve (STC) to evaluate functional endurance to
DIN 4102-12.
Figure 7-7 Standard temperature curve (STC) to evaluate functional endurance
Further information about planning
7.3 Functional endurance
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7.3.2
Versions
Special components for the functional endurance channel as well as the carrier construction
for the channel and BD2, LD, LR and LI busbar trunking systems are vital to compliance with
functional endurance requirements. The design of the channel (barriers on 4 and 3 sides)
and the carrier construction (fixing with threaded rods or wall-mounted cable brackets) can
vary depending on ambient conditions. Observance of/compliance with the specifications of
test certification issued by planning authorities is mandatory:
Observance of the maximum permissible clearances between the mounting points, and a
maximum permissible tensile stress of 6 N / mm²
Use only fixing accessories approved by planning authorities and barrier material incl.
barrier accessories. This material must be provided by the customer and is not included
in the scope of supply of the busbar trunking system.
The following versions can be considered:
Functional endurance with barrier on 4 sides
Functional endurance with barrier on 3 sides
1)
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Busbar syste
m
Casing, functional endurance
Casing on external lateral connections (joint edges)
Load distribution plate
Threaded rod (M12/M16)
Cable bracket according to statics
Carrier according to statics
All the information you need about the nature and types of barrier and component, as well as
a detailed description of carrier constructions, is contained in the planning authority test
certificates. Prior to planning, these test certificates must be requested from the product
manager.
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Table 7- 2 Reduction factors for functional endurance for the BD2 and LD systems
System
Functional
endurance
class 5)
Density d
[mm]/PROMATE
CT plate type
External dimen-
sions 2) 2a) of the
Promat duct
(W [mm] x H
[mm])
Reduction factor 3) according to functional
endurance class and mounting position
Horizontal
Vertical
Edgewise4)
Flat
BD2A-160400
E60
40/L500
288 x 190
0.75
0.7
0.7
E90
50 / LS
308 x 210
0.7
0.65
0.65
BD2A-6301000
E90
40/L500
250 x 300
0.75
0.7
0.7
BD2C-160400
E30E90
45 / LS
300 x 200
0.75
0.65
0.65
BD2C-6301250
E30E90
45 / LS
300 x 260
0.75
0.65
0.65
Material Testing Institute, Braunschweig, Germany
LDA1LDA3 / LDC2,
LDC3 (IP34)
E30
20/L500 260 x 260 0.57 (Al)
0.58 (Cu)
- -
E60
E30
40/L500 300 x 300 0.5 (Al)
0.52 (Cu)
- -
E60
E90
LDA4LDA8 /
LDC6LDC8 (IP34)
E30
20/L500 320 x 260 0.57 -
-
E60
E90
Material Testing Institute, Leipzig, Germany
LDA1LDA3 / LDC2,
LDC3 (IP34)
E30
45 / LS 310 x 320 0.5 (AI)
0.52 (Cu)
- 0.5 (AI)
0.48 (Cu)
E60
E90
LDA4LDA8 /
LDC6LDC8
(IP34)
E30
45 / LS 370 x 320 0.45 - 0.44 (AI)
0.48 (Cu)
E60
E90
1)
Versions with 3 barriers available for Germany on request.
2)
External dimensions are valid for versions with 4 barriers. Dimensions for versions with 3 barriers are available on
request.
2a)
LD system: The external dimensions apply for versions with 4 barriers without external lateral connection (bushing).
Dimensions for versions with 3 and 2 barriers as well as for versions with ventilation flaps are available on request.
3)
The reduction factors are based on the rated current and an ambient temperature of 35 °C (24-hour average), and in the
case of the LD system, additionally on freely ventilated ducts. In the case of temperature deviations, take account addi-
tionally of the valid reduction factors.
4)
Mounting position horizontal edgewise.
5)
LD system: Functional endurance class E120 has been tested based on the testing standard DIN 4102-12. However,
according to the standard, the maximum functional endurance class is only E90.
Further information about planning
7.3 Functional endurance
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Table 7- 3 Reduction factors for functional endurance for the LI system
System
Functional endur-
ance class
Density d [mm]
Dimensions2)
Reduction factor 3) for all positions
Plate type
PROMATECT
W [mm] x H [mm]
Channel length functional endurance
> 3.20
3.20 m
LI-A.0800…
E15E90 45 / LS 300 x 240
0.55
0.61
LI-C.1000…
0.57
0.62
LI-A.1000…
E15E90 45 / LS 300 x 260
0.56
0.62
LI-C.1250…
0.53
0.58
LI-A.1250…
E15E90 45 / LS 300 x 280
0.53
0.58
LI-C.1600…
0.52
0.57
LI-A.1600…
E15E90 45 / LS 300 x 310
0.52
0.58
LI-C.2000…
0.52
0.57
LI-A.2000…
E15E90 45 / LS 300 x 360
0.56
0.61
LI-C.2500…
0.48
0.53
LI-A.2500…
E15E90 45 / LS 300 x 430
0.55
0.61
LI-C.3200…
0.54
0.59
LI-A.3200…
E15E90 45 / LS 550 x 310
0.57
0.59
LI-C.4000…
0.50
0.53
LI-A.4000…
E15E90 45 / LS 550 x 360
0.55
0.58
LI-C.5000…
0.52
0.55
LI-A.5000…
E15E90 45 / LS 550 x 430
0.54
0.57
LI-C.6000…
0.58
0.61
1)
Versions with 3 barriers available for Germany on request.
2)
External dimensions are valid for versions with 4 barriers. Mounting position horizontal edgewise. Dimensions for ver-
sions with 3 barriers are available on request.
3)
The reduction factors are based on the rated current and an ambient temperature of 35 °C (24-hour average). In the
case of temperature deviations, take account additionally of the valid reduction factors.
BD2 (trunking unit)
LD, LI (trunking conductor)
Further information about planning
7.4 Fireproof barrier
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7.4
Fireproof barrier
7.4.1
Busbar trunking system with fireproof barrier
German building regulations (or other national regulations) require that buildings are
constructed in such a way as to "prevent the development and spread of fire and fumes and
make possible the rescue of persons and animals as well as fire fighting". Accordingly,
neither fire nor fumes are permitted to spread from one floor or fire area to another.
The BD01, BD2, LD, LI and LR busbar trunking systems can be equipped with fireproof
barriers. Fireproof barriers are generally subject to the device standard IEC / EN 61439-6
and national regulations, and these can differ from each other. For this reason, we
recommend that you contact your SIEMENS representative in the planning phase.
The systems meet the requirements for proving fire resistance duration as per the fire
resistance class specifications in ISO 834-1 in accordance with IEC / EN 61439-6.
Permissible surface temperature on components (on the opposite side to the fire) max. 180K
above the starting temperature
Area on fire: Fire in accordance with standard temperature curve DIN 4102, Sheet 2 or
DIN EN 1363-1
Permissible temperature increase of escaping air max. 140°C
Flammable gases must not be allowed to escape. No fumes likely to impair rescue attempts
must be allowed to escape
Figure 7-8 Conditions for busbar trunking systems
Further information about planning
7.4 Fireproof barrier
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7.4.2
Versions
Unlike cable trunking, the busbar trunking systems are supplied ex-works with a fireproof
barrier. The fireproofing consists of an inner and outer barrier or an outer barrier only
depending on the busbar trunking system.
The fireproof barriers are compliant with fire resistance classes S60, S90 and S120 in
accordance with DIN 4102-9 dependent upon version and type (EI60, EI90 and EI120
available soon).
The fireproof barrier can be installed in the busbar trunking system at the factory (BD2, LD),
added on site (BD01, LI, LR), or omitted completely (LR). Please note the section "Special
conditions for the German market" in this regard.
The type of installation is determined by the structure of the busbar trunking system and the
required fire resistance class, as you can see from the overview below (the figures ignore the
minimum clearances between the fireproof barrier and the wall, and the fireproof mortar):
Without external fireproof barrier, in the
centre of the wall/ceiling
Without external fireproof barrier, in the
centre of the wall/ceiling
With external fireproof barrier on the
wall/ceiling
Busbar system
Outer fire barrier
Examples
BD2A with inner fire protection S90
(Wall thickness ≥ 35 cm)
BD2A with inner fire protection S120
(Wall thickness ≥ 35 cm)
BD2A / BD2C: S120
(Wall thickness < 35 cm)
LR: S901)
LR: S1201)
BD01: S90
LD: S120
LI: EI90; EI120
BD01: S90
(Fire protection installed on both sides)
1)
Fire protection from the LR system is installed on-site after sealing the wall/ceiling with fillers. There is usually no outer
fire protection in the wall/ceiling for the LR system.
Further information about planning
7.4 Fireproof barrier
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Fire resistance classes
System
Fire resistance class
S60
S90
S120
BD01
1
1
-
BD2A / BD2C
2
2
3
LDA / LDC 3 3 3
LI-A / LI-C single systems
4
4
4
LI-A / LI-C double systems 4 4 4
LRA / LRC
5
6
7
1:
Locally installable fire protection kit for S90 and S60 for installation in a solid
wall/ceiling or stud wall.
2:
Fire barrier installed in the system at the factory for S90 and S60 for installation in a
solid wall/ceiling.
3:
Fire barrier installed in the system at the factory for S120 for installation in a solid
wall/ceiling.
4:
Locally installable fire protection kit for EI90 and EI120 for installation in a solid
wall/ceiling.
5:
S60 without system
-specific fire barrier for installation on solid wall/ceiling. Test certifi-
cates are available.
6
Protective coating to be applied locally for S90 for installation on solid wall/ceiling. Test
certificates are available.
7:
Protective coating to be applied locally and fire protection kit for S120 for installation on
solid wall/ceiling.
Special conditions for the German market:
The versions for fire barriers described here were created on the basis of tests passed in
accordance with DIN 4102 Part 9 or EN 1366-3. In Germany, fireproof barriers must possess
general planning authority approval or a European technical approval. These are issued by
the German Institute for Civil Engineering in Berlin. All divergences from the approval must
be clarified with the product manager for the purpose of applying to the respective regional
building authority for agreement in individual cases if necessary.
Fire safety tests have been carried out successfully for the installation of fireproof barriers in
stud walls for the BD01, BD2, LD and LI systems. Please contact the relevant product
manager for more detailed information about designs and approvals.
Further information about planning
7.4 Fireproof barrier
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7.4.3
Cut-outs
Recommended dimensions for solid wall and solid ceiling cut-outs
System
a [cm]
b [cm]
BD01
19
13
BD2A (160400)
BD2C (160400)
20
9
BD2A(630 … 1250)
BD2C (6301250)
20
15
LDA1LDA3
LDC2LDC3
40
40
LDA4LDA8
LDC6LDC8
45
40
LI-A.0800...
LI-C.1000...
35
31
LI-A.1000...
LI-C.1250...
35
33
LI-A.1250...
LI-C.1600...
35
35
LI-A.1600...
LI-C.2000...
35
38
LI-A.2000...
LI-C.2500...
35
43
LI-A.2500...
LI-C.3200...
35
50
LI-A.3200...
LI-C.4000...
61
38
LI-A.4000... LI-C.5000... 61 43
LI-A.5000... LI-C.6300... 61 50
LRA01LRA03
LRC01LRC03
19
19
LRA04..
LRC04..
22
21
LRA05
LRC05
22
23
LRA06
LRC06
22
25
LRA07..
LRC07..
22
29
LRA08..
LRC08..
22
33
LRA09..
LRC09..
22
37
LRA27..
LRC27..
22
48
LRA28..
LRC28..
22
56
LRA29..
LRC29..
22
64
Further information about planning
7.5 Planning runs
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Note
Following installation, you must fill the space between the busbar trunking system or the fire
protection block and the wall or ceiling cut
-out with non-combustible material such as
concrete or mortar to the thickness of the wall or ceiling. The concrete or mortar must comply
with the applicable regulations to maintain the fire resistance class of the wall or ceiling, (e.g.
EN
206-1 and EN 998-2).
Note
Minimum clearance
For the installation of SIVACON 8PS busbar systems with fire protection, a minimum
clearance of 5 cm must be maintained between the system or system fire protection and the
structure in the cut
-out. This ensures that there is sufficient space to mount the
run, the fixing
brackets and for filling with mortar.
7.5
Planning runs
7.5.1
Space requirements for horizontal installation
To simplify the mounting of the trunking units and the tap-off units, minimum clearances
must be observed between the runs and the building structure during planning.
Minimum dimensions for busbar trunking systems with and without tap-off units including
system-compliant fixing brackets mounted horizontally on cable racks or wall-mounted cable
brackets:
Busbar trunking systems without tap
-off units
(Horizontal installation)
Busbar trunking systems with tap
-off units
(Horizontal installation)
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7.5 Planning runs
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Space requirements
System
Clearances1)
a [cm]
b2) [cm]
c [cm]
d3) [cm]
BD2A (160400)
BD2C (160400)
10
16 (20)
30
62
BD2A(630 … 1000)
BD2C (6301250)
10
28 (24)
30
68
LDA1LDA3
LDC2LDC3
10
36
35
100
LDA4LDA8
LDC6LDC8
10
36
38
100
LI-A.0800...
10
21 (26)
38
121
LI-A.1000...
10
23 (26)
38
123
LI-A.1250...
10
25 (26)
38
125
LI-A.1600...
10
28 (26)
38
128
LI-A.2000...
10
33 (26)
38
133
LI-A.2500...
10
40 (26)
38
140
LI-A.3200...
10
28 (51)
38
128
LI-A.4000...
10
33 (51)
38
133
LI-A.5000...
10
40 (51)
38
140
LI-C.1000...
10
21 (26)
38
121
LI-C.1250...
10
22 (26)
38
122
LI-C.1600...
10
25 (26)
38
125
LI-C.2000...
10
27 (26)
38
127
LI-C.2500...
10
31 (26)
38
131
LI-C.3200...
10
38 (26)
38
138
LI-C.4000...
10
27 (51)
38
127
LI-C.5000
10
31 (51)
38
131
LI-C.6300...
10
38 (51)
38
138
LRA01LRA03 LRC01LRC03 10 59 (62) 4) 4)
LRC04.. 10 62 (62) 4) 4)
LRA05LRA06
LRC05LRC06
10
65 (62)
4)
4)
LRA07..
LRC07..
10
69 (62)
4)
4)
LRA08..
LRC08..
10
72 (62)
4)
4)
LRA09..
LRC09..
10
74 (62)
4)
4)
LRA27..
LRC27..
10
88 (62)
4)
4)
LRA28..
LRC28..
10
94 (62)
4)
4)
LRA29..
LRC29..
10
98 (62)
4)
4)
1)
Clearances are valid for horizontal edgewise mounting of the busbar trunking systems without taking the enclosure
dimensions of incoming cable connection units into account.
2)
The dimensions in brackets are valid for horizontal flat mounting of the busbar trunking systems without taking the
enclosure dimensions of incoming cable connection units into account.
3)
The clearances are dependent upon the dimensions of the tap-off units. Dimensions are available on request for hori-
zontal flat mounting of trunking units and suspended tap-off units.
4) The clearances are dependent on the dimensions of the tap-off units. Specifications available on request.
Further information about planning
7.5 Planning runs
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7.5.2
Space requirements for vertical installation
Minimum dimensions are specified for busbar trunking systems with and without tap-off
units. The system-specific fixing brackets (not illustrated) have been taken into account in
the dimensions specified.
Busbar trunking systems with ta
p-off unit
(Vertical installation)
Busbar trunking systems without tap
-off units
(Vertical installation)
Space requirements
System
Clearances 1)
a [cm]
b2) [cm]
c [cm]
d4) [cm]
e [cm]
BD2A (160400)
BD2C (160400)
5
2)
(3)
3)
19
10
116
30
BD2A (6301250)
BD2C (6301250)
5
2)
(3)
3)
31
10
120
30
LDA1LDA3
LDC2LDC3
10
2)
(2)
3)
46
10
146
35
LDA4LDA8
LDC6LDC8
10
2)
(2)
3)
46
10
146
38
LI-A.0800...
10
2)
(6)
3)
21
15
131
38
LI-A.1000...
10
2)
(6)
3)
23
15
133
38
LI-A.1250...
10
2)
(6)
3)
25
15
135
38
LI-A.1600...
10
2)
(6)
3)
28
15
138
38
LI-A.2000...
10
2)
(6)
3)
33
15
143
38
LI-A.2500...
10
2)
(6)
3)
40
15
150
38
LI-A.3200...
10
2)
(6)
3)
28
15
138
38
LI-A.4000...
10
2)
(6)
3)
33
15
143
38
LI-A.5000...
10
2)
(6)
3)
40
15
150
38
LI-C.1000...
10
2)
(6)
3)
21
15
131
38
LI-C.1250...
10
2)
(6)
3)
22
15
132
38
LI-C.1600...
10
2)
(6)
3)
25
15
135
38
LI-C.2000...
10
2)
(6)
3)
27
15
137
38
LI-C.2500...
10
2)
(6)
3)
31
15
141
38
LI-C.3200...
10
2)
(6)
3)
38
15
148
38
LI-C.4000...
10
2)
(6)
3)
27
15
137
38
LI-C.5000...
10
2)
(6)
3)
31
15
141
38
LI-C.6300...
10
2)
(6)
3)
38
15
148
38
LRA01LRA03
LRC01LRC03
10
2)
69
10
5)
5)
Further information about planning
7.5 Planning runs
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System
Clearances 1)
a [cm]
b2) [cm]
c [cm]
d4) [cm]
e [cm]
LRC04..
10
2)
72
10
5)
5)
LRA05LRA06
LRC05LRC06
10
2)
75
10
5)
5)
LRC07..
10
2)
79
10
5)
5)
LRC08..
10
2)
82
10
5)
5)
LRC09..
10
2)
84
10
5)
5)
LRC27..
10
2)
98
10
5)
5)
LRC28..
10
2)
104
10
5)
5)
LRC29..
10
2)
108
10
5)
5)
1)
The enclosure dimensions of incoming cable connection units have not been taken into account.
2)
Clearances apply as minimum dimensions taking into account the recommended cut-out dimensions for fireproof barri-
ers in the ceiling and flush connection between the cut-out and the wall.
3)
The reduced dimensions in brackets apply for trunking units without fireproof barriers and are based on space require-
ments for vertical fixing brackets. If local conditions vary, fillers will need to be used on site.
4)
The clearances are dependent upon the dimensions of the tap-off units. The dimensions specified apply for the availa-
ble tap-off units max. size. Specifications for the use of smaller sizes are available on request.
5) The clearances are dependent upon the dimensions of the junction boxes. Data on request.
Further information about planning
7.5 Planning runs
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7.5.3
Fixing brackets for vertical mounting
System-specific fixing brackets have to be used to mount the trunking units.
System
Type of bracket
Function
Fixing distances2)
BD2A / BD2C1)
Fixing bracket with weight
carrying capacity (-BVW)
Support of weight of run
For wall mounting
For ceiling mounting (-BDV)
7.5 m:
up to 400 A
5 m: 630 A
4 m:
800 A … 1000 A
3.25 m: 1250 A
Fixing bracket with weight
carrying capacity (-BVF)
Support of weight of run
For wall mounting
At every joint block
connecting flange
(max. 3.25 m)
Spacer brackets (-BD) for
busbar runs and distance
compensation
Spacer (-DSB)
Fix clearance from building
For wall mounting
Dependent upon local
conditions and planning
LDA / LDC1)
Fixing bracket with weight
carrying capacity (-BV)
Support of weight of run
For wall mounting
At every trunking unit
(max. 3.20 m)
Further information about planning
7.5 Planning runs
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System
Type of bracket
Function
Fixing distances2)
LI-A / LI-C
Fixing bracket with weight
carrying capacity
Support of weight of run
Permit proper movement
For wall mounting
For ceiling mounting
At an average storey height
of 3.40 m to 3.90 m 1 bracket
per storey
Fixed point bracket
Fixing the run to the building
For wall mounting
Dependent upon local condi-
tions and planning
LRA / LRC
Fixing bracket with weight
carrying capacity (-BVW)
Support of weight of run
Permit proper movement
For wall mounting
For ceiling mounting (-BVD)
At an average storey height
of 3.40 m to 3.90 m 1 bracket
per storey
Fixed point bracket (-BF)
Fixing the run to the building
For wall mounting
For ceiling mounting (-BVD)
Dependent upon local
conditions and planning
Further information about planning
7.5 Planning runs
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System
Type of bracket
Function
Fixing distances2)
Sliding bracket (-BGW)
Fix clearance from building
Permit proper movement
For wall mounting
Dependent upon local
conditions and planning
1)
Fixed point brackets are not required due to the type of system.
2) These are recommendations for planning. Please refer to the planning guidelines for max. permissible fixing distances.
Further information about planning
7.5 Planning runs
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7.5.4
Fixing brackets for horizontal installation
System
Type of bracket
Function
Fixing distances2)
BD2A / BD2C1)
Fixing bracket (-BB)
Run supported or borne
For wall mounting
For ceiling mounting
using U-supports or H-
supports
For wall mounting using
spacers
For fixing on walls and
pipe cable brackets
3.25 m: up to 630 A (1 x
mount per trunking unit)
2.5 m: up to 1000 A
For BD2C and mounting
using spacer brackets see
Technical specifications
(Page 62)
LDA / LDC1)
Suspension bracket (-B.)
Bearing the weight of
the run
For mounting on U-
supports or H-supports
1 x mount per trunking unit
for LDA up to 4000 A and
LDC up to 4400 A (IP34)
2 m for 5000 A (IP34)
Terminal clamp (supplied by the customer)
For fixing on walls and
pipe cable brackets
As suspension bracket
LI-A / LI-C
Fixing bracket with weight carrying capacity
(-BH and -BK)
Support of weight of run
Permit proper move-
ment
For mounting on ceil-
ings using threaded
rods
Mounting on wall using
wall and pipe cable
brackets
2 m for flat mounting posi-
tion
3 m for edgewise mounting
position
Further information about planning
7.5 Planning runs
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System
Type of bracket
Function
Fixing distances2)
Fixed point bracket (-BVF..)
Fixing the run to the
building
For wall and ceiling
mounting
For mounting on fixed
point consoles (-K)
Dependent upon local con-
ditions and planning
LRA / LRC
Fixing bracket with weight carrying capacity
(-BVW)
Support of weight of run
Permit proper move-
ment
For wall mounting
For ceiling mounting
(-BVD)
1.5 m
Fixed point bracket Fixing the run to the
building
For wall mounting
For ceiling mounting
Dependent upon local con-
ditions and planning
1)
Fixed point brackets are not required due to the type of system.
2)
These are recommendations for planning. For the maximum permissible fixing distances, please refer to the technical
data tables.
Further information about planning
7.5 Planning runs
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7.5.5
Carrier constructions
Mounting types
The variety of local structural conditions is reflected in the large number of different technical
options for carrier constructions. The most common of these are listed below:
Ceiling: suspended installation
Threaded rods or C profiles
C profiles or top plates
Dowels
Terminal clamp
Further information about planning
7.5 Planning runs
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Wall: supported installation
Various beams in accordance with static requirements
Further information about planning
7.5 Planning runs
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Floor: elevated installation
Most stands consist of C profiles with connectors or profiles and appropriate accessories.
For more information about system mounting, please refer to the relevant project planning
and installation manuals.
Further information about planning
7.6 Magnetic fields
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7.6
Magnetic fields
General information
Due to their physical characteristics, busbars designed for power distribution and
transmission generate pulsating electromagnetic fields in their vicinity with a fundamental
frequency of 50 Hz. These magnetic fields can impair the ability of sensitive equipment such
as computers or metering instruments to function in full working order.
Limits
EMC directives and the associated standards do not set out requirements or
recommendations for the planning of busbar trunking systems. DIN VDE 0100-710 can be
consulted in relation to busbar trunking systems used in hospitals.
DIN VDE 0100-710 defines limits for line frequency magnetic fields in hospitals. For
example, at 50 Hz, the magnetic induction around a patient's bed must not exceed the
following values:
B= 2 x 10-7 tesla for EEG
B = 4 x 10-7 tesla for ECG
The limit for inductive interference between multi-core cables and lines in a high voltage
installation (conductor cross section > 185 mm2) and the patient beds to be protected is
safely undershot if the minimum clearance of 9 m recommended in DIN VDE 0100-710 is
complied with.
When using busbars, this clearance can generally be reduced, since the busbar systems are
designed to effectively reduce the magnetic interference fields in the local vicinity.
Magnetic field measurements
However, in order to facilitate evaluation of the busbars to be used in the planning phase,
extensive magnetic field measurements have been taken in accordance with EN 61439-6.
The magnetic field emissions of the busbar systems were measured on a straight trunking
run that was 9.0 m long. With the busbars under a balanced rated current load, the magnetic
fields were measures in eight directions at intervals of 0.1 m and up to a clearance of 1 m.
Figure 7-9 Coordinate system for magnetic field measurement
Further information about planning
7.6 Magnetic fields
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Figure 7-10 BD2 magnetic fields for systems Al 250 A, 400 A, Cu 1250 A
Figure 7-11 BD2 load distance profile for 0.2 μT of systems Al 250 A, 400 A, Cu 1250 A
Further information about planning
7.6 Magnetic fields
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Figure 7-12 LDA magnetic fields for systems Al 1250 A, 2500 A and 4000 A
Figure 7-13 LDA magnetic fields for 0.2 μT of systems Al 1250 A, 2500 A and 4000 A
Further information about planning
7.6 Magnetic fields
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Figure 7-14 Interference field LI-A0800 to LI-A2500
Figure 7-15 Interference field LI-A3200 to LI-A5000
Further information about planning
7.7 Sprinkler test
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Figure 7-16 LI-A load distance profile for 0.2 μT - overview diagram
Diagrams for other sizes and for the LR system are available on request.
7.7
Sprinkler test
General information
Sprinkler systems are used for fire prevention and protection in buildings and industrial
facilities. Sprinkler systems are automatic fire extinguishing systems. They are designed to
detect the outbreak of fire at an early stage and extinguish it as quickly as possible. Once
activated for the purpose of extinguishing fire, such systems usually run for at least 30
minutes.
The BD2, LD and LI busbar trunking systems have been subjected to a sprinkler test. In the
absence of a binding standard, the tests were carried out based on a test structure reflecting
practical application (see diagram).
Further information about planning
7.7 Sprinkler test
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Test results
BD2 and LI
All mounting positions of the BD2 and LI busbar trunking systems were tested for water
resistance in degree of protection IP54 on the basis of the national risk prevention guidelines
for sprinkler systems issued in Germany. Insulation resistance measurements were taken
before and after the 90-minute sprinkling period and a high-voltage test was carried out in
accordance with IEC / EN 61439-6 . The equipment passed the test, proving that the busbar
system can be put back into operation immediately and without delay once the sprinkler
system has run its course.
LD
The LD busbar system with degree of protection IP34 and the associated tap-off units with
degree of protection IP54 were sprinkled with both horizontal and vertical trunking runs with
a 3/4" umbrella sprinkler and a 1/2" flat spray sprinkler at a water pressure of 6 bar. In order
to be able to assess electrical performance during testing, insulation resistance
measurements were taken during the course of the test. No operational failures occurred.
Even when subject to extreme water loads such as those associated with sprinkler systems,
the LD busbar system is able to remain in full working order. This operational reliability is
made possible on the one hand by the generous creepages and clearances and on the other
by the fact that water can drain away unhindered.
Sprinkler
Pressure gauge
Shut-off valve
Tap-off unit
Trunking unit
Figure 7-17 Diagram of sprinkler test
Further information about planning
7.8 Tools and services
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7.8
Tools and services
7.8.1
Engineering Tools - SIMARIS design
SIMARIS design
Software tool for fast, effective network designing and dimensioning of electrical power
distribution for utility and industrial buildings from the medium voltage supply to the load:
Dimensioning of electrical systems on the basis of real products in accordance with the
state of the art and applicable standards (VDE, IEC)
Automatic selection of the appropriate components from the stored product database
Option of saving frequently required modules in the Favourites library
High level of planning reliability coupled with flexibility in the planning and implementation
process
Option of automatic selectivity assessment with the professional version: selectivity limits
are automatically displayed in addition to the current-time curve and the relevant
envelope curves
Figure 7-18 SIMARIS design
Further information about planning
7.8 Tools and services
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7.8.2
Engineering Tools - SIMARIS project
SIMARIS project
Software tool for fast calculation of space requirements and the electrical power distribution
budget for utility and industrial buildings, as well as the drafting of tender specifications:
Automatic selection and positioning of the suitable systems using the parameters entered
Quick overview of space requirements and budget
System-wide planning from the medium voltage supply to the distribution board
Easy adaptation of project planning in specific cases, even with changes of use or
expansions
Saving of planned systems in the Favourites library for further use in similar projects
Automatic generation of specifications for planned systems
Figure 7-19 SIMARIS project
Further information about planning
7.8 Tools and services
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7.8.3
Engineering Tools - SIMARIS curves
SIMARIS curves
Software tool for visualizing and evaluating characteristic curves of low-voltage protective
devices and fuses (IEC) including the option of simulating device settings:
Visualisation of tripping characteristics, let-through current characteristics, and let-through
energy characteristics
Devices selected using order number or by entering known technical data via the
selection aids
Saving of frequently required devices as favourites
Saving of several characteristic curves including selected settings as overall project
Figure 7-20 SIMARIS curves
Further information about planning
7.8 Tools and services
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7.8.4
Engineering Tools - Further information on SIMARIS
Further information for electrical power distribution
You can find additional information on the Internet under: Totally Integrated Power
Figure 7-21 Start page "Consultant Support for Totally Integrated Power (TIP)"
The SIVACON 8PS busbar trunking systems are part of the comprehensive product portfolio
of Totally Integrated Power, the Siemens solution for system-wide electrical power
distribution in industrial applications, infrastructure, and buildings. With technical manuals
and software tools for planning power distribution, as well as online tender specifications, we
support you in the different planning phases.
You will find all these documents and information on our Homepage
(http://www.siemens.com/tip-cs).
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Glossary
Conditional rated short-circuit current (Icc) DIN EN 61439-1; 5.3.5, IEC / EN 61439-1
The conditional rated short-circuit current corresponds to the prospective short-circuit current
that a circuit in a switchgear and controlgear assembly, protected by a short-circuit protective
device, can carry without damage (for a certain time). The conditional rated short-circuit
current is therefore specified for tap-off units and/or infeeds with circuit breakers, for
example.
Rated control voltage (Uc) DIN EN 60947-1; 4.5.1
This is the voltage that is applied to the normally-open actuation contact in a control circuit. It
may deviate from the rated control supply voltage due to transformers or resistors in the
switching circuit.
Rated current (In) (of a circuit breaker) DIN EN 60947-2; 4.3.2.3
Current which, for circuit breakers, corresponds to the rated continuous current and the
conventional thermal current.
Rated uninterrupted current
Rated current (In) (of a circuit of a circuit breaker assembly) DIN EN 61439-1; 5.3.2
The rated current of a circuit of a switchgear and controlgear assembly is specified by the
manufacturer and depends on the rated values of the individual items of electrical equipment
in the circuit within the switchgear and controlgear assembly, their arrangement, and type of
use. The circuit must be able to carry the rated current without the overtemperatures on the
individual components exceeding the limit values defined in 9.2 (Table 6) when tested
according to 10.10.2.
Rated frequency DIN EN 60947-1; 4.3.3
Frequency for which switching devices are dimensioned and to which the other characteristic
data refer.
Rated operating voltage; rated uninterrupted current
Rated impulse withstand voltage (Uimp) DIN EN 60947-1; 4.3.1.3
Parameter for the resistance of clearances inside switching devices to impulse overvoltages.
Suitable switchgear can be used to ensure that deactivated parts of a system cannot
transmit overvoltages from the line on which they are used.
Glossary
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Rated insulation voltage (Ui) DIN EN 60947-1; 4.3.1.2
Voltage to which insulation tests and creepage paths apply. The maximum rated operating
voltage must, in no case, exceed the rated insulation voltage.
→ Rated operating voltage
Rated making capacity DIN EN 60947-1; 4.3.5.2
Current which can be switched on by a switching device with the respective rated operating
voltage in accordance with the utilisation category.
→ Rated operating voltage
Rated operating current (Ie) DIN EN 60947-1; 4.3.2.3
Current which can be carried by a switching device in consideration of the rated operating
voltage, the operating time, the utilisation category and the ambient temperature.
→ Rated operating voltage
Rated operating power DIN EN 60947-1; 4.3.2.3
The power that a switching device can switch at the assigned rated operating voltage in
compliance with the utilisation category, e.g. circuit breaker utilisation category AC-3: 37 kW
at 400 V.
Rated operating voltage (Ue) DIN EN 60947-1; 4.3.1.1
Voltage to which the characteristic values of a switching device apply. The maximum rated
operating voltage must, in no case, exceed the rated insulation voltage.
Rated insulation voltage
Rated peak withstand current (Ipk) DIN EN 61439-1; 5.3.3, IEC / EN 61439-1
As the peak value of the impulse current, the rated impulse withstand current characterises
the dynamic strength of a circuit belonging to a switchgear and controlgear assembly. The
rated short-time withstand current is usually specified for the trunking and/or main busbars of
a switchgear and controlgear assembly.
Rated service short-circuit breaking capacity (Ics) DIN EN 60947-2; 4.3.5.2.2
The short-circuit current dependent on the rated operating voltage that a circuit breaker is
capable of repeatedly breaking (test O - CO - CO, previously P - 2). After the short-circuit
breaking, the circuit breaker is able to continue to carry the rated current in the case of
increased self-heating and to trip in case of overload.
Rated uninterrupted current; rated operating voltage
Glossary
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Rated short-circuit breaking capacity (Icn) DIN EN 60947-1; 4.3.6.3
The highest current that a switching device can break at rated operating voltage and
frequency without damage. The value is stated as the rms value.
→ Rated operating voltage
Rated short-circuit current, conditional (Icc) DIN EN 60947-1; 2.5.29
Conditional rated short-circuit current (
I
cc)
Rated short-circuit making capacity (Icm) DIN EN 60947-1; 4.3.6.2
The highest current that a switching device can make at a specific rated operating voltage
and frequency without damage. Deviating from the other characteristic data, the value is
stated as the peak value.
→ Rated operating voltage
Rated short-time withstand current (Icw) DIN EN 61439-1; 5.3.4, IEC / EN 61439-1
As the effective short-circuit current value, the rated short-time withstand current
characterises the thermal strength of switchgear and controlgear assembly circuits during a
short-time load. The rated short-time withstand current is normally determined for a duration
of 1 s; divergent time values must be specified. The rated short-time withstand current is
specified for the trunking and/or main busbars of a switchgear and controlgear assembly.
Rated ultimate short-circuit breaking capacity (Icu) DIN EN 60947-2; 4.3.5.2.1
The maximum short-circuit current that a circuit breaker is capable of breaking (test O - CO,
previously P-1). After short-circuit breaking, the circuit breaker is capable of tripping under an
overload, with increased tolerances.
Rated uninterrupted current (Iu) DIN EN 60947-1; 4.3.2.4
The current that a switching device can carry during continuous operation (for weeks,
months or years).
Specification of rated values
The manufacturers of low-voltage switchgear and controlgear assemblies specify rated
values in compliance with DIN EN 61439-1. These rated values apply to specified operating
conditions and characterise the suitability of a switchgear assembly. Use these ratings for
coordination of the equipment and configuration of the switchgear assemblies.
Glossary
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Index
4
4-conductor system
Technical data, 253, 259
5
5-conductor system
Technical data, 256, 258, 262
A
Accessories, 160
Additional equipment, 27, 60, 127, 195, 250
Additional flange, 60
Additional weight, 148
Advance planning, 26
Air clearance and creepage distances, 306
Alternating voltage system, 277
Aluminium enclosure, 22
Ambient
temperature, 128, 145, 146, 162, 197, 210, 238, 252,
283
Ancillary equipment unit, 59
Angled trunking units, 43, 243
Anti-rotation feature, 52, 122
Application area, 32
Approval documentation, 17
Arc-fault-resistant load feeders, 32
Areas at risk of fire, 272
B
Bar connection
Side, 246
Top, 247
Bar supports, fitted, 111
Barrier, 282
BD01 system, 12, 15
BD2 system, 13
Benefits of the system solution, 18
Bolted connection, 120, 143, 147, 186, 211
Bus system, 12
Busbar, 22
Busbar connection unit for non-Siemens distribution
boards, 118, 209
Busbar run diagram, 14
Busbar surface treatment, 128, 197
Bushing protector, 100
C
Cable, 24
Cable bushing, 73
Cable cluster, 24
Cable compartment, 45, 123, 124
Cable connection, 221
Cable cross-section for lugs, 70
Cable entry, 73, 123, 124, 189, 211, 221
Cable entry plate, 71, 73, 220
Cable gland, 211
Cable infeed unit, 290
Cable loads, 24
Cable trunking, 24
Calculating the budget, 308
Calculation of voltage drop, 27
Cast resin LRC, 14
Cast resin mix, 250
Casting moulds, 250
CEE socket outlets, 92
Ceiling
Suspended installation, 298
Ceiling bracket, 61, 293
Ceiling cut-out, 288, 292
Centre feed, 47, 71
Centre feeder units, 47
Certificates, 36, 107, 237
Characteristic curves
Evaluating, 309
Visualization, 309
Clean earth, 31
Coding bracket, 114
Cold, 62, 197
Colour, 147
Commissioning, 18
Conditional rated short-circuit current, 211
Conditional short-circuit rating, 29
Conductor configuration, 29, 40, 110, 241
Conductor cross sections
For feeder units and infeeds, 142
Conductor cross sections for bare copper bars, 209
Index
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Conductor cross-section, 118, 145, 147, 162
For tap-off units, 72
Conductor cross-sections
For feeder units and infeeds, 70
Conductor material, 36, 237
Connected loads, 26
Connecting the transformer, 246
Connection method, 16, 106, 237
Connection system, 147
Connection tags, 248
Connection units for transformers and distribution
boards, 119, 183, 246
Consideration of busbar layout, 27
Contact mechanism, 122
Continuous current value, maximum, 209
Coupling units, 49, 121
Creation of a specification, 27, 36, 106, 236
Cross-section
N, 241
PE, 241
Cross-sections, 211
Current carrying capacity, 24, 241
Current setting of overload release, 146
Current-time characteristic, 307
Customer connection
Bottom, 246
Side, 246
D
Damp heat, 62
Constant, 197
Cyclic, 197
Declarations of conformity, 36, 107, 237
Degree of
protection, 15, 27, 29, 32, 37, 52, 54, 60, 120, 123, 128
, 143, 145, 146, 148, 160, 162, 197, 210, 238, 252, 253
, 256, 259, 262, 272, 273, 278, 306
Degrees of protection for busbar trunking systems, 272
Degrees of protection of electrical equipment
Overview, 273
Demand factor, 278
Derating, 31, 37, 108, 145, 241
Determining load centres, 20, 20
Determining space requirements, 308
Determining the rated current, 279, 279
Determining the space requirements, 308
Determining the voltage drop, 267
Dimensioning, 14, 267
Dimensioning software, 14, 307
Dimensions, 30, 128
Direct connection to low-voltage distribution board, 48
Distribution board feeder, 48
Distribution board link, 117, 181, 244, 245
Distribution boards, 119
Distribution systems, 26, 275
Double busbar trunking system
Technical data, 258, 261, 264
Double system, 172, 217, 287
Draft planning, 27
E
Early-make PE / PEN, 122
Earthing, 277
Edgewise busbars, 208, 241
Edgewise mounting, 60
Elbow, 116
Electrical connection, 250
Electromagnetic interference, 24, 301
Electronic loads subject to harmonics, 32
Emergency lighting, 280
Enclosure, 236
Enclosure dimension, 221
End cap, 127, 195, 234
End feeder unit, 45, 84
Energy concept, 20
Envelope curve, 307
Environmental classes, 62, 128, 197
Epoxy resin, 22
Establishing a safe connection, 16
Expansion compensation, 113, 236
Expansion compensation unit, 113
F
Feeder units, 45, 48, 117, 160, 244
Fire alarm system, 280
Fire
load, 24, 37, 65, 68, 131, 134, 137, 140, 162, 207, 237,
253, 256, 259, 262
Fire protection, 17, 100, 161, 161, 237, 280, 286
Fire protection mastic, 17
Fire resistance class, 17, 160, 236, 285, 286, 289
Fire test, 280
Fireproof barrier, 19, 24, 27, 236, 285, 286, 292
Fixed point bracket, 196, 294, 297
Fixed point console, 297
Fixed points, 160
Index
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Fixing bracket, 60, 102, 127, 227, 289, 291
For horizontal installation, 251
For horizontal mounting, 296
For vertical installation, 251
For vertical mounting, 293
Fixing distances, 208
Fixing distances,
maximum, 29, 65, 68, 131, 134, 137, 140, 162, 238
Fixing elements, 22
Fixing the BD01 system, 17
Flat busbars, 208, 241
Flat mounting, 60
Flat spray sprinkler, 306
Flexible movable trunking units, 44
Floor
Elevated installation, 300
Functional endurance, 19, 24, 161, 280
Functional endurance class, 161
Fundamentals of dimensioning, 19
Fuse bases, 51
G
Grid type, 278
H
Halogen-free materials, 24
Height rises
Vertical, 108
High-current system, 32
Horizontal busbar run, 241
Horizontal
installation, 112, 115, 160, 170, 173, 208, 251, 289
Horizontal mounting, 296
I
Ice formation, 62, 197
Impedance, 67, 130, 135, 137, 139, 200, 201, 203, 205
, 277
Incoming cable connection unit, 45, 120, 186, 220, 248
Increased degree of protection, 60, 108
Inductive resistance, 267
Infeed powers, 26
Installation, 23, 24, 27
Elevated, 300
Supported, 299
Suspended, 298
Installation,
horizontal, 112, 115, 160, 170, 173, 208, 251, 289
Installation, vertical, 113, 116, 160, 171, 175, 291
Installing the BD01 system, 17
Insulating film, 22
Interference potential, 32
Internal busbar fixings, 22
IP68, 21
J
Joint block, 101, 250
Joint units, 22
Junction unit, movable, 79
Junction units, 27, 42, 115, 160, 243
K
Knee offset, 116, 244
K-unit, 44, 78
L
Laying criteria, 24
Laying method, 24
LD system, 13
Let-through current characteristic, 309
Let-through energy characteristic, 309
LI system, 13
Limits, 301
Line system configuration, 275
Linking of distribution boards, 117, 244
Load distribution factor, 267
Load factor, 278
Load feeders up to 1250 A, 13
Load-distance profile, 303
Loop impedance, 272
LV HRC fuse, 123, 124
LV HRC fuse base, 53
LV HRC fuse link, 214
M
Magnetic field, 301
Magnetic field emission, 32
Magnetic field measurement, 301
Magnetic fields, 30, 301
Mandatory requirements, 23
Manual operating mechanism, 126
Material, 63, 147
Material trunking units, 128
Maximum continuous current value, 209
Index
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Maximum fixing
distances, 29, 65, 68, 131, 134, 137, 140, 162, 238
Mechanical connection, 250
Meshed network, 33
Motor drive, 126
Moulded-plastic coating, 161
Mounting aid, 194
Mounting on a concrete wall, 103
Mounting position, 63, 108, 241
Mounting position edgewise, 225, 251
Mounting position flat, 225, 251
Mounting position horizontal edgewise, 283, 290
Multi-core cable, 50, 73, 125, 143, 145, 211
Multi-core entry, 45, 46, 120, 248
N
Network designing, 307
Network topology, 24
Networked busbar trunking systems, 12, 18
Neutral and PE cross section, 40, 64, 130, 241
Neutral conductor 2N, 29
Neutral conductor function, 275
Neutral conductor N, 29
Neutral conductor overload, 32
Neutralisation condition, 24
No. of conductors, 37
Non-interchangeability, 122
Non-Siemens distribution boards, 118, 182, 245
O
Ohmic resistance, 267
Operation, 18
Outdoor applications, 14
Overload protection, 271
Overload protection and short-circuit protection, 27
P
Part of the contract, 160
Passenger lifts with evacuation circuit, 280
Permissible voltage drop, 26, 267
Planning, 18
Planning concept for a power supply, 20
Planning example, 278
Planning guideline, 63
Planning runs, 289
Power distribution, 21, 23
Power distribution board, 278
Power distribution concept, 19
Power distribution system, 22
Power factor, 267, 278
Power supply
Planning concept, 20
Power supply concept, 24, 26
Power tap-off, 122, 249
Power transmission, 21, 22
Preliminary technical descriptions for
specifications, 36, 106, 236
Protection against ingress of liquid, 273
Protection against solid foreign bodies and dust, 273
Protection equipment, 271
Protective conductor function, 275
Protective devices, 271
PVC-free materials, 24
R
Rated current, 28, 29
Rated operating currents, 27
Rated short-circuit current
Conditional, 211
Rated transformer data, 33
Reduction factor, 145, 283
Removal, 23
Required protective measures, 26
Resistance in the hot state, 267
Resistance to extreme
climates, 62, 128, 143, 145, 146, 161, 197, 210, 237, 2
52
Retrofitting, 24
Ring network, 33
Run mounting, 289
S
Salt spray test, 62, 197
Selection of systems, 29
Selectivity limit, 307
Separators, 250
Short-circuit protection, 271
Short-circuit
rating, 27, 33, 63, 65, 67, 117, 130, 135, 137, 139, 143,
145, 181, 190, 200, 201, 203, 205, 253, 256, 259, 262,
271, 279
Short-circuit voltage, 28
SIMARIS curves, 309
SIMARIS design, 14, 25, 271, 272, 307
SIMARIS project, 308
SIMARIS sketch, 14
Index
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Single busbar system
Technical data, 253, 256, 259, 262
Single system, 171, 216, 240, 287
Single-core cable, 73, 125, 143, 145, 146, 211
Single-core cable entry plate, 220
Single-core design, 45
Single-core entry, 46, 47, 120, 248
Single-core system, 71
Sizes, 15, 40, 110, 240
Sliding bracket, 251, 295
Socket outlets with earthing contacts, 92
Solid ceiling cut-out, 288
Solid wall cut-out, 288
Space requirements, 24, 289
Spacer, 102, 296
Spacer bracket, 61, 66, 68, 103, 293, 296
Specification texts BD2, 36
Spring clamp, 196, 251
Sprinkler test, 305
Standard temperature curve, 280
Standard transformers
Rated current, 28
Short-circuit current, 28
Stands, 300
Star point, 277
STC, 280
Straight length, 218
Straight trunking unit with tap-off unit, 249
Straight trunking units, 41, 112, 160, 225, 242
Strain relief, 70, 73, 211
Suitable for sprinklers, 161
Supporting bracket, 251
Suspension bracket, 296
Switching capacity, 125
Switching capacity of the circuit breaker, 146
System earth, 277
System modules, 236
System overview BD01, 15
System sizing, 27
T
Tap-off point, 15, 23, 74, 114
Tap-off unit, 27
Tap-off unit BD01 system, 16
Tap-off unit with circuit breaker, 193
Tap-off unit with fuse base, 190
Tap-off units, 50, 122, 160, 249
Tap-off units with fuse switch disconnector, 191
Temperature change, 62, 197
Tender specification texts, 27
Tender specification texts LDA/LDC, 106
Tender specification texts LRA / LRC, 236
Tensile stress
Max. permissible, 281
Terminal clamp, 296
Fixed, 226
Fixed point, 196
Flexible, 196, 225
Thermal characteristics, 24
TIP, 310
Torque for joint block, 238
Torque for single-bolt terminal, 128
Totally Integrated Power, 310
Touch protection, 273
Transformer, 119
Transformer impedance, 28
Transformer rated current, 28
Transformer short-circuit AC current, 28
Trip characteristic, 309
Tripping characteristics, 271
Troubleshooting, 24
Trunking units, 27
Angled, 243
Trunking units with tap-off points, 207
TTA, 22
T-unit, 44, 77, 116, 180, 244
Type code, 38, 108, 239
Type test, 161, 237
Type-tested connection to distribution boards and
transformers, 13
Type-tested system, 24
U
U profile, 196, 224
U shape, 79
Umbrella sprinkler, 306
V
Variable distribution board position, 23
Ventilation system, 280
Vertical busbar run, 241
Vertical height rises, 108
Vertical installation, 113, 116, 160, 171, 175, 291
Vertical mounting, 293
Vertical run bracket, 227, 227
Voltage drop, 30, 267
Voltage drop diagram, 267
Index
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W
Wall
Supported installation, 299
Wall bracket, 293
Wall cut-out, 288, 289
Wall fixing, 61, 251, 296
Wall fixing, fixed-point bracket, 196
Wall mounting, 251
Water pressure, 306
Water pressure boosting systems, 280
Weight, 24, 145
Z
Z shape, 80
Z trunking units, 43
Zero
impedance, 133, 137, 139, 200, 201, 203, 205, 253, 25
6, 259
Z-units, 76, 116, 177
Busbar Trunking
Systems
SIVACON 8PS
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