Installation, Operation and Maintenance Manual

Project:
P0270 - Iraq, MOE/JICA, Lot 3, 4 GIS 132kV SS

Equipment:
DUAL CHARGER CP70R 110VDC 225A

Chloride ref: CP70R2I-12979820

Project ID: 60002909 / 2
Installation, Operation and Maintenance Manual

Project:
P0270 - Iraq, MOE/JICA, Lot 3, 4 GIS 132kV SS

Equipment:
DUAL CHARGER CP70R 110VDC 225A

Chloride ref: IND CP70R2I-12979820

Project ID: 60002909 / 2

VertivCo.com | Vertiv Industrial Systems SAS, 30 avenue Montgolfier,

Chassieu, 69684, France
© 2017 Vertiv Co. All rights reserved. Vertiv, Vertiv logo and Chloride are trademarks or registered
trademarks of Vertiv Co. All other names and logos referred to are names, trademarks or registered
trademarks of their respective owners. While every precaution has been taken to ensure accuracy and
completeness herein, Vertiv Co. assumes no responsibility, and disclaims all liability, for damages
resulting from use of this information or for any errors or omissions. Specifications are subject to
change without notice.

Page 1
Table of Revisions

00 07/12/2021 First Issue PYL

Revision Date Description Prepared by

Page 2
List of Contents

Title Page

1 SAFETY ......................................................................................................................... 7
1.1 General.............................................................................................................................. 7
1.2 WARNINGS ........................................................................................................................ 7
1.3 TYPES OF RISK.................................................................................................................... 8
1.3.1 Electrical risks .................................................................................................................................. 8
1.3.2 Chemical risks .................................................................................................................................. 9
1.3.3 Risks of explosion ............................................................................................................................ 9
1.3.4 Handling risks .................................................................................................................................. 9
1.4 SAFETY MEASURES ............................................................................................................ 9
1.4.1 How to ensure overall safety .......................................................................................................... 9
1.4.2 How to prevent from electrical risks ............................................................................................. 10
1.4.3 How to prevent risks from handling .............................................................................................. 11
1.4.4 How to prevent risks related to the batteries ............................................................................... 11
1.5 EMERGENCY SERVICES AND TREATMENT ......................................................................... 12
1.5.1 Electric shocks and hazards ........................................................................................................... 12
1.5.2 Electric burns ................................................................................................................................. 12
1.5.3 Electrolyte contact with the skin ................................................................................................... 12
1.5.4 Electrolyte contact with the eyes .................................................................................................. 12
1.5.5 Electrolyte ingestion...................................................................................................................... 13
1.6 WEEE INFORMATION FOR WASTE ELIMINATION .............................................................. 13
1.6.1 Semi-conductors ........................................................................................................................... 13
1.6.2 Electronic modules ........................................................................................................................ 13
1.6.3 Electronic printed circuit boards ................................................................................................... 14
1.6.4 Electric installations and cables .................................................................................................... 14
1.6.5 Heat sinks ...................................................................................................................................... 14
1.6.6 Sheet metal ................................................................................................................................... 14
1.6.7 Nickel Cadmium batteries ............................................................................................................. 14
1.7 CE Directives .................................................................................................................... 15
2 INSTALLATION ............................................................................................................ 16
2.1 RECEPTION ...................................................................................................................... 16
2.2 STORAGE ......................................................................................................................... 16
2.3 UNPACKING ..................................................................................................................... 17
2.4 ON-SITE INSTALLATION OF THE SYSTEM .......................................................................... 18

Page 3
 2.4.1 Floor Loading ................................................................................................................................. 18
2.4.2 Access to area ............................................................................................................................... 18
2.4.3 External inspection ........................................................................................................................ 18
2.4.4 Using a fork lift .............................................................................................................................. 19
2.4.5 Using slings .................................................................................................................................... 20
2.4.6 Using lifting rings ........................................................................................................................... 21
2.4.7 Installing the cabinet ..................................................................................................................... 21
2.4.8 Installing adjacent cabinets ........................................................................................................... 22
2.4.9 Equipment layout .......................................................................................................................... 24
2.4.10 Equipment ventilation, according to the type of system .............................................................. 24
2.5 ON-SITE INSTALLATION OF THE BATTERY (vented Nickel Cadmium) ................................. 29
2.6 ELECTRICAL PREPARATION............................................................................................... 30
2.6.1 Cable entry .................................................................................................................................... 30
2.6.2 Cable size ....................................................................................................................................... 30
2.6.3 Terminal blocks ............................................................................................................................. 30
2.6.4 Protective screens ......................................................................................................................... 31
2.7 CONNECTION (Refer to the Customer drawing package) ................................................. 33
2.7.1 Mains connection .......................................................................................................................... 33
2.7.2 Earthing ......................................................................................................................................... 34
2.7.3 DC connections.............................................................................................................................. 34
2.7.4 Remote signaling connection ........................................................................................................ 34
2.7.5 Battery connection ........................................................................................................................ 35
2.8 INSTALLATION COMPLETION ........................................................................................... 36
3 OPERATION ................................................................................................................ 37
3.1 OPERATION OVERVIEW ................................................................................................... 37
3.1.1 Description .................................................................................................................................... 37
3.1.2 Topology ........................................................................................................................................ 37
3.1.3 Operation with Mains available (Normal mode) ........................................................................... 38
3.1.4 Operation with Mains failure (Back-up mode) .............................................................................. 38
3.1.5 Operation with Mains available (Recharge Mode) ....................................................................... 39
3.1.6 Operation with one failed rectifier................................................................................................ 39
3.2 HUMAN-MACHINE INTERFACE ......................................................................................... 41
3.2.1 Overview ....................................................................................................................................... 41
3.2.2 Navigation ..................................................................................................................................... 45
3.2.3 List of messages ............................................................................................................................ 56
3.2.4 BATTERY ........................................................................................................................................ 57
3.3 OPERATING INSTRUCTIONS ............................................................................................. 58
3.3.1 First startup ................................................................................................................................... 58
3.3.2 Emergency shutdown .................................................................................................................... 60
3.3.3 Isolate one rectifier ....................................................................................................................... 60
3.3.4 Re-start of one rectifier after maintenance .................................................................................. 63

4 MAINTENANCE ........................................................................................................... 65
4.1 ROUTINE MAINTENANCE ................................................................................................. 66
4.1.1 Weekly........................................................................................................................................... 66
4.1.2 Monthly ......................................................................................................................................... 66

Page 4
 4.1.3 Quarterly ....................................................................................................................................... 67
4.1.4 Annually......................................................................................................................................... 68
4.1.5 Battery Autonomy test .................................................................................................................. 68
4.2 PREVENTIVE MAINTENANCE ............................................................................................ 69
4.2.1 At every site visit ........................................................................................................................... 69
4.3 SPARE PARTS PRESCRIPTION............................................................................................ 72
4.3.1 Prescription for parts replacement ............................................................................................... 72
4.3.2 Spare parts obsolescence management ....................................................................................... 72
4.3.3 Spare parts storage ....................................................................................................................... 73
4.4 CORRECTIVE MAINTENANCE ............................................................................................ 75
5 APPENDIX ................................................................................................................... 76
5.1 TROUBLE SHOOTING, DRAWINGS & TEST REPORTS ......................................................... 76

Page 5
 GB 01_000_01 CP-70R2I - Safety - Foreword_v1.docx

This User’s Manual contains information regarding the installation, operation and use of the Rectifier –
Battery charger Chloride CP-70R.
It is advised that this document be consulted before installation of the equipment, whose operation
shall only be carried out by qualified personnel.

FOREWORD

It is essential to familiarize yourself with the equipment manual and read the section on SAFETY
before working on the equipment. Three levels of comment warn the reader of the following points:

Used to highlight an important point in the text.

Used to prevent any damage to the material.

Used to warn the personnel of risks to their own safety

All rights, including rights of translation, reproduction by printing, copying or similar methods, even of
parts, are reserved. Offenders will be liable for damages.
All rights, including rights created by patent grant or registration of utility model or design, are
reserved.
Delivery subject to availability. Rights of technical modification reserved.

Page 6
 GB 01_010_05 COMMON - Safety - Equipment with Batt VNiCd_v1.docx

1 SAFETY
1.1 GENERAL
The interior of the cubicle, after it is installed, has hazardous AC & DC voltages on exposed terminals
and printed circuit boards. This condition prevails even when all the switches are OFF.

Installation, maintenance & repair of the equipment should be undertaken by trained, experienced and
authorized electrical personnel.

It is essential that trained, experienced personnel with an electrical accreditation

installs, services and repairs the equipment and batteries.

The handling, installation & maintenance of the battery associated with this equipment, must be done
in accordance with the instructions & safety precautions given by the battery manufacturer. These are
supplied along with the battery.

Follow the instructions and safety precautions published by the battery manufacturer
and provided with this manual when handling, installing and servicing batteries
associated with this equipment.

This manual comes with a customer drawing package specific to your equipment.
These documents will be needed for any on-site action by trained personnel or by our
service engineer.

1.2 WARNINGS
VERTIV INDUSTRIAL SYSTEMS considers the safety of personnel to be of paramount importance.
For this reason it is essential that procedures relating to safety be studied before commencing work
and properly adhered to thereafter.

It is up to each individual to know and understand the national and local legislation and
all rules in force regarding safety and working conditions. If you are having a doubt,
consult the local legislation.

Personal Protection Equipment (PPE) must be worn without fail to prevent potential
risks for the worker. These risks are listed in the next paragraphs.

Page 7
 It is essential to use only well-insulated tools and accessories, well-maintained and
accurate instruments, and appropriate supports and lifting equipment.

It is essential to strictly comply with all the SAFETY instructions.

Even when all switches are off and isolators are open, hazardous voltages are present
within the system; any operation that requires protection panels to be opened and/or
removed may be carried out by authorized technical personnel only

1.3 TYPES OF RISK

1.3.1 Electrical risks

Electric power can be supplied from the mains, the charging device, the battery or the auxiliary control
terminals when the equipment is powered, or simply when the equipment is in stand-by. There are
three potential electrical risks:
• Direct contact between two active parts can cause the worker an electric shock.

• Indirect contact between an active part and the metal mass of the cabinet where the insulation
is defective can cause the worker an electric shock.

• A short-circuit between two active parts can produce a very strong current and cause injuries,
fire and damage to equipment.

1.3.1.1 Battery Electrical Hazards

The battery terminals are always live.

Even a “dead” battery can source a high short-circuit current, which may eventually damage the
battery itself and the cables. Also it may possibly cause burns to the operator. The voltage of an
individual cell is not dangerous, but if it is connected to the group of batteries, it reaches dangerous
voltage levels.

Page 8
1.3.2 Chemical risks

The electrolyte of Nickel Cadmium batteries is a solution of potassium hydroxide and lithium
hydroxide. This solution is harmful to skin and eyes. The chemical risk is the caustic nature of the
electrolyte.
VENTED cells contain free liquid electrolyte which can spill if the cell is overturned or overfilled.
A broken container may leak and cause the electrolyte to come into contact with workers or equipment
parts.
1.3.3 Risks of explosion

In vented Nickel Cadmium cells hydrogen and oxygen are vented to the air.
HYDROGEN and OXYGEN are released from battery cells during charging and may occur at other
times, especially if the blocks are moved or shaken. Hydrogen mixing with the air or oxygen can be
explosive near sparks or flames.

1.3.4 Handling risks

The equipment can be heavy and tall, and the center of gravity may be offset. Attention must be paid
to possible tipping of the equipment when being handled.
The BATTERY CELLS (battery blocks) can be very HEAVY and may have to be moved to places
where access is difficult. When installing the battery with several cells or blocks, muscular problems
can therefore occur suddenly during or after the full battery installation.

1.4 SAFETY MEASURES

1.4.1 How to ensure overall safety

NEVER WORK ALONE. Learn first aid, especially cardiopulmonary resuscitation (CPR), for electrical
accident victims. Unless the power is removed from the equipment, people should not work alone.
Another person should be present to assist.
• Extra care is required when working on battery / battery bank.

A third person familiar with all the safety systems and emergency actions should be
present at all times in case of need.

• Do not touch printed circuit boards. High voltages may exist; there is an electric shock hazard.

• Turn OFF power before working on electric or electronic circuit, except when absolutely
necessary.

Consider all wire and terminals to be live until proven otherwise by a safe test method.

• Always check the electrical rating of the equipment you use, and also make sure that you use
the equipment within its rated values.

Page 9
 • Do not block or insert any object into the ventilation holes or other openings of the system.

• Turn the system OFF and isolate it before cleaning. Use of soft cloth is recommended, never
use liquid or aerosol cleaners. Keep the vents free of dust accumulation as this could restrict
the airflow required for cooling.

• This equipment contains several circuits that are energized with high voltage. Use only those
test devices which are designated for the troubleshooting.

For safety reasons, always check the voltage levels with an AC & DC voltmeter /
multimeter before making contact / connections. Even though the power is turned OFF,
high potentials may exist at the capacitor banks.

• The system is connected to AC mains; high DC voltages may additionally be present in the
battery circuit. We recommend that the installation must be carried out by qualified personnel.
He should follow the operating instructions and the regulations of the local electrical authority.

• The system may generate a large leakage current; grounding of the equipment is necessary
before connecting power. Therefore connect to ground prior to commissioning. Improper
connection may damage the device and lead to injuries.

When the work has been completed, put all the protective screens back on and close
and lock all the doors.

1.4.2 How to prevent from electrical risks

• Use insulated tools only.

• Remove personal objects that contain metal such as rings, watches, bracelets and necklaces
as well metal objects in general (pens, tools, etc.) that may fall out of open pockets and cause
a short-circuit.

• Use Personal Protection Equipment (PPE)

• Do not work on equipment with defective insulation without firstly correcting the fault.

• Remove only those protective screens that are absolutely necessary to access terminals,
levers, etc.

Page 10
1.4.2.1 Safety precautions for capacitors

The UPS contains capacitors which continue to store energy for a period of time after the device has
been disconnected from the mains supply and battery. This voltage (which can reach > 400 V DC) is
present at the battery terminals. For this reason, check that the system and the external mains
separation device are switched off and the battery fuses removed. Before continuing work, measure
the voltage at the battery terminals and at the mains input filter and wait until this has dropped to 0 V
or wait at least 5 min. after disconnecting. Failure to do this can lead to severe electrical shock and
even death.
Handle capacitor units carefully as they remain charged even after disconnection, may be due to faulty
discharge devices. Consider capacitor terminals, connected bus bars, cables and other devices which
are connected with them, as energized. Voltage might be present there.

1.4.3 How to prevent risks from handling

• Use only suitable lifting means.

• Use correctly-installed scaffolding or platforms.

• Keep your back straight and vertical when lifting loads.

• Ask for help for considerable or repetitive loads.

1.4.4 How to prevent risks related to the batteries

All operations involved in assembling and using battery must be carried out in accordance with all
safety procedures. These operations must be carried out by skilled and qualified personnel. Following
notes are intended as a guideline to safety precautions which need to be observed.

Refer to the instructions and safety precautions published by the battery manufacturer
and supplied with this manual.

1.4.4.1 Prevent from chemical risks

• Always use eye protection and rubber gloves when handling battery cells.

• Handle the battery cells carefully, making sure that any open cell is kept vertical.

While working on the batteries, always wear protective goggles, work gloves, rubber-
soled shoes and a rubber apron.

Page 11
1.4.4.2 Prevent from the risks of explosion

• Do not smoke. Do not use naked flames. Avoid creating an arc or sparks when working on the
battery cells. Avoid wearing clothes that could become loaded with static electricity.

• Install mechanical ventilation in the battery room so that the hydrogen concentration remains
less than 3.8%. The required airflow rate can be calculated following the IEC EN 50272-2
standard.

• Above all, Ventilation is essential in BOOST mode and in INITIAL CHARGE modes as these
charging modes use higher voltage levels.

1.5 EMERGENCY SERVICES AND TREATMENT

IN ANY CIRCUMSTANCES, IMMEDIATELY CALL THE EMERGENCY SERVICES OR A

DOCTOR

1.5.1 Electric shocks and hazards

Immediate action is essential. Severe electric shock may affect heart action and breathing.
Make sure it is safe to approach. If the casualty is in contact with the live conductor, isolate him by
switching off the supply, without touching the victim’s body. If this is not possible, or it is doubtful
whether the system is electrically isolated, stand on a dry insulating material and pull or push the
casualty clear using dry insulating material, e.g. wood, plastic, fabrics etc. Pay attention that no one
else can be electrified.
Call for help. Do not lose sight of the casualty until arrival of relief. Loosen his collar and his belt and
stay with the injured victim until help arrived. If unconscious, place in recovery position. If not breathing
and if heart pulse stopped, cardiopulmonary resuscitation must be practiced until the victim responds
or until help arrives.
If necessary, give artificial respiration.
Seek the assistance of others to summon medical attention.
1.5.2 Electric burns

Drizzle visible burned area under running water. Seek medical advice and follow your doctor's
instructions. Monitor the status of the victim.
1.5.3 Electrolyte contact with the skin

Wash skin with plenty of clean water for 15 minutes. Undress the casualty under water. Remove any
contaminated clothing. Do not forget shoes and underwears.
Seek for medical assistance.
1.5.4 Electrolyte contact with the eyes

Rince eyes with plenty of water during at least 15-30 minutes (keep eye-lids wide apart).
Seek for medical assistance.

Page 12
1.5.5 Electrolyte ingestion

If electrolyte is swallowed, it will be corrosive to internal organs.

It is a chemical ingestion: do not induce vomiting, do not give anything to drink, keep the packaging of
the product as well as the remaining product.
Notify the Poison Control Center and seek medical advice. Await the arrival of doctors on the scene.
Immediately consult the nearest local medical authority that will provide first aid and most appropriate
medical treatment.

Electrolyte of Nickel Cadmium batteries is alkaline, whether electrolyte of Lead acid

batteries is acidic. That’s why a different neutralising agent is needed when using
Nickel Cadmium batteries.

1.6 WEEE INFORMATION FOR WASTE ELIMINATION

The disposal of this equipment is covered by a selective processing of

some components.
When this equipment reaches the end of useful life, it must be
eliminated with all necessary care. It contains certain materials that
may be hazardous for the environment and living organisms if care is
not taken. Call the relevant approved service. The following
information gives a list of components with which a particular care
must be taken for their disposal.

1.6.1 Semi-conductors
This equipment contains large semiconductors mounted on extruded aluminum, finned heat sinks.
These are thyristors, Insulated Gate Bipolar Transistors (IGBT) and eventually diodes. They are all
doped silicon semi-conductors incorporating P type and N type silicon. Some contain silicon, copper
and other metals and metallic compounds including beryllium. They are sealed and must not be
opened. If the seal is broken, use protective gloves when handling the semi-conductors and seal them
into tough plastic bags before disposal from an approved service.

1.6.2 Electronic modules

This equipment contains electronic modules. These include electronic boards and plastic boxes. This
equipment also includes a TFT screen (for the display) and plastic covers.
Their disposal requires the assistance from an approved service.

Page 13
1.6.3 Electronic printed circuit boards
Electronic printed circuit boards contain glass fiber and epoxy resin printed circuits with tin-plated
copper tracks. The components are metal film resistors, plastic or electrolytic capacitors, silicon semi-
conductors, magnetic cells (transformer or HF choke) in ferrite and copper wires and aluminum heat
sinks.
Their disposal requires the assistance from an approved service.

1.6.4 Electric installations and cables

The electric circuits are in copper or aluminum bar and/or copper wire insulated with flame-retardant
polyvinyl chloride (PVC).
Their disposal requires the assistance from an approved service.

1.6.5 Heat sinks

Heat sinks are made in aluminum.
Their disposal requires the assistance from an approved service.

1.6.6 Sheet metal

The cabinets are in mild steel covered with epoxy resin paint. The mechanical accessories are in
galvanized sheet metal.
Their disposal requires the assistance from an approved service.
1.6.7 Nickel Cadmium batteries

Nickel Cadmium batteries are recyclable.

Ni-Cd batteries must be handled in accordance with all applicable state and federal laws and
regulations. DO NOT INCINERATE or subject battery cells to temperatures in excess of 100°C
(212°F). Such treatment can vaporize the liquid electrolyte causing cell rupture. Incineration may result
in cadmium emissions.
Nickel-cadmium batteries contain a corrosive electrolyte of potassium hydroxide. Inside sealed
batteries; the electrolyte is in a non-fluid form within a membrane. Plates can be made of nickel, nickel
oxide, cadmium or a mix of all this, depending on the battery type. Plates may be porous and soaked
with potassium hydroxide.
Please refer to Battery Manual for more information.

Page 14
1.7 CE DIRECTIVES

The product carry the mark: . It complies with European directives:

• EMC Directive: 2004/108/EC

• LVD Directive: 2006/95/EC

The product is a restricted distribution equipment intended for installers or informed

users. Only qualified personnel authorised to enter rooms with restricted access can
commission and maintain this equipment. Installation restrictions or additional
measures may be necessary to avoid disturbances.

Page 15
 GB 02_010_05 COMMON - Instal - Recept Stor Batt VNiCd_v1.docx

2 INSTALLATION

2.1 RECEPTION

The equipment is normally delivered packed and screwed down and upright on a pallet for handling
with a pallet truck or fork lift.

The equipment can be heavy and tall, and the centre of gravity may be offset.
Pay attention to a possible tipping of the equipment when being handled by a fork lift. If
needed, put back down the equipment and adjust the positioning of the forks to ensure
correct balancing of the equipment in order to ensure safe transportation.

The goods have been checked thoroughly before dispatch.

On receipt,
• Check visually that the packaging and the equipment have not been damaged during
transport.

• Check against the delivery note that no components are missing. Immediately advise the
carrier and the supplier of any missing or defective components. Any claims lodged after the
deadline of 8 days will result in the claim and the right to free repairs or the replacement of
parts being null and void.

The battery and equipment cabinet are often delivered separately.

2.2 STORAGE

If the equipment is not being installed immediately, store it in its original packaging in a clean room
sheltered from dust, humidity and any heat source.

Any equipment which include a battery should not be stored longer than the
recommended time given in the table below to prevent the battery from self-
discharging. Batteries must be charged beyond these times.
Make sure that the electrolyte does not freeze and damages the battery plates. The
electrolyte freezes at around -20°C. The batteries should be charged constantly to keep
a low freezing point temperature.
After a storage period that is even shorter than those shown, the manufacturers'
indications must be followed for commissioning operations. They require at least a full
charge before any loading.

Page 16
 Temperature during storage –20°C to +55°C

Storage time Not restricted time

Relative hygrometry 5 to 95%

Atmospheric pressure 70 to 106 kPa (0.7 to 1.06

bar)

2.3 UNPACKING

Keep the equipment in its original packaging on a wooden pallet until moved to its final location.
Unpack with all the necessary precautions:
• Carefully remove the packaging.

• Make sure you do not throw away the cabinet keys, which are in a bag attached to the cabinet
door.

For equipment with batteries delivered separately:

• Make sure the battery terminals do not short circuit when unpacking.

• Make sure you do not throw away the connectors or accessories supplied with the battery
when getting rid of packaging.

Dispose of the packaging material in accordance with the local environment

regulations.

Page 17
 GB 02_020_01 COMMON- Instal - System_v2.docx

2.4 ON-SITE INSTALLATION OF THE SYSTEM

2.4.1 Floor Loading

The route / passage up to the installation site and the actual foundation location must
be capable of supporting the weight of the system / batteries and other accessories

2.4.2 Access to area

Plan the route in advance, so that unit will pass through elevations, corners and doorways to prevent
damages.
Ensure adequate service maintenance and ventilation space is kept around the equipment from all
sides. Refer to the general arrangement drawing provided for details.
The equipment must be lifted with suitable lifting means from the wooden pallet on which it stands and
placed in position. Follow the recommendations given on the next pages according to the lifting means
available at site.
2.4.3 External inspection

The SYSTEM is inspected mechanically and electrically before being shipped from the factory. It
should be kept in the same condition when it arrives. The system should be inspected visually /
mechanically for any damage which may have been caused during transportation and / or movement
up to the site.
If damage is apparent, do not attempt to install the system, please report to the transporter and service
center.

Improper installation of the system may cause injury to personnel or damage the
equipment. The System must be installed and grounded in accordance with the Local
as well as National Electrical Codes.

Page 18
2.4.4 Using a fork lift

The fork lift must have appropriately sized forks according to the width of the cabinet.

Remove the front plate from the cabinet base

by loosening the fixing screws.

Position the forks of the fork lift correctly.

Pay attention to the center of gravity of the
cabinet: a possible tipping of the equipment
may occur. If needed, put back down the
equipment and adjust the positioning of the
forks to ensure correct balancing of the
equipment in order to ensure safe installation.

Reposition the front plate of the cabinet base

once the handling operation has ended.

Page 19
2.4.5 Using slings

Heavy equipment with no lifting rings can be raised using a crane and slings. To achieve this, follow
these steps
:
Remove the front plate from the cabinet base by
loosening the fixing screws.

Place the slings beneath the cabinet at each end.

Fasten the slings using fixing clamps to prevent
them from sliding towards the centre during
vertical lifting.
Projecting sections, such as the display, must
also be protected against accidental damage by
the slings during lifting.
Protect the slings from sharp edges and corners.

Reposition the front plate of the cabinet base

once the handling operation has ended.

Page 20
2.4.6 Using lifting rings

Equipment with lifting rings can be raised using a crane and slings. To achieve this, follow theses
steps:
Engage the slings correctly in the lifting rings
Ensure slings have a maximum angle of 45°
versus the vertical.

2.4.7 Installing the cabinet

Before anchoring the cabinet on site:

Refer to the General Arrangement drawings provided to :
➔ Appropriately drill the necessary holes in the floor.
➔ Appropriately anticipate the position of the equipment for correct ventilation.
Make sure the floor is sufficiently flat so that the cabinet will not be distorted when
secured to the floor (floor flatness not exceeding 2mm/1000)
Make sure the floor is strong enough to safely carry the weight of the equipment.

Page 21
 Once removed from its pallet and placed in the
right position, the equipment shall be fastened to
the floor by means of anchor bolts, through the
holes of each foot as shown on the left image.
Before positioning the anchoring screws, level the
cabinet both horizontally and vertically, using non-
compressible chocks.

2.4.8 Installing adjacent cabinets

According to the requirements, the system might

be delivered with an adjacent cabinet which shall be installed next to the system cabinet.
The adjacent cabinet shall be lifted from its pallet and manoeuvred into position as explained in
paragraphs 2.4.4, 2.4.5 or 2.4.6 (as appropriate).
The adjacent cabinet shall be prepared for installation and floor anchoring as explained in paragraph
2.4.7.

If the adjacent cabinet is dedicated to the installation of the batteries:

Battery cells are very heavy components. Installing the battery cells inside the battery
cabinet prior to removing it from the pallet and installing it in final position is not
recommended. However, if you wish to safely install a fully weighted battery cabinet,
make sure that an adequately strong lifting gear is selected.

Once in position, one next to the other, adjacent cubicles shall be fastened together by means of bolts
and screws (these are available in a plastic bag located inside the cubicles) as explained on the next
page.

Page 22
The procedure for fixing the cabinets together is as follows:
Take the kit comprising of 4 screws and nuts
(M10 x 100mm, located inside the cabinet)
Put the cubicles together. The separating panel is
sandwiched between the cubicles

Take the 4 screws and open the doors of each

cabinet.
Put the screws through the holes in the uprights
which go through the separating panel.

There are 2 holes at the top and 2 at

the bottom.

Put one nut on each screw and tighten.

Page 23
 GB 02_030_01 COMMON - Instal - Layout & Ventilation_v1.docx

2.4.9 Equipment layout

The room housing the equipment must comply with the local electrical installation
standards in force. It must be properly ventilated, dry and clean.

The equipment shall be installed in respect with the General Arrangement drawing
provided. The minimum distances mentioned on the general arrangement must be
respected so that the ventilation of the system is optimized.

The air in the room must be able to freely circulate around the equipment through the air vents
provided for this purpose.
There must be sufficient space in front of the door for it to be opened fully.
The electric connection cables enter at the bottom of the equipment, unless requested specifically
otherwise (see cabinet presentation drawing).

2.4.10 Equipment ventilation, according to the type of system

All the ventilation apertures must be kept free and clean. These systems can operate continuously
within an ambient temperature range of between 0 and 40°C. However, the ideal ambient temperature
is below 25°C.
The heat can be removed from the equipment room by a forced cooling ventilation system or,
alternatively, an air conditioning system.
The required air changes per hour will depend on the system rating, the heat loss and the cooling air
temperature.

Page 24
Below you will find a brief description of the differing types of deflectors the system may have,
according to the IP requirements and to the level of warm air exhaust required per product.
No Deflector
IP 20

Dual channel air extraction deflector

IP 4x

Single channel air extraction reversible

deflector
IP 4x

4-ways air extraction deflector

IP 4x

The next pages show the type of airflow to be respected according to the type of deflector.

Page 25
2.4.10.1 Dual channel air extraction deflector

If the system includes a dual channel air extraction as

shown on the left, please make sure that the equipment
is installed as per the rear spacing specified in the
general arrangement drawings provided separately.

2.4.10.2 Single channel air extraction reversible deflector

Rear channel air extraction.

In such case, refer to the general arrangement
drawing provided separately to make sure the system
is installed with the appropriate minimum distance
between the wall and the rear panel of the system.

Some enclosures include rear ventilation

grids to ensure proper cooling of the unit.
Always have a look at the General
arrangement drawings provided separately
(and particularly the required rear spacing)
to make sure the system is correctly
installed.

Page 26
Conversion of a rear channel air extraction into a
front channel air extraction.
If the system is to be installed against a wall, please
make sure to reverse the air channel as explained in
the following steps.

Improper installation of the UPS may cause

injury to personnel or damage the
equipment. The system must be installed
with respect to its cooling requirements.

• Unscrew the air deflectors located on

the top of the enclosure

• Turn the deflectors so that the air

extraction is done on the front of the
equipment.

Page 27
 • Tighten the screws of the deflectors.

The air extraction path is now on the front of the

system.

2.4.10.3 4-ways air extraction deflector

If the system includes a 4-ways air extraction

deflector as shown on the left, please make
sure that the equipment is installed as per the
rear spacing specified in the general
arrangement drawings provided separately.

Some enclosures may include side

and rear ventilation grids to ensure
proper cooling of the unit. Always
have a look at the General
arrangement drawings provided
separately (and particularly the
required rear spacing) to make sure
the system is correctly installed.

Page 28
 GB 02_040_04 COMMON - Instal - Instal Batt VNiCd_v1.docx

2.5 ON-SITE INSTALLATION OF THE BATTERY

(VENTED NICKEL CADMIUM)

Before doing any kind of handling with the batteries, familiarise yourself with the
SAFETY chapter in this manual. Remove rings, bracelets and metal watches. Use
insulated tools only.

The vented nickel cadmium battery discharges a significant amount of gas (Hydrogen and Oxygen). A
special part for the vented battery is recommended and mechanical ventilation is necessary to
evacuate the gaseous discharges and prevent the risks of explosion (see chapter on SAFETY/Safety
measures / How to prevent risks related to the batteries / Prevent from the risks of explosion).
Vented Nickel Cadmium batteries are delivered in two different ways:
• Either as cells delivered full

• Or as cells delivered empty

Battery cells must be prepared, fitted in the cabinet or on a site, and connected to each
other in accordance with the manual provided by the battery manufacturer and attached
to this document.

Page 29
 GB 02_050_01 COMMON - Instal - Electrical Preparation_v1.docx

2.6 ELECTRICAL PREPARATION

Installation shall only be carried out by qualified technicians and in conformity with the
applicable safety standards.

Ensure that the live input source cannot accidentally be connected to the UPS during
installation.
Switch off the input sources prior to connecting the UPS.

2.6.1 Cable entry

The equipment is provided with undrilled cable gland plates.

Refer to the general arrangement drawings provided for cable entry positions and gland
plates.

Don’t forget: Anticipate the need for appropriately sized grommets or cable glands
(compatible with the size and type of cables, as well as IP level requirements) in order
to avoid any harm to the cables and potential destruction of the terminal blocks.

Before making the connections set all power switches, isolators and circuit breakers to
OFF. Remove the battery fuse.

2.6.2 Cable size

Cable sizes are not specified in this manual. The installer must assess the requirements of each site
with regard to the Local and National regulations, as well as to the relevant codes of practice.

2.6.3 Terminal blocks

Refer to the technical drawing for a detailed description of the terminal blocks to ensure a correct
cabling of the unit.

Page 30
2.6.4 Protective screens

Remove the protective screens in front of the terminal blocks.

Keep the protective screens aside as they shall be mounted back in the equipment
once the connections are completed.

Remove the gland plates from the cabinet base

by loosening the fixing screws.

Drill the necessary number of holes into the gland

plate(s), according to the number of cables to be
connected and the size of the cable glands.

Drill the gland plate away from the

system as some filings might enter the
system.

Install the cable glands on the plate.

Cable glands are not in VERTIV

INDUSTRIAL SYSTEMS scope of
supply

Fix back the gland plate back inside the cabinet.

Page 31
 Route the cables to their respective terminals.
Make sure the cables are not routed too tight so
that they do not stress the terminal blocks.

(shown for illustration purpose only; cabling to be adapted as per the system)

Tie the cables to the holding bar (1) by using

cables straps (in the bottom of the cabinet,).

Cable straps are not in VERTIV

INDUSTRIAL SYSTEMS scope of
supply

Page 32
 GB 02_060_01 CP-70R2I- Instal. - Connect. Charger_v1.docx

2.7 CONNECTION
(REFER TO THE CUSTOMER DRAWING PACKAGE)

Before connecting the equipment in any way, familiarise yourself with the SAFETY
chapter in this manual. Connections must be made by an accredited person who is
trained in preventing electrical risks.

The equipment has the following information and documents for use when making the connection:
• A rating plate which is usually fitted on the door inside the unit. This plate gives the cabinet’s
electrical characteristics.

• A detailed electrical drawing (including options) used to locate the various components and
terminals.

• A technical file attached to this manual and containing:

o A general arrangement drawing

o A single line diagram

o A detailed electrical drawing (wiring diagrams)

o A layout drawing of the terminal blocks

o A Bill of Material (Parts lists)

All the cables used must be suitable for the planned protections and the electrical
installation standards in force.

All the protections or power switches on the equipment must be open (OFF position).

Remove only those protective screens that allow access to terminals, levers, etc.

2.7.1 Mains connection

Mains power must be protected by a circuit breaker upstream the equipment.

The circuit breaker must be open during the connection and remain so until
commissioning (see Operation chapter).

Page 33
2.7.1.1 Phase rotation for three-phase input rectifiers

Care should be taken when connecting the mains input cable so that the phase rotation is respected.
Terminals are labelled for that purpose.

Follow the phase order so that the equipment can operate safely and that voltages and
currents of the three phases are displayed correctly.

2.7.2 Earthing

The cabinet earth bar must be grounded to a suitable earthing point.

This eliminates extraneous noise as well as provides full protection by the earthing. It is therefore quite
normal to note a few milliamps of continuous earth leakage. Earth leakage detectors at the input
should take this slight loss into account.
2.7.3 DC connections

Carefully respect the polarities when connecting the DC side.

Once the connection has been completed, do not close the isolators before
commissioning (see Operation chapter)

2.7.4 Remote signaling connection

It is essential to use the remote signaling information to benefit from all the functionalities of this
equipment, especially to ensure the best possible installation safety.
The contacts are illustrated in idle mode. This is also the default position (positive safety).
Refer to the wiring diagram to identify each information signal.

Page 34
 GB 02_070_02 COMMON - Instal - Connect Batt VLA VNiCd_v1.docx

2.7.5 Battery connection

A battery protective device must be placed as close to the battery as possible. This
device, suitable for the installation, protects the battery from an accidental short-circuit.

The battery should be connected with the battery isolating device in OPEN position
(fuses are removed or circuit breaker is off).

Check and double check that the polarity of the battery connection is correct. An error
here can cause major damage to the system. Open the battery shield.

Strictly follow the instructions below to connect the battery:

STEP 1. Battery cells connection

Connect the battery cells together in accordance with the diagram provided by the battery
manufacturer and attached to this manual.

STEP 2. Double check that cells connections are correct

Check the wiring of battery cells.

STEP 3. Battery voltage check

Check the voltage for each group of batteries with a voltmeter.

STEP 4. Look for potential short-circuits

Check that the battery is not short-circuiting the metal mass.

STEP 5. Earth the cabinet or the rack

Check that the batteries' metal cabinet or rack is earthed.

STEP 6. Connect the battery to the equipment

Finish connecting the cables between the battery and the equipment.

Page 35
 STEP 7. Check the battery polarities

Once the connection has been completed, do not close the battery protection device
before commissioning

DO NOT CLOSE BATTERY ISOLATOR / CIRCUIT BREAKER NEITHER FIT FUSES UNTIL
THE FILTER CAPACITORS HAVE BEEN PRE-CHARGED BY THE CHARGER.

2.8 INSTALLATION COMPLETION

Once the equipment connection is complete, put the protective screens back in front of
the terminals and levers.

Page 36
 GB 03_010_02 CP-70R2I - Operation - Dual Ch. Dual Bat. - Operation Overview_v1.docx

3 OPERATION
3.1 OPERATION OVERVIEW

The Uninterruptible Power Supply System (UPS) is designed to supply DC power to protect the
connected load from mains interruptions and power failures.
3.1.1 Description

The system is a static direct current uninterruptible power supply system. The AC current taken from
the AC source is converted to a regulated DC current by a thyristor-based rectifier. The DC current
generated by the rectifier-charger is used to supply the critical DC loads connected on the output of
the system, whilst simultaneously maintaining the battery in a fully charged and optimum operational
condition. In case of a mains failure, the batteries provide uninterrupted DC power to the loads for a
given period, dependent on battery capacity and connected load.
3.1.2 Topology

The complete system consists of two independent DC UPS connected in parallel to share the load (as
seen on the figure below). Each rectifier consists of two major parts: the rectifier-charger and the
battery. These are described hereafter:
RECTIFIER-CHARGER 1
MAIN
SUPPLY

BATTERY 1

LOAD

RECTIFIER-CHARGER 2
MAIN
SUPPLY

BATTERY 2

• The rectifier-charger: It converts the primary AC supply into a controlled and regulated
DC voltage which charges the battery and powers the connected DC load.

• The battery: The battery stores energy from the charger. Battery will discharge during a
power cut to supply the load.

Page 37
3.1.3 Operation with Mains available (Normal mode)

Refer to the Operating Instructions paragraph of this manual to start-up the equipment.

MAIN
RECTIFIER-CHARGER 1 This is the normal mode. The AC mains supply
SUPPLY
is present; the 2 rectifiers-chargers are running.
Each rectifier-charger compensates the
fluctuations of the AC mains as well as the DC
BATTERY 1
load variations so that the output of the complete
LOAD
system is kept constant.
RECTIFIER-CHARGER 2
MAIN
SUPPLY
Each rectifier-charger supplies its connected
battery with a floating voltage so that each
battery is kept fully charged.
BATTERY 2 By mean of static regulation, the 2 rectifiers-
chargers concur to share the load, which means
that each rectifier-charger is loaded at 50% of
the total connected load.

3.1.4 Operation with Mains failure (Back-up mode)

MAIN
RECTIFIER-CHARGER 1 In case of mains AC supply failure, the 2
SUPPLY
rectifiers-chargers stop. Each battery starts
discharging to keep supplying the DC load. This
is automatically achieved without any break for
BATTERY 1
the load and without any intervention from the
LOAD
operator.
RECTIFIER-CHARGER 2
MAIN
SUPPLY
The battery autonomy depends on the battery
capacity (in Ampere-hours) connected to each
UPS
BATTERY 2

Page 38
3.1.5 Operation with Mains available (Recharge Mode)

MAIN
RECTIFIER-CHARGER 1 Upon restoration of the mains AC supply, the
SUPPLY
rectifiers automatically restart and each rectifier
recharges its connected battery by applying the
correct voltage level (according to the battery
BATTERY 1
type).
LOAD

RECTIFIER-CHARGER 2
MAIN
SUPPLY

BATTERY 2

3.1.6 Operation with one failed rectifier

MAIN
RECTIFIER-CHARGER 1 If one of the two rectifiers fails, the remaining DC
SUPPLY
UPS will continue to support the load without
break.
BATTERY 1

LOAD

RECTIFIER-CHARGER 2
MAIN
SUPPLY

BATTERY 2

Voltage FLOATING MODE: This is the normal mode. It is a

constant-voltage charge mode so that battery charge
Initial Charge current tends to decrease to zero as the battery
Voltage becomes fully charged. The chosen voltage is the one
Boost
which allows the internal losses to be compensated by
Floating
the charge current into a charged battery. In Floating
mode, the battery is kept fully charged and remains
below the gassing voltage level, so that the loss of
electrolyte is negligible.

Current

Page 39
 GB 03_050_01 COMMON - Operation - All Config - Module desc. - Boost_Mode_Timer Control_v1.docx

Voltage BOOST MODE: This mode can also be called the

recharge mode. It is a constant-voltage charge mode
Initial Charge which is set at a slightly higher voltage level (than
Voltage floating mode) to shorten the recharge time of the
Boost
battery (the voltage value is pre-set according to the
Floating
battery specification).
It can be automatically selected after restoration of the
AC mains supply, or manually launched via the display.
It is controlled by two timers:
• The timer N°1 is initiated upon AC supply
Current failure. If the failure lasts more than the pre-
set value, the BOOST mode will be initiated
after restoration of the AC supply. If this
failure lasts less than the pre-set value, the
CHARGER/BOOSTER will automatically
restart in FLOATING mode.

• The timer N°2 is initiated when BOOST

mode is activated (either automatically or
GB 03_060_01 COMMON - Operation - All Config - Module desc. - InitCharge_Mode_v1.docx
manually). This timer value is pre-set so that
the CHARGER/BOOSTER will not remain
too long in BOOST mode. This feature
allows preserving the battery.

Voltage INITIAL CHARGE MODE: This charge mode is

intended for use during commissioning procedures to
Initial Charge complete the forming process of the battery plates. It is
Voltage a constant-voltage charge mode which is set at a very
Boost
high voltage level (higher than boost mode).
Floating
It can only be engaged manually and must be
supervised by an operator. For safety purpose, the
battery charging current is limited to initial charge pre-
set parameter value.
The initial charge ends either manually (via the display),
or automatically when the pre-set parameter value is
Current reached.

Page 40
 GB 03_070_01 CP-70R2I - Operation - All Config - Human Machine Interface_v2.docx

3.2 HUMAN-MACHINE INTERFACE

The rectifier-charger incorporates the necessary controls, instruments and indicators to allow the
operator to monitor the system status and performance and take any appropriate action. Furthermore,
interfaces are available, which allow extended monitoring and control, as well as service functions.
3.2.1 Overview

The display board is connected to the RECTIFIER-CHARGER on the CAN bus, and is composed of:
• 3 LEDs that represent the status of the rectifier-charger.

• A touch screen LCD that can detect the presence and location of a touch within the display
area.

• One buzzer to soundly indicate RECTIFIER-CHARGER messages

• One USB connector

3.2.1.1 LEDs Light Emitting Diodes

The rectifier-charger has three Light Emitting Diodes (LEDs) to indicate the overall system operation
status as well as the condition of the sub-assemblies. These LEDs are linked with the active mimic
diagram displayed on the graphical display.
The three LEDs operate in a permanent way. It is not compulsory to be on the mimic diagram part of
the display to activate the operation of the LEDs.
The LEDs operate independently the ones from the others and they can be lit simultaneously under
some circumstances.

Page 41
Detailed description of the LEDs can found on the table hereafter.

Led Led colour Description Comments

view and
behaviour
• rectifier-charger normal ▪ Output protection closed
operation ▪ Battery protection closed
Green steadily • Load supplied by the rectifier
lighted
• Battery is kept charged
• Rectifier is running
• Load on battery ▪ Output protection closed
• Rectifier is off ▪ Battery protection closed

Green blinking
• Load on rectifier (battery ▪ Output protection closed
disconnected) ▪ Battery protection opened
• Rectifier is running

• rectifier-charger warning ▪ One (or more) warning message is

Yellow steadily present
lighted

• rectifier-charger information ▪ One (or more) Information message

Yellow blinking is present

• rectifier-charger fault ▪ One (or more) rectifier-charger block

Red steadily is faulty and stopped
lighted ▪ One (or more) fault message is
present (acknowledgement needed)
• rectifier-charger non-blocking ▪ One (or more) rectifier-charger block
fault is faulty, but not stopped
▪ One (or more) fault message is
Red blinking present (acknowledgement needed)
• CAN communication fault ▪ The rectifier-charger communication
CAN BUS is not correctly plugged or
in failure.

Page 42
3.2.1.2 Display

A colored graphical and illuminated Liquid Crystal Display (LCD) is provided to enable the operating
parameters, all the measures and the active mimic diagram of the rectifier-charger to be viewed. The
LCD messages are accessed by push buttons to control the arrow displayed on the screen.
Each page is based on:
• An upper panel, generally containing the page title and that can contain several action
buttons, depending on the page displayed.

• The main panel, specific for each page.

• A lower panel, containing buttons that allow to directly access to the different pages:

Access to home page.

Access to current system status page of the equipment. The button

dynamically changes its color, depending on the level of the incident.

The button is yellow and changes to “Info” if there is at least one

information and neither warning nor fault message.
Otherwise the button is blue (Status).
The button is yellow and changes to “Warning” if there is at least one
warning message and no fault message.
Otherwise the button is blue (Status) or yellow (Info).
The button is red and changes to “Fault” if there is at least one fault
message.
Otherwise the button is blue (Status) or yellow (Info or Warning)..
Access to the Events log page that displays events history with date,
time and description.

Access to the Measures page that display main measurements for each
functional block (Rectifier, Bypass, Inverter, Charger/Booster, Battery
and Load).
Access to the Battery/Charger page. This page allows changing the
current battery charging mode, or starting a battery test.

Access to the Settings page (LCD setup, Language, Date/Time, Modbus

settings).

Access to the About page (serial number, software versions, IP

address…). Note that this button is only accessible from the home page.

Page 43
By default, the text is available in English, unless otherwise specified.
For safety reason, and to prevent any inadvertent operation, every buttons which execute an action
always display a pop-up window asking to confirm or cancel the action.
3.2.1.3 Buzzer

A sound alarm is triggered as soon as a fault message, warning message or information message
happens. This alarm is not continuous in case of an rectifier-charger fault/warning/info. This alarm is
continuous only in case of battery imminent shutdown.
The buzzer will automatically stop if no more fault/warning/info is present.
3.2.1.4 USB connector

The USB connector is used for 3 major functions:

• Flash the display unit (software version)

• Configure the display unit (what is needed to be displayed)

• Export detailed information of the rectifier-charger

Page 44
3.2.2 Navigation

3.2.2.1 Home page

In the upper panel of the main page, two control buttons are accessible:
Start / Stop rectifier: depending on the current rectifier status, this button
sends a start or stop command to the rectifier module.

Mute buzzer: mute the current sound (activated due to a information,

warning or fault). If a new event occurs, the buzzer sounds again.

The home screen (also called synoptic screen or main screen) is as described below:
The home screen shows the general rectifier-
charger view, displaying red/yellow/green or
grey blocks, depending on each block state
(alarm, warning, ok, no information).
Home screen can be changed (via the
“Settings” button) to display pre-defined
frames which include several measures, as
shown hereafter.

Home screen with output measures and

battery measures displayed.

Home screen with input measures displayed.

Page 45
 Home screen with both input, output and
battery measures displayed.

On the synoptic, each block can have the following color, depending on its state:
No information, warning or fault present

At least one information or warning is present, without any fault.

One or more fault is present.

Communication lost with the block

The block (only for rectifier) has been manually stopped.

Specific messages may appear directly on the synoptic, according to some events:

- “Communication lost” will be displayed if the CAN communication protocol is

interrupted between the display unit and the supervision electronic board.

Page 46
3.2.2.2 Block status page

The status of each block can be displayed,

with its associated measures, by pointing the
corresponding block on the synoptic screen
and pressing OK.

The lower pane shows the associated status,

information, warning or fault.
All the data displayed are refreshed
dynamically.

Page 47
3.2.2.3 System Status page

In the upper panel of the System Status page:

The “Reset Fault” control button is accessible.
This button is used to acknowledge all the active faults, at the same time.
If the fault is no longer active, it will disappear from the list.

In the medium panel of the System Status page:

The information is grouped by category,
corresponding to each block. According to the
type of message and to the event triggered,
additional message description may be
available on the right part of the message line
(accessible thanks to the horizontal scroll
bar).

The page contains the full list of active

messages for each category: Charger,
Battery, Load, Miscellaneous and Supervision
(accessible thanks to the vertical scroll bar).

The category with the most important event is displayed on top of the list (categories
with Fault are displayed first, then categories with warnings…).

Page 48
The System Status page displays the list of current Status, Information, Warning or Fault messages of
the rectifier-charger, with the following representation:

Symbol Type Description

Status Current state of a block. Each block can display several status.

Information Event due to external conditions, or to the operator, which does not stop
the associated block, and that is not memorized (i.e. the event will
disappear without external action).

Warning Event due to external conditions, or to the operator, which stops the
associated block, and that is not memorized (i.e. the event will disappear
without external action).
Fault Blocking fault: Failure of the equipment, which requires the associated
functional block to be stopped. Needs to be fixed by maintenance
operation. For each block it is impossible to trigger more than one blocking
fault simultaneously. A fault is always memorized, and needs to be
acknowledged.

For some blocking faults, the block restarts automatically, i.e. as soon as the
root cause has disappeared. Nevertheless, the fault still needs to be
acknowledged (Example: “Rectifier Temperature fault”).

Non blocking fault: Failure of the equipment, which does not require the
associated functional block to be stopped. Nevertheless needs to be fixed by
maintenance operation. For each block it is impossible to trigger more than one
non-blocking fault simultaneously. A fault is always memorised, and needs to
be acknowledged.

Page 49
3.2.2.4 Events log page

In the upper panel of the Events log page, 2 control buttons are accessible:
“Export” button to generate rectifier-charger report

“Erase” button to delete events.

The “Erase” button is used to delete all the logged events. This action
adds “Event log erased” in the log.

In the medium panel of the Events log page:

This page displays all the logged events (up
to 2000 events) with Date and Time stamp,
Category and Description.
The appearance (black font) and
disappearance (strikethrough grey font) of
each status, information, warning and faults
are memorized.

3.2.2.5 Measures page

The Measures page displays the measurements of the different categories:

• Charger

• Battery

It contains tabs for each category.

As default screen, it will display the Charger
measures.

Page 50
3.2.2.6 Battery Charger page

In the upper panel of the Battery Charger page, a “Reset Autonomy” control button may be accessible,
according to the system configuration:
“Reset Autonomy” button (available according to the system
configuration)

The battery remaining capacity (in %) is based on an estimated battery capacity. This
battery capacity is initialized with its theoretical value, but its value is re-estimated
when reaching an end of discharge (to take battery aging into account). The reset
autonomy button allows resetting the estimated battery capacity to its theoretical value
(when changing the battery for example)

In the medium panel of the Battery Charger page:

A maximum of 3 “charging mode” buttons
may be available, according to the system
configuration:
• Floating: it allows to set the charger into
Floating mode

• Boost: it allows to set the charger into

Boost mode

• Initial Charge: it allows to set the charger

into Initial Charge mode

Some buttons may not be available according to the battery type.

2 other buttons are available to control the battery test:

“Start battery test” button: it allows to manually initiate a battery health
test.

“Stop battery test” button: it allows to manually stop the on-going battery
test.

The battery test buttons may be temporarily not available, according to the battery
charger status. Example: The display will not allow a battery test launch if the battery is
in boost mode.

Page 51
Battery test principle:
When a battery test starts, the rectifier lowers its DC output voltage. This allows the battery to start
discharging.
The battery test is considered to be OK, if the battery voltage is greater than the battery test threshold,
after the battery test duration.
Battery test can be stopped before the end of the test, if
• Battery voltage goes below threshold

• Battery test is manually stopped by operator

• Problem occurs (Mains failure, rectifier stops, etc)

Voltage

Battery voltage

Threshold

Test duration

Time

Test OK Test FAILED Time

Test OK Test FAILED

Page 52
3.2.2.7 Settings page

The Settings page allows to configure the display and the rectifier-charger (according to access rights)
via several tabs:
• LCD Setup

• Date/Time

• Config.

• Parameters

• MODBUS

The LCD setup tab allows to:

• Change the LCD setup (Brightness,
screen saver)

• Change the Buzzer state: can be

disabled, to permanently switch off the
buzzer.

• Activate all LEDS for 5 seconds, on the

CANO board managing the Mimic.

• Display input and/or output frame on

home screen.

• Change display language (French

English, Spanish, Chinese, Russian,
unless otherwise specified).

The Date/Time tab allows to change the

display date, time and time zone.
Modifications will be taken into account only
after pressing the apply button.

Page 53
 The Config. Tab:
For common users, this tab allows to:
• Update charger or inverter parameters by
using a specific file loaded on USB key.

• Change the common user password.

For maintenance people only, this tab also

allows to load or save the display
configuration on USB key.

The default COMMON USER PASSWORD is “4567”.

In case of forgotten password, it can be changed using password “987654”

The Parameters Tab (Optional):

This tab can be accessed using maintenance
or common user password.

It allows to manually change a set of

predefined charger parameters.

Page 54
Name Description

Cell Number Choose battery cell number

Init. charge volt. (V) Setting regulation voltage for Intial Charge mode

Boost volt. (V) Setting regulation voltage for Boost mode

Floating volt. (V) Setting regulation voltage for Floating mode

Batt. test safety volt. (V) Setting charger safety voltage for battery test

Batt. test monitoring volt. (V) Setting monitoring voltage during battery test

Timer boost (min) Timer for Boost mode

Timer init. charge (min) Timer for Initial charge mode

Timer batt. test (min) Timer for battery test
High volt. thresh. (V) Threshold for charger high DC voltage fault
High volt. reset (V) Reset threshold for charger high DC voltage fault
Charger low volt. thresh. (V) Threshold for charger low DC voltage information
Charger low volt. reset (V) Reset threshold for charger low DC voltage information
Imminent shutdown thresh. (V) Threshold for battery imminent shutdown information
Imminent shutdown reset (V) Reset threshold for battery imminent shutdown information
End of disch. thresh. (V) Threshold for battery end of discharge warning
End of disch. reset (V) Reset threshold for battery end of discharge
Batt. limit. float/boost (A) Setting battery limitation current in Floating and Boost mode
Batt. limit. init. charge (A) Setting battery limitation current in Initial charge mode
Batt. high current thresh. (A) Threshold for battery high current

Improper modification of parameter can cause severe damage to the battery.

This feature is only reserved to experienced or trained users.

According to the configuration, some CANO boards (used to manage inputs, outputs and MODBUS
communication) can be connected to the rectifier-charger.

Page 55
 The left part of the page shows up to 2 CANO
boards connected to the rectifier-charger and
managing MODBUS.
The right part of the page allows to change
the MODBUS configuration of the connected
CANO boards.
Modifications will be sent to CANO board only
after pressing the apply button.

3.2.2.8 About page

This page is only accessible from the home page.

About page shows useful equipment
information :
• Serial number and model

• Embedded software versions

• Supervision and LCD Ethernet

identification (IP and MAC addresses)

• Local date and time

• Contact information

3.2.3 List of messages

Refer to the list of messages provided separately.

Page 56
 GB 03_070_02 COMMON- Operation - All Config - Module desc. - Battery.docx

3.2.4 BATTERY

The battery is of the stationary type. According to the application requirements, the battery comes in a
wide variety of designs. Refer to the battery manufacturer manual for further information.
The main role of the battery is to provide power on a stand-by or emergency basis. Most of its life time,
the stationary battery remains on a continuous float charge so that it can be used on demand. When a
Mains AC supply failure occurs on the system input, the battery automatically discharges to keep
supplying the load. Once the Mains AC supply recovers, the system includes a device to automatically
recharge the battery. The recharge voltage level depends on the battery technology as well as on the
type of battery.
The battery capacity (defined in Ah – Ampere-hour) determines the autonomy of the system, i.e. the
time during which the battery will be able to supply power to the load.

Page 57
 GB 03_100_02 CP-70R2I - Operation - Dual Ch. Dual Bat. - Operating Instructions_v1.docx

3.3 OPERATING INSTRUCTIONS

3.3.1 First startup

The following steps shall be done on both chargers.

STEP 1. Starting situation

All switches, breakers and isolators are open.

• Mains voltage is present on the mains input terminal blocks (upstream protection is
closed).

STEP 2. Check the voltage and frequency of the mains line

Check that the voltage and the frequency on the mains line are within the tolerances accepted
by the system.

STEP 3. Close the input isolator Q3

Wait for 1 minute to allow the display to initialize.

STEP 4. Turn on the rectifier

Touch “On/Off Rect.” button. A pop-up window appears:

• If the text reads “STOP RECTIFIER?”, this means the rectifier was already started: in this
case, please touch the “CANCEL” button.

• If the text reads “START RECTIFIER?”, please touch the “CONFIRM” button to start the
rectifier.

STEP 5. Check Charger output voltage and polarity

By means of a hand-held voltmeter:

• Check that the charger is started (nominal voltage is present on its output). This has to be
measured on the upper connection screws of the Q2 isolator.
• Check the charger output voltage polarity (+ shall be on the left terminal).
STEP 6. Close Q2

STEP 7. Close the battery isolator Q6 located inside the charger enclosure

Page 58
STEP 8. Check polarities on the battery isolator Q5

The polarities shall be checked on both sides of Q5.

• Check that the polarity is identical on both voltages: Q5 on charger output side and Q5 on
battery side. The + shall be on the left terminal in both cases.

STEP 9. Close the battery isolator Q5

STEP 10. Check displayed values

This is achieved by touching the “Measures” button of each display and by selecting the
appropriate tab.

• Check the correct display of the AC mains input voltage, frequency and line currents
(Rectifier tab).

• Check the correct display of the DC voltage (Charger tab).

• Check the correct display of the battery voltage (Battery tab).

• Touch “Home” button in order to return to the Home page.

The Chargers are now running.

STEP 11. Close Q41

STEP 12. Close Q44

STEP 13. Close the distribution output breakers

The complete system is now powered up.

Page 59
3.3.2 Emergency shutdown

The following steps are to be followed in case of emergency such as casualty or fire.

The following steps shall be done on both chargers.

STEP 1. Open the battery isolator Q5

STEP 2. Open the battery isolator Q6 located inside the charger enclosure

STEP 3. Stop the rectifier

Touch “On/Off Rect.” button. A pop-up window appears asking “STOP RECTIFIER?”

• Touch the “CONFIRM” button to stop the rectifier.

• The rectifier stops running.

STEP 4. Open the input isolator Q3

Before restarting, the rectifier shall be put back in situation for FIRST START-UP.
For this, open all the isolators.
You can now follow the FIRST-START-UP procedure.

3.3.3 Isolate one rectifier

The following steps explain how to isolate one of the 2 rectifiers for maintenance purposes, supposing
that the DC load will be continuously supplied by the other rectifier.

This is only possible if the total power of the load is sure never to exceed the nominal
power of one rectifier.

In this procedure, the rectifier to be disconnected for Maintenance will be called REC M, and the
Remaining rectifier will be called REC R.

Page 60
STEP 1. Starting situation

All switches, breakers and isolators are closed.

• Mains voltage is present on the mains input terminal blocks (upstream protection is
closed).

• Both rectifiers are running

• DC load is supplied by both rectifiers, which are operated in parallel to share the load

• The DC bus-tie Q7 is open

STEP 2. Open Q44 of REC M

STEP 3. Open Q42 of REC M

STEP 4. Open the VCU (Voltage Control Unit) input isolator Q41 of REC M

STEP 5. Open the battery isolator Q5 of REC M

STEP 6. Open the battery isolator Q6 located inside the charger enclosure of
REC M

STEP 7. Stop the rectifier REC M

Touch “On/Off Rect.” button. A pop-up window appears asking “STOP RECTIFIER?”

• Touch the “CONFIRM” button to stop the rectifier.

• The rectifier stops running.

STEP 8. Open Q2 of REC M

STEP 9. Open the input isolator Q3 of REC M

The display is now switched off.

STEP 10. Check and wait until the DC capacitors are fully discharged:

For this, do the following, according to the type of rectifier (choose the appropriate image
below according to your rectifier. This depends on the rating of your rectifier)

Page 61
 With a multi-meter:
• On fuses F30, check that the
voltage reaches 0V. This means
that the DC capacitors of the
charger are fully discharged.

• Wait until the DC capacitors fully self-discharge.

STEP 11. Safety Precaution

Before carrying out any maintenance action:

Make sure that no more voltage is present on any part you will have to touch.

Remember that some cables that enter the unit are still LIVE.
For further safety it is recommended to open the UPS upstream protection.

The complete load lines remain LIVE.

Once you have made all these checks:

The Rectifier REC M is now safe for maintenance. The Load is still supplied by the
remaining rectifier REC R.

Page 62
3.3.4 Re-start of one rectifier after maintenance

The following steps explain how to restart one of the 2 rectifiers after maintenance operations,
supposing that the DC load was continuously supplied by the remaining rectifier.
In this procedure, the rectifier that returns from Maintenance will be called REC M, and the Remaining
rectifier which kept supplying the load will be called REC R.
STEP 1. Starting situation

• All switches, breakers and isolators of REC M are open.

• Mains voltage is present on the mains input terminal blocks. If necessary, close the
protection upstream the rectifier.

• Mains voltage is present on the mains input terminal blocks of REC M.

• DC load is supplied by rectifier REC R.

STEP 2. Close the input isolator Q3 of REC M

Wait for 1 minute to allow the display to initialize.

STEP 3. Turn on the rectifier REC M

Touch “On/Off Rect.” button. A pop-up window appears:

• If the text reads “STOP RECTIFIER?”, this means the rectifier was already started: in this
case, please touch the “CANCEL” button.

• If the text reads “START RECTIFIER?”, please touch the “CONFIRM” button to start the
rectifier.

STEP 4. If during Maintenance on REC M, some cabling operations were done,

Check Charger output voltage and polarity

By means of a hand-held voltmeter:

• Check that the charger REC M is started (nominal voltage is present on its output). This has to
be measured on the upper connection screws of the Q2 isolator.
• Check the charger REC M output voltage polarity (+ shall be on the left terminal).
STEP 5. Close Q2

STEP 6. Close the battery isolator Q6 located inside the charger enclosure of
REC M

Page 63
STEP 7. Check polarities on the battery isolator Q5 of REC M

The polarities shall be checked upstream and downstream Q5.

• Check that the polarity is identical on both voltages: upstream Q5 (on charger output side)
and downstream Q5 (on battery side). The + shall be on the left terminal in both cases.

STEP 8. Close the battery isolator Q5 of REC M

STEP 9. Check displayed values on REC M

This is achieved by touching the “Measures” button of each display and by selecting the
appropriate tab.

• Check the correct display of the AC mains input voltage, frequency and line currents
(Rectifier tab).

• Check the correct display of the DC voltage (Charger tab).

• Check the correct display of the battery voltage (Battery tab).

• Touch “Home” button in order to return to the Home page.

The Charger REC M is now running.

STEP 10. Close Q41 of REC M

STEP 11. Close Q44 of REC M

Page 64
 GB 04_010_01 COMMON - Maintenance with Battery_v2.docx

4 MAINTENANCE

Before carrying out any maintenance on the equipment, familiarise yourself with the
SAFETY chapter in this manual. Maintenance operations must be carried out by an
accredited person who is trained in preventing electrical risks.

Refer to the local legislations and to the plant safety requirements prior to carrying out any
maintenance action.

Under normal operation conditions, only routine and preventive maintenance are required. The
intervals between maintenance activities will vary depending on the remote monitoring capability level
and the operation environmental conditions of the unit, such as the cleanliness and air-contaminant
levels of the technical room.

It is strongly advised to attend an VERTIV INDUSTRIAL SYSTEMS training course prior

to carrying out any maintenance on the equipment.

The battery shall be maintained in accordance with the battery manufacturer’s

instructions.

Page 65
4.1 ROUTINE MAINTENANCE

The system is intended to protect critical electrical loads. That is why VERTIV INDUSTRIAL
SYSTEMS recommends to regularly check the status of the system and of the battery as described
hereafter.

It is strongly advised to attend an VERTIV INDUSTRIAL SYSTEMS training course prior

to carrying out any maintenance on the equipment.

For any routine maintenance operation, it is advised to issue a brief site visit report in
which all findings and/or corrective actions are recorded to ease future interventions.

4.1.1 Weekly
It is advised to weekly perform the following checks, either via the remote monitoring station or through
local checks, if possible:
• Check the general status of the system.

• Consult the triggered alarms, if any, as well as the alarm history and the events.

• Check all alarm and status indicators, if any.

• Check that the values of the various measurements are normal. Compare them with the test
certificate.

• Check that no major change occurred in the measured values. If changes have to be noted,
determine the cause of these changes, such as, for example, a change in the output current or
any other measurement.

• Consult the triggered alarms, if any, as well as the alarm history and the events related to the
battery.

4.1.2 Monthly
The checks listed hereafter shall be performed once a month. Record the intervention as well as any
incident in your local maintenance logbook.
4.1.2.1 On the system

• Perform the weekly checks.

• Check that ventilation apertures are clean and clear of any obstruction.

Page 66
4.1.2.2 On the battery

The battery is always live. A voltage is always present between its positive and negative
plates. Never put any metallic part on the batteries.

• For a battery installed on a rack, check the temperature of the battery room. Compare it with
the battery sizing design temperature. In case of gap, take appropriate action to restore the
temperature of the battery room to the correct level.

• For a battery installed inside an enclosure, check the temperature inside the battery enclosure.
Compare it with the battery sizing design temperature. In case of gap, take appropriate action
to restore the temperature of the battery enclosure to the correct level.

• For a battery installed in an enclosure, check the ventilation apertures are clean and clear of
any obstruction.

4.1.3 Quarterly
The checks listed hereafter shall be performed once every quarter. Record the intervention as well as
any incident in your local maintenance logbook.

4.1.3.1 On the system

• Perform the monthly checks.

• Check painted surfaces and look for signs of damage or corrosion. Rectify if necessary.

• Open the door and visually check electrical connections and components and look for signs of
overheating or corrosion. If necessary, plan for a system bypass or shutdown to safely
perform preventive maintenance.

• By mean of the Human-Machine Interface, initiate a battery test to check its overall status
(refer to the paragraph “Human-Machine Interface” of the Operation section of this manual).

4.1.3.2 On the battery

The battery is always live. A voltage is always present between its positive and negative
plates. Never put any metallic part on the batteries.

• Perform the monthly checks.

• Check the following points on the battery:

- Clean the battery cells and cell covers.

Page 67
 - Remove the battery connection caps.

- Check that each battery cell connection and link are well tightened and not
corroded. If corrosion appears, consider replacing the battery cell and/or the link.

- Check the earth connection.

- Where battery is of the vented type, check the electrolyte level on each cell. If
necessary, top up. Refer to the battery manufacturer’s instructions.

4.1.4 Annually

The checks listed hereafter shall be performed once a year. Record the intervention as well as any
incident in your local maintenance logbook.

4.1.4.1 On the system

• Perform the quarterly checks. According to your findings, plan for a system bypass or
shutdown to safely perform preventive maintenance.

4.1.4.2 On the battery

The following checks shall only be performed at a time of least risk for the plant
operation.

• Perform the quarterly checks.

• Perform a battery autonomy test for the specified autonomy. Refer to the paragraph “Battery
autonomy test” hereafter.

4.1.5 Battery Autonomy test

The battery must be discharged at a time of least risk for the plant operation. It must be
fully recharged immediately afterwards. Refer to the battery manufacturer's manual for
guidance on frequency of test, depth of discharge, etc…

The battery autonomy test shall be performed according to the battery manufacturer’s instructions.
Make sure that the battery is fully charged prior to initiating this test. For this purpose, check that
the system has been operating normally, without battery discharge for not less than 8 hours.

Page 68
4.2 PREVENTIVE MAINTENANCE

It is strongly advised to attend an VERTIV INDUSTRIAL SYSTEMS training course prior

to carrying out any maintenance on the equipment.

For any preventive maintenance operation, it is advised to issue a site visit report in
which all maintenance operations are recorded to ease future interventions.

4.2.1 At every site visit

VERTIV INDUSTRIAL SYSTEMS recommends running regular maintenance in order to keep the
system in a fully operational state over its complete lifespan.
4.2.1.1 Tools required for efficient maintenance

The tools required for normal maintenance are those to be found is a standard electrician’s tool kit e.g.
spanners, screwdrivers, nut spinners, digital voltmeter, etc. Fuse pullers may also be needed.
Furthermore, the following special tools may be useful for an optimal maintenance:
• Availability of Compressed air on site, or

• Several compressed air cans

• Vacuum cleaner

• One thermal camera

Special tools listed above are not in VERTIV INDUSTRIAL SYSTEMS’s scope of supply.

4.2.1.2 Safety recommendations

The unit shall be regularly visited by authorized and accredited engineers. In order to achieve a proper
and efficient maintenance, it is advised to follow an VERTIV INDUSTRIAL SYSTEMS maintenance
training course.

Before doing any maintenance work, the engineer must ensure that he has all relevant
authorizations.

Refer to the site Safety Manager as well as to the local legislations.

Page 69
4.2.1.3 Maintenance of the system

During the site maintenance visit, it is recommended to perform the following actions:
External checks:
• Clean the unit (external).

• Check ventilation apertures are clean and clear of any obstruction. Check the air inlets in the
bottom of the enclosure and the air outlets at the top of the enclosure.

• Check external painted surfaces. Look for signs of damage or corrosion. Rectify if necessary.

• Check the state of the floor anchoring of the unit. Check the state of the bolts. If corrosion
appears, replace them.

Internal checks:
• Open the system enclosure.

• If possible, immediately after opening the enclosure, perform a thermal check of the unit
thanks to a thermal camera. Check for any hot point. Save the shootings so that you can refer
to the pictures later on for maintenance purposes.

• Switch the system to maintenance. Refer to the Maintenance Procedure described in the
“Operation” section of this manual.

• Remove the internal anti-contact protecting covers.

• If no thermal camera is available, visually check electrical connections and components and
look for signs of overheating or corrosion.

• Internally clean each enclosure by removing the dust. (use compressed air)

• Clean the electronic boards from dust (use compressed air cans)

• Refer to the thermal images (if possible) taken before and check the presence of overheating
at all the connection points. If hot points were detected, check the connections and tighten
them.

• Check all the power connection tightness.

• Again, refer to the thermal images (if possible) taken before and look for potential hot points at
the components level, and particularly on the capacitors, switches, circuit breakers, magnetics
and power semiconductors.

• By mean of your local service logbook, check the last date of replacement of the major
components. Compare with the recommended time for replacement given in the paragraph
“Spare Parts prescriptions”. If appropriate, replace the ageing parts.

Page 70
4.2.1.4 Maintenance of the battery

The battery shall be maintained in accordance with the battery manufacturer’s

instructions.

The battery is always live. A voltage is always present between its positive and negative
plates. Never put any metallic part on the batteries.

• For a battery installed on a rack, check the temperature of the battery room. Compare it with
the battery sizing design temperature. In case of gap, take appropriate action to restore the
temperature of the battery room to the correct level.

• For a battery installed inside an enclosure, check the temperature inside the battery enclosure.
Compare it with the battery sizing design temperature. In case of gap, take appropriate action
to restore the temperature of the battery enclosure to the correct level.

• For a battery installed in an enclosure, check the ventilation apertures are clean and clear of
any obstruction.

• Clean the battery cells.

• Remove the battery connection caps.

• Check that each battery cell connection and links are well tightened and not corroded. If
corrosion appears, consider replacing the battery cell and/or the link.

• Check the earth connection.

• Where battery is of the vented type, check the electrolyte level on each cell. If necessary, top
up. Refer to the battery manufacturer’s instructions.

Page 71
4.3 SPARE PARTS PRESCRIPTION
4.3.1 Prescription for parts replacement

The internal components of the unit have a defined lifetime. In order to keep the unit in standard
reliable conditions for the whole lifecycle, VERTIV INDUSTRIAL SYSTEMS recommends to
preventively replace some key parts at periodic cycles, as indicated in the table below.
The time given below is considered after the site commissioning of the unit or after a
maintenance/replacement activity.
Recommended time for replacement:
(at 25°C external (at 50°C external
Components in Chloride CP systems Comments
ambient ambient
temperature) temperature)

Fans 5 years 3 years It is recommended to anticipate fan

(if applicable) failures by renewing them one year
before the recommended deadline
for replacement.

Power capacitors (DC & AC) 8 years 4 years It is recommended to anticipate

capacitor failures by renewing them
one year before the recommended
deadline for replacement.

Power semiconductors > 20 years > 20 years

Control Electronic boards 15 years 12 years

(Printed Circuit Boards)

Auxiliary power supply electronic 8 to 12 years 4 to 6 years

boards (Printed Circuit Boards)

Relays 15 years 10 years

Power Switches 15 to 20 years 12 to 15 years

Circuit breakers (MCB and MCCB) 15 years 12 years

Contactors 15 years 12 years

Fuses 15 years 10 years

Motorized circuit breakers 15 years 12 years

(if applicable)

Magnetic parts > 25 years > 25 years

4.3.2 Spare parts obsolescence management

VERTIV INDUSTRIAL SYSTEMS guarantees the availability of original spare parts or technically
equivalent replacement solutions as defined by VERTIV INDUSTRIAL SYSTEMS, for a period of 10
years from the end of the production of the models concerned by the order.

Page 72
After this 10-years period, VERTIV INDUSTRIAL SYSTEMS is committed to propose technically
equivalent parts, or replacement kits, so that the system can be maintained all along its design life.

4.3.3 Spare parts storage

Some of the components inside the Chloride CP systems have a maximum storage time. It is
recommended to follow the information provided in the below points so that the spare parts are fully
operational when needed.
4.3.3.1 Storage environmental conditions

Each main component has its recommended storage conditions to be respected. The parts shall be
stored safely in their original never-opened protective packing and shall remain:
• Protected from any mechanical shock

• Protected from humidity

• Protected from saline or corrosive atmosphere

• Protected from light and UV rays.

• Protected from electrostatic discharges (during storage as well as when manipulating the
parts, e.g. when removing the part from stock)

Page 73
4.3.3.2 Recommended conditions of storage for Spare-parts

The data in the table below are given in full respect of the above-mentioned storage conditions.

Recommended Storage condition for all Storage temperature limits

listed components:
Main Components in Chloride CP
systems 20°C < T° < 30°C
Hygrometry < 65% Min Max
No corrosive particles
Fans >10 years -30°C +60°C
(if applicable)

Electronic boards except those with Max 10 years -40°C +70°C

Switch-Mode Power Supply (SMPS)

Electronic boards with Switch-Mode Max 5 years -40°C +70°C

Power Supply (SMPS)
Re-ageing procedure may be needed after one
year and becomes mandatory after 2 years.

Power semiconductors (SCR, IGBT) Max 10 years -40°C +125°C

Aluminum electrolytic capacitors Max 5 years. -40°C +85°C

Re-ageing procedure may be needed after one
year and becomes mandatory after 2 years.
Storage at high temperature may affect electrical
characteristics and as a consequence, affect the
reliability.

Polypropylene capacitors Max 10 years -40°C +85°C

Power Switches >10 years -40°C +70°C

Circuit breakers (MCB and MCCB) >10 years -60°C +80°C

Contactors >10 years -60°C +80°C

Fuses >10 years -30°C +70°C

Page 74
4.4 CORRECTIVE MAINTENANCE

It is essential to use the relays as well as the remote monitoring function (if applicable)
to check the operating state of the installation.

The maintenance technician must intervene as quickly as possible once a fault appears. The direct
measurements, the signals, the display messages, the state of alarm transmissions and a review of
the display history all help in diagnosing the fault.
For any urgent matter, you may contact our hotline support:
industrial.support@vertiv.com

This mailbox is monitored permanently during opening hours and working days of the VERTIV
INDUSTRIAL SYSTEMS manufacturing center.

Quality of corrective maintenance highly relies on the availability of spare parts on site. The list of
recommended spare parts for your system was supplied separately.

Page 75
 GB 05_010_04 COMMON - Appendix dwgs, Test Rep. & Att_v1.docx

5 APPENDIX

5.1 TROUBLE SHOOTING, DRAWINGS & TEST REPORTS

• Trouble Shooting

• Arrangement Drawing

• Single Line Diagram

• Electrical Schematic Diagram

• Test Reports

Page 76
 TROUBLESHOOTING
CP-70R2I

Project name: P0270 ‐ Iraq, MOE/JICA, Lot 3, 4 GIS 132kV SS

Customer: MATELEC SAL

Equipment: DUAL CHARGER

Star Item n°: CP70R2I‐12979820

08
07
06
05
04
03
02
01
10‐03‐17 WCH 00
Date Created by Verified by Approved by Description Revision
 TROUBLESHOOTING
CP-70R2I
Rectifier / Charger Block Colonne3 Colonne1 Colonne2
LCD Message Type of message What happened ? How to fix it
DC bus tie switch open Charger status DC bus tie switch is open.
No voltage on DC bus tie Charger status There is no voltage coming from parallel charger
Charger is in floating Charger status The charger is in floating mode.
Charger is in boost Charger status The charger is in boost mode.
Charger is in auto battery test Charger status The charger is performing an automatic battery test. Wait for the end of the battery test.
Charger is in manual battery test Charger status A battery test has been manually launched. Wait for the end of the battery test or manually cancel it.
Charger is in initial charge Charger status The charger is performing the initial charge of the battery. Wait for the end of the initial charge or manually cancel it.
The charger has been switched to floating mode by an external
Charger is in imposed floating Charger status
condition.
The charger has been switched to boost mode by an external
Charger is in imposed boost Charger status
condition.
The charger was forced into battery test mode by an external
Charger is in imposed battery test Charger status Wait for the end of the battery test imposition.
condition.
The charger was forced into initial charge mode by an external
Charger is in imposed initial charge Charger status Wait for the end of the initial charge imposition.
condition.
Charger input switch open Charger warning AC input switch is open. Close the switch, according to instructions in the IOM manual.
The primary mains voltage or frequency is out of tolerance, or has a
Charger mains failure Charger warning Wait for the input voltage and frequency to be back in the range of tolerance. Check the phase rotation, if applicable.
wrong phase rotation.
Wrong phase rotation Charger warning The primary mains has a wrong phase rotation. Check the phase rotation.
Charger is off Charger warning The charger has been switched off.
Test mode Charger warning The charger is set to service mode. If this message remains, please contact Vertiv Industrial Systems Service.

Charger overload Charger information The charger is in overload condition. Reduce the load.
Charger DC voltage low Charger information The charger output DC voltage is below the threshold value. Either, the charger is stopped, or in current limitation, or is faulty. In the latest case, check the list of faults on the charger block.
Charger over temperature Charger information The charger temperature is too high. Check cooling. Wait for temperature to go down.
Charger in current limitation Charger information The charger is in current limiting mode Reduce the load.
Charger output switch open Charger information Charger output switch is open. Close the switch, according to instructions in the IOM manual.
DC load switch open Charger information DC load switch is open. Close the switch, according to instructions in the IOM manual.
Charger/Battery isolator switch open Charger information Charger/Battery isolator switch open. Close the switch, according to instructions in the IOM manual.
The thermo-contact on the charger transformer reports an
Charger transformer over temperature warning Charger information Check cooling. Wait for temperature to go down.
overtemperature.
The charger has been stopped, because thermo-contact on the
Charger temperature fault Charger fault Check cooling. Wait for temperature to go down and acknowledge the fault.
charger bridge reports an overtemperature.
The charger has been stopped, because thermo-contact on the
Charger transformer over temperature fault Charger fault Check cooling. Wait for temperature to go down.
charger transformer reports an overtemperature.
A DC output overvoltage (on the charger or on the battery) has caused Check all the wires connected to the INCA circuit board. If the wiring is correct, the problem can be linked with electronic board problem:
Charger DC over voltage Charger fault
the charger to stop. Please contact Vertiv Industrial Systems Service.
The high speed fuse of the charger bridge has blown due to sudden Check the load, the thyristors. Change the fuse and rearm the microswitch detector. In case of a new occurrence, check the control wiring on
Charger fuse blown Charger fault
short circuit on the DC side or problem on the charger control loop. the INCA board. The problem can be linked with an electronic board problem: Please contact Vertiv Industrial Systems Service.
Check all the wires connected to the INCA board and the battery current Hall effect sensor. If the wiring is correct, the problem can be linked
Excessive battery current Charger fault The charger has lost the battery current regulation.
with an electronic board or sensor problem: Please contact Vertiv Industrial Systems Service.
The charger voltage regulation was lost. The charger keeps running Check all the wires connected to the INCA circuit board. If the wiring is correct, the problem can be linked with electronic board problem:
Charger high DC voltage Charger fault
periodically in order to continue to supply the DC load. Please contact Vertiv Industrial Systems Service.
The charger voltage regulation was lost on one of the dual
Check all the wires connected to the INCA circuit board of the faulty charger. If the wiring is correct, the problem can be linked with
Charger high DC voltage (memorized) Charger fault system. The fault has been memorized and the charger is
electronic board problem: Please contact Vertiv Industrial Systems Service.
stopped. The DC load is supplied by the redundant charger(s).
A DC output overvoltage on the battery has caused the charger to Check all the wires connected to the INCA circuit board. If the wiring is correct, the problem can be linked with electronic board problem:
Charger high DC voltage redundant Charger fault
stop. Please contact Vertiv Industrial Systems Service.
Charger input protection trip Charger fault The charger input circuit breaker has tripped. Please contact Vertiv Industrial Systems Service.
Charger output protection trip Charger fault The charger output breaker has tripped Please contact Vertiv Industrial Systems Service.
Charger/Battery isolator protection trip Charger fault The charger battery isolator breaker has tripped Please contact Vertiv Industrial Systems Service.
Charger input voltage Charger measure Input voltage value measurement
Charger input current Charger measure Input current value measurement
Charger input frequency Charger measure Input frequency value measurement
Charger output voltage Charger measure Output voltage value measurement
Charger current Charger measure Current value measurement
Battery Block
LCD Message Type of message What happened ? How to fix it
Battery current normal Battery status Battery is ready
Battery is charging Battery status Battery is being charged Wait until the end of battery charge.

Battery switch open Battery warning Battery switch is open. Close the switch, according to instructions in the IOM manual.

End of discharge Battery warning The battery voltage has reached the end-of-discharge voltage level. If the AC mains supply is still not present, the load will shortly be interrupted.

BMS warning Battery information The Battery Monitoring System reports a warning. Investigate the battery thanks to the Battery Monitoring pages.
Battery discharging Battery information The battery is discharging.
The battery voltage is low, which indicates that the battery discharge
Imminent shutdown Battery information If the AC mains supply is still not present, the load will soon be interrupted.
level is close to trip level.
A current leakage between battery and earth or DC polarities and Danger, DO NOT CARRY OUT BATTERY MAINTENANCE .Check battery cable insulation. Check battery cell insulation. Try to isolate
DC earth fault Battery information
earth was detected. the failed part by switching DC load or battery off. Call Vertiv Industrial Systems Service.
Battery overvoltage Battery fault A battery DC overvoltage was detected. Check the presence of faults on the charger block and follow the recommended actions.

xGB 05_040_01 CP‐70R2_CP‐70RC2 ‐ Appendix ‐ Troubleshooting_v8 2/3

 TROUBLESHOOTING
CP-70R2I
Following an automatic or a manual battery test, a battery fault
Battery test failure Battery fault Check the battery connections. Check that the battery is not damaged. Call Vertiv Industrial Systems Service.
has been detected due a too rapid discharge rate.
Battery protection tripped Battery fault Battery circuit protection has tripped. Check the presence of a possible short circuit or overload on the battery circuit.
Battery temperature sensor failure Battery fault The battery temperature probe has been detected as faulty. Visually check the sensor and connections. Eventually replace the sensor.
Battery voltage Battery measure Input voltage value measurement
Battery current Battery measure Input current value measurement
Temp. sensor 1 Battery measure Input frequency value measurement
Capacity Battery measure Output voltage value measurement
Supervision Block
LCD Message Type of message What happened ? How to fix it
UPS time has not been set Supervision status MUN detects that the clock needs to be set Set the clock via the display menu.
Supervision started Supervision status MUN initialized

Event log erased Supervision information Event log erased

Miscellaneous Block
LCD Message Type of message What happened ? How to fix it

xGB 05_040_01 CP‐70R2_CP‐70RC2 ‐ Appendix ‐ Troubleshooting_v8 3/3

Page Titre / Title 00 01 02 03 04 05 06 07 08 09 10

0 TITLE PAGE xx xx xx xx xx
1 SYSTEM GENERAL ARRANGEMENT xx xx xx xx
2 CUBICLE FOOTPRINT DETAIL xx
3 BOTTOM GLAND PLATE AND AIR INLET ARRANGEMENT xx
4 TAG DETAIL xx
5 BATTERY PROTECTION BOX xx

EQUIPMENT : DUAL CHARGER CP70R 110VDC 225-100A

RGA
Signature numérique
de RGA
06/12/2021 AMH Date : 2021.12.06
10:31:38 +01'00'
AS BUILT 04 THIS DO CUM ENT CONTAINS PR OPRIETARY INFOR MATION OF
VERTIV IND USTRI AL SYSTEMS SAS , SU BSI DIARY O F VERTIV Co .
THE INFOR MATION CON TAINED TH EREIN SHAL L NO T BE DISCL OSED
30/09/2021 FFO UPDATED 03 TO O TH ER S OR DUPLIC ATED O R USED FO R OTHERS W ITH OUT THE
EXPRESS WRITTEN CO NSENT OF
VERTIV IND USTRI AL SYSTEMS SAS.
01/09/2021 TPS UPDATED 02
Plan / Draw
25/08/2021 TPS UPDATED 01
SYSTEM GENERAL ARRANGEMENT
AS BUILT
06/07/2021 TPS FOR APPROVAL 00 Code Pl an / Draw Code Indice / Rev Pag e
Date Creat. Check. App. Description modif. Indice / Rev CP70R2I-12979820-SGA 04 0
 =CNV1+A1 =CH1+A2 =CH2+A3 =CNV2+A4
Height : 1982 mm
Width : 2800 mm VERT IV VERT IV VERT IV VERT IV

Depth : 811 mm
External protection : IP41
Paint : RAL7032 V A V A
-P43 -P44
Lock : Retractable Handle -P43 -P44

Key : 9233

1982

1982

1982

1982
Cable entry : BOTTOM
Internal protection : According to IEC 62040-1

Door thickness : 2 mm

100

100

100

100
Panel wall thickness : 1.2 mm
Painting thickness : 50µm
Roof deflector position : Rear Oriented
170 kg 480 kg 480 kg 170 kg
Design temperature : 50 °C
Altitude : 1000 m AIR INLET
200 mini 200 mini
Environmental condition : Standard
WALL WALL
600 800 800 600

SYMBOL LEGEND :
200 mini

200 mini
V VOLTMETER
811

811

811

811
A
AMMETER

Hz
FREQUENCYMETER
441 x 120 641 x 120 641 x 120 441 x 120

LIGHT 22mm

SWITCH

TOUCHSCREEN
600

600
DISPLAY

800
800
LIFTING EYE

HANDLE

TAG/LABEL

VER TIV
VERTIV ITEMS

LABEL DESCRIPTION
SHIPPING BREAK PLEASE REFER PAGE NO. 4 FOR TAG DETAILS
=CH1+A2 CHARGER 1 CUBICLE
=CH2+A3 CHARGER 2 CUBICLE LABEL DESCRIPTION
=CNV1+A1 DC REGULATOR 1 CUBICLE -P43 DC LOAD VOLTAGE
=CNV2+A4 DC REGULATOR 2 CUBICLE -P44 DC LOAD CURRENT

SYSTEM GENERAL ARRANGEMENT Code Plan / Draw Co de Ind / Rev Pag e

06/12/2021 AMH UPDATE D
Date Creat. DESCRIPTION CP70R2I-12979820-SGA 04 1
 =CNV1+A1 =CH1+A2
=CNV2+A4 =CH2+A3

430 630
85 85

85

85
630

811

630

811
600 800
96

96
ANGLE FOOT DETAIL ANGLE FOOT DETAIL CENTRAL FOOT DETAIL
(For CABINET WIDTH =275mm) (For CABINET WIDTH >= 400mm) (For CABINET WIDTH >= 1200mm)

70.0
FIXING HOLE
TO BE USED
FIXING HOLE Ø 14mm
TO BE USED
Ø 14mm
FIXING HOLE
TO BE USED
Ø 14mm

80.0
72.5
72.5
70.0
50.0
30.0

30.0 72.5 57.5

50.0 100.0 FIXING HOLE 115.0

FIXING HOLE TO BE USED
TO BE USED

CUBICLE FOOTPRINT DETAIL Code Plan / Draw Co de Ind / Rev Pag e

06/07/2021 TPS FOR AP PROVAL
Date Creat. DESCRIPTION CP70R2I-12979820-SGA 00 2
 =CNV1+A1 =CH1+A2
=CNV2+A4 =CH2+A3
600 800

418 x 430

610 x 430
811

811
112.0

112.0
441 x 120 641 x 120

79.5 79.5

WxH GLAND PLATE

WxH AIR INLET

BOTTOM GLAND PLATE AND AIR INLET ARRANGEMENT Code Plan / Draw Co de Ind / Rev Pag e
06/07/2021 TPS FOR AP PROVAL
Date Creat. DESCRIPTION CP70R2I-12979820-SGA 00 3
 Material : Gravopli / Traffolyte SERIAL NB CUBICLE NAME TAG / LABEL
Thickness : 15/10mm L21-0672 =CNV1+A1 VCU 1
Background color : Blanc / White L21-0672 =CH1+A2 CHARGER 1
Font color : Noir / Black L21-0672 =CNV2+A4 VCU 2
Font Height : 5 mm L21-0672 =CH2+A3 CHARGER 2
Text : SL513 ( Arial ) L21-0673 =CNV1+A1 VCU 1
Compression: 100% L21-0673 =CH1+A2 CHARGER 1
L21-0673 =CNV2+A4 VCU 2
L21-0673 =CH2+A3 CHARGER 2
L21-0674 =CNV1+A1 VCU 1
L21-0674 =CH1+A2 CHARGER 1
L21-0674 =CNV2+A4 VCU 2
L21-0674 =CH2+A3 CHARGER 2
L21-0675 =CNV1+A1 VCU 1
L21-0675 =CH1+A2 CHARGER 1
75mm
L21-0675 =CNV2+A4 VCU 2
5.0mm L21-0675 =CH2+A3 CHARGER 2

2 x Ø 3.2
20mm
40mm

TAG/LABEL

TAG DETAIL Code Plan / Draw Co de Ind / Rev Pag e

06/07/2021 TPS FOR AP PROVAL
Date Creat. DESCRIPTION CP70R2I-12979820-SGA 00 4
 Height : 600 mm
Width : 400 mm
Depth : 250 mm
=BB1+B1
Protection : IP55
Paint : RAL7032
=BB2+B2
Lock : DIN
Cable entry : BOTTOM
Fix.448
Ø9 400
250 12.5
135

100 140

295
+ -

Ø11
Cu 32x5
Fuserbloc 2x250A

Fix.558

600
+ CA + DPMM

Earthing copper
bar 20x4

150

Gland Plate Terminals

Handle

S 2 x Locking
+ +
BATTERY LOAD
- -

1 1
2 2 FUSE BLOWING
3 3
4 4
=BB1+B1 : BATTERY PROTECTION BOX 5
5 SWITCH POSITION
=BB2+B2 : BATTERY PROTECTION BOX 6 6

BATTERY PROTECTION BOX Code Plan / Draw Co de Ind / Rev Page

06/07/202 1 TPS FOR APPROVAL
Date Creat. DESCRIPTION CP70R2I-12979820-SGA 00 5
Page Titre / Title 00 01 02 03 04 05 06 07 08 09 10

0 TITLE PAGE xx xx xx xx xx xx
1 SINGLE LINE DIAGRAM xx xx xx
2 DESCRIPTION OF LABELS xx xx xx xx
3 LEGEND OF SYMBOLS xx

EQUIPMENT : DUAL CHARGER CP70R 110VDC 225-100A

15/11/2021 RGA PGT Digitally signed by PGT

Date: 2021.11.15 09:54:43
+01'00'
UPDATED 05

01/09/2021 TPS UPDATED 04 THIS DO CUM ENT CONTAINS PR OPRIETARY INFOR MATION OF
VERTIV IND USTRI AL SYSTEMS SAS , SU BSI DIARY O F VERTIV Co .
THE INFOR MATION CON TAINED TH EREIN SHAL L NO T BE DISCL OSED
24/08/2021 TPS UPDATED 03 TO O TH ER S OR DUPLIC ATED O R USED FO R OTHERS W ITH OUT THE
EXPRESS WRITTEN CO NSENT OF
VERTIV IND USTRI AL SYSTEMS SAS.
07/08/2021 TPS UPDATED 02
Plan / Draw
29/07/2021 TPS UPDATED 01
SINGLE LINE DIAGRAM AS BUILT
06/07/2021 TPS FOR APPROVAL 00 Code Plan / Draw Co de Indice / Rev Pag e
Date Creat. Check. App. Description modif. Indice / Rev CP70R2I-12979820-SLD 05 0
 =CH1+A2 =CNV1+A1
TOUCHS
CREEN
U, I, F U, I U A46
-P43 -P44
19 DROPPING DIODES
-A3 (150V) (75A)
(100A)
Iset=87.5A CHARGER 1 V A
-T3 Iset=231.25A
110Vdc / 225A - 65A -K46
-Q3 47.9kVA -Q2 -Q41 -Q44
A90 -V2 -F430
AC SUPPLY 1 (125A/18kA) (250A/36kA) (100A) (100A/18kA)
(250A) (2A) DC LOAD 1
3Ph/400VAC +10/-10%
110VDC +/-10%
50Hz
Terminals P46
Terminals 2xP32 Note 1
R< (N=18+1)
AUXILIARY 1 -F101
AC SUPPLY (6A)
-H101
-K100
1Ph/220VAC 50Hz
Terminals 2xP10 1*
(P6)
-Q4
45 meter cable for SMA probe. (250A)
BATTERY 1 - 110VDC
Type : V NiCd
Reference : LBE800P -B92 Iset=185A
Number of Cells : 92 -Q5 -Q6
Capacity : 800Ah (250A) (200A/36kA) I -F101
(6A)
Autonomy : 600min
* * 1* -H101

Float : 1.42V/cell (CO 30X5) (CO 30X5) (CO 30X5)

Boost : 1.47V/cell
Init. Charge : 1.65V/cell TRIP -Q7
End of disch: 1.02V/cell COIL (250A/36kA)

=BB1+B1 Q7 Closing only if

one of Q2 is opened

=CNV2+A4
BATTERY 2 - 110VDC
Type : V NiCd =BB2+B2
Reference : LBE800P Iset=185A
Number of Cells : 92 -Q5 -Q6
Capacity : 800Ah (250A) (200A/36kA) -F101
(6A)
Autonomy : 600min
* * 2* -H101

Float : 1.42V/cell (CO 30X5) (CO 30X5) (CO 30X5) I

Boost : 1.47V/cell
Init. Charge : 1.65V/cell
End of disch: 1.02V/cell
-B92

45 meter cable for SMA probe.

(P6) -Q4
=CH2+A3 (250A)
TOUCHS
CREEN
U, I, F U, I U A46
-P43 -P44
19 DROPPING DIODES
-A3 (150V) (75A)
(100A)
CHARGER 2 V A
Iset=87.5A -T3 110Vdc / 225A - 65A -K46
-Q3 47.9kVA -Q41 -Q44
A90 -V2 -F430
AC SUPPLY 2 (125A/18kA) (100A) (100A/18kA)
(250A) (2A) DC LOAD 2
3Ph/400VAC +10/-10%
110VDC +/-10%
50Hz
Terminals P46
Terminals 2xP32 Note 1 -Q2
(N=18+1)
-F101 (250A/36kA) R <
AUXILIARY 2 Iset=231.25A -K100
AC SUPPLY (6A)
-H101
1Ph/220VAC 50Hz
Terminals 2xP10 2*

SINGLE LINE DIAGRAM Code Plan / Draw Co de Ind / Rev Page

8/24/2021 TPS updated
Date Creat. DESCRIPTION CP70R2I-12979820-SLD 02 1
 LABEL DESCRIPTION LABEL DESCRIPTION LABEL DESCRIPTION
-P43 DC LOAD VOLTAGE -A3 AC-DC CONVERTER =CH1+A2 CHARGER 1 CUBICLE
-P44 DC LOAD CURRENT -A46 DROPPING DIODES =CH2+A3 CHARGER 2 CUBICLE
-K46 DROPPING DIODE SHUNT CONTACTOR =CNV1+A1 DC REGULATOR 1 CUBICLE
-T3 CHARGER TRANSFORMER =CNV2+A4 DC REGULATOR 2 CUBICLE
-V2 CHARGER OUTPUT BLOCKING DIODE =BB1+B1 BATTERY 1 PROTECTION BOX
-V44 DC REGULATOR OUTPUT BLOCKING DIODE =BB2+B2 BATTERY 2 PROTECTION BOX

-Q2 CHARGER OUTPUT CIRCUIT BREAKER

-Q3 CHARGER INPUT CIRCUIT BREAKER
-Q4 CHARGER OUTPUT BATTERY ISOLATOR
-Q5 BATTERY FUSE SWITCH
-Q6 BATTERY CIRCUIT BREAKER
-Q7 DC TIE CIRCUIT BREAKER
-Q41 DROPPING DIODE INPUT ISOLATOR
-Q44 DC LOAD MAIN CIRCUIT BREAKER
-F101 AUXILIARY PROTECTION FUSE
-H101 INTERNAL LIGHT

REMOTE ALARMS TERMINALS RELAY

connection between 0.14 and 2.5 sq.mm
12 11 14

CLOSED CONTACT
CUSTOMER INPUT/OUTPUT AUXILIARIES CONNECTION RELAY DESCRIPTION IN NORMAL CONDITION
(earth bar is provided at the bottom of each cabinet, all external earth cable will be connected on this specific bar) -K901 COMMON GENERAL ALARM 14 - 11
CUBICLE FUNCTION SIGNAL TYPE TERMINALS -K902 CHARGER RUNNING 14 – 11
=CH1+A2 TO BATTERY SMA PROBE 5VDC X31 (P6) -K903 CHARGER IN BOOST MODE 14 – 11
=CH1+A2 AUXILIARIES FROM BATTERY PROTECTION BOX Dry loop X941 (P6) -K904 CHARGER IN INITIAL CHARGE 14 – 11
=CH1+A2 COMMON REMOTE ALARM Dry loop X49 (P6) -K905 CHARGER IS IN BOOST or INITIAL MODE 14 – 11
=CH1+A2 FAN ON HIGH SPEED BOOST CAN BE STARTED NC. Dry loop X48 (P6) -K906 IMMINENT SHUTDOWN 14 - 11
=BB1+B1 BATTERY PROTECTION BOX AUXILIARIES TO CHARGER CUBICLE Dry loop X941 (P6) -K907 LOAD ON BATTERY 14 - 11
=CH2+A3 TO BATTERY SMA PROBE 5VDC X31 (P6) -K909 END OF DISCHARGE 14 - 11
=CH2+A3 AUXILIARIES FROM BATTERY PROTECTION BOX Dry loop X941 (P6) -K910 CHARGER MAINS FAULT 14 – 11
=BB2+B2 BATTERY PROTECTION BOX AUXILIARIES TO CHARGER CUBICLE Dry loop X941 (P6) -K911 COMMON REMOTE ALARM 12 - 11
=CH2+A3 COMMON REMOTE ALARM Dry loop X49 (P6) -K913 CHARGER FAULT 14 - 11
=CH2+A3 FAN ON HIGH SPEED BOOST CAN BE STARTED NC. Dry loop X48 (P6) -K914 POSITIVE EARTH FAULT 14 – 11
-K915 NEGATIVE EARTH FAULT 14 – 11
-K916 Q3 OPEN/CLOSE 14 – 11
SIZE OF TERMINALS -K917 Q44 OPEN/CLOSE 14 – 11
P6 0.14 to 4 mm² -K918 Q2 OPEN CLOSE 14 – 11
P10 0.5 to 10 mm² -K919 DROPPING DIODE FAULT 14 – 11
P16 1.5 to 35 mm² -K920 BATTERY FUSE FAILURE 14 – 11
P32 (M10) 25 to 50 mm²
P40 (M12) 35 to 95 mm²
Note 1 : The chargers are connected in parallel.
P46 (M12) 50 to 150 mm²
P53 (M16) 70 to 240 mm²
Cu Busbars Copper busbars

DESCRIPTION OF LABELS Code Plan / Draw Co de Ind / Rev Page

11/15/2021 RGA UPDATED
Date Creat. DESCRIPTION CP70R2I-12979820-SLD 05 2
 -
Terminal A DC ammeter NWW2200
DC ripple monitoring
= C

Interconnection terminal V DC voltmeter B Manual bypass switch

= F = Frequency transducer A

Isolator A AC ammeter
~
V = Voltage transducer
Contactor V
~
AC voltmeter
Dropping diodes
1 step
Circuit breaker Hz Frequency meter I
= Current transducer

Fuse switch -S... Phases selector switch Dropping diodes

2 steps
Static switch
Fuse Light

Dropping diodes
Push button Resistor 3 steps
DC → AC Converter

Transformer θ Thermostat control

AC → DC → AC
Autotransformer Hygrostat control Converter
AC → DC Converter

Choke Socket

* Interconnection cables
Battery Mechanical interlock NOT SUPPLIED BY VERTIV
AC regulator

Diode M Motorized circuit breaker

Over / undervoltage DC → DC Converter

Lightning arrestor U< / >
relay Insulated

Battery temperature R< Earth fault monitor

probe
DC → DC Converter
Not insulated
Padlocking BMR Battery Monitoring Relay

LEGEND OF SYMBOLS Code Plan / Draw Co de Ind / Rev Page

7/6/2021 TPS FOR APPROVAL
Date Creat. DESCRIPTION CP70R2I-12979820-SLD 00 3
Page Titre/Title 00 01 02 03 04 05 06 07 08 09 10
0 SUMMARY XX XX XX XX XX XX XX
1 CHARGER1 - AC SUPPLY XX
2 CHARGER1 - AC/DC CONVERTER Y/D XX XX XX
3 CHARGER1 - DC OUTPUT XX
4 CHARGER1 - CIC 2 XX
5 CHARGER1 - AUXILIARIES INOUT XX XX
6 CHARGER1 - DISPLAY & COMMUNICATION XX
7 CHARGER1 - CANI XX XX
8 CHARGER1 - CANO XX XX XX XX
9 CHARGER1 - ALARMS XX XX XX
10 CNV1 - DROPPING DIODE CUBICLE XX XX EQUIPMENT :DUAL CHARGER CP70R 110VDC 225-100A
11 BB1 - BATTERY PROTECTION BOX XX
12 CHARGER2 - AC SUPPLY XX
13 CHARGER2 - AC/DC CONVERTER Y/D XX XX XX
14 CHARGER2 - DC OUTPUT XX
15 CHARGER2 - AUXILIARIES INOUT XX XX
16 CHARGER2 - DISPLAY & COMMUNICATION XX
17 CHARGER2 - CANI XX XX
18 CHARGER2 - CANO XX XX XX XX
19 CHARGER2 - ALARMS XX XX XX
20 CNV2 - DROPPING DIODE CUBICLE XX XX
21 BB2 - BATTERY PROTECTION BOX XX XX
22 CHARGER1 - AUXILIARY LIGHTING XX
90 PLATE DETAILS XX
91 SCHEMATIC LEGEND XX
100 CUSTOMER TERMINALS XX XX XX
101 CUSTOMER TERMINALS XX XX XX
120 INTERCONNECTION TERMINALS XX
121 INTERCONNECTION TERMINALS XX XX
122 INTERCONNECTION TERMINALS XX
200 BILL OF MATERIAL XX XX
201 BILL OF MATERIAL XX XX XX
202 BILL OF MATERIAL XX XX XX XX XX
203 BILL OF MATERIAL XX XX XX XX
204 BILL OF MATERIAL XX XX XX

AUXILIAIRE..................:1.5mm°
T.I. sur carte electronique :1.5mm°
T.I. sur appareil de mesure :2.5mm°
SHUNT.......................:2.5mm°
THIS DOCUMENT CONTAINS PROPRIETARY
INFORMATION OF VERTIV INDUSTRIAL
15/11/2021 RGA UPDATED 6 SYSTEMS SAS SUBSIDIARY OF VERTIV Co.
VERTIV INDUSTRIAL SYSTEMS SAS THE INFORMATION CONTAINED
THEREIN SHALL NOT BE DISCLOSED TO
05/11/2021 RGA UPDATED 5 30 AVENUE MONGOLFIER - BP 90
69684 CHASSIEU CEDEX - FRANCE OTHERS OR DUPLICATED OR USED FOR
TEL. +33 (0)4 78 40 13 56 OTHERS WITHOUT THE EXPRESS WRITTEN CONSENT OF
29/10/2021 RGA UPDATED 4 FAX. +33 (0)4 78 90 58 90 VERTIV INDUSTRIAL SYSTEMS SAS.
21/10/2021 TPS UPDATED 3 Plan/Draw
30/09/2021 FFO UPDATED 2 ELECTRICAL DRAWING AS BUILT
02/09/2021 TPS UPDATED 1
Code Plan/Draw code Ind/Rev Page
08/08/2021 TPS FOR APPROVAL 0
Date Creat. Verif. App. Description Ind/Rev CP70R2I-12979820 6 0
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

Iset=87.5A
B 1P
-Q3 -T10
125A 100A
-X11

TO TRANSFORMER
1 2 1 P1 P2 4
(/2.03)
1 S1 S2
C

Bk
Wh
2 4 3 5
(/2.03)
2
D 1P
-T30
100A
3 6 5 P1 P2 6
(/2.03)
3 14 S1 S2
E 206
11 207
(/5.12)

Bk
Wh
12
3Ph/400VAC +10/-10%

87.5A 98 87.5A
95
886 96 (/5.12)
F 25mm² 885 25mm²
AC SUPPLY 1

6
T10
50Hz

X1.1(L1)

X1.3(L2)

X1.5(L3)

X1.2 (N)
H T30
-X11 1
1 FRC -30
-A90
X2.1(PE)
I 2
2 -XT
1 2 3 4
J 3
3

K EARTH

L
-L40
2P

200
201
204
205
N

(/2.10)

SK23.4
SK23.5
SK23.1
SK23.2
(/3.03) -A20
O (/5.08) ESA
(/6.03) -F40 T30 T10
I MEASURE
2A A204
L1 L2 L3 INCA2
P
INCA2 &
ALIN2 SUPPLY
E

CHARGER1 - AC SUPPLY Ind/Rev Page

01/09/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 0 1
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
184A
70mm² -A3 Imax = 225A
B 1P
-T3 -T80

CHARGER OUTPUT
400V+/-15% 131,4V 200A
4 17 P1 P2 ~A + 22 22
(/1.27) (/3.03)
CHARGER INPUT

C
A a S1 S2
+

110VDC
Bk
Re
-C1 + -R10
3*15mF
5 18 ~B 2*2,7 kOHMS
(/1.27)
B b -L4
D 1P F
- 21 23
(/3.03)
-T90
(/1.27)
6
C c
19
200A
P1
S1
P2
S2
~C
0,25mH
-
E 225A 225A

Bk
Re
N (/5.20) 70mm² 70mm²

(Br)
(Or)
(Gr)
(Re)
(Br)
(Gr)
(Ye)
(Re)
(Br)
(Gr)
(Ye)
(Re)
(Br)
(Gr)
(Ye)
(Br)
(Or)
87.5A T90
25mm² T80
F 1 3 5 2 1 5 4 2 1 5 4 2 1 5 4 1 3
X4 X1 X2 X3 X5
X7.5
X7.6 -A301 CGCH4
G X7.4 Pulses Generator Board

X6 26p

(FUSE)
X7.3

(FAN)
X8.1
(T°)
X8.2

X8.3

X8.4

X7.1

X7.2
(Or) (Re)
H (Br)

26
L

22

23
(/1.14)
X2 1 2

SK21.4
SK4

SK3

SK21.3

SK21.1
SK21.2

SK25.1

SK25.3
-A20 ALDIM
O ESA AC SUPPLY 6P 6P + -

+15V
-15V
S
0V
Yd/Dy Dd/Yy DC REGUL
-A204 -A204 -A204
P INCA2 INCA2 INCA2
TO PULSES GENERATOR Idc MEASURE

CHARGER1 - AC/DC CONVERTER Y/D Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 3 2
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

Iset=231.25A
B 70mm² 70mm²
225A -Q2 225A
250A
-X922
FROM CHARGER

22 22 1 2 25 25

DIODE CUBICLE
TO DROPPING
(/2.27) (/10.03)
1
C
+ +
D -V2
23 600 3 4 26 26
(/2.27) (/10.03)
2

E
- 250A

14
-
11 856 100A Iset=231.25A
857 12 (/3.10)
25mm² 70mm² 70mm²
-Q7
(/3.17)

(/3.17) 21
24
858 225A 225A

FROM CHARGER 2
F 852 22 (/3.05) 250A
28 1 2 32 -X929 601
(/14.26)
1

G
+
28

31

-F01
31 3 4 33 602
2A (/14.26)
2
H 14
-
858

853

11
863 12 (/4.04)
871
Iset=185A
24

-Q2 C1 C2

(/3.05)

(/3.06)
I -Q4 861 853 (/3.05)
(/3.10) -Q6
**
21

250A 200A
25 1 2 28 28 1 2 34 -X921

TO BATTERY
(/11.04)
1
14 852

J
-K908
+
(/8.19) 1P
<---------
860 11

K 26 3 4 31 -T40 31 3 4 35
(/11.04)
+15V-15V S 0V 14 2
(1)(2)(3)(4)
208
11
12
872
(/5.20)
-
26

-X959 25
L 1 185A 98
95
860 888 96 (/5.16)
(/14.06) 70mm² 887
(/4.07)

(/4.06)

M 861
(/14.06)

TEMPERATURE TEMPERATURE
(Wh)
(Br)
(Gr)
(Ye)
-X959

BATTERY
2

PROBE
-B92

C1
C1
C1
C1
N C3 (Ye) -X31
861

C3 (Gr) 1
2
C1

O -Q7 -Q2
(/3.20) 14 11 857
(/7.09)
(/3.10)
C2

856 -B93
P (/7.09)

AMBIANT
C3 (Br) -X31

PROBE
C3 (Wh) 3
600
22

4
Q (/1.14)
SK3.2

SK3.1

SK22.4
SK22.3
SK22.2
SK22.1

SK5.1
SK5.2

SK5.3
SK5.4
-F30
8A
+24V 0V + -
R DC OUTPUT DC SUPPLY BAT. CURRENT BATT. AMB.
(ALIN2) MEASURE TEMP. TEMP.
-A202 -A204 -A204
ALIN2 -A20 INCA2 INCA2
ESA
S

**:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER1 - DC OUTPUT Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 0 3
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

864 865 =CH2

B +A3
-K100A -K100A
SK2.6 SK3.6
CIC2 CIC2
-K100A -K100A SK2.5 +R< -K01 SK3.5 -R< -K01 -K100B -K100B
SK2.3 SK3.3 (/4.07) (/4.07) SK2.3 SK3.3
C CIC2 CIC2 (/4.04) (/4.04) CIC2 CIC2
SK2.2 +R< SK3.2 -R< SK2.2 +R< SK3.2 -R<

867

868
(/4.07) (/4.07) (/4.22) (/4.22)

D
854

850

855

851

867

869

868

870

869

867

870

868
-X955 -X955 -X955 -X955
1 2 3 4
E (/5.04) (/5.05) (/5.08) (/5.09)

867

869

868

870
(/15.04) (/15.05) (/15.08) (/15.09)
F (/15.06) (/15.07) (/15.10) (/15.11)

(/14.12)

(/14.11)
I

(/4.20)

(/4.21)
(/3.12)

(/3.11)

25

26
-F100
2A
K

927

928

927

928
25

26

-X958
1 2
L -X958

927

928
-F100
2A -K01 1 2

927

928
(/4.04)
863

937

938
M
-X958 (/4.13) (/4.14)
3 4
(/4.13) (/4.14)
N
937

938
12

-Q7
(/3.20)
871 11

937

938
863

866

O -X958
(/4.20)

(/4.21)

3 4 SK2.3 (/4.21)
-K01 -K100B SK2.2

937

938
A1(+) SK2.1 + R<
SK2.3 (/4.02) CIC2-30 CIC2
-K100A SK2.2 SK2.1 + R< SK2.6
P CIC2-30 CIC2 SK2.6 (/4.08)
SK1.1+ SK2.5 SK2.4
A2(-) 866 SK1.1+ SK2.5 SK2.4 SK1.3-120V SK3.3 (/4.23)
SK1.3-120V SK3.3 (/4.06)
Measure SK3.2 SK3.1 - R<
Measure SK3.2 SK1.2 SK3.6
SK3.1 - R< SK3.5
SK1.2 SK3.6 (/4.12) SK3.4
Q (/4.13)
(/4.13) SK3.5 SK3.4
(/4.10)
(/4.14)

CHARGER1 - CIC 2 Ind/Rev Page

09/08/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 0 4
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

FROM BB1
C

(/11.11)

(/11.13)
D

E **

-X941
F 6 4

872
G

14

14
-Q3 -Q6
H (/1.14) (/3.22)

11

11
206

207

208

209

211
I (/1.14)
SK18.1

SK18.2

SK18.5

SK18.6

SK19.1

SK19.2

SK19.3

SK19.4

SK19.5

SK19.6
+ - + - + - + - + -
-A204 PREDEFINED INPUT
J
INCA2 REMOTE INPUT (CHARGER) FAN BATTERY DC EARTH
ON/OFF PROTECTION OPEN FAILURE PROTECTION OPEN FAULT
-A20
ESA
POSITIVE EARTH NEGATIVE EARTH INPUT BATTERY TRANSFORMER BRIDGE
K FAULT FAULT PROTECTION TRIP PROTECTION TRIP THERMOSTAT THERMOSTAT
SPARE INPUT
SK16.1

SK16.2

SK16.3

SK16.4

SK16.5

SK16.6

SK17.1

SK17.2

SK17.3

SK17.4

SK17.5

SK17.6
+ - + - + - + - + - + -
L
854

850

855

851

96 885

886

96 887

888

226

227

862

862
M -Q3 -Q6 -T3
(/1.14) (/3.22)
(/2.05) O
95

95
N
(/4.02)

(/4.03)

(/4.06)

(/4.07)

S **:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER1 - AUXILIARIES INOUT Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 2 5
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

E
(/1.14)
-A20
ESA
F

G DC OUTPUT DC OUTPUT
BUSCAN -A202 -A202 DISPLAY BUSCAN
-A204 ALIN2 -A204 ALIN2 -A202
+24VI 0VI +24V 0V
INCA2 INCA2 ALIN2

SK2.2

SK2.1

SK3.2

SK3.1
H
SK2 SK27 SK5 SK6

I
RJ45

J
X15 X1.2 X1.1
+ - CF1
BUSCAN DC SUPPLY PE
CF2
24V CAN
K -A205 MUXIN

(Gr)
(Ye)

(Br)
(Wh)
ETHERNET ETH1 PPVIS ETH0 RS-232 FLASH
BUSCAN (COM. TCP) (Factory) (Factory)
X17 X7 X8 X18 H L + - - PE
L
CAN1 48V

-A200
M EMU822E
TOUCHSCREEN
ON FRONT FACE

RJ45 RJ45
P
(/7.02)

(/8.02)
Q

CHARGER1 - DISPLAY & COMMUNICATION Ind/Rev Page

08/08/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 0 6
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

B FROM BB1 Q2 OPEN

(/6.03)

(/11.14)

(/11.15)

(/3.12)

(/3.12)
D

E FAN ON HIGH SPEED,

BOOST CAN BE STARTED,
CONTACT NC
RJ45
F -X941 -X48
3 2 1 2

G
890

891

857

856

859

900
+ - + - + - + - + - + - + - + - + - + -
X2

TO LISA X4

X10.1

X10.2

X10.3

X10.4

X10.5

X10.6

X11.1

X11.2

X11.3

X11.4

X11.5

X11.6

X12.1

X12.2

X12.3

X12.4

X12.5

X12.6

X13.1

X13.2
H

BATT. FUSESWITC Q2 POSITION BOOST IMPOSED SPARE4 SPARE5 SPARE6 SPARE7 SPARE8 SPARE9 SPARE10
BLOWN OPEN
I
BUSCAN

-A226
CANI2
X5 TO COCIN 1

X8 TO COCIN 2

J
SPARE11 SPARE12 SPARE13 SPARE14 SPARE15 SPARE16 SPARE17 SPARE18 SPARE19 SPARE20
X13.3

X13.4

X13.5

X13.6

X14.1

X14.2

X14.3

X14.4

X14.5

X14.6

X15.1

X15.2

X15.3

X15.4

X15.5

X15.6

X16.1

X16.2

X16.3

X16.4
K
X3

+ - + - + - + - + - + - + - + - + - + -

RJ45
M
(/8.02)

S **:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER1 - CANI Ind/Rev Page

03/09/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 1 7
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

E
T

UR
UL

UL

UL
C Q44 OPEN DROPPING DIODE

IL
FA

FA

FA
(/7.02)

FA
E

OS

E
FAULT

OS

OS

E
T

RT

RT

CL

OD

SE
UL

CL

CL
EA

EA

DI

FU
FA

/
/

/
VE

VE

EN

NG

Y
D

EN

EN
(/10.26)

(/10.26)

(/10.26)

(/10.26)

ER
GE

TI

TI

OP

PI
OP

OP

TT
AR

SI

GA

OP
4

BA
CH

PO

NE

Q3

Q4

Q2

DR
14 14 14 14 14 14 14 14
E 11
(/9.16)
11
(/9.21)
11
(/9.25)
11
(/9.03)
11
(/9.08)
11
(/9.12)
11
(/9.16)
11
(/9.21)
12 12 12 12 12 12 12 12

879

880

883

884
F RJ45
-K913 A1(+) -K914 A1(+) -K915 A1(+) -K916 A1(+) -K917 A1(+) -K918 A1(+) -K919 A1(+) -K920 A1(+)
-X956 -X956
1 2 3 4
A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-)
G

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)
879

880

883

884
N13 N14 N15 N16 N17 N18 N19 N20
H 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
SK8.1

SK8.2

SK8.3

SK8.4

SK8.5

SK8.6
+ - + - + -
SK1.1

SK1.2

SK1.3
SK4

(MODBUS) SK16

SK12 SK13
+ - + - + - + - + - + - + - + -
1 2 3 13 14 15 16 17 18 19 20
TO LISA

24V 0V
I
SPARE INPUT OUTPUTS
BUSCAN

J -A221
CANO -00
OUTPUTS
K
1 2 3 4 5 6 7 8 9 10 11 12
+ - + - SK9 + - + - + - + - SK10 + - + - + - + - SK11 + - + -
SK5

1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
L
N1 N2 N3 N04 N5 N6 N7 N8 N9 N10 N11
(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)
M
-K901 A1(+) -K902 A1(+) -K903 A1(+) -K904 A1(+) -K905 A1(+) -K906 A1(+) -K907 A1(+) -K908 A1(+) -K909 A1(+) -K910 A1(+) -K911 A1(+)
RJ45

A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-)
N

14 14 14 14 14 14 14 14 14 14 14
(/6.27)

11 11 11 11 11 11 11 11 852 11 11 11
12 (/9.03) 12 (/9.08) 12 (/9.12) 12 (/9.16) 12 (/9.21) 12 (/9.25) 12 (/9.03) 860 12 (/3.05) 12 (/9.08) 12 (/9.12) 904 12 (/9.25)
O 859 903
M

DE

DE

L or

WN

M
DE

** ION
AR

IN

ER

RG

UL

AR
MO

MO

DO
MO
AL

NN

IA T

TT

HA

FA

AL
P

IT
IT OS

UT
RU

GE

BA

SC
ND
L

OS

IN BO

SH

TE
RA

AR

DI

IN
*
CO
R

BO

ON

MO
NE

GE

CH

IN

NT

MA
OF

RE
T
GE

AR

IN

NE

AD

UL
L

IS

ER
CH

IA

MI

LO

N
FA
N

EN

RG

MO
Q
MO

GE

IT

IM
GE

M
R
M

AR

IN

CH

CO
GE
CO

AR
CH

AR
IN

CH

CH
R
GE

R
AR
CH

***:- RELAY FOR INTERNAL USE

CHARGER1 - CANO Ind/Rev Page

15/11/2021 RGA
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 6 8
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
COMMON GENERAL ALARM CHARGER RUNNING CHARGER IN BOOST MODE CHARGER IN INITIAL CHARGE MODE CHARGER IS IN BOOST or
INITIAL MODE IMMINENT SHUTDOWN
(/8.04) (/8.06) (/8.08) (/8.10) (/8.13) (/8.15)
B -K901 -K902 -K903 -K904 -K905 -K906

X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 *
D
906

907

908

909

910

911

912

913

914

915

916

917

918

923

924

925

926

929
-X42 -X42 -X42 -X42 -X42 -X42
E 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
HIGH SPEED FAN TO BE STARTED
F

LOAD ON BATTERY END OF DISCHARGE CHARGER MAINS FAULT CHARGER FAULT POSITIVE EARTH FAULT NEGATIVE EARTH FAULT
G (/8.17) (/8.21) (/8.23) (/8.13) (/8.15) (/8.17)
-K907 -K909 -K910 -K913 -K914 -K915

* 14 * * 14 * * 14 * * 14 * * 14 * * 14 *
I X41 12 11 X41 12 11 X41 12 11 X41 12 11 X41 12 11 X41 12 11
930

931

932

933

934

935

936

939

940

941

942

943

944

945

946

947

948

949
J -X42 -X42 -X42 -X42 -X42 -X42
19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36

M Q3 OPEN / CLOSE Q44 OPEN / CLOSE Q2 OPEN / CLOSE DROPPING DIODE FAULT BATTERY FUSE FAILURE
(/8.19) (/8.22) (/8.24) (/8.26) (/8.28)
-K916 -K917 -K918 -K919 -K920
N

O
X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 *
950

951

952

953

954

955

956

957

958

959

960

961

962

963

964
P
-X42 -X42 -X42 -X42 -X42
37 38 39 40 41 42 43 44 45 46 47 48 49 50 51
Q 903 -X49
1

R COMMON

12
-K911
(/8.25) REMOTE ALARM

11
S 904
2
*: CONTACT OPEN IN FAULTY CONDITION
CHARGER1 - ALARMS Ind/Rev Page
15/11/2021 RGA
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 6 9
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
FROM CHARGER 1 PANEL
B
+
25 -X922 25
-Q41
1
100A
2 604 604
-Q44
1
100A
2 605 -X22
C (/3.26)
1 1
-A46
-A46 DC LOAD 1
110VDC +/-10%
D
(/3.26)
-
26
2
26 3 4 607 -
60A
N=18 + 1
+ 608 50mV
-R44
75A
609 3 4
14
877
610
2
11

604

608
878 12 (/10.22)
E
100A 100A -F430 100A
2A
25mm² 25mm² -K46 25mm²
F

875

876

873

874
-P43 -P44
G
+ V- -A+
= =
75A

(Gr)
150V
(Or) (Ye)
H

SK1-1

SK1-2

SK3-1

SK3-2

SK4-2

875

876
I
SK1.2+
-A446 NRV -20
-A01

SK1-5

SK4-3
J NRV 48/110/220V

611
SUPPLY
604

607

(Br)

(Re)
SK1.5-
K
SK3.3
SK3.2 882
881 SK3.1 (/10.22)
L -K46 A1(+) NRV SK4.1
SK4.2
SK4.3
A2(-)

M
(Gr)

(Br)

-F446 (Bl)
N
4A - -Q44
+ - 14 11 878 -X956 879
(/8.08)
(/10.23) 1
O 877 880
(/8.09)
2

P 882 -X956 883

(/8.10)
3

Q -A01
SK3.3
(Bk) Black (Gr) Green NRV
SK3.2 +R<
(Br) Brown (Bl) Blue (/10.19)
R
(Re) Red (Pu) Purple
881 884
(/8.11)
(Or) Orange (Gy) Grey 4
S (Ye) Yellow (Wh) White

CNV1 - DROPPING DIODE CUBICLE Ind/Rev Page

29/10/2021 RGA
Date Creat. DESCRIPTION
=CNV1 +A1
DESIGNATION
CP70R2I-12979820 4 10
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

B
BATTERY FUSE BOX

D
-Q5
250A
** -X921 606 612 -X21
(/3.26)
E + 1 1
+ + TO
FROM
CHARGER 1 - BATTERY 1
F (110VDC)
613 614
(/3.26)
- ** 2
6
2 1
5 (/11.12)
- 2

G 185A 4 3 185A
6 4 (/11.13)
70mm² 14 70mm²
11 1
2 12 (/11.15)
H 3

K
-Q5 -Q5 -Q5
(/11.13) (/11.13) (/11.13)

12

14
L
2

4
1

11
M
6

1
N
* * * * * CLOSE IN
-X941 -X941 NORMAL CONDITION
6 5 4 3 2 1
O

P ** **

Q
(/5.20)

(/5.20)

(/7.07)

(/7.07)

**:-INTERCONNECTION CABLES
S ARE NOT IN VERTIV SCOPE

BB1 - BATTERY PROTECTION BOX Ind/Rev Page

10/08/2021 TPS
Date Creat.
BB1 - BATTERY PROTECTION BOX
DESCRIPTION
=BB1 +B1
DESIGNATION
CP70R2I-12979820 0 11
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

Iset=87.5A
B 1P
-Q3 -T10
125A 100A
-X11

TO TRANSFORMER
1 1 2 1 P1 P2 4
(/13.03)
1 S1 S2
C

Bk
Wh
2 2 4 3 5
(/13.03)
2
D 1P
-T30
100A
3 3 6 5 P1 P2 6
(/13.03)
3 14 S1 S2
E 206
11 207
(/15.12)

Bk
Wh
12
3Ph/400VAC +10/-10%

87.5A 98 87.5A
95
894 96 (/15.12)
F 25mm² 893 25mm²
AC SUPPLY 2

6
T10
50Hz

X1.1(L1)

X1.3(L2)

X1.5(L3)

X1.2 (N)
H T30
-X11 1
1 FRC -30
-A90
X2.1(PE)
I 2
2 -XT
1 2 3 4
J 3
3

K EARTH

L
-L40
2P

200
201
204
205
N

(/13.10)

SK23.4
SK23.5
SK23.1
SK23.2
(/14.03) -A20
O (/15.08) ESA
(/16.03) -F40 T30 T10
I MEASURE
2A A204
L1 L2 L3 INCA2
P
INCA2 &
ALIN2 SUPPLY
E

CHARGER2 - AC SUPPLY Ind/Rev Page

01/09/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 0 12
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
184A
70mm² -A3 Imax = 225A
B 1P
-T3 -T80

CHARGER OUTPUT
400V+/-15% 131,4V 200A
4 17 P1 P2 ~A + 22 22
(/12.27) (/14.03)
CHARGER INPUT

C
A a S1 S2
+

110VDC
Bk
Re
-C1 + -R10
3*15mF
5 18 ~B 2*2,7 kOHMS
(/12.27)
B b -L4
D 1P F
- 21 23
(/14.03)
-T90
(/12.27)
6
C c
19
200A
P1
S1
P2
S2
~C
0,25mH
-
E 225A 225A

Bk
Re
N (/15.20) 70mm² 70mm²

(Br)
(Or)
(Gr)
(Re)
(Br)
(Gr)
(Ye)
(Re)
(Br)
(Gr)
(Ye)
(Re)
(Br)
(Gr)
(Ye)
(Br)
(Or)
87.5A T90
25mm² T80
F 1 3 5 2 1 5 4 2 1 5 4 2 1 5 4 1 3
X4 X1 X2 X3 X5
X7.5
X7.6 -A301 CGCH4
G X7.4 Pulses Generator Board

X6 26p

(FUSE)
X7.3

(FAN)
X8.1
(T°)
X8.2

X8.3

X8.4

X7.1

X7.2
(Or) (Re)
H (Br)

26
L

22

23
(/12.13)
X2 1 2

SK21.4
SK4

SK3

SK21.3

SK21.1
SK21.2

SK25.1

SK25.3
-A20 ALDIM
O ESA AC SUPPLY 6P 6P + -

+15V
-15V
S
0V
Yd/Dy Dd/Yy DC REGUL
-A204 -A204 -A204
P INCA2 INCA2 INCA2
TO PULSES GENERATOR Idc MEASURE

CHARGER2 - AC/DC CONVERTER Y/D Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 3 13
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

Iset=231.25A
B 70mm² 70mm²
225A -Q2 225A
250A
25 -X922
FROM CHARGER

22 22 1 2 25

DIODE CUBICLE
TO DROPPING
(/13.27) (/20.03)
1
C

D -V2
23 615 3 4 26 26
(/13.27) (/20.03)
2
250A

E 14
856 100A
11
857 12 (/14.02)
70mm² 25mm²
24
902
21 861
(/14.02)
225A

FROM CHARGER 1
F 22
32 -X929 601
(/3.26)
1

33 602
(/3.26)
2
H

Iset=185A
I -Q4 -Q6
250A 200A **
25 1 2 32 32 1 2 34 -X921

TO BATTERY
(/21.04)
-Q2 -K908 -X959 1
J 24 21 902 14 11 860 860
(/3.03)
(/14.10) (/18.19) 1
1P
861 861 <---------
K 2
(/3.03)
26 3 4 33 -T40 33 3 4 35
(/21.04)
+15V-15V S 0V 14
892
2
(1)(2)(3)(4) 11
208 12 (/15.20)
L 185A 98
95
896 96 (/15.16)
70mm² 895
-Q2
(/4.21)

(/4.20)

14 11 857
M (/17.09)
(/14.10)

TEMPERATURE TEMPERATURE
(Wh)
(Br)
(Gr)
(Ye)
856

BATTERY
(/17.09)

PROBE
-B92

C1
C1
C1
C1
N C3 (Ye) -X31
C3 (Gr) 1
2
O

P -B93

AMBIANT
C3 (Br) -X31

PROBE
C3 (Wh) 3
615
22

4
Q (/12.13)
SK3.2

SK3.1

SK22.4
SK22.3
SK22.2
SK22.1

SK5.1
SK5.2

SK5.3
SK5.4
-F30
8A
+24V 0V + -
R DC OUTPUT DC SUPPLY BAT. CURRENT BATT. AMB.
(ALIN2) MEASURE TEMP. TEMP.
-A202 -A204 -A204
ALIN2 -A20 INCA2 INCA2
ESA
S

**:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER2 - DC OUTPUT Ind/Rev Page
21/10/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 0 14
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

FROM BB2
C

(/21.11)

(/21.13)
D

E **

-X941
F 6 4

892
G

14

14
-Q3 -Q6
H (/12.11) (/14.22)

11

11
206

207

208

209

211
I (/12.13)
SK18.1

SK18.2

SK18.5

SK18.6

SK19.1

SK19.2

SK19.3

SK19.4

SK19.5

SK19.6
+ - + - + - + - + -
-A204 PREDEFINED INPUT
J
INCA2 REMOTE INPUT (CHARGER) FAN BATTERY DC EARTH
ON/OFF PROTECTION OPEN FAILURE PROTECTION OPEN FAULT
-A20
ESA
POSITIVE EARTH NEGATIVE EARTH INPUT BATTERY TRANSFORMER BRIDGE
K FAULT FAULT PROTECTION TRIP PROTECTION TRIP THERMOSTAT THERMOSTAT
SPARE INPUT
SK16.1

SK16.2

SK16.3

SK16.4

SK16.5

SK16.6

SK17.1

SK17.2

SK17.3

SK17.4

SK17.5

SK17.6
+ - + - + - + - + - + -
L
893

894

895

896

226

227

889

889
869 870
96

96
867 868 -Q3 -Q6
M -T3
-X955 -X955 (/12.11) (/14.22)
(/13.05) O
95

95
1 2 3 4

896
N
869

867

867

869

870

868

868

870

O
(/4.21)

(/4.22)

(/4.09)

(/4.10)

(/4.23)

(/4.25)

(/4.12)

(/4.14)

S **:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER2 - AUXILIARIES INOUT Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 2 15
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

E
(/12.13)
-A20
ESA
F

G DC OUTPUT DC OUTPUT
BUSCAN -A202 -A202 DISPLAY BUSCAN
-A204 ALIN2 -A204 ALIN2 -A202
+24VI 0VI +24V 0V
INCA2 INCA2 ALIN2

SK2.2

SK2.1

SK3.2

SK3.1
H
SK2 SK27 SK5 SK6

I
RJ45

J
X15 X1.2 X1.1
+ - CF1
BUSCAN DC SUPPLY PE
CF2
24V CAN
K -A205 MUXIN

(Gr)
(Ye)

(Br)
(Wh)
ETHERNET ETH1 PPVIS ETH0 RS-232 FLASH
BUSCAN (COM. TCP) (Factory) (Factory)
X17 X7 X8 X18 H L + - - PE
L
CAN1 48V

-A200
M EMU822E
TOUCHSCREEN
ON FRONT FACE

RJ45 RJ45
P
(/17.02)

(/18.02)
Q

CHARGER2 - DISPLAY & COMMUNICATION Ind/Rev Page

08/08/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 0 16
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

B
FROM BB2 Q2 OPEN
C
(/16.03)

(/21.14)

(/21.15)

(/14.06)

(/14.06)
D

E
FAN ON HIGH SPEED,
** BOOST CAN BE STARTED,
CONTACT NC
F RJ45
-X941 -X48
3 2 1 2
G
898

899

857

856

901

905
H
+ - + - + - + - + - + - + - + - + - + -
X2

TO LISA X4

X10.1

X10.2

X10.3

X10.4

X10.5

X10.6

X11.1

X11.2

X11.3

X11.4

X11.5

X11.6

X12.1

X12.2

X12.3

X12.4

X12.5

X12.6

X13.1

X13.2
BATT. FUSESWITC Q2 POSITION BOOST IMPOSED SPARE4 SPARE5 SPARE6 SPARE7 SPARE8 SPARE9 SPARE10
I
BLOWN OPEN
BUSCAN

-A226
CANI2
J
X5 TO COCIN 1

X8 TO COCIN 2

SPARE11 SPARE12 SPARE13 SPARE14 SPARE15 SPARE16 SPARE17 SPARE18 SPARE19 SPARE20
X13.3

X13.4

X13.5

X13.6

X14.1

X14.2

X14.3

X14.4

X14.5

X14.6

X15.1

X15.2

X15.3

X15.4

X15.5

X15.6

X16.1

X16.2

X16.3

X16.4
K
X3

+ - + - + - + - + - + - + - + - + - + -

RJ45
M

N
(/18.02)

S **:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

CHARGER2 - CANI Ind/Rev Page

03/09/2021 TPS
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 1 17
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

E
T

UR
UL

UL

UL
Q44 OPEN DROPPING DIODE
(/17.02)

IL
FA

FA

FA
E

FA
E

OS

E
FAULT

OS

OS

E
T

RT

RT

CL

OD

SE
UL

CL

CL
EA

EA

DI

FU
FA

/
D

/
VE

VE

EN

NG

Y
R

EN

EN
(/20.26)

(/20.26)

(/20.26)

(/20.26)

ER
GE

TI

TI

OP

PI
OP

OP

TT
AR

SI

GA

OP
4

BA
CH

PO

NE

Q3

Q4

Q2

DR
E 14 14 14 14 14 14 14 14
11 11 11 11 11 11 11 11
12 (/19.16) 12 (/19.21) 12 (/19.25) 12 12 (/19.08) 12 (/19.12) 12 (/19.16) 12 (/19.21)

879

880

883

884
RJ45
-K913 A1(+) -K914 A1(+) -K915 A1(+) -K916 A1(+) -K917 A1(+) -K918 A1(+) -K919 A1(+) -K920 A1(+)
-X956 -X956
1 2 3 4
G A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)
879

880

883

884
N13 N14 N15 N16 N17 N18 N19 N20
H
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
SK8.1

SK8.2

SK8.3

SK8.4

SK8.5

SK8.6
+ - + - + -
SK1.1

SK1.2

SK1.3
SK4

(MODBUS) SK16

SK12 SK13
+ - + - + - + - + - + - + - + -
I 1 2 3 13 14 15 16 17 18 19 20
TO LISA

24V 0V
SPARE INPUT OUTPUTS

J
BUSCAN

-A221
CANO -00
K OUTPUTS
1 2 3 4 5 6 7 8 9 10 11 12
+ - + - SK9 + - + - + - + - SK10 + - + - + - + - SK11 + - + -
SK5

L 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8

N1 N2 N3 N04 (Re) N5 N6 N7 N9 N10 N11

(Bk)
N8
(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)

(Re)

(Bk)
M
-K901 A1(+) -K902 A1(+) -K903 A1(+) -K904 A1(+) -K905 A1(+) -K906 A1(+) -K907 A1(+) -K908 A1(+) -K909 A1(+) -K910 A1(+) -K911 A1(+)
RJ45
N A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-) A2(-)

14 14 14 14 14 14 14 14 14 14 14
(/16.27)

O 11 11
(/19.08)
11
(/19.12)
11
(/19.16)
11
(/19.21)
11
(/19.25)
11
(/19.03) 860
11 902
(/14.04)
11
(/19.08)
11
(/19.12) 904
11
(/19.25)
12 12 12 12 12 12 12 12 12 12 12
903
M

DE

DE

L or

WN

M
N
DE
AR

IN

ER

RG

UL

AR
P

IO
MO

MO

DO
MO
AL

NN

IA T

TT

HA

FA

AL
* NDIT
IT OS

UT
RU

GE

BA

SC
L

OS

IN BO

SH

TE
RA

AR

DI

IN
**T CO
R

BO

ON

MO
NE

GE

CH

IN

MA
EN

OF

RE
GE

AR

IN

AD

UL
AL

IS

ER
Q
CH

MI

LO

N
FA
ON

EN

RG

MO
GE

IT

IM
MM

GE

M
R
AR

IN

CH

CO
GE
CO

AR
CH

AR
IN

CH

CH
R

R
GE
AR
CH

S
***:- RELAY FOR INTERNAL USE

CHARGER2 - CANO Ind/Rev Page

15/11/2021 RGA
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 6 18
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
CHARGER RUNNING CHARGER IN BOOST MODE CHARGER IS IN BOOST or
COMMON GENERAL ALARM CHARGER IN INITIAL CHARGE MODE INITIAL MODE IMMINENT SHUTDOWN
(/18.04) (/18.06) (/18.08) (/18.10) (/18.13) (/18.15)
B -K901 -K902 -K903 -K904 -K905 -K906

X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 *
D
906

907

908

909

910

911

912

913

914

915

916

917

918

923

924

925

926

929
-X42 -X42 -X42 -X42 -X42 -X42
E 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
HIGH SPEED FAN TO BE STARTED
F

LOAD ON BATTERY END OF DISCHARGE CHARGER MAINS FAULT CHARGER FAULT POSITIVE EARTH FAULT NEGATIVE EARTH FAULT
G (/18.17) (/18.21) (/18.23) (/18.13) (/18.15) (/18.17)
-K907 -K909 -K910 -K913 -K914 -K915

* 14 * * 14 * * 14 * * 14 * * 14 * * 14 *
I X41 12 11 X41 12 11 X41 12 11 X41 12 11 X41 12 11 X41 12 11
930

931

932

933

934

935

936

939

940

941

942

943

944

945

946

947

948

949
J -X42 -X42 -X42 -X42 -X42 -X42
19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36

M Q3 OPEN / CLOSE Q44 OPEN / CLOSE Q2 OPEN / CLOSE DROPPING DIODE FAULT BATTERY FUSE FAILURE
(/18.19) (/18.22) (/18.24) (/18.26) (/18.28)
-K916 -K917 -K918 -K919 -K920
N

O
X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 * X41 12 11
* 14 *
950

951

952

953

954

955

956

957

958

959

960

961

962

963

964
P
-X42 -X42 -X42 -X42 -X42
37 38 39 40 41 42 43 44 45 46 47 48 49 50 51
Q 903 -X49
1

R COMMON

12
-K911
(/18.25) REMOTE ALARM

11
S 904
2
*: CONTACT OPEN IN FAULTY CONDITION
CHARGER2 - ALARMS Ind/Rev Page
15/11/2021 RGA
Date Creat. DESCRIPTION
=CH2 +A3
DESIGNATION
CP70R2I-12979820 6 19
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
FROM CHARGER 2 PANEL
B
+
25 -X922 25
-Q41
1
100A
2 604 604 604 1
-Q44
100A
2 605 -X22
C (/14.26)
1 1
-A46
-A46 DC LOAD 2
D
(/14.26)
-
26
2
26 3 4 607 -
60A
N=18 + 1
+ 608
-R44 609 3 4
14
877
610
2
110VDC +/-10%

11

604

608
878 12 (/20.22)
E
100A 100A -F430 100A
2A
25mm² 25mm² -K46 25mm²
F

875

876

873

874
-P43 -P44
G
+ V- -A+
= =
75A

(Gr)
150V
(Or) (Ye)
H

SK1-1

SK1-2

SK3-1

SK3-2

SK4-2
I

-A446 SK1.2+

SK1-5

SK4-3
NRV NRV -20
J -A01

611
48/110/220V
604

607

SUPPLY

(Br)

(Re)
SK1.5-
K

SK3.3
SK3.2 882
L -K46 A1(+) 897 SK3.1 (/20.22)
NRV SK4.1
SK4.2
A2(-) SK4.3

M
(Gr)

(Br)

(Bl)
N -F446 -Q44
4A + - - 14 11 878 -X956 879
(/18.08)
(/20.22) 1
O 877 880
(/18.09)
2

P 882 -X956 883

(/18.10)
3
-A01
SK3.3
Q NRV
SK3.2 +R<
(Bk) Black (Gr) Green (/20.19)

(Br) Brown (Bl) Blue

R
(Re) Red (Pu) Purple
(Or) Orange (Gy) Grey 897 884
(/18.11)
4
S (Ye) Yellow (Wh) White

CNV2 - DROPPING DIODE CUBICLE Ind/Rev Page

29/10/2021 RGA
Date Creat. DESCRIPTION
=CNV2 +A4
DESIGNATION
CP70R2I-12979820 4 20
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

B
BATTERY FUSE BOX

D
-Q5
250A
** -X921 616 617 -X21
(/14.26)
E + 1 1
+ + TO
FROM
CHARGER 2 - BATTERY 2
F (110VDC)
618 619
(/14.26)
- ** 2
6
2 1
5 (/21.12)
- 2

G 185A 4 3 185A
6 4 (/21.13)
70mm² 14 70mm²
11 1
2 12 (/21.15)
H 3

K
-Q5 -Q5 -Q5
(/21.13) (/21.13) (/21.13)

12

14
L
2

4
1

11
M
6

1
N
* * * * * CLOSE IN
-X941 -X941 NORMAL CONDITION
6 5 4 3 2 1
O

P ** **

Q
(/15.20)

(/15.20)

(/17.07)

(/17.07)

**:-INTERCONNECTION CABLES
S ARE NOT IN VERTIV SCOPE

BB2 - BATTERY PROTECTION BOX Ind/Rev Page

30/09/2021 FFO
Date Creat.
BB2 - BATTERY PROTECTION BOX
DESCRIPTION
=BB2 +B2
DESIGNATION
CP70R2I-12979820 2 21
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

+A1 +A3 +A4

B =CNV1 =CH2 =CNV2
-X51 380 380 -X951 380 -X951 380 -X951 -X51 380 380 -X951 380 -X951 380 -X951

1Ph/220VAC 50Hz
1 1 1 1 1 1 1 1
1Ph/220VAC 50Hz
C

AUXILIARY 2
381 381 381 381 381 381 381 381
AUXILIARY 1

2 2 2 2 2 2 2 2

AC SUPPLY
AC SUPPLY

380

381

380

381

380

381

380

381
-X51 380 -X51 380
-F101 -F101 -F101 -F101
1 1
E 6A 6A 6A 6A

381 381

382

383

382

383

382

383

382

383
2 2
F

G
-XR101 -XR101 -XR101 -XR101
1 2 1 2 1 2 1 2
H 382

383

382

383

382

383

382

383
I

-S101 -S101 -S101 -S101

J 1 1 1 1
2 2 2 2
382

386

382

386

382

386

382

386
K
-H101 -H101 -H101 -H101

CHARGER1 - AUXILIARY LIGHTING Ind/Rev Page

01/09/2021 TPS
Date Creat. DESCRIPTION
=CH1 +A2
DESIGNATION
CP70R2I-12979820 0 22
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A

Wires Wires Wires Wires Link

B Uac 185 186 Udc 182 183
115Vac 0V 115V 110Vdc C E
230Vac 0V 230V
C 400Vac 0V 415V X
460Vac 0V 480V

D (=Usupply charger)

E DC SUPPLY TO ALDIM
(BATTERY) AC SUPPLY AC SUPPLY
+ - -X2 L1 L2 L3

(HE16) LIFE CONNECT SK27

1 2 E 1 3 1 2 4 5 1 2 3 4 1 2 3 4 4 3 2 1 4 3 2 1 4 3 2 1

SUB D9 PROG SK29

(HE10) VISU LED SK32

-F30 -F40

(HE26) BRIDGE A DRIVER (Dd OR Yy) SK3

(HE26) BRIDGE B DRIVER (Dy OR Yd) SK4

(RJ45) CH BUS CAN END SK1

(RJ45) CH BUS CAN BEGINNING SK2

SK25

SK23

SK5

SK6

SK20

SK21

SK22
F
8A 2A

+Udc
-Udc

TI AC PHASE 1

TI AC PHASE 3

BATTERY TEMP
AMBIENT TEMP

TEMPERATURE A
TEMPERATURE B

+
BRIDGE A -
CURRENT M
0V

+
BRIDGE B -
CURRENT M
0V

+
BATTERY -
CURRENT M
0V
185

186

187
180

181

G (/91.09) SK24
185
186
1 Uac-R
187
3 Uac-S
185

186

5 Uac-T
H -T202

0V 115V 230V 415V 480V

I

24V 24V 80V 80V

A B C D E F G
J

K
182

183

1 2 5 3 4
SK1 SK1
L
SK2
1 0VI 34
2 24VI SK4 SK28 -A204
M 3 -A202 INCA2
4 0V1 ALIN2
5 +15V1 (/91.09)
N SK3
1 0V2 J1 SK26
2 24Vcan PE PE
3 0V2
O 4 5V
5 MES Ubatt
BATTERY PROTECTION OPEN
FUSE BRIDGE (NA CGCH3)

FAN FAILURE (NA CGCH3)

SK5
INOrT PROTECTION OPEN

SPARE 6 (T° BRIDGE)

1 CAN H

(OUT) BATTERY TEST

2 CAN L

(+24) CHARGER OK
3 GND
DC EARTH FAULT

(+24) MAINS OK
REMOTE ON/OFF

4 -18V

(OUT) CHARGE
Q

(OUT) AUX 3

(OUT) AUX 2

AUX 1

(OUT) BOOST

(+24) FLOAT
5 +33V
SPARE 1

SPARE 2
SPARE 3

SPARE 4
SPARE 5

(+24)

(+24)

(+24)

(+24)

(+24)
(OUT)

(OUT)

(OUT)
SK6 RJ45 BUSCAN

(+24)
(OUT)
R
SK18

SK19

SK16

SK17

SK10

SK11

SK12

SK13

SK14

SK15
SK7

SK8

SK9
1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2

S
LOGICAL INPUT LOGICAL OUTPUT

PLATE DETAILS Ind/Rev Page

10/08/2021 TPS
Date Creat. DESCRIPTION
=CH1 +DT12
DESIGNATION
CP70R2I-12979820 0 90
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
SYMBOL DESIGNATION SYMBOL DESIGNATION SYMBOL DESIGNATION AUXILLARIES
TRANSFORMER SWITCHING & PROTECTING DEVICES POWER SEMICONDUCTORS
B NORMALLY OPEN CONTACT
Q**: LOAD
INTERRUPTER SWITCH V**: DIODE
C NORMALLY CLOSE CONTACT
T**:3 PHASES Q**: FUSED LOAD
TRANSFORMER INTERRUPTER SWITCH V**: THYRISTOR
D SPDT CONTACT
Q**: CIRCUIT BREAKER
V**: TRANSISTOR
E S**: PUSH BUTTON
F**: FUSE ELECTRICAL ELEMENTS
H**: LED
F +
T**: SINGLE PHASE - BATTERY
TRANSFORMER K**: CONTACTOR H**: LIGHT
G
CHASSIS GROUND OR COMMON
H
F**: THERMAL ELEMENT
EARTH GROUND
I
T**: 3 PHASE MEASURING AND INDICATION DEVICES
AUTOTRANSFORMER
----->
J C**: CAPACITOR
(+) M (-)
T**: HALL EFFECT
DC CURRENT L
K <--------- MEASURE DEVICE
F**: LIGHTNING ARRESTER
+15V -15V S 0V E
T**: SINGLE PHASE (1) (2) (3) (4)
L AUTOTRANSFORMER
R**: RESISTOR
M R**: SHUNT
T**: CURRENT M
TRANSFORMER ~ M**: FAN
N V P**:AC VOLTMETER
CHOKE ~
A**: ELECTRONIC DEVICE
A OR SUB-ASSEMBLY
O L**: CHOKE ~ P**:AC AMMETER

P L**: SATURABLE CHOKE Hz P**:FREQUENCY METER

~
CONNECTION RULES (physical)
LEFT TO RIGHT:
Q L**: MIXING CHOKE kW P**:WATTMETER AC DEVICE : Earth/Neutral/Phase 1/2/3
~ DC DEVICE : + / -

R L**: FERRITE CHOKE + V- P**:DC VOLTMETER

=
STANDARD
+ A- SYMBOLS ROTATION
S = P**:DC AMMETER

SCHEMATIC LEGEND Ind/Rev Page

06/07/2021 TPS
Date Creat. DESCRIPTION
=CH1 +DT12
DESIGNATION
CP70R2I-12979820 0 91
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
=CH1+A2 =BB1+B1 =CNV1+A1

(Ye)
(Gr)
(Br)
(Wh)
B

380
380
381
381

903
904

612

614

605
610
P32 P6 P10 P6 CO 30X5 P46

C3
C3
C3
C3
1
1
2
2
3
3
C

(/22.04)
(/22.04)
(/22.04)
(/22.04)

(/10.27)
(/10.27)
(/1.04)
(/1.04)
(/1.04)
(/1.04)
(/1.04)
(/1.04)

(/3.26)
(/3.26)
(/3.26)
(/3.26)

(/9.27)
(/9.27)

(/11.24)

(/11.24)
D
=CH1 +A2

=CH1 +A2

=CH1 +A2

=CH1 +A2

=BB1 +B1

=CNV1 +A1
-X11

-X31

-X51

-X49

-X21

-X22
1 1 2 2 3 3 1 2 3 4 1 1 2 2 1 2 1 2
E 1 2

P10
P10
P10
F

BE
AC SUPPLY 1 AUXILIARY 1 TO

BE
RO

RO
3Ph/400VAC +10/-10% BATTERY 1 DC LOAD 1

EP
H AC SUPPLY COMMON

EP
UR
50Hz 1Ph/220VAC 50Hz REMOTE ALARM (110VDC) 110VDC +/-10%

UR
AT

T
ER

RA
I
MP

PE
EM
TE

TT
Y
ER

AN
TT

J
BI
BA

AM

K
859
900

906
907
908
909
910
911
912
913
914
915
916
917
918
923
924
925
926
929
930
931
932
933
934
935
936
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
P6 P6

L
(/7.11)
(/7.12)

(/9.03)
(/9.04)
(/9.05)
(/9.08)
(/9.08)
(/9.09)
(/9.12)
(/9.13)
(/9.13)
(/9.16)
(/9.17)
(/9.18)
(/9.21)
(/9.22)
(/9.22)
(/9.25)
(/9.26)
(/9.27)
(/9.03)
(/9.04)
(/9.05)
(/9.08)
(/9.08)
(/9.09)
(/9.12)
(/9.13)
(/9.13)
(/9.16)
(/9.17)
(/9.18)
(/9.21)
(/9.22)
(/9.22)
(/9.25)
(/9.26)
(/9.27)
(/9.03)
(/9.04)
(/9.05)
(/9.08)
(/9.08)
(/9.09)
(/9.12)
(/9.13)
(/9.13)
(/9.16)
(/9.17)
(/9.18)
(/9.21)
(/9.21)
(/9.22)
=CH1 +A2

=CH1 +A2

TERMINALS MINI MAXI MAXI

M size size current
-X48

-X42

TYPE cabling cabling 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51

P6 0,14mm2 4mm 2 41A
P8 0,2mm 2 6mm 2 57A
N P10 0,5mm 2 10mm 2 76A
P16 1,5mm 2 35mm 2 150A
P29 (M8) 2.5mm2 70mm 2 192A
P32 (M10) 25mm 2 50mm 2 150A
O
COMMON GENERAL ALARM

CHARGER IN INITIAL CHARGE MODE

CHARGER IS IN BOOST or INITAL MODE

HIGH SPEED FAN TO BE STARTED

IMMINENT SHUTDOWN

LOAD ON BATTERY

END OF DISCHARGE

CHARGER MAINS FAULT

CHARGER FAULT

POSITIVE EARTH FAULT

NEGATIVE EARTH FAULT

Q3 OPEN/CLOSE

Q44 OPEN/CLOSE

Q2 OPEN/CLOSE

DROPPING DIODE FAULT

BATTERY FUSE FAILURE

35mm 2 95mm 2
CHARGER IN BOOST MODE
CHARGER RUNNING

P40 (M12) 232A

P41 (M10) 6mm 2 150mm 2 309A FAN ON HIGH SPEED,
P46 (M12) 50mm 2 150mm 2 309A
P49 (M12) 10mm 2 240mm 2 415A
BOOST CAN BE STARTED NC.
P P53 (M16) 70mm 2 240mm 2 400A

RELAYS TERMINALS
Q
2,5 mm2 MAXI size cabling
11 Common
CONTACT 1 12 NC
R 14 NO

21 Common
S CONTACT 2 22 NC
24 NO
The Customer shall be responsible for providing latest and most accurate technical information about the Apparatus. The Customer shall notify Vertiv Industrial Systems in writing of any change in any Apparatus. In no way shall Vertiv Industrial Systems be held liable for any inaccurate, wrong or
non notified information provided by the Customer about the Apparatus. Apparatus: Any and all equipment, machinery, materials, accessories and supplies not provided by Vertiv Indudustrial Systems but which are directly or indirectly linked to the Chloride equipment and its operational performance.
CUSTOMER TERMINALS Ind/Rev Page
15/11/2021 RGA
Date Creat. DESCRIPTION
=TERMINALS +
DESIGNATION
CP70R2I-12979820 6 100
 I

L
C
B

S
R
Q
P
O
N
M
K
H
G
F
E
D
A

Date
01

15/11/2021 RGA
Creat.
02

=CH2+A3

=CH2 +A3

P6

CUSTOMER TERMINALS
03

-X48
=CH2 +A3
P32

(/17.11) 901

50Hz
-X11

1 2
(/17.12) 905 (/12.04) 1
04

FAN ON HIGH SPEED,

(/12.04) 1

AC SUPPLY 2
(/12.04) 2
(/12.04)
05

BOOST CAN BE STARTED NC.

(/12.04) 3

3Ph/400VAC +10/-10%
1 1 2 2 3 3

(/12.04) 3
06

=CH2 +A3

P6
-X49
07

COMMON
(/19.27) 903 BA

DESCRIPTION
1 2
(/19.27) 904
TT
ER
Y
08

REMOTE ALARM
AM TE
BI MP
AN ER
AT
09

TT
UR =CH2 +A3
P6

EM
=CH2 +A3

P6
-X31
PE EP
-X42
RA RO
T (/14.26) C3 (Ye)
10

BE
(/19.03) 906 UR
(/14.26) C3 (Gr)
(/19.04)
EP
COMMON GENERAL ALARM 907 RO (/14.26) C3 (Br)
(/19.05) 908
11

1 2 3 4

(/14.26)
BE
C3 (Wh)
(/19.08) 909
CHARGER RUNNING (/19.08) 910
12

(/19.09) 911
(/19.12) 912
CHARGER IN BOOST MODE (/19.13) 913
13

(/19.13) 914
(/19.16) =CH2 +A3
P10

915
(/19.17) 916 -X51
14

CHARGER IN INITIAL CHARGE MODE (/22.17) 380

=TERMINALS +
(/19.18) 917
(/22.17) 380
(/19.21) 918
AC SUPPLY

(/22.17) 381

DESIGNATION
15

AUXILIARY 2

(/19.22) 923
CHARGER IS IN BOOST or INITAL MODE
1 1 2 2

(/22.17) 381
(/19.22) 924
1Ph/220VAC 50Hz

HIGH SPEED FAN TO BE STARTED

(/19.25) 925
16

(/19.26) 926
IMMINENT SHUTDOWN
(/19.27) 929
(/19.03) 930
17

(/19.04) 931
LOAD ON BATTERY
(/19.05) 932
18

(/19.08) 933
(/19.08) 934
END OF DISCHARGE
(/19.09) 935
=BB2+B2
19

(/19.12) 936
(/19.13) 939
CHARGER MAINS FAULT
(/19.13) 940 =BB2 +B2
20

CO 30X5

(/19.16) 941 -X21

(/19.17) 942
CHARGER FAULT
21

TO

(/19.18) 943 617

1

(/19.21) 944 (/21.24)

(110VDC)
BATTERY 2

(/19.22) 945
POSITIVE EARTH FAULT
22

(/19.22) 946 619

2

(/19.25) 947 (/21.24)

(/19.26) 948
23

NEGATIVE EARTH FAULT

(/19.27) 949
(/19.03) 950
24

(/19.04) 951
Q3 OPEN/CLOSE
(/19.05) 952
=CNV2+A4

(/19.08) 953 =CNV2 +A4

25

P46

(/19.08) 954
Q44 OPEN/CLOSE -X22
(/19.09) 955 (/20.27) 605
(/19.12)
1 2

956 (/20.27)
26

610
DC LOAD 1

(/19.13) 957
CP70R2I-12979820

Q2 OPEN/CLOSE
110VDC +/-10%

(/19.13) 958
27

(/19.16) 959
(/19.17) 960
DROPPING DIODE FAULT
(/19.18) 961
28

(/19.21) 962
(/19.21) 963
BATTERY FUSE FAILURE
(/19.22)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51

964
29

101
Ind/Rev Page
 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
A
=BB1+B1 =BB2+B2 =CH1+A2 =CNV1+A1 =CNV2+A4
B

606

613

616

618
CO 30X5 CO 30X5 P46 P16 P16

32
33

25
26

25
26
C

(/10.04)
(/10.04)

(/20.04)
(/20.04)
(/3.24)
(/3.24)
(/11.07)

(/11.07)

(/21.07)

(/21.07)
D
=BB1 +B1

=BB2 +B2

=CH1 +A2

=CNV1 +A1

=CNV2 +A4
-X921

-X921

-X929

-X922

-X922
1 2 1 2 1 2
E 1 2 1 2

601
602

25
26

25
26
** **
G
=CH1+A2 =CH2+A3 =CH2+A3 =CH1+A2 =CH2+A3
H

601
602
CO 30X5 CO 30X5 P46 P16 P16

25
26

25
26
I

(/14.24)
(/14.24)

(/14.24)
(/14.24)
(/3.24)
(/3.24)
(/14.24)

(/14.24)
(/3.24)

(/3.24)

J
=CH1 +A2

=CH2 +A3

=CH2 +A3

=CH1 +A2

=CH2 +A3
-X921

-X921

-X929

-X922

-X922
1 2 1 2 1 2
K 1 2 1 2

L
34

35

34

35

32
33

25
26

25
26
M

**:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE

S

INTERCONNECTION TERMINALS Ind/Rev Page

10/08/2021 TPS
Date Creat. DESCRIPTION
=TERMINALS +
DESIGNATION
CP70R2I-12979820 0 120
 I

L
C
B

S
R
Q
P
O
N
M
K
H
G
F
E
D
A

Date
01

05/11/2021 RGA
Creat.
02

=BB1+B1

=CH1+A2
=CH1 +A2 =BB1 +B1

P6
P6
03

-X941 -X941

**
(/7.08) (/11.16) 1
891 (/7.07) (/11.15) 2

INTERCONNECTION TERMINALS
04

890 (/7.07) (/11.14) 3

209 (/5.20) (/11.13) 4
(/5.21) (/11.12) 5
05

1 2 3 4 5 6
1 2 3 4 5 6

872 (/5.20) (/11.11) 6

06
07

DESCRIPTION
=BB2+B2

=CH2+A3
08

=CH2 +A3 =BB2 +B2

P6
P6

-X941 -X941
**

(/17.08) (/21.16) 1
09

899 (/17.07) (/21.15) 2

898 (/17.07) (/21.14) 3
10

209 (/15.20) (/21.13) 4

(/15.21) (/21.12) 5

1 2 3 4 5 6
1 2 3 4 5 6

892 (/15.20) (/21.11) 6

11
12
13

=CH1+A2
=CNV1+A1

=CH1 +A2 =CNV1 +A1

14

P6
P6

=TERMINALS +
-X956 -X956
879 (/8.08) 879 879 (/10.25) 878

DESIGNATION
15

880 (/8.09) 880 880 (/10.25) 877

883 (/8.10) 883 883 (/10.25) 882
1 2 3 4
1 2 3 4

884 (/8.11) 884 884 (/10.25) 881

16
17

=CH2+A3
18

=CNV2+A4

=CH2 +A3 =CNV2 +A4

P6
P6

-X956 -X956
19

879 (/18.08) 879 879 (/20.25) 878

880 (/18.09) 880 880 (/20.25) 877
883 (/18.10) 883 883 (/20.25) 882
20

1 2 3 4
1 2 3 4

884 (/18.11) 884 884 (/20.25) 897

21

=CH1+A2
22
23
24
25

=CH2 +A3 =CH1 +A2

26

P6
P6

-X955 -X955
CP70R2I-12979820

867 (/15.06) 867 867 (/4.09) 867

(/15.07) (/4.10)
27

869 869 869 869

868 (/15.10) 868 868 (/4.12) 868
1 2 3 4
1 2 3 4

870 (/15.11) 870 870 (/4.14) 870

28

5
**:-INTERCONNECTION CABLES ARE NOT IN VERTIV SCOPE
29

121
Ind/Rev Page
 I

L
C
B

S
R
Q
P
O
N
M
K
H
G
F
E
D
A

Date
01

01/09/2021 TPS
=CH2+A3
=CH1+A2

Creat.
02
03

=CH2 +A3 =CH1 +A2

P6
P6

-X958 -X958
927 (/4.20) 927 927 (/4.13) 927

INTERCONNECTION TERMINALS
04

928 (/4.21) 928 928 (/4.14) 928

937 (/4.20) 937 937 (/4.13) 937

1 2 3 4
1 2 3 4

(/4.21) (/4.14)
05

938 938 938 938

06
07

DESCRIPTION
=CH2 +A3 =CH1 +A2

P6
P6
08

-X959 -X959
860 (/14.05) 860 860 (/3.05) 860

1 2
1 2

861 (/14.05) 861 861 (/3.05) 861

09
10
11

=CNV1+A1

=CNV1 +A1 =CH1 +A2

P10
P10

-X951 -X951
12

380 (/22.11) 380 380 (/22.09) 380

1 2

381 (/22.11) 381 381 (/22.09) 381

(/22.13) 380
13

1 2 1 2

(/22.13) 381
14

=TERMINALS +
DESIGNATION
15
16
17
18
19
20
21
22
23
24

=CH2+A3

=CNV2+A4
25

=CNV2 +A4 =CH2 +A3

P10
P10
26

-X951 -X951
(/22.24) (/22.22)
CP70R2I-12979820

380 380 380 380

1 2

381 (/22.24) 381 381 (/22.22) 381

27

(/22.26) 380
1 2 1 2

(/22.26) 381
28

0
29

122
Ind/Rev Page
ENSEMBLE ARMOIRE REPERE REFERENCE CHLORIDE QUANTITE LIBELLE DU MATERIEL FOURNISSEUR FOLIO
EQUIPMENT CUBICLE MARK CHLORIDE REFERENCE QUANTITY MATERIAL DESCRIPTION SUPPLIER PAGE

CNV1 A1 A01 6910570020 1 NRV-20 : DC VOLTAGE CONTROLER 48/110/220V - VARNISHED VERTIV 10

CNV1 A1 A46 BDI1201001101 1 BLOCKS 20 DIODES 100A-110V-1 STEP CHLORIDE 10
CNV1 A1 A46 6910570020 1 NRV-20 : DC VOLTAGE CONTROLER 48/110/220V - VARNISHED VERTIV 10
CNV1 A1 F101 F5802B0100500006I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 6A 10x38 500V VERTIV 22
CNV1 A1 F430 F5802B0100500002I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 2A 10x38 500V VERTIV 10
CNV1 A1 H101 5710400028 1 LIGHTING LED FOR CABINETS 100-240VAC 50/60Hz 90-110VDC 5W 400Lm 6000K IP20 STEGO 22
CNV1 A1 P43 5700600001 1 DC VOLTMETER 72x72 150V CLASS 1,5 MADEP 10
CNV1 A1 P44 F107040012 1 AMMETER DC 72x72 + DIAL 75A ON SHUNT 50mV CLASS 1,5 MADEP 10
CNV1 A1 Q41 F620500077 1 SWITCH SIRCO VM 100A 3P DIRECT FRONT MOUNTING HANDLE PADLOCKABLE SOCOMEC 10
CNV1 A1 Q44 5810300527 1 CIRCUIT BREAKER 3P 100A XTMAX XT1B 160 F FC - 18kA - TMD100 ABB DIFFUSION 10
CNV1 A1 Q44 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 10
CNV1 A1 Q44 5810700272 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT1 3P ABB DIFFUSION 10
CNV1 A1 R44 0107020003 1 SHUNT 75A - 50mV 0.5% ACMES MESURES 10
CNV1 A1 S101 5719900001 1 DOOR SWITCH DOOR NF 120-240VAC STEGO 22
CNV1 A1 X22 5110300104 2 POWER TERMINAL BLOCK BOLT M12 / BOLT M12 UHV150-AS/AS (P46) PHOENIX CONTACT 100

BILL OF MATERIAL Ind/Rev Page

02/09/2021 TPS
Date Creat. DESCRIPTION
=PARTS LIST +
DESIGNATION
CP70R2I-12979820 1 200
ENSEMBLE ARMOIRE REPERE REFERENCE CHLORIDE QUANTITE LIBELLE DU MATERIEL FOURNISSEUR FOLIO
EQUIPMENT CUBICLE MARK CHLORIDE REFERENCE QUANTITY MATERIAL DESCRIPTION SUPPLIER PAGE

CH1 A2 A3 5040501225B 1 S/A FULL BRIDGE NATURAL COOLING 24-400VDC 250A VERTIV 2
CH1 A2 A3 6912370000 1 CGCH4-00 : CHARGER BRIDGE DRIVER - VARNISHED VERTIV 2
CH1 A2 A20 5049000239 1 CHARGER PRECABLED PLATE CP70R1I/R2I ST08 L=800 CABLE TINNED FLAME RETARDANT HALOGEN FREE WITH VERTIV 1
FUSES
CH1 A2 A20 6911540000 1 INCA2-00 : NUMERIC INTERFACE APODYS 2/3 CHARGER 3 PHASES WITH TROPICAL - VARNISHED VERTIV 1
CH1 A2 A20 6912220010 1 ALIN2-0010 : POWER SUPPLY CARD FOR INCA INCA2 VOLTAGE 88-600Vdc - VARNISHED VERTIV 1
CH1 A2 A90 6912450030 1 FRC-30 : FILTER FOR 3 PHASES SUPPLY 415V IEC/UL - VARNISHED VERTIV 1
CH1 A2 A200 5160300060 1 COLOUR TOUCHSCREEN DISPLAY TFT 7" CONTROLLER MONITOR MODULE M822-E VERTIV 6
CH1 A2 A205 6912350000 1 MUXIN-0000 : MULTIPLE i.MX CPU COMM. INTERFACE - VARNISHED VERTIV 6
CH1 A2 A221 6911060000 1 CANO-00 : OUTPUT CAN BOARD - VARNISHED CHLORIDE 8
CH1 A2 A226 6912280000 1 CANI2-00 : CONTROLER AREA NETWORK INPUT 2 WITH TROPICAL - VARNISHED VERTIV 7
CH1 A2 B92 5904120007 1 SMA-07 : CTN SENSOR APODYS CHLORIDE 3
CH1 A2 B92 5011710541 1 CURRENT SENSOR CABLE L=2500mm CONNECTOR TYPE KK/CONNECTOR TYPE MTA VERTIV 3
CH1 A2 B93 5904120007 1 SMA-07 : CTN SENSOR APODYS CHLORIDE 3
CH1 A2 B93 5011710541 1 CURRENT SENSOR CABLE L=2500mm CONNECTOR TYPE KK/CONNECTOR TYPE MTA VERTIV 3
CH1 A2 C1 0110550030 3 DC CAPACITOR 15mF 160VDC ITELCOND S.R.L. 2
CH1 A2 F01 F5802B0100500002I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 2A 10x38 500V VERTIV 3
CH1 A2 F100 F5802B0100500002I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 2A 10x38 500V VERTIV 4
CH1 A2 F101 F5802B0100500006I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 6A 10x38 500V VERTIV 22
CH1 A2 H101 5710400028 1 LIGHTING LED FOR CABINETS 100-240VAC 50/60Hz 90-110VDC 5W 400Lm 6000K IP20 STEGO 22
CH1 A2 K01 5600800024 1 CONTACTOR AF09-30-10-12 48-130VAC/VDC 50/60Hz ABB DIFFUSION 4
CH1 A2 K01 0416011395 1 RCD SNUBBER CARD CHLORIDE 4
CH1 A2 K01 5600700036 2 AUXILIARY CONTACT 1 'NC' CA4-01 FOR AF09..AF96 FRONT MOUNTED ABB DIFFUSION 4
CH1 A2 K100A 6911430030 1 CIC2-30 : 120V EARTH FAULT CARD VERSION 2 - VARNISHED CHLORIDE 4
CH1 A2 K901 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K902 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K903 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K904 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K905 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K906 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K907 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K908 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K909 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K910 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K911 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K913 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K914 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K915 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K916 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K917 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K918 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K919 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 K920 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 8
CH1 A2 L4 3542510250 1 DC CHOKE FOR 6 PULSES CHARGER 0,250mH 120V/250A CHLORIDE 2
CH1 A2 L40 5701300056 1 HF TORE RADIALEX WURTH ELEKTRONIK 1
CH1 A2 Q2 5810300545 1 CIRCUIT BREAKER 3P 250A XTMAX XT3N 250 F FC - 36kA - TMD250 ABB DIFFUSION 3
CH1 A2 Q2 F810700003 2 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 3
CH1 A2 Q2 5810700273 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT3 3P ABB DIFFUSION 3
CH1 A2 Q3 5810300532 1 CIRCUIT BREAKER 3P 125A XTMAX XT1B 160 F FC - 18kA - TMD125 ABB DIFFUSION 1
CH1 A2 Q3 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 1
CH1 A2 Q3 F810700004 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'TRIP') FOR XTMAX ABB DIFFUSION 1
CH1 A2 Q3 5810700272 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT1 3P ABB DIFFUSION 1
CH1 A2 Q4 F106540012 1 SWITCH INTER 2P 250A DIRECT FRONT MOUNTING HANDLE (160A 2X2 POLES //) SOCOMEC 3
CH1 A2 Q6 5810300542 1 CIRCUIT BREAKER 3P 200A XTMAX XT3N 250 F FC - 36kA - TMD200 ABB DIFFUSION 3
CH1 A2 Q6 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 3
CH1 A2 Q6 F810700004 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'TRIP') FOR XTMAX ABB DIFFUSION 3
CH1 A2 Q6 5810700273 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT3 3P ABB DIFFUSION 3
CH1 A2 Q7 5810300545 1 CIRCUIT BREAKER 3P 250A XTMAX XT3N 250 F FC - 36kA - TMD250 ABB DIFFUSION 3
CH1 A2 Q7 5810700263 1 SHUNT TRIP COIL SOR-110-127VAC 110-125VDC XT1.4 ABB DIFFUSION 3
CH1 A2 Q7 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 3
CH1 A2 Q7 F810700004 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'TRIP') FOR XTMAX ABB DIFFUSION 3
CH1 A2 Q7 5810700273 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT3 3P ABB DIFFUSION 3
CH1 A2 R10 5090100013 2 SYMMETRY RESISTORS AND/OR CAPACITORS DISCHARGE 10SR/B 2700 OHMS 11W ATE ELECTRONICS 2
CH1 A2 S101 5719900001 1 DOOR SWITCH DOOR NF 120-240VAC STEGO 22
CH1 A2 T3 2521110250 1 THREE PHASES TRANSFORMER YNd11 SUPPLY 400V+/-15% FOR CHARGER 110V RANGE1 / 250A/320A CHLORIDE 2

BILL OF MATERIAL Ind/Rev Page

05/11/2021 RGA
Date Creat. DESCRIPTION
=PARTS LIST +
DESIGNATION
CP70R2I-12979820 5 201
ENSEMBLE ARMOIRE REPERE REFERENCE CHLORIDE QUANTITE LIBELLE DU MATERIEL FOURNISSEUR FOLIO
EQUIPMENT CUBICLE MARK CHLORIDE REFERENCE QUANTITY MATERIAL DESCRIPTION SUPPLIER PAGE

CH1 A2 T10 5701100047 1 CURRENT TRANSFORMER 100A/0,2A 1,60VA ELMAX 1

CH1 A2 T30 5701100047 1 CURRENT TRANSFORMER 100A/0,2A 1,60VA ELMAX 1
CH1 A2 T40 0107020040 1 HALL EFFECT CURRENT SENSOR OPEN LOOP 100A (30-250A) L.E.M. FRANCE SARL 3
CH1 A2 T80 5701100046 1 CURRENT TRANSFORMER 200A/0,2A 3,20VA ELMAX 2
CH1 A2 T90 5701100046 1 CURRENT TRANSFORMER 200A/0,2A 3,20VA ELMAX 2
CH1 A2 V2 5042000007 1 BLOCKING DIODE 250A (300A maxi) 2x70UR/80Y + AR43/195 ARCEL 3
CH1 A2 X11 5110300033 6 TERMINAL UHV 50 AS/AS M10 PHOENIX CONTACT 100
CH1 A2 X31 5110300042 4 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 100
CH1 A2 X42 5110300042 51 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 100
CH1 A2 X48 5110300042 2 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 100
CH1 A2 X49 5110300042 2 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 100
CH1 A2 X51 5110300038 4 TERMINAL IECEx/ATEX UT 10 PHOENIX CONTACT 100

BILL OF MATERIAL Ind/Rev Page

05/11/2021 RGA
Date Creat. DESCRIPTION
=PARTS LIST +
DESIGNATION
CP70R2I-12979820 5 202
ENSEMBLE ARMOIRE REPERE REFERENCE CHLORIDE QUANTITE LIBELLE DU MATERIEL FOURNISSEUR FOLIO
EQUIPMENT CUBICLE MARK CHLORIDE REFERENCE QUANTITY MATERIAL DESCRIPTION SUPPLIER PAGE

CH2 A3 A3 5040501225B 1 S/A FULL BRIDGE NATURAL COOLING 24-400VDC 250A VERTIV 13
CH2 A3 A3 6912370000 1 CGCH4-00 : CHARGER BRIDGE DRIVER - VARNISHED VERTIV 13
CH2 A3 A20 5049000239 1 CHARGER PRECABLED PLATE CP70R1I/R2I ST08 L=800 CABLE TINNED FLAME RETARDANT HALOGEN FREE WITH VERTIV 12
FUSES
CH2 A3 A20 6911540000 1 INCA2-00 : NUMERIC INTERFACE APODYS 2/3 CHARGER 3 PHASES WITH TROPICAL - VARNISHED VERTIV 12
CH2 A3 A20 6912220010 1 ALIN2-0010 : POWER SUPPLY CARD FOR INCA INCA2 VOLTAGE 88-600Vdc - VARNISHED VERTIV 12
CH2 A3 A90 6912450030 1 FRC-30 : FILTER FOR 3 PHASES SUPPLY 415V IEC/UL - VARNISHED VERTIV 12
CH2 A3 A200 5160300060 1 COLOUR TOUCHSCREEN DISPLAY TFT 7" CONTROLLER MONITOR MODULE M822-E VERTIV 16
CH2 A3 A205 6912350000 1 MUXIN-0000 : MULTIPLE i.MX CPU COMM. INTERFACE - VARNISHED VERTIV 16
CH2 A3 A221 6911060000 1 CANO-00 : OUTPUT CAN BOARD - VARNISHED CHLORIDE 18
CH2 A3 A226 6912280000 1 CANI2-00 : CONTROLER AREA NETWORK INPUT 2 WITH TROPICAL - VARNISHED VERTIV 17
CH2 A3 B92 5904120007 1 SMA-07 : CTN SENSOR APODYS CHLORIDE 14
CH2 A3 B92 5011710541 1 CURRENT SENSOR CABLE L=2500mm CONNECTOR TYPE KK/CONNECTOR TYPE MTA VERTIV 14
CH2 A3 B93 5904120007 1 SMA-07 : CTN SENSOR APODYS CHLORIDE 14
CH2 A3 B93 5011710541 1 CURRENT SENSOR CABLE L=2500mm CONNECTOR TYPE KK/CONNECTOR TYPE MTA VERTIV 14
CH2 A3 C1 0110550030 3 DC CAPACITOR 15mF 160VDC ITELCOND S.R.L. 13
CH2 A3 F100 F5802B0100500002I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 2A 10x38 500V VERTIV 4
CH2 A3 F101 F5802B0100500006I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 6A 10x38 500V VERTIV 22
CH2 A3 H101 5710400028 1 LIGHTING LED FOR CABINETS 100-240VAC 50/60Hz 90-110VDC 5W 400Lm 6000K IP20 STEGO 22
CH2 A3 K100B 6911430030 1 CIC2-30 : 120V EARTH FAULT CARD VERSION 2 - VARNISHED CHLORIDE 4
CH2 A3 K901 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K902 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K903 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K904 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K905 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K906 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K907 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K908 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K909 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K910 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K911 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K913 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K914 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K915 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K916 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K917 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K918 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K919 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 K920 5610500030 1 TERMINAL RELAY RIF-0-RSC-24VDC/21 1SPDT PHOENIX CONTACT 18
CH2 A3 L4 3542510250 1 DC CHOKE FOR 6 PULSES CHARGER 0,250mH 120V/250A CHLORIDE 13
CH2 A3 L40 5701300056 1 HF TORE RADIALEX WURTH ELEKTRONIK 12
CH2 A3 Q2 5810300545 1 CIRCUIT BREAKER 3P 250A XTMAX XT3N 250 F FC - 36kA - TMD250 ABB DIFFUSION 14
CH2 A3 Q2 F810700003 2 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 14
CH2 A3 Q2 5810700273 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT3 3P ABB DIFFUSION 14
CH2 A3 Q3 5810300532 1 CIRCUIT BREAKER 3P 125A XTMAX XT1B 160 F FC - 18kA - TMD125 ABB DIFFUSION 12
CH2 A3 Q3 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 12
CH2 A3 Q3 F810700004 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'TRIP') FOR XTMAX ABB DIFFUSION 12
CH2 A3 Q3 5810700272 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT1 3P ABB DIFFUSION 12
CH2 A3 Q4 F106540012 1 SWITCH INTER 2P 250A DIRECT FRONT MOUNTING HANDLE (160A 2X2 POLES //) SOCOMEC 14
CH2 A3 Q6 5810300542 1 CIRCUIT BREAKER 3P 200A XTMAX XT3N 250 F FC - 36kA - TMD200 ABB DIFFUSION 14
CH2 A3 Q6 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 14
CH2 A3 Q6 F810700004 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'TRIP') FOR XTMAX ABB DIFFUSION 14
CH2 A3 Q6 5810700273 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT3 3P ABB DIFFUSION 14
CH2 A3 R10 5090100013 2 SYMMETRY RESISTORS AND/OR CAPACITORS DISCHARGE 10SR/B 2700 OHMS 11W ATE ELECTRONICS 13
CH2 A3 S101 5719900001 1 DOOR SWITCH DOOR NF 120-240VAC STEGO 22
CH2 A3 T3 2521110250 1 THREE PHASES TRANSFORMER YNd11 SUPPLY 400V+/-15% FOR CHARGER 110V RANGE1 / 250A/320A CHLORIDE 13
CH2 A3 T10 5701100047 1 CURRENT TRANSFORMER 100A/0,2A 1,60VA ELMAX 12
CH2 A3 T30 5701100047 1 CURRENT TRANSFORMER 100A/0,2A 1,60VA ELMAX 12
CH2 A3 T40 0107020040 1 HALL EFFECT CURRENT SENSOR OPEN LOOP 100A (30-250A) L.E.M. FRANCE SARL 14
CH2 A3 T80 5701100046 1 CURRENT TRANSFORMER 200A/0,2A 3,20VA ELMAX 13
CH2 A3 T90 5701100046 1 CURRENT TRANSFORMER 200A/0,2A 3,20VA ELMAX 13
CH2 A3 V2 5042000007 1 BLOCKING DIODE 250A (300A maxi) 2x70UR/80Y + AR43/195 ARCEL 14
CH2 A3 X11 5110300033 6 TERMINAL UHV 50 AS/AS M10 PHOENIX CONTACT 101
CH2 A3 X31 5110300042 4 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 101
CH2 A3 X42 5110300042 51 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 101

BILL OF MATERIAL Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=PARTS LIST +
DESIGNATION
CP70R2I-12979820 3 203
ENSEMBLE ARMOIRE REPERE REFERENCE CHLORIDE QUANTITE LIBELLE DU MATERIEL FOURNISSEUR FOLIO
EQUIPMENT CUBICLE MARK CHLORIDE REFERENCE QUANTITY MATERIAL DESCRIPTION SUPPLIER PAGE

CH2 A3 X48 5110300042 2 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 101

CH2 A3 X49 5110300042 2 TERMINAL IECEx/ATEX UT 6 PHOENIX CONTACT 101
CH2 A3 X51 5110300038 4 TERMINAL IECEx/ATEX UT 10 PHOENIX CONTACT 101

CNV2 A4 A01 6910570020 1 NRV-20 : DC VOLTAGE CONTROLER 48/110/220V - VARNISHED VERTIV 20

CNV2 A4 A46 BDI1201001101 1 BLOCKS 20 DIODES 100A-110V-1 STEP CHLORIDE 20
CNV2 A4 A46 6910570020 1 NRV-20 : DC VOLTAGE CONTROLER 48/110/220V - VARNISHED VERTIV 20
CNV2 A4 F101 F5802B0100500006I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 6A 10x38 500V VERTIV 22
CNV2 A4 F430 F5802B0100500002I 1 FUSEHOLDER 2 POLES + 2 x FUSES gG 2A 10x38 500V VERTIV 20
CNV2 A4 H101 5710400028 1 LIGHTING LED FOR CABINETS 100-240VAC 50/60Hz 90-110VDC 5W 400Lm 6000K IP20 STEGO 22
CNV2 A4 P43 5700600001 1 DC VOLTMETER 72x72 150V CLASS 1,5 MADEP 20
CNV2 A4 P44 F107040012 1 AMMETER DC 72x72 + DIAL 75A ON SHUNT 50mV CLASS 1,5 MADEP 20
CNV2 A4 Q41 F620500077 1 SWITCH SIRCO VM 100A 3P DIRECT FRONT MOUNTING HANDLE PADLOCKABLE SOCOMEC 20
CNV2 A4 Q44 5810300527 1 CIRCUIT BREAKER 3P 100A XTMAX XT1B 160 F FC - 18kA - TMD100 ABB DIFFUSION 20
CNV2 A4 Q44 F810700003 1 ONE AUXILIARY CONTACT 'POSITION' OR 'TRIP' SPDT (CONFIGURATION 'POSITION') FOR XTMAX ABB DIFFUSION 20
CNV2 A4 Q44 5810700272 1 FIXING PLATE CIRCUIT BREAKER XTMAX XT1 3P ABB DIFFUSION 20
CNV2 A4 R44 0107020003 1 SHUNT 75A - 50mV 0.5% ACMES MESURES 20
CNV2 A4 S101 5719900001 1 DOOR SWITCH DOOR NF 120-240VAC STEGO 22
CNV2 A4 X22 5110300104 2 POWER TERMINAL BLOCK BOLT M12 / BOLT M12 UHV150-AS/AS (P46) PHOENIX CONTACT 101

BB1 B1 Q5 5620800010 1 BATTERY BOX FUSERBLOC SIZE 1 250A WITHOUT FUSE RAL7032 2x250A SOCOMEC 11
BB1 B1 Q5 0108510005 2 FUSE gG 250A SIZE 1 500V WITH STRIKER CERAMIC BODY (FRENCH) MERSEN 11

BB2 B2 Q5 5620800010 1 BATTERY BOX FUSERBLOC SIZE 1 250A WITHOUT FUSE RAL7032 2x250A SOCOMEC 21
BB2 B2 Q5 0108510005 2 FUSE gG 250A SIZE 1 500V WITH STRIKER CERAMIC BODY (FRENCH) MERSEN 21

BILL OF MATERIAL Ind/Rev Page

21/10/2021 TPS
Date Creat. DESCRIPTION
=PARTS LIST +
DESIGNATION
CP70R2I-12979820 2 204
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0672 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 441.8 16.2 440.1 14.6 442.7 16.4 136.0 22.5 0.27
Un - 10 % In 364.2 64.1 363.0 63.2 364.5 64.6 135.0 224.4 0.39
Nominal U In 400.0 66.1 398.9 65.1 401.0 67.3 33030 135.2 224.6 30365.92 0.59
Within supply
tolerances
Lim. I 400.1 67.4 398.0 66.0 401.0 68.7 124.2 226.8 0.67
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 420 W ✓
DC Ripple without Battery t= 0.44 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 02/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 03/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0672 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 02/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 03/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0672 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 438.8 15.5 437.4 14.5 439.0 16.0 135.7 22.5 0.28
Un - 10 % In 362.3 64.0 362.2 63.5 363.1 64.1 135.0 224.0 0.44
Nominal U In 400.7 66.2 400.0 65.9 400.9 66.5 31300 135.0 224.3 30280.5 0.68
Within supply
tolerances
Lim. I 400.3 67.6 400.1 67.0 401.3 67.7 123.9 226.2 0.75
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 400 W ✓
DC Ripple without Battery t= 0.50 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 02/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 03/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0672 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 02/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 03/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0673 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 439.9 15.8 439.7 14.4 440.7 16.3 136.5 22.5 0.27
Un - 10 % In 361.3 63.7 360.8 62.8 362.0 64.3 135.6 224.3 0.37
Nominal U In 401.0 65.8 400.8 65.2 401.8 67.1 33370 135.6 224.5 30442.2 0.61
Within supply
tolerances
Lim. I 400.5 66.6 400.2 66.0 401.0 67.8 128.4 225.6 0.66
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 420 W ✓
DC Ripple without Battery t= 0.45 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : klco.zdenko Date : 04/11/2021 Test unit : 102 Checked by : oualid.laouar Date : 04/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0673 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : klco.zdenko Date : 04/11/2021 Test unit : 102 Checked by : oualid.laouar Date : 04/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0673 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 440.6 15.7 440.9 14.0 441.0 16.2 136.3 22.3 0.29
Un - 10 % In 360.9 63.2 360.5 62.4 361.5 65.0 135.0 223.1 0.53
Nominal U In 400.5 65.6 400.4 65.2 400.5 68.0 33200 135.0 224.9 30361.5 0.86
Within supply
tolerances
Lim. I 400.3 66.3 400.7 66.0 401.2 70.0 127.6 226.4 0.95
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 390 W ✓
DC Ripple without Battery t= 0.64 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : klco.zdenko Date : 04/11/2021 Test unit : 102 Checked by : oualid.laouar Date : 04/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0673 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : klco.zdenko Date : 04/11/2021 Test unit : 102 Checked by : oualid.laouar Date : 04/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0674 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 440.4 16.2 442.1 14.4 444.0 15.3 135.9 22.5 0.29
Un - 10 % In 361.4 64.7 361.3 62.3 362.2 63.1 134.9 222.5 0.53
Nominal U In 399.9 67.5 400.3 64.4 401.2 65.4 32800 135.1 223.0 30127.3 0.76
Within supply
tolerances
Lim. I 400.5 69.4 400.2 66.2 400.1 67.2 124.0 227.2 0.81
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 420 W ✓
DC Ripple without Battery t= 0.56 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 05/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 08/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0674 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 05/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 08/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0674 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 438.7 15.4 437.9 14.5 438.8 15.6 135.8 22.5 0.29
Un - 10 % In 362.7 63.9 361.8 63.4 363.5 64.1 135.1 224.4 0.39
Nominal U In 399.8 65.6 399.8 65.9 400.9 66.4 32900 135.1 224.5 30329.95 0.60
Within supply
tolerances
Lim. I 400.8 66.6 400.3 67.0 401.4 67.4 124.0 226.1 0.66
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 430 W ✓
DC Ripple without Battery t= 0.44 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 05/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 08/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0674 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 05/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 08/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0675 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 439.5 16.2 440.0 14.8 439.8 16.2 135.5 22.5 0.26
Un - 10 % In 361.8 64.6 362.2 63.5 361.8 64.2 134.6 225.0 0.45
Nominal U In 400.8 66.8 401.7 66.1 400.9 66.5 33000 134.6 225.0 30285 0.61
Within supply
tolerances
Lim. I 400.9 67.6 402.0 67.2 401.4 67.6 119.7 225.8 0.65
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 430 W ✓
DC Ripple without Battery t= 0.45 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 09/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 10/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0675 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 1

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 09/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 10/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0675 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

ELECTRICAL TESTS
PRELIMINARY CHECK
Dielectric Un + 1200 Vac (*) ~ / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) = / ground 1 mn ✓
Dielectric Un + 1200 Vac (*) ~/= 1 mn ✓
(*) minimal Dielectric voltage = 2000Vac
Insulation 500 VDC R > 10 MΩ 1 mn ✓
Ground Continuity 25 ADC R < 0,1 Ω ✓
Protection Devices Calibration ✓
AUTOMATIC MONITORING
Boost / Floating By time counter Boost duration = 15 H from more 5 min stop ✓
switching mode By battery current control N.A.
Initial Charge Time 5 H ✓
Battery Current Limitation in Boost / Float 160 A ✓
Battery Current Limitation in Initial Charge 160 A ✓
Battery Test 101.2 V Threshold = 105.8 V Time = 30 mn ✓
SAFETY AND ALARMS
Charger Stop Alarm ✓ High DC Stop = 150 V Reset = - V ✓
DC Fuse Tripping ✓ Low DC Alarm = - V Reset = - V
Transformer Overtemperature Control ✓

CHARGER SETTINGS AND REGULATION

Ufloating = 130.64 V at In/2 Uboost = 135.24 V at In/2 Uinit charge = 151.8 V
U12 I1 U23 I2 U31 I3 PIN - - UDC IDC POUT Ond.
Supply IDC V A V A V A W - - V A W VRMS
Un + 10 % 0,1 In 439.1 15.2 439.5 14.5 439.9 15.8 135.8 22.5 0.28
Un - 10 % In 362.3 65.0 361.7 63.8 362.6 64.7 134.8 226.2 0.50
Nominal U In 402.3 67.4 402.7 66.6 402.7 67.2 33160 134.7 226.2 30469.14 0.83
Within supply
tolerances
Lim. I 402.4 68.4 402.8 68.0 403.0 67.8 120.0 226.3 0.98
TEST WITHOUT LOAD AND RIPPLE
Losses without Load Pv = 400 W ✓
DC Ripple without Battery t= 0.62 % ✓
ELECTRICAL CHECKING
Phase Equilibrium (in 3 Ph) ✓
Charger Regulation ± 1 % ✓
Ripple Rate without Battery ≤ 1 % ✓
Comments :

This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 09/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 10/11/2021
Page 1/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date : 17/07/2019
Model Reference : IMP00-006 EN ind.6
 EQUIPMENT AC SUPPLY DC LOAD / BATTERY AC LOAD
Project: 60002909
Star-Item: CP70R2I-12979820 AC Voltage 400 V 110 V 800 Ah AC Voltage V Ph
WO: 2390710 3 Ph 225 A 92 Cells Frequency Hz
Serial: L21-0675 Frequency 50 Hz Battery Type V_NiCd Power kVA
Item: Charger 2

VISUAL CHECKING
FILE CONFORMITY
- Technical sheet ✓
- Drawings, parts list ✓
IEC 61439 - Layout ✓
- Wiring sections ✓
- Special specifications ✓
IDENTIFICATION
- Wires ✓
- Components ✓
IEC 61439 - Terminals, transformers, couplers ✓
- Customer terminal blocks ✓
- Manufacturer plate ✓
MOUNTING
- Mechanical welds ✓
- Subassemblies, screws, rivets ✓
- Subassembly, transformers, chokes fixing ✓
IEC 61439
IEC 73H0354
- Diodes and thyristors on heat sink ✓
- Front panel removal ✓
- Terminal blocks accessibility ✓
- Switchgear handle direction, protection screen ✓
WIRING
- Connection quality ✓
- Crimping ✓
- Tightness of all connections ✓
- Soldering ✓
- Wiring ducts (size and position) ✓
- Wire routing ✓
EXTERNAL ASPECT
- Aspect of sheet metal, painting ✓
- Meter alignment ✓
- Lamps, leds, labels ✓
IEC 60529 - Manufacturer plate ✓
- Door mounting, locks, keys ✓
- Document holder ✓
- Earth wire ✓
CLEANING
- External and internal cleaning ✓
EMC Directive : IEC 62040 - 2 LV Directive : IEC 62040 - 1 - 2
This document contains confidential and proprietary information of Vertiv Industrial Systems SAS and neither it nor the information contained therein shall be disclosed to others or duplicated or used for others without the express written consent of Vertiv Industrial
Systems SAS.

Tested by : roman.polacek Date : 09/11/2021 Test unit : 103 Checked by : oualid.laouar Date : 10/11/2021
Page 2/2

Charger INS-E 18 IEC EN

Reference :

Ind. 22
Test Report Revision Date :
Model Reference : IMP00-006 EN ind.6
17/07/2019
VERTIV INDUSTRIAL SYSTEMS SAS
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T +33 (0)4 7840 1356 |
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