Operating instructions
Date Name No. 4600 en
Issued: May 31, 2017 C. Balkum Page 1/102 Pages
Operation Manual
Invertronic compact Inverter
(24VDC / 48VDC / 60VDC)
(120Vac)
Synchronized single-phase Inverter system
(19" rack; HOT-PLUG design, DSP technology)
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Contents
1 Preface .................................................................................................................. 9
2 Presentation ......................................................................................................... 10
3 Safety .................................................................................................................. 12
3.1 General safety instructions .................................................................................... 13
3.1.1 Personnel safety .......................................................................................... 17
3.1.2 Product safety .............................................................................................. 18
3.1.3 Special safety measures ............................................................................... 18
3.2 Transport and storage ........................................................................................... 19
3.2.1 Storage of inverters ..................................................................................... 21
3.3 Maintenance, service and faults ............................................................................ 22
4 Environmental compatibility ............................................................................... 23
4.1 Packaging ............................................................................................................. 23
4.2 Disposing of inverters at the end of their life ......................................................... 23
5 Introduction ......................................................................................................... 24
5.1 General principle of operation .............................................................................. 26
6 Technical Data ..................................................................................................... 28
6.1 Electrical data ....................................................................................................... 28
6.2 Electrical data ....................................................................................................... 28
6.2.1 Inverter 24/48/60VDC ................................................................................... 30
6.2.2 Inverter 110VDC: ......................................................................................... 31
6.2.3 Electronic changeover device (SBS, ECD) .................................................. 32
6.2.4 Static bypass (MBS, MCD) ......................................................................... 32
6.2.5 General data ................................................................................................ 33
6.2.6 Norms ......................................................................................................... 33
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6.3 Dimensions and layout ......................................................................................... 34
6.3.1 INVERTRONIC compact drawings ............................................................. 34
6.3.2 System component dimensions .................................................................... 36
6.3.3 Floor area, floor loading and weight ............................................................ 39
6.3.4 Recommended inverter installation, minimum distances .............................. 40
7 INVERTRONIC compact system description ...................................................... 41
7.1 System configurations .......................................................................................... 41
7.2 INVERTRONIC compact inverter system components ......................................... 45
7.2.1 Inverter ........................................................................................................ 45
7.2.2 Electronic changeover device (SBS, ECD, bypass) ...................................... 48
7.2.3 Manual bypass switch (MBS) ...................................................................... 52
7.2.4 MCU 2500 .................................................................................................. 54
7.2.5 INVERTRONIC compact customer interfaces ............................................. 54
7.2.6 Software interfaces ...................................................................................... 54
8 Electrical connection ........................................................................................... 55
8.1 Behaviour under special operating conditions ....................................................... 56
8.1.1 Overload ..................................................................................................... 56
8.1.2 Short circuit on load bar .............................................................................. 56
8.1.3 Mains supply not in tolerance ...................................................................... 56
8.1.4 System faults ............................................................................................... 56
8.1.5 Fan failure ................................................................................................... 56
8.2 Cable cross sections / Fuses .................................................................................. 57
8.3 Bus connection ..................................................................................................... 58
8.4 Terminal connections ........................................................................................... 62
8.5 System population sequence (fitting modules) ...................................................... 62
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9 Configuring the inverter system ........................................................................... 64
9.1 Electronic changeover device menu structure: ...................................................... 66
9.1.1 Main menu .................................................................................................. 73
9.1.2 The "Measured values" menu ...................................................................... 73
9.1.3 The "Device management" menu ................................................................. 74
9.1.4 The "System set-up" menu........................................................................... 79
9.1.5 Entering and changing the user password .................................................... 80
10 Commissioning the inverter system ..................................................................... 82
10.1 Inverter system without electronic changeover device ........................................... 82
10.2 Inverter system with electronic changeover device ............................................... 82
10.3 Inverter module switch-on sequence ..................................................................... 84
10.4 Inverter module switch-off sequence .................................................................... 84
11 Re-configuring the system ................................................................................... 85
11.1 Upgrading by adding further modules ................................................................... 87
11.2 Replacing an inverter module ............................................................................... 88
11.3 Replacing the electronic changeover device (SBS) ............................................... 89
11.4 Replacing the manual bypass switch (MBS) ......................................................... 91
12 Status and alarm indicators .................................................................................. 93
13 Maintenance and service ...................................................................................... 95
13.1 Manual bypass switch ........................................................................................... 95
13.2 Terminals and plug-and-socket connectors ........................................................... 97
13.3 Contactors, relays ................................................................................................. 97
13.4 Service and fault report ......................................................................................... 99
13.5 Service hotline .................................................................................................... 101
13.6 Maintenance and service contracts ...................................................................... 101
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14 Circuit diagrams ................................................................................................ 102
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List of diagrams
Figure 1: Symbols 10
Figure 2: Transporting with forklift truck and crane 19
Figure 3: Use of lifting eyes 20
Figure 4: Block diagram 26
Figure 5: Single and parallel operation of maximum 5 inverters in one shelf 27
Figure 6: INVERTRONIC compact with 3 inverter modules, MBS and SBS 34
Figure 7: INVERTRONIC compact with 5 inverter modules 34
Figure 8: INVERTRONIC compact with 8 inverter modules, SBS, MBS and MCU 35
Figure 9: Inverter module dimensions 36
Figure 10: SBS dimensions 36
Figure 11: Manual Bypass Switch (MBS) dimensions 37
Figure 12: Shelf dimensions 37
Figure 13: Populated shelf, with 3 Inverters, SBS and MBS 38
Figure 14: Populated shelf, 5 inverters 38
Figure 15: Enclosure PSJ2066 – Dimensions 39
Figure 16: Floor area and weight 39
Figure 17: Welding PSJ cabinets 40
Figure 18: Recommended inverter installation (for PSJ2066) 40
Figure 19: Parallel operation of Inverters in one shelf 41
Figure 20: 3 Inverters with SBS and MBS in one shelf 41
Figure 21: Parallel operation of 15 inverters in 3 sub-systems / (racks) 42
Figure 22: Parallel operation of 13 inverters, SBS and MBS in 3 sub-systems / (racks) 43
Figure 23: 3 independent single-phase inverter systems (1 inverter system per equipment rack) 44
Figure 24: Inverter module 45
Figure 25: Electronic changeover device (SBS) 48
Figure 26: INVERTRONIC compact module with MBS and SBS 49
Figure 27: Section of an INVERTRONIC compact module with MBS and SBS 49
Figure 28: SBS display 51
Figure 29: Manual bypass switch assembly (MBS) 52
Figure 30: Manual bypass switch positions (MBS) 52
Figure 31: Fault, position of relay contacts 54
Figure 32: Jumper positions (X700, X701) for parallel operation of max. 5 INV without ECD, 4 INV with SBS
or 3 INV with SBS and MBS 58
Figure 33: Jumper positions (X700, X701) for parallel operation of max. 10 INV without SBS or 9 INV with
SBS, or 8 INV with SBS and MBS 59
Figure 34: Jumper positions (X700, X701) for parallel operation of max. 15 INV without SBS or 14 INV with
SBS, or 13 INV with SBS and MBS 60
Figure 35: Jumper positions when connecting a distribution card and DSP adapter 61
Figure 36: Shelf with modules and front panel 85
Figure 37: Shelf with modules, without front panel 85
Figure 38: Fitting an inverter module 87
Figure 39: Replacing the electronic changeover device (SBS) 90
Figure 40: Replacing the manual bypass switch (MBS) 92
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List of tables
Table 1: Abbreviations 11
Table 2: Conductor cross sections for a 110VDC battery 57
Table 3: Conductor cross sections for a 220VDC battery 57
Table 4: INV n | Fault 75
Table 5: Static bypass | Fault 77
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The information given in this operating manual corresponds to the state of de-
velopment at the time of printing. BENNING takes no responsibility for direct,
indirect or incidental damage to persons or material caused by wrong interpre-
tation of or unintended errors in these operating instructions. This document
may neither be copied nor otherwise reproduced without the explicit written
consent of BENNING.
Trademarks:
All trademarks used are the property of their respective owners.
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1 Preface
The operating instructions provide information for the operation and mainte-
nance of the system. To ensure the safe and correct operation of the system, the
user should read thoroughly these instructions. All the information contained
therein must be observed.
This will avoid:
• danger during operation
• risks to the operator
• downtime, and enhances the reliability and lifespan of the system.
These instructions should be kept in a safe place for later use.
BENNING specializes in the development and production of inverter systems.
The criteria and methods applied by BENNING for development and produc-
tion comply with the strictest quality standards.
BENNING has been certified for all areas in accordance with the international
quality standard ISO9001/EN29001.
Service Center
For reasons of operational safety and operational availability, we recommend
that the devices and systems be regularly maintained.
Benning committed to excellence in dependability and customer satisfaction.
If you have any questions or issues, please contact Benning’s Customer Service
Department at: 1.800.910.3601, Press option #1 or 214.553.1444
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2 Presentation
In this manual, the words converter and inverter are understood to have the
same meaning.
The following symbols are used in this manual:
Denotes instructions, which if not observed could present a risk to
health, functional capability or safety.
Warning against dangerous electrical voltage.
Warning when handling batteries.
Do not extinguish with water.
Denotes additional information and instructions.
Recycling mark
Identification of assemblies, which are subject to electronic scrap-
ping regulations.
Identification of assemblies or parts, which must be disposed of in
a specific manner. Never dispose of these components in the
household waste.
Protect against the effects of the weather
Fragile.
This way up.
Figure 1: Symbols
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Explanation of abbreviations used:
INV Inverter
SBS Static Bypass Switch
MBS Manual Bypass Switch
DSP Digital signal processor
DC Direct Voltage
AC Main Mains voltage
DC Load Load voltage
AC in Input voltage
BCU Battery Connection Unit
BCB Battery Circuit Breaker
Table 1: Abbreviations
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3 Safety
The connection of the electrical equipment is part of the installation in readi-
ness for operation. Note that the electrical installation and the connection of the
inputs and outputs must be carried out in accordance with the local regulations.
The system must be operated by experienced personnel.
Protective earth
The protective earth must be connected before the supply cables are connected.
The system must not be operated without a protective earth.
Installation
This system must be installed by qualified specialists. Only VDE-tested and
CE-marked mains cables may be used to connect inverters to the building in-
stallation. This also applies to the connection of the loads. Do not connect any
loads to the inverter, which could overload the unit. Connecting cables should
be kept as short as possible. Connect the system using cables of adequate cross
section. Check the cables for damage to the insulation. Refer to the data sheet
for the rating of the back-up fuse. Pay attention to the polarity of the DC cable
connections. All cables must be fixed to the cable clamp rails and relieved from
stress. Check that all contacts used are securely fitted.
Hazards such as tripping, crushing, pinching etc. must be avoided.
Outbreak of fire
Dangerous voltages are present within the inverter even when fuses have
blown. For this reason, if fire should break out, do not use water to extinguish
the fire. Use sand, carbon dioxide or powder extinguishers.
Personnel training
All personnel must be trained in how to shut down the system in an emergency.
To isolate the unit in an emergency, the main fuse in the mains input and the
battery fuse (battery cabinet or external rack) must be removed. The system
must be operated by trained (experienced) personnel.
REFER TO THE INSTALLATION INSTRUCTIONS BEFORE CONNECTING TO THE POWER SUPPLY
TN513289
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3.1 General safety instructions
These operating instructions and the safety instructions contained there-
in must be carefully read before the system (also referred to as the in-
verter) is installed or put into operation. The operating instructions must
always be kept close to the unit for later reference.
Installation, operation, maintenance and repair of the inverter sys-
tem may only be carried out by qualified and trained specialists.
You must be absolutely sure that L and N and the polarity of the battery
connections are correct, as any incorrect connections will cause damage
to the system.
Make absolutely sure that the battery is not earthed. Neither the plus nor
the minus pole must be earthed (battery floating).
Earth faults on unearthed batteries necessitate a protective device for
each pole.
Units must be fitted in the rack in the following order. The SBS is al-
ways fitted at the extreme right-hand end of the rack, the MBS on the
left next to the SBS, and the inverters must be fitted from left to right.
Even when the inverter is switched off, components within the system
are live as long as the supply network and/or battery and connected.
Live parts are exposed when you open the housing or remove covers;
danger to life if touched! Refit the covers properly on completion of the
work.
BENNING takes no responsibility for consequential damage caused by
work incorrectly carried out on the inverter system.
High fault currents (leakage currents):
A proper earth connection must be ensured before the mains is connect-
ed!
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This inverter complies with norm EN 55022 Class B
This is a product for commercial and industrial use in the second envi-
ronment. Restrictions regarding the installation or additional measures
may be necessary to prevent interference.
A suitable isolating device must be provided in all supply circuits.
It must be possible to disconnect all poles of the battery supply.
As standard, the inverter system is suitable only for mounting on fire-
resistant surfaces.
Unused module slots must be fitted with a blanking plate. (Part No.
514414)
CAUTION! The electronic changeover device (SBS) may only be removed from the
rack if the manual bypass switch (MBS) is logged on.
CAUTION! Initially withdraw modules from the rack by 50 mm (plug disconnect-
ed). Then wait for at least 10 seconds. Only then remove the units com-
pletely from the rack.
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CAUTION!
An inverter system with an SBS may only be used on earthed networks. Once
the unit has been installed and commissioned, the earthed mains point or neu-
tral conductor must not be disconnected. The neutral conductor of the bypass
supply and the neutral conductor of the load must always be linked in the in-
verter system.
In inverter systems without SBS, the neutral conductor of the inverter output
must be connected to the protective conductor terminal. If an SBS is fitted to
such a system retrospectively, this link must be removed and the requirements
for an inverter system with SBS apply.
For connecting the INVERTRONIC compact, terminal strips for power con-
nections (mains, load, battery) are provided in the bottom third of the cabinet.
Access to the terminals is obtained by undoing the screws and removing the
front protective covers.
The cables can be routed to the cabinet from all four sides and fed in through
the cabinet bottom. A double floor in the installation area is not absolutely es-
sential. Please refer to the following tables and drawings for information on
where the cables are to be connected and what size they must be in accordance
with DIN VDE 0298.
You must be absolutely sure that the neutral conductor and the phase sequence
of the bypass supply and the polarity of the battery connections are correct, as
any incorrect connections will cause damage to the system.
Be sure to refit the front protective covers when assembly is complete.
A clear inscription, which provides adequate information as to how the
whole installation is to be isolated, must be fitted to every isolating de-
vice.
Be sure to observe all the safety instructions!
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Within locked battery rooms:
If the inverter is located in a locked battery room, a warning notice
must be attached to all upstream isolating switches external to the in-
verter.
The warning notice should carry the following or similar wording:
Outside locked battery rooms:
If the inverter is located outside a locked battery room, a warning notice
must be attached to all upstream primary supply isolating switches ex-
ternal to the inverter to inform electricians that the circuit concerned
feeds an inverter.
The warning notice should carry the following or similar wording:
If you should require more warning notices, contact our service centre under
telephone number:
1-800-910-3601 and Press #1
TN: 10007161 – Warning notice within locked battery rooms
TN: 10007163 – Warning notice outside locked battery rooms
TN: 513289 – Information at the point of connection
TN: 10007164 – Isolate the inverter
SWITCH OFF ALL SUPPLIES TO THE UNIT
BEFORE STARTING WORK ON THIS EQUIPMENT.
TN10007161
SWITCH OFF THE INVERTER BEFORE STARTING WORK ON THIS CIRCUIT.
TN10007163
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3.1.1 Personnel safety
The inverter must be installed in a room with limited access rights (qualified
personnel as defined by the norm EN62040-1-2).
If the isolator for the supply cable is not located in the same room as the
inverters, a warning notice must be attached to the inverters with the in-
scription:
Dangerous voltages are present within the inverters. The unit must only be
opened by qualified personnel.
CAUTION! Initially withdraw modules from the rack by 50 mm (plug disconnect-
ed). Then wait for at least 10 seconds. Only then remove the units com-
pletely from the rack.
Caution: A dangerous voltage is still present on the battery isolator (BCB)
when the inverters are withdrawn.
In order to avoid any accidents, it is essential to follow the instructions below:
• Do not operate the inverter if the temperature and humidity exceed the specified maximum values.
The inverter must be earthed.
It must be disposed of in accordance with the applicable local regulations.
ISOLATE THE INVERTER BEFORE WORKING ON THIS EQUIPMENT!
TN10007164
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3.1.2 Product safety
• The electrical supply cable must be protected by a backup fuse, which is accessible at all times.
• Do not install the inverter in the vicinity of liquids or in an environment with too high humidity.
• Do not allow liquids or foreign bodies to get into the system.
• Do not cover the air vents of the inverter.
• Do not subject the inverter to direct sunlight or other sources of heat.
• Units must be fitted in the rack in the following order. The SBS is always fitted at the extreme right-hand end of the rack, the MBS on the left next
to the SBS, and the inverters must be fitted from left to right.
3.1.3 Special safety measures
Be sure to observe the connection instructions in this manual. Check the infor-
mation on the equipment rating label. This must correspond with your electri-
cal supply network and the total power demand of the connected unit.
If the inverter should be put into storage before use, make sure that the storage
location is clean and dry. The storage temperature must be in the range -10°C
to +45°C. The inverter has been designed for normal ambient conditions such
as those stated in Chapter 6.1.5 under installation altitude, operating tempera-
ture and relative humidity, and for the stated transportation and storage condi-
tions.
Although correct operation is guaranteed if the inverter is operated at the limits
of the specified values, the life of some components may be shortened.
Special protective measures must be taken if unusual operating conditions pre-
vail:
• Moisture, steam, saline environment, dripping water or outdoor installa-tion,
• Explosive mixtures of dust and gas
• Severe temperature fluctuations
• Poor ventilation
• Heat conducted or radiated from other heat sources
• Strong electromagnetic fields
• Radioactivity which exceeds the natural level of radiation
• Fungi, insects, parasites, etc.
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3.2 Transport and storage
The inverter must only be transported to the intended location in its original
packaging. The same applies for removals or returns. The unit must only be
transported and stored in an upright position. Make sure that the unit is shipped
in the correct transport position and take the centre of gravity into account. In
the case of inverter systems, slight changes in position can lead to the units
suddenly toppling due to the heavy weight. It must also be ensured that the
units have a firm footing when placed in storage.
The unit is delivered complete from the factory. The unit must always be trans-
ported in an upright position. If the unit is transported with a forklift truck, then
the forks must always be applied from the rear of the unit so that the front door
with its instruments is not damaged.
Figure 2: Transporting with forklift truck and crane
Unpacked units must only be transported in a closed lorry. The units must al-
ways be securely anchored to prevent them from slipping or toppling over. In
particular, it must be ensured that the paintwork is protected against scuffing
and scratching. Lifting belts must be used when transporting the unit in an un-
packed state. These must be positioned so that the instruments and switches on
the front door cannot be damaged.
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The information shown in Figure 3 must be observed when transporting the
unit using lifting eyes.
Figure 3: Use of lifting eyes
Lifting eyes must only be used with the protective cover and bolts re-
moved.
When the units have been unloaded on site, they must be inspected immediate-
ly for possible damage. It must also be checked that all parts according to the
packing list are present. In the event of damage, the responsible party must be
identified – if possible – and in all cases a written report must be immediately
sent to the supplier/manufacturer (within 6 working days).
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3.2.1 Storage of inverters
The ability of the units to be stored depends on the selected packaging.
Units with short-term packaging should be unpacked immediately on arrival at
the intended location and stored in a suitable place. In doing so, the tempera-
ture must not be allowed to drop too low or condensation allowed to form.
When the units are placed in store, the doors should be opened for a few hours
to allow the units to adapt to the new temperature without the formation of
condensation. If the units are placed into interim storage for an extended peri-
od, they must be covered with film and inspected for condensation from time to
time.
When units are supplied with long-term packaging, they must be stored in this
packaging. When doing so, the packaging must first be checked for damage.
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3.3 Maintenance, service and faults
CAUTION! – Risk of electric shock!
Even when isolated from the mains supply, the inverter is still connected to the
battery circuit and is at a dangerous voltage potential. Therefore, disconnect the
battery circuit and check that the equipment is dead before carrying out service
or maintenance work.
Work may only be carried out on batteries by persons with the appropriate spe-
cialist knowledge of the required safety rules and must be supervised. Unau-
thorised personnel must be kept away from batteries.
The following safety rules must be observed when working on inverters:
• Wristwatches, rings and other metal objects must be removed
• Use only insulated tools
• Inverters must not be dismantled
If you require a system check at regular intervals for safety reasons, e.g. an an-
nual inspection, then please contact us. We will be pleased to submit a quota-
tion for an appropriate contract.
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4 Environmental compatibility
BENNING is particularly concerned with the environmental compatibility of
its products and therefore adopts an eco-project engineering approach for the
whole life of the inverters.
4.1 Packaging
Please observe the relevant local regulations for the recycling of packaging.
4.2 Disposing of inverters at the end of their life
We recommend that the relevant local regulations for the disposal and recy-
cling of the components be observed when the life of the inverters has expired.
Should you have any questions or concerns please contact Benning’s Customer
Service line.
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5 Introduction
This manual provides information on the INVERTRONIC compact inverter
system, their principle of operation and the action to be taken in the event of
operational faults. This manual also contains information relating to the trans-
portation, storage, handling and installation of inverter systems. The planning
guidelines in this manual relate only to the special requirements of inverter sys-
tems. It is essential that the national and local regulations for electrical installa-
tions be followed when installing the equipment.
The content of this manual may change due to advancing technology. We have
strived to make the content as correct and clear as possible. If errors should
have occurred however, we would be grateful for information provided to up-
date on the next release.
We accept no liability for errors in this manual and for consequences resulting
therefrom.
The inverter system (inverter) is designed to protect sensitive electrical equip-
ment against interference, which can occur due to poor current/voltage quality,
or even loss of supply. Sensitive systems require comprehensive protection
against electrical faults.
These can be external faults (e.g. thunderstorms, operational faults) or interfer-
ence from adjacent equipment (e.g. motors, welding systems etc.). Mains faults
can be summarised as follows:
• Fast and slow mains voltage peaks and variations
• Mains failure
• Fast and slow frequency peaks and variations
• Signals or transients superimposed on the supply
The inverter system conditions the mains voltage and ensures a constant output
voltage.
When the inverter is in operation, mains interference is therefore kept away
from operationally critical equipment, and software and hardware cannot be
damaged.
CAUTION!
THE INVERTER MUST ONLY BE INSTALLED AND OPERATED BY QUALIFIED PERSONNEL.
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For customer service requirements our service centre can be contacted under
the telephone number
1-800-910-3601 Press #1
You can write to our service center at the following address:
Benning Power
1220 Presidential Drive, Suite 100
Richardson, TX 75081
For general product inquiries, you can contact us on the following numbers:
Phone: 214-553-1444
Fax: 214-553-1355
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5.1 General principle of operation
The inverter system from the INVERTRONIC compact product family is a
compact AC power supply for widely differing applications in the telecommu-
nications and industrial fields. The different system configurations enable the
system to be matched to the specific requirements.
Depending on the design, the output power of the inverter system can be ex-
panded in 1000VA (24Vdc) or 2000VA (48 and 60Vdc) increments by plug-
ging further inverters into the shelf’s. The nominal DC input voltages can be
24Vdc, 48Vdc or 60Vdc.
System states can be set up and read off on the SBS LCD display. It is possible
to display measured values for the mains supply, the loads and the individual
system components.
With the help of a manual bypass switch (MBS), the inverter system can be
maintained, expanded and repaired without interrupting the supply to the con-
nected loads.
The inverter system is controlled and monitored by digital signal processors
(DSP), which are programmed with appropriate algorithms.
Individual components communicate with one another by means of a CAN-
BUS system (Controller Area Network), which guarantees a high level of im-
munity against interference.
By means of serial interfaces, the system states can be determined when carry-
ing out a service, and during software updates.
Figure 4: Block diagram
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Widely differing systems with regard to power, freedom from interruption and
redundancy can be assembled using the individual components of the inverter
system in a similar way to a building block system.
Only inverters with the same KVA rating, input voltage and output voltage can
be connected in parallel.
Up to 5 inverters can be connected in parallel in an appropriate shelf without an
SBS and MBS.
Figure 5: Single and parallel operation of maximum 5 inverters in one shelf
In the case of simple parallel operation of inverters, the maximum system pow-
er is 8kVA (24Vdc) or 16 kVA (48 and 60Vdc). Here 8 inverters are connected
in parallel divided between 2 equipment shelves.
With parallel operation, it is essential to ensure that the shelfs are
mounted one above the other.
A Manual Bypass Switch (MBS) is always incorporated in all inverter
systems with a Static Bypass Switch (SBS). This enables the system to
be maintained and repaired without interrupting the supply to the loads.
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6 Technical Data
6.1 Electrical data
Module output power: 1000VA
General inverter data
Output power 1000VA, single phase,
PF = 0.8
DC-DC converter using MOSFET technology
Single-phase inverter using IGBT technology
Input voltage: 24VDC
Output voltage: 110 to 127Vac, at 50 or 60Hz
General bypass data
• SBS incorporates thyristor technology
• MBS (rotary switch)
• INVERTER fault and SBS fault alarms via voltage-free contacts
• Service interface, RS 232 interface on Manual Bypass Switch (MBS)
6.2 Electrical data
Module output power: 2000VA
General inverter data
Output power 2000VA, single phase,
PF = 0.8
DC-DC converter using MOSFET technology
Single-phase inverter using IGBT technology
Input voltage: 48VDC and 60VDC
Output voltage: 110 to 127Vac, at 50 or 60Hz
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General bypass data
• SBS incorporates thyristor technology
• MBS (rotary switch)
• INVERTER fault and SBS fault alarms via voltage-free contacts
• Service interface, RS 232 interface on Manual Bypass Switch (MBS)
System description
The INVERTRONIC compact inverter system is a compact AC power supply
for different applications in the telecommunications and industrial fields. The
various system configurations enable the system to be matched to the specific
requirements.
The output power of the inverter system can be extended in 1000 VA steps for
an input voltage of 24Vdc or 2000 VA for an input voltage of 48Vdc or 60Vdc
by inserting inverter modules (INV). The inverter system is controlled and
monitored by digital signal processors (DSP).
Individual components communicate with one another by means of a CAN-
BUS system (Controller Area Network), which guarantees a high level of im-
munity against interference.
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6.2.1 Inverter 24/48/60VDC
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6.2.2 Inverter 110VDC:
2 Inverter 110VDC / TN121082 2.1 Type Inverter
2.2 Project INVERTRONIC compact 1500
2.3 Part No. 121082
2.4 Type G110E230/6,52/2...3rfg-PWT
2.5 Input voltage 110VDC
2.6 Switching thresholds 93.5V ; 113.0V ; 132.0V ; 155.0V
2.7 Permissible deviation -15 ... +40% of nominal value
2.8 Input current: 12A (at rated active power and rated input voltage = 100%)
8.3A (at rated active power and overvoltage = 140%)
14A (at rated active power and undervoltage = 85%)
300mA on no load at rated voltage
2.9 Permissible ripple 5% eff.
2.10 Rated power: 1.5kVA (at cos phi = 0.8)
2.11 Rated output active power 1.2kW (at cos phi = 1)
2.12 Rated output voltage 220 / 230 / 240 VAC
2.13 Voltage tolerance ±1% steady-state
2.14 Rated output current 6.8 / 6.52 / 6.25 A
2.15 Rated output frequency 50Hz or 60Hz (switchable on SBS, ECD)
2.16 Efficiency
91.4% at 100% load "provisional"
91.0% at 75% load "provisional" 89.7% at 50% load "provisional"
85.6% at 25% load "provisional"
2.17 Power loss 98W at 100% load "provisional"
typ. 33W at 0% load
2.18 Permissible power factor cos phi = 0.7ind. to cos phi = 0.8cap.
2.19 Settling time < 20 milliseconds
2.20 Transformer Isolating transformer provided in DC/DC converter
2.21 Frequency tolerance
Mains commutated: max. ±5% (with external electronic changeover device
only)
self commutated: ±0.1% (quartz-controlled)
2.22 Distortion factor (EN 62040-1)
16.5Aeff for 4 sec
Switch-off after max 4 sec if the bypass voltage is not available. Inverter itself is short-circuit proof. ???
(EN 62040-1-1)
2.26 Overload capability – continuous
110% IN (at 25°C)
2.27 Output fuse T10A/250V (high rupturing capacity)
2.28 Load fuse The short-circuit current can blow slow-acting fuses with 1/3 the nominal
current rating (e.g. for Neozed)
2.29 Changeover device None
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6.2.3 Electronic changeover device (SBS, ECD)
3 Electronic changeover device (SBS, ECD) / TN121083 3.1 Type Changeover device
3.2 Project INVERTRONIC compact 1500
3.3 Part No. 121083
3.4 Type EUE115...230/100/2...3/110/220T
3.5 Input voltage 110VDC / 220VDC
3.6 Permissible deviation -15 ... +25%
3.7 Nominal mains voltage 220 / 230 / 240 VAC
3.8 Nominal mains frequency 50 / 60Hz
3.9 Permissible frequency range ±5% (inverter synchronisation range)
3.10 Inverter rated voltage 220 / 230 / 240 VAC
3.11 Rated output voltage 220 / 230 / 240 VAC
3.12 Voltage tolerance ±15% (steady-state for mains operation)
±1% (steady-state for inverter operation)
3.13 Output frequency 50 / 60Hz
3.14 Max. frequency deviation ±5% (for mains operation)
50 / 60Hz ±0.1% (under quartz control)
3.15 Max. output current 100A
3.16 Overload behaviour 120% for 10 minutes
1000% for 10 milliseconds
3.17 Permissible power factor cos phi = 0.7ind. to cos phi = 0.8cap.
3.18 Mains fuse max. 125AgL (upstream)
3.19 Load fuse Ensure selectivity with the chosen mains fuse when fusing the load cir-
cuits.
3.20 Changeover time
2 ms ( typical value)
max. 1.5 ms...4 ms (depending on the phase relationship of the mains sup-
ply)
3.21 Reset 0 ms reset at phase zero crossover
3.22 Operating mode Inverter priority / Mains priority (switchable)
3.23 Type of fault alarm Common fault, SBS fault (ECD) and inverter fault
The minimum interruption times are equal to the changeover times. Interruption times may be longer de-
pending on the mains impedance, the fuses used, cable lengths, etc.
6.2.4 Static bypass (MBS, MCD)
4 Manual bypass switch (MBS, MCD) / TN10000863 4.1 Type Changeover device
4.2 Project INVERTRONIC compact 1500
4.3 Part No. 10000863
4.4 Type MBS115...230/100/2...3/T
4.5 Max. switching current 100A
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6.2.5 General data
5 General data 5.1 Protection class IP 20 (DIN/VDE 0470 Part 11/92, IEC529), higher on request
5.2 Insulation class DIN/VDE 0110, overvoltage category 2
5.3 EMC class DIN EN55022 class B
5.4 Design (module) Hot Plug in Benning cabinet
5.5 Cable entry (cabinet) From below; optionally from above
(by means of cable cabinet, width 200 mm)
5.6 Cooling Force cooled, fan temperature-controlled and monitored
Fans can be replaced from the front of the inverter
Power block is monitored against over-temperature (fault alarm)
5.7 Inlet air temperature 0°C to 40°C
27°F to 104°F
5.8 Limitation above 40°C, 104°F 12.5% per 5° (max. 50°C, 114°F)
5.9 Relative humidity 0 to 95% (non-condensing)
Class DIN/IEC 721 2-1-09/86
5.10 Storage temperature -40°C to 85°C
-40°F to 185°F
5.11 Installation altitude up to 2000m ASL without limitation
5.12 Connection method Backplane (Hot – Plug)
5.13 Dimensions (H X W X D) 3 U; 1/5 19-inch; 300mm
85.6 x 132.6 x 301.5mm
5.14 Weight ca. 3.1kg per inverter module, ca. 2.9kg per ECD/MBS module
5.15 Finish RAL 7035 / other finishes on request
5.16 Protection class I
5.17 Noise Noise level (1 metre)
Dependent on configuration level, load and environment 50dB (A) in normal operation (5 x inverter in one rack)
65dB (A) at full load and overtemperature
5.18 Individual relay contacts with
SBS, ECD only
(voltage-free changeover)
1 x SBS, ECD – Fault
1 x Inverter – Fault
5.19 Interfaces RS232 or CAN on SBS (ECD)
6.2.6 Norms
6 Norms 6.1 Norms EN 60950, 2006-11 / UL 60950 Compliant
EN 55022 class B
EN 61000-4-4, 2005-07, level 4. Burst, Rectifier Input: (4kV) EN 61000-4-4, 2005-07, level 4. Burst, Bypass Input: (4kV)
EN 61000-4-4, 2005-07, level 4. Burst, System Output: (4kV)
EN 61000-4-5, 2007-06, level 4. Surge, Rectifier Input:
(2kVsym. / 4kVasym.)
EN 61000-4-5, 2007-06, level 4. Surge, Bypass Input:
(2kVsym. / 4kVasym.)
EN 61000-4-5, 2007-06, level 4. Surge, System Output:
(2kVsym. / 4kVasym.)
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6.3 Dimensions and layout
6.3.1 INVERTRONIC compact drawings
Figure 6: INVERTRONIC compact with 3 inverter modules, MBS and SBS
Figure 7: INVERTRONIC compact with 5 inverter modules
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Figure 8: INVERTRONIC compact with 8 inverter modules, SBS, MBS and MCU
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6.3.2 System component dimensions
Inverter module dimensions:
Abluft
Exhaust air Zu luft
Ventilation
301,5
1,585,6
132,6
123
83,8
Figure 9: Inverter module dimensions
Static Bypass Switch (SBS) dimensions:
Abluft
Exhaust a ir
Zuluft
Ventilation
85,6
301,5
1,5 83,8
132,6
123
Figure 10: SBS dimensions
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Manual Bypass Switch (MBS) dimensions:
85,6 1,5
301,5
83,5
132,6
123
Figure 11: Manual Bypass Switch (MBS) dimensions
Shelf dimensions:
132,5
372,4
2
481,0
329,4
Figure 12: Shelf dimensions
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Populated shelf:
481,0
372,4
2
132,5
329,5
Figure 13: Populated shelf, with 3 Inverters, SBS and MBS
481,0
372,4
2
329,4
132,5
Figure 14: Populated shelf, 5 inverters
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6.3.3 Floor area, floor loading and weight
Design:
Equipment cabinet: PSJ cabinet, Type: PSJ 2066
Shelfs: see Figure 14
INTERIOR VIEW OF DOOR
B T
H
Height
H
Width
B
Depth
T
2000
600
600
Other designs possible at
customer's request
Figure 15: Enclosure PSJ2066 – Dimensions
140
LAT
60
IT T
LB
LAB
B
30
Cabinet type: PSJ 2066
B - inches 23.62
LB – inches 521.65
LAB – inches 21.65
T - inches 23.62
LT – inches 20.08
LAT - inches 18.90
Cabinet Weight - without
modules
176.37 Ibs.
(cab)
Weight - per module 6.83 Ibs.
Figure 16: Floor area and weight
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If the unit has to be welded in place, please refer to the information in Figure 18
Figure 17: Welding PSJ cabinets
6.3.4 Recommended inverter installation, minimum distances
>600
INVERTRONIC
compact
>=0 min. 600
Zuluft
Ventilation
Abluft
Exhaust air
Figure 18: Recommended inverter installation (for PSJ2066)
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7 INVERTRONIC compact system description
7.1 System configurations
Different systems with regard to power, freedom from interruption and redun-
dancy can be assembled using the components of the inverter system.
The simplest systems are single operation (1 inverter) and the parallel opera-
tion of several inverters without electronic changeover device (SBS, ECD).
Only inverters with the same input and output voltage can be connected in par-
allel.
Up to 5 inverters can be connected in parallel in an appropriate shelf.
Figure 19: Parallel operation of Inverters in one shelf
System
Inv 1 Inv 2 Inv 3
MBS SBS
UDC
UAC, Load
=~
= =~ ~
UAC, Mains
Figure 20: 3 Inverters with SBS and MBS in one shelf
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II.
Inv 1.2 Inv 2.2 Inv 3.2 Inv 4.2 Inv 5.2
UD
C
UA
C, Load
=~
= = = =~ ~ ~ ~
=~
=~
=~
=~
=~
=~
=~
=~
=~
=~
I.
III.
Inv 1.1 Inv 2.1 Inv 3.1 Inv 4.1 Inv 5.1
Inv 1.3 Inv 2.3 Inv 3.3 Inv 4.3 Inv 5.3
System
Figure 21: Parallel operation of 15 inverters in 3 sub-systems / (racks)
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In the case of parallel operation of inverters, the maximum system power is
15.0 kVA or 30kVA. Above are 15 inverters connected in parallel divided be-
tween 3 identical shelves.
In order to increase the reliability of the supply to the loads, an SBS can be in-
corporated into the inverter system. Three inverters, one SBS and one MBS can
then be installed in a shelf accommodating these modules. They are installed in
the right two positions in the shelf. The maximum number of inverters is re-
duced to 13 modules. The maximum system power is 13.0 kVA for the 24Vdc
module or 26kVA for the 48/60Vdc type modules.
A shelf with SBS and MBS positions is always incorporated in all inverter sys-
tems with an electronic changeover device. This enables the system to be main-
tained and repaired without interrupting the supply to the loads. A system con-
figuration with SBS and MBS is recommended as the default configuration on
account of the increased reliability of the extended measuring and control func-
tions.
Figure 22: Parallel operation of 13 inverters, SBS and MBS in 3 sub-systems / (racks)
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System 1
Inv 1.1 Inv 1.2 Inv 1.3
MBS 1 SBS 1
UDC1
UAC1, Load
=~
= =~ ~
UAC1, Mains
System 2
Inv 2.1 Inv 2.2 Inv 2.3
MBS 2 SBS 2
UDC2
UAC2, Load
=~
= =~ ~
UAC2, Mains
System 3
Inv 3.1 Inv 3.2 Inv 3.3
MBS 3 SBS 3
UDC3
UAC3, Load
=~
= =~ ~
UAC3, Mains
Figure 23: 3 independent single-phase inverter systems (1 inverter system per equipment
rack)
Each shelf can be configured independently enabling independent single-phase
systems to be realised within a cabinet configuration.
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7.2 INVERTRONIC compact inverter system components
The system comprises the following main components:
7.2.1 Inverter
Abluft
Exhaust air Zuluft
Ventilation
Figure 24: Inverter module
General - The direct voltage is converted into a single-phase alternating voltage
with constant amplitude and stable frequency in the inverter. A high efficiency
is achieved even in the partial load range using pulse width modulation and
IGBT power transistors. The failure of a component or the power stage does
not lead to an interruption in the supply to the load. The inverter is disconnect-
ed from the busbar and the load is switched to the mains supply without inter-
ruption by means of the electronic changeover device. A fault is indicated at
the same time.
Output - The waveform (sine wave) of the output voltage is controlled by
means of software by a microcontroller (DSP = digital signal processing). This
keeps the distortion factor low, particularly in the case of a non-linear load.
The output is fed via filter circuits and protected by a fuse. In the event of a
short circuit, the short-circuit-proof inverter delivers a short-circuit current of
>250% and switches off and remain off after 4 seconds.
Neutral conductor - The neutral conductor of the inverter output is electrically
isolated from the inverter enclosure.
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Frequency control - The inverter output frequency is controlled by a PLL,
which depending on the operating state of the system, guarantees synchronisa-
tion with the internal clock pulse, the mains supply (only when an SBS/ECD is
provided) or parallel inverters.
If the controlling frequency (bypass supply) deviates by more than the adjusta-
ble value of a minimum of ± 1% and a maximum of ± 5%, the system switches
to the internal clock pulse and then ensures that the frequency remains constant
± 0.1%.
LEDs for indicating the inverter module states:
LED Colour Meaning
red Fault
green Output voltage present and connected
to load / SBS
Green LED illuminates:
Voltage on output,
load less than 90% of max. power
Green LED flashes:
Voltage on output,
the inverter is close to the load limit >
90%
Green LED flashes and red LED
illuminates:
Voltage on output,
load > 100% (overload indication)
Red LED illuminates:
Inverter fault,
no voltage on output
Green and red LEDs flash:
Voltage on output, inverter is being ad-
dressed via the display (SBS, ECD)
When connected, all connectors on the back panel are at mains potential.
Dangerously high voltages can also be present on the connectors even
when disconnected due to charged capacitances within the unit.
All ventilation openings must be free in order to achieve adequate cool-
ing.
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Inverter module connections:
1
2
3
456
7
Item Meaning
1 Battery +
2 Battery -
3 Communication and data connections
4 PE
5 N – Out
6 L – Out
7 Service interface
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7.2.2 Electronic changeover device (SBS, ECD, bypass)
Abluft
Exhaust air
Zu luft
Ventilation
Figure 25: Electronic changeover device (SBS)
The electronic changeover device (static switch) consists of two static micro-
processor-controlled (DSP) thyristor modules (2 anti parallel thyristors) in the
mains bypass and in the inverter path. If the output voltage deviates from the
set values by an appropriate amount (e.g. in the case of an inverter fault), they
switch the connected loads automatically and without interruption to the bypass
supply. The bypass has an overload capability of 120% for 10 min and 1000%
for 10 ms.
The static switch automatically switches the load back to the inverter when
normal operation is resumed (e.g. after an overload or a short circuit).
In synchronous mode, the changeover from inverter to mains and back again
takes place absolutely without interruption at a zero crossover.
The thyristors are fused in the connection panel.
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Electronic changeover device instrumentation:
The electronic changeover device is controlled by means of 4 buttons.
A mimic diagram in which the power flow is shown is displayed on the graph-
ical LCD display.
The operating state and any operational faults are indicated by means of the
LCD panel. The LCD display is also used for reading off information or for
clear guidance by means of the menu. Important menu items are protected by a
password.
The display and operating unit with LCD display displays the following meas-
urements:
Inverter: Input voltage, output voltage and output current
Bypass: Load voltage, current, frequency, power and mains voltage
~
~
~~
Figure 26: INVERTRONIC compact module with MBS and SBS
~
Figure 27: Section of an INVERTRONIC compact module with MBS and SBS
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SBS module state indicators
1
2
LED Colour Meaning
red Continuous: Fault active
Flashing: Fault no longer active
green Running/Ready for operation
1 Display for indicating different system states and measured values
2 Keys for operating the display menu
All connections and controls for the electronic changeover device are accessi-
ble from the outside. There are no components inside the unit that users need to
access for normal operation.
SBS module connections:
2 1
34
5
6
7
89
Item Meaning
1 PE
2 Output
3 Mains L
4 Inverter L
5 Battery +
6 Battery-
7 Communication and data connections
8 PE
9 N
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7.2.2.1. SBS graphical display
All states and measured values of the power supply system can be interrogated
by means of the 4 buttons on the graphic display. Safety-critical menu levels
are accessible by means of passwords. The use of the input keys and the mean-
ing of the displayed states will be explained later.
~
~
~~
~
~
~~
1 2 3
4567
Figure 28: SBS display
In the initial state, the display always shows the schematic diagram for the in-
verter system. Each symbol has its assigned meaning and provides information
on the system state in different ways.
1 Mains voltage symbol
2 MBS symbol for mains bypass
When the contact is closed and the symbol flashes, the mains bypass
is active (only visible when the MBS is logged on)
3 SBS symbol
Inverter operation or mains operation is indicated depending on the
position of the switch element. (Here: Inverter operation)
4 Load voltage symbol; inverter system output voltage
5 MBS symbol for inverter bypass
When the contact is closed and the symbol flashes, the inverter bypass
is active (only visible when the MBS is logged on)
6 Symbol for the inverter(s) in the system
7 Inverter input voltage symbol
A tick after a symbol indicates the correct state/operation. A flashing symbol
indicates a faulty state/operation.
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7.2.3 Manual bypass switch (MBS)
Figure 29: Manual bypass switch assembly (MBS)
The manual bypass switch assembly is always fitted on the left of the electron-
ic changeover device in the shelf. (See, for example, Figure 7 or 14). The man-
ual bypass switch, electronic changeover device and inverter modules are cov-
ered by a screwed front panel.
The main operating instructions can be found on this panel.
In standard ECD mode (switch position 0), the electronic changeover device
should not be withdrawn from the shelf. This would cause the supply to the
loads to be interrupted.
Meaning of the switch positions:
Position 0: ECD (change-over de-
vice) mode:
Position 1: Mains bypass
Position 2: Inverter bypass
Figure 30: Manual bypass switch positions (MBS)
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MBS module connections:
1 2
Item Meaning
1 CAN – Bus (service interface)
2 RS232 (service interface)
2 1
34
5
67
Item Meaning
1 PE
2 Output
3 Mains L
4 Inverter L
5 Communication and data connections
6 PE
7 N
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7.2.4 MCU 2500
The MCU 2500 can be connected to the INVERTRONIC compact system ret-
rospectively by means of the DSP adapter. You will find the configuration and
operation of the MCU 2500 in the separate operating manual
Description number for the MCU 2500: 4339
Description number for the DSP adapter: 4186
7.2.5 INVERTRONIC compact customer interfaces
2 voltage-free changeover relays with the following assignment:
1. SBS (ECD) alarm
2. Inverter alarm
The following diagram shows the relay positions in the event of a fault:
X800:3
X800:1
X800:2
X800:5
X800:6
X800:4
1 2
Figure 31: Fault, position of relay contacts
7.2.6 Software interfaces
RS232, serial interface (service interface)
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8 Electrical connection
CAUTION!
A dangerously high battery voltage exists inside the unit even when the mains
voltage is switched off! All connection and commissioning work must only be
carried out by a skilled electrician. Before starting work on the system, this
specialist must familiarise himself with the particular features of this inverter
range by reading the manual and the installation instructions. All requirements
for the environmental and operating conditions listed in the technical data must
be adhered to in order to guarantee trouble-free operation of the inverter.
For connecting the INVERTRONIC compact, terminal strips for power con-
nections (bypass, load, battery) are provided in the cabinet. The cables can be
routed to the cabinet from all four sides and fed in through the cabinet bottom.
A double floor in the installation area is not absolutely essential. Please refer to
the following tables and drawings for information on where the cables are to be
connected and what size they must be in accordance with DIN VDE 0298.
Cabling to and from the inverter system must only be laid by qualified
specialist personnel.
It is imperative that the safety instructions in Chapter 3 be observed.
Make absolutely sure that the battery is not earthed. Neither the plus nor
the minus pole must be earthed (battery floating).
Make absolutely sure that L and N and the polarity of the battery con-
nections are correct, as any incorrect connections will cause damage to
the system.
Units must be fitted in the rack in the following order. The SBS is al-
ways fitted at the extreme right-hand end of the rack, the MBS on the
left next to the SBS, and the inverters must be fitted from left to right.
Please first check the configuration level of the inverter system to be in-
stalled. Be sure to pay attention to the enclosed terminal diagrams and,
in case of doubt, compare these with the markings on the connecting
terminals.
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8.1 Behaviour under special operating conditions
8.1.1 Overload
The inverter can supply 200% of its rated power for 4 seconds, 120% for 60
seconds and 110% continuously. For higher overload, the system switches to
bypass. If the bypass mains supply is not available, the inverter switches off af-
ter 4 seconds.
(→ red LED illuminates and green LED flashes)
8.1.2 Short circuit on load bar
A short circuit occurring in the downstream load network must be switched off
within max. 10 milliseconds to ensure that the other loads can continue opera-
tion without disruption.
In this case, the inverter system switches immediately to bypass so that the up-
stream load fuse can blow.
If the short circuit occurs during battery operation and if the bypass mains sup-
ply is not available at that time, the output current is limited to 2.5 x rated cur-
rent (standard).
8.1.3 Mains supply not in tolerance
In normal operation, the inverter is synchronised with the mains supply. As
soon as the mains frequency goes outside the tolerance range (standard ±5 %),
the inverter switches to the internal clock pulse. The return to normal operation
is initiated by the control system.
8.1.4 System faults
Inverter If a fault occurs in the inverter, the system switches to bypass without any in-
terruption.
Battery If the battery voltage becomes too low, the inverters switch off and the loads
are fed from the bypass supply.
8.1.5 Fan failure
In the event of a fan failure, the inverter provides its output voltage until the
overtemperature trip level is reached. After this, the system switches to bypass
without interruption.
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8.2 Cable cross sections / Fuses
Inverter systems with 110VDC / 1.5kVA / 230VAC inverters
System
power
Min. conductor cross section 1 Max. external fuse
Mains feed DC feed Mains feed DC feed 1.5kVA 1.5mm² 2.5mm² 10A 20A
3.0kVA 1.5mm² 4.0mm² 16A 35A
4.5kVA 2.5mm² 6.0mm² 25A 50A
6.0kVA 4.0mm² 10mm² 35A 63A
7.5kVA 6.0mm² 16mm² 50A 80A
9.0kVA 6.0mm² 25mm² 50A 100A
10.5kVA 10mm² 35mm² 63A 125A
12.0kVA 10mm² 35mm² 63A 125A
13.5kVA 16mm² 50mm² 80A 160A
15.0kVA 16mm² 50mm² 80A 160A
16.5kVA 25mm² 70mm² 80A 200A
18.0kVA 25mm² 70mm² 100A 200A
19.5kVA 25mm² 70mm² 100A 200A
21.0kVA 25mm² 95mm² 100A 250A
22.5kVA 35mm² 95mm² 125A 250A
Table 2: Conductor cross sections for a 110VDC battery
Inverter systems with 220VDC / 1.5kVA / 230VAC inverters
System
power
Min. conductor cross section2 Max. external fuse
Mains feed DC feed Mains feed DC feed 1.5kVA 1.5mm² 1.5mm² 10A 10A
3.0kVA 1.5mm² 1.5mm² 16A 16A
4.5kVA 2.5mm² 2.5mm² 25A 25A
6.0kVA 4.0mm² 4.0mm² 35A 35A
7.5kVA 6.0mm² 6.0mm² 50A 50A
9.0kVA 6.0mm² 10mm² 50A 50A
10.5kVA 10mm² 10mm² 63A 63A
12.0kVA 10mm² 10mm² 63A 63A
13.5kVA 16mm² 16mm² 80A 80A
15.0kVA 16mm² 16mm² 80A 80A
16.5kVA 25mm² 25mm² 80A 100A
18.0kVA 25mm² 25mm² 100A 100A
19.5kVA 25mm² 25mm² 100A 100A
21.0kVA 25mm² 35mm² 100A 125A
22.5kVA 35mm² 35mm² 125A 125A
Table 3: Conductor cross sections for a 220VDC battery
RE = round conductor, single-strand, RM = round conductor, multi-strand.
Installation type: Group 3
1 Depending on the conditions on site, a larger cross section should be chosen to prevent the
voltage drop on the DC supply cable from becoming too large.
2 Depending on the conditions on site, a larger cross section should be chosen to prevent the
voltage drop on the DC supply cable from becoming too large.
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Check the installed cable cross sections when upgrading the inverter
system. The cable cross sections must be changed to suit the upgrade.
Earth faults on unearthed batteries necessitate a protective device for
each pole.
The earth connection must be made first in accordance with VDE DIN. There
is no need to follow a particular installation sequence.
8.3 Bus connection
For reliable and fault-free operation of the inverter systems, the CAN-Bus must
be "terminated" on the back panel cards. This is achieved by fitting jumpers in
defined positions.
Complete systems are fully configured in the factory for the cus-
tomer's specific requirements. The bus connection is only required
when re-configuring or replacing an shelf.
Jumper positions (X700, X701) for only 1 shelf:
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R100
X700 X701
R101
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Figure 32: Jumper positions (X700, X701) for parallel operation of max. 5 INV without ECD,
4 INV with SBS or 3 INV with SBS and MBS
- X700 bridged
- X701 bridged
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Jumper positions (X700, X701) for 2 shelfs:
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R100
X700 X701
R101
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R101
X700 X701
R100
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Figure 33: Jumper positions (X700, X701) for parallel operation of max. 10 INV without SBS
or 9 INV with SBS, or 8 INV with SBS and MBS
1st rack:
- X700 bridged
2nd rack:
- X701 bridged
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Jumper positions (X700, X701) for 3 shelfs:
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R100
X700 X701
R101
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R101
X700 X701
R100
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R101
X700 X701
R100
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Figure 34: Jumper positions (X700, X701) for parallel operation of max. 15 INV without SBS
or 14 INV with SBS, or 13 INV with SBS and MBS
2nd rack:
- no bridge
1st rack:
- X700 bridged
3rd rack:
- X701 bridged
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Jumper positions for configuration with DSP adapter and distribution card:
Note: A distribution card must be installed for cable lengths of 0.5 m and
above.
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R100
X700 X701
R101
zu X800
X801
zu X801
X500
X400
X300
X200
X100
Teilekennzeichnung
R100
X600
X700
K100
V102
K200 K300
V101
X601
V100
X701
R101
X800
R101
X700 X701
R100
zu X800
X801
zu X801
X500
X400
X300
X200
X100
X8
X6
X5
X4X3
X2
X1
X7
K50 1111 2222 3333X30
K3
X70
RS 232 RS 485
X200
CAN-BUS
X100 1 21 21 21 2 3333X20
K2
1111 33332222
X10
K1
11 21 21 2 3333
X300
120Ohm
max. 0.5m
max. 0
.5m
1 2
3
Figure 35: Jumper positions when connecting a distribution card and DSP adapter
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1 Connect back panel card and distribution card via X7-X3 with patch
cable (Caution! Cable is not standard)
734837 Cable connection RJ45 / 2m
734838 Cable connection RJ45 / 3.5m
2 Fit termination resistor (120Ω) on X8 (distribution card)
3 Connect distribution card and DSP adapter via X4-X100 with patch
cable (Caution! Maximum length 0.5 m)
759123 Patch cable 2xRJ45 / 0.5m
8.4 Terminal connections
See circuit diagrams and terminal diagrams related to the contract.
(Customer-specific documentation, such as circuit diagrams, terminal
diagrams and test reports, is supplied in separate documents)
8.5 System population sequence (fitting modules)
It is assumed in the following that the configuration of the inverter system has
been defined and the appropriate shelfs are fitted and wired in a 19" cabinet
system.
Chapter 11: Re-configuring the system, contains detailed diagrams for
fitting and removing the modular components.
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CAUTION! Have all the inverters and the electronic changeover device been set up
for the same voltage and frequency?
Have all device settings been made and checked?
• If a manual bypass switch (MBS) has been installed as a separate
assembly, move the switch to Position 1. The manual bypass switch
must always be fitted directly on the left of the electronic changeo-
ver device (SBS).
• Slot the electronic changeover device into the extreme right-hand
position of the appropriate shelf. The front panel must be flush with
the frame of the shelf.
• Slot the inverters into the shelf. The order and positions can be
chosen at will. The front panel must be flush with the frame of the
shelf.
• Cover all free slots with a blanking plate.
• Screw all units and blanking plates to the shelf.
All the electrical connections are automatically made when the units are slotted
into the shelf.
It is imperative that the safety instructions in Chapter 3 be observed.
The upstream isolators must be opened in order to isolate the inverter
system from the supply sources (to make it completely dead).
If an emergency stop or EPO circuit is to be implemented, these circuits
must be additionally installed externally. Approved isolating devices
must then galvanically isolate all AC and DC inputs (AC supply and
battery inputs).
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9 Configuring the inverter system
CAUTION! The safety instructions must be observed at all times during installation,
connection and commissioning.
When the inverter system has been assembled, connected and commissioned,
all the components are fully ready for operation. No additional settings or ad-
justments are necessary during operation under any operating conditions.
When choosing a location for the inverter system, it must be ensured that the
floor is firm and level. The inverter system is designed for use in closed and
dry rooms. The maximum permissible ambient temperature is 40°C (see Tech-
nical Data). During installation, it must be ensured that the inverter system is
not exposed to aggressive substances and the passage of cooling air is not
hampered.
CAUTION! Any changes to settings must only be made by trained and qualified
personnel. The modified inverter system settings must be available at
all times. Only then is it possible to obtain an overview of the current
system configurations. This simplifies the specific replacement of
components and fault diagnosis.
All inverter system components are set up in the factory to the values and oper-
ating modes specified by the user or to default values. No changes to the set-
tings are necessary for correct operation.
If, however, system configurations are changed or new systems are configured
from individual components, or components are replaced or added, some set-
tings and functions must be checked.
Shelfs
The types of shelf may vary depending on the required system configuration.
In order for the CAN-Bus system to work without any problems, the cable ends
of the CAN-Bus system must be fitted with a termination resistor/jumper on
each shelf in accordance with a defined scheme. In addition, the shelfs must be
suitably connected by means of data cables.
These measures are only required in the event of a completely new inverter
system design. As this is only rarely undertaken by the user, it will not be de-
scribed in more detail.
Electronic changeover device configuration (SBS)
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Every electronic changeover device is set up in the factory to the values speci-
fied by the user or to default values. The values set can be seen from the con-
figuration data sheet and the equipment marking.
• System voltage; permissible voltage tolerance
• Frequency, permissible frequency tolerance
• Operating mode "Inverter priority" or "Mains priority"
Inverters
Every inverter is set up in the factory to the values specified by the user or to
default values. In the case of an inverter system without electronic changeover
device, these values cannot be changed. The values set can be seen from the
configuration data sheet and the equipment marking.
• Output voltage
• Frequency
• Switching thresholds for the input voltage monitoring
Changing these values using the display and operating menu of the electronic
changeover device is described in more detail in chapter 6.
These settings should be checked and changed if necessary before fitting the
units.
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9.1 Electronic changeover device menu structure:
The menu structure clearly displays the system setting and system information
options.
Each menu item can be accessed and settings can be made using the four menu
keys under the display. However, some menu items are protected by a pass-
word. The system automatically returns to the main window from any menu
item when no button has been pressed for about 2 minutes.
Function key assignment for selecting individual menu items
Confirmation of the selected menu item
Return to next higher menu level.
Selection of individual menu items within a menu
level
Function key assignment for changing system settings
As above
Changing the set values
Function key assignment for entering the password
Selecting the position of a number
Changing the numerical value
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Main menu
Measured values
Device management
System set-up
Delete all messages
Service portal
Software version display
Load voltage
U = 227V
Measured values
Load voltage
Load current
Load frequency
Load power
Mains voltage
Inverter values
Load current
I = 36.0A
Load frequency
f = 50.0Hz
Mains voltage
U = 230V
Load power
Active power
Apparent power
Reactive power
Measured values
Inverter 1
Inverter 2
•
•
• Inverter n
Inverter n
Input voltage
Output voltage
Output current
Inverter n:
Input voltage
U = 51.8V
Inverter n:
Output voltage
U = 230V
Inverter n:
Output current
I = 2.5A
Active power
P = 8.6kW
Apparent power
S = 9.3kVA
Reactive power
Q = 2.8kVAr
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Main menu
Measured values
Device management
System set-up
Delete all messages
Service portal
Software version display
INV n
Fault
Status
Nominal value settings
Identify unit
Log off unit
Software version
Status codes
Device management
INV1 (ok)
INV2 (Fault)
INV3 (ok)
•
•
• INVn (ok)
Static bypass (ok)
Other "adr" (Fault)
AC rated voltage
U = 230V
Rated frequency
f = 50Hz
All LEDs for signal-
ling the output pow-
er of the identified
unit flash.
Fault list
No faults found
•
•
•
Status
� Ready for operation
Fault
� Parallel operation
Switched off
All inverters off
Settings
AC rated voltage
Rated frequency
Identify unit
Single unit
All units
Software version
V **
607672.xx
Status codes
A:0020
D:000C:000
B:0000
All LEDs for signal-
ling the output pow-
er of all identified
units flash.
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Main menu
Measured values
Device management
System set-up
Delete all messages
Service portal
Software version display
Static bypass
Fault
Status
Nominal value settings
Software version
Status codes
Fault delay
Device management
INV1 (ok)
INV2 (Fault)
INV3 (ok)
•
•
• INV n
Static bypass (ok)
Other "adr" (Fault)
AC rated voltage
110V / 115V / 120V or
220V / 230V / 240V
Rated frequency
f = 50Hz or 60Hz
Fault list
No faults found
•
•
•
Status
Mains priority
� Inverter priority
Mains operation
� Inverter operation
� Ready for operation
Fault
Settings
Voltage range
Rated voltage
Rated frequency
Priority type
Software version
V **
607673.xx
Status codes
A:0020
D:000C:000
B:0000
Priority type
� Inverter priority
Mains priority
Fault delay
Other fault
Config. error
Regeneration
Syncline fault
CAN bus error
Frequency
Reference voltage
Auxiliary voltage
Inverter voltage
Contact fault
Mains voltage
Load voltage
Overtemperature
Overload
Alarm
� on
delayed
off
Fault delay
= 10s
Voltage range
U = 115V or 230V
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Main menu
Measured values
Device management
System set-up
Delete all messages
Service portal
Software version display
Other "adr"
Fault
Identify unit
Log off unit
Software version
Status codes
Device management
INV1 (ok)