04-3628_ABB_PVA11_T_6-10kVA_EN_REV-B.doc
PowerValue 11 6-10 kVA
User Manual
© Copyright 2016 ABB, All rights reserved.
FOREWORD
The UPS System operates with mains, battery or bypass power. It contains components that carry
high currents and voltages. The properly installed UPS System is grounded to earth and IP 20 rated
against electrical shock and foreign objects.
OPERATIONS INSIDE THE UPS MUST BE PERFORMED BY A SERVICE ENGINEER FROM
THE SUPPLIER OR FROM AN AGENT AUTHORIZED BY THE SUPPLIER.
This user manual contains guidelines to check delivery, installing and commissioning of the UPS
and is intended for people who plan the installation, install, commission and use or service the UPS.
The reader is expected to know the fundamentals of electricity, wiring, electrical components and
electrical schematic symbols.
THE INSTRUCTIONS IN THIS MANUAL SHOULD BE FOLLOWED DURING INSTALLATION,
OPERATION AND MAINTENANCE OF THE UPS AND BATTERIES.
Read carefully all instructions and save this manual for future reference.
SYMBOLS
The following symbols are used in this manual, the list below describes each symbol.
WARNING: DANGER OF ELECTRICAL IMPACT
NOTE: READ THE INFORMATION, IN ORDER TO AVOID EQUIPMENT DAMAGES
PROTECTIVE GROUNDING TERMINAL: A terminal which must be connected to earth
ground prior to making any other connection to the equipment
A terminal to which or from which an alternating current or voltage (AC) may be applied or
supplied
A terminal to which or from which a direct current or voltage (DC) may be applied or
supplied
Battery
Idle or shutdown the UPS
Overload indication
Alarm silence
Recycle
Do not dispose with ordinary trash
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CONTENTS
SAFETY INSTRUCTIONS.............................................................................................6
1.1 Operator precautions ................................................................................................................6
1.2 Environmental Considerations...................................................................................................6
1.3 Declaration of Safety conformity and CE marking.......................................................................6
1.5 Operation .................................................................................................................................7
1.6 Maintenance, servicing and faults..............................................................................................7
INSTALLATION ............................................................................................................8
2.1 Delivery, Transportation, Positioning and Storage......................................................................8
2.1.1 Receipt of the UPS and visual inspection ...................................................................................................8
2.1.2 Unpacking...................................................................................................................................................8
2.1.3 Storage of UPS...........................................................................................................................................8
2.2 Site Planning and Positioning.....................................................................................................9
2.2.1 Planning before the installation...................................................................................................................9
2.2.2 Positioning ..................................................................................................................................................9
2.3 General Characteristics..............................................................................................................9
2.3.1 Rear View ...................................................................................................................................................9
2.4 Electrical Installation ...............................................................................................................10
2.4.1 Commissioning .........................................................................................................................................10
2.4.2 Recommended Cable Sections and Fuse Ratings....................................................................................10
2.5 Battery Connections (Model without internal batteries)...........................................................12
2.6 Emergency Power Off (EPO).....................................................................................................13
2.7 Installation Checklist ...............................................................................................................13
OPERATION ...............................................................................................................14
3.1 Control Panel ..........................................................................................................................14
3.1.1 Selection Keys ..........................................................................................................................................14
3.1.2 LCD Display..............................................................................................................................................15
3.2 Turning On the UPS .................................................................................................................16
3.2.1 Turning on the UPS with mains.................................................................................................................16
3.2.2 Turning on the UPS without mains (Cold start).........................................................................................16
3.3 Turning Off the UPS.................................................................................................................17
3.3.1 Turning off UPS with mains.......................................................................................................................17
3.3.2 Turning off UPS without mains..................................................................................................................17
3.4 Operating Mode......................................................................................................................17
3.4.1 ECO Mode / High Efficiency Mode............................................................................................................18
3.4.2 Converter Mode ........................................................................................................................................18
3.5 LCD Operation.........................................................................................................................19
3.5.1 Navigation.................................................................................................................................................19
3.6 Paralleling the units.................................................................................................................24
3.6.1 Installation and operation..........................................................................................................................24
3.6.2 Adding an UPS to an existing parallel system...........................................................................................26
3.6.3 Removing a Single UPS from a parallel system........................................................................................26
COMMUNICATION .....................................................................................................27
4.1 Interface .................................................................................................................................27
4.1.1 USB...........................................................................................................................................................27
4.1.2 Dry contact................................................................................................................................................27
4.1.3 Intelligent Slot ...........................................................................................................................................27
4.2 Monitoring Software ...............................................................................................................27
MAINTENANCE ..........................................................................................................29
TROUBLESHOOTING ................................................................................................30
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6.1 Fault identification and rectification ........................................................................................30
TECHNICAL SPECIFICATION ...................................................................................32
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1 SAFETY INSTRUCTIONS
1.1
Operator precautions
The user must follow the precautions and only perform the described operations. Also in these
measures the operator of the UPS System must adhere to the instructions in this manual. Any
deviations from the instructions could be dangerous to the user or cause accidental load loss.
The only user operations permitted are:
- Use of the LCD control panel (LCD Display) and Maintenance Bypass (if present)
- Start up and shut down of the UPS (excluding the commissioning start up)
- Operation of additional connectivity devices
THE SUPPLIER DOES NOT TAKE ANY RESPONSIBILITY FOR DAMAGES CAUSED THROUGH
WRONG MANIPULATIONS OF THE UPS SYSTEM.
IT IS PROHIBITED TO REMOVE ANY SCREWS FROM THE UPS SYSTEM OR FROM
THE BATTERY CABINET: DANGER OF ELECTRICAL SHOCK.
WARNING!
HIGH FAULT CURRENTS (LEAKAGE CURRENTS):
BEFORE CONNECTING THE MAINS YOU MUST ENSURE THAT THERE IS A
PROPER EARTH CONNECTION!
WARNING!
THE USER MUST DISPLAY A WARNING SHIELD ON ALL PRIMARY UPS CIRCUIT
BREAKERS. THE SERVICE PERSONNEL HAS TO BE INFORMED ABOUT
DANGEROUS VOLTAGES. THE WARNING PANELS MUST CONTAIN THE
FOLLOWING TEXT: “ BEFORE STARTING WITH THE MAINTENANCE WORK ON
WARNING!
THE CIRCUIT BREAKERS , MAKE SURE THE UPS IS ISOLATED.”
1.2
Environmental Considerations
To operate the UPS at the best efficiency point, your installation site should meet the environmental
parameters outlined in this manual. Excessive amount of dust in the operating environment may
cause damage or lead to malfunction. The UPS should be always protected from the outside
weather and sunshine. The operating environment must meet the weight, airflow, size and clearance
requirements specified in the technical datasheet.
Under no circumstances the UPS should be installed in an airtight room, in the presence of
flammable gases, or in an environment exceeding environmental requirements here below.
An ambient temperature of +20°C to +25°C is recommended to achieve a long life of the UPS and
batteries. The cooling air entering the UPS must not exceed +45 °C and the humidity should be
below 95% (non-condensing).
1.3
Declaration of Safety conformity and CE marking
PowerValue 11 is designed, manufactured and commercialized in accordance with the standard EN
ISO 9001 of Quality Management Systems. The marking shows the conformity to the EEC Directive
by means of the application of the following standards in accordance with the specifications of the
harmonized standards:
• 2006/95/EC Low voltage directive.
• 2004/108/EC Electromagnetic Compatibility directive (EMC).
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Standards as reference:
• EN- 62040-1. Uninterruptible power supply (UPS). Part 1-1: General and safety requirements
for UPS’s used in accessible areas by end users.
• EN- 60950-1. IT equipment. Safety. Part 1: General requirements.
• EN- 62040-2. Uninterruptible power supply (UPS). Part 2: EMC requirements.
The suppliers responsibility is excluded in the event of any modification or intervention in the product
by the customer’s side.
Product Standards
EN 62040-1
Standards
Safety
EN 60950-1
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-8
EN 61000-4-11
EN 61000-2-2
Electromagnetic Compatibility (EMC)
EN 62040-2
Table 1: Standards
1.4
Inquiries
Address inquiries about the UPS to the local office or agent authorized by the supplier. Please note
the type code and the serial number of the equipment and contact your nearest agent authorized by
the supplier. The Code and the serial no. are shown on the nameplate of the product. For further
information on troubleshooting, go to Section 6.
1.5
Operation
Do not remove the enclosure of the UPS. This system is to be serviced by qualified service
personnel only.
Do not disconnect the mains cable from the UPS or the building wiring socket during operation as
this would remove the ground to the UPS and of all connected loads.
An integral single emergency switching device which prevents further supply to the load by the UPS
in any mode of operation should be provided in the building wiring installation.
An appropriate disconnect device as short-circuit backup protection should be provided in the
building wiring installation.
In order to fully disconnect the UPS, press the OFF button. Only after the UPS is shutdown,
disconnect the mains load.
Indiscriminate operation of switches may cause output loss or damage to equipment. Refer to
instruction before conducting any control.
While the UPSs work as a parallel system, the external parallel cable should be reinforced
insulation.
1.6
Maintenance, servicing and faults
Repairs may be carried out only by qualified maintenance personnel as the UPS operates with
hazardous voltages.
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EVEN AFTER THE UNIT IS DISCONNECTED FROM THE MAINS POWER
SUPPLY, COMPONENTS INSIDE THE UPS ARE STILL CONNECTED TO THE
BATTERY WHICH ARE POTENTIALLY DANGEROUS.
WARNING!
Before carrying out any kind of service and/or maintenance, disconnect the batteries. Verify that no
current is present and no hazardous voltage exists in the capacitor or BUS capacitor terminals.
Batteries must be replaced only by qualified personnel.
THE BATTERY CIRCUIT IS NOT ISOLATED FROM THE INPUT VOLTAGE.
HAZARDOUS VOLTAGES MAY OCCUR BETWEEN THE BATTERY TERMINALS
AND THE GROUND. VERIFY THAT NO VOLTAGE IS PRESENT BEFORE
WARNING!
SERVICING.
When changing the batteries, replace with the same quantity and the same type of batteries.
Replace the fuse only by a fuse of the same type and of the same amperage in order to avoid fire
hazards.
2 Installation
2.1
Delivery, Transportation, Positioning and Storage
2.1.1
Receipt of the UPS and visual inspection
Upon receiving the UPS, carefully examine the packing container and the UPS for any sign of
physical damage. In case of damage, notify immediately the carrier.
The packing container of the UPS protects it from mechanical and environmental damage. To
increase its protection, the UPS is wrapped with a plastic sheet. Preserve the packaging for later re-
use.
2.1.2
Unpacking
After examining the package, unpack the equipment by removing the packing and shipping
materials. Cut the plastic poly-straps around the shipping container and remove the corrugated
carton and the UPS foam on the top of the UPS. With one or two people on each side of the UPS,
lift the UPS out of the pallet. Keep the UPS always in upright position and do not drop the
equipment.
THE PLASTIC POLY-STRAPS AROUND THE SHIPPING CONTAINER ARE
UNDER TENSION. WHILE CUTTING, DO NOT FACE THEM AS THEY MAY
SPRING BACK AND CAUSE INJURIES.
WARNING!
Examine the UPS for any sign of damage and ensure that the received UPS corresponds to the
material indicated in the delivery note. Notify your carrier or supplier immediately if damage is
apparent.
2.1.3
Storage of UPS
If you plan to store the UPS prior to use, keep the UPS in a dry, clean and cool storage room with an
ambient temperature between (-15 °C to +60°C) and humidity of less than 95% non-condensing. If
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the packing container has been removed protect the UPS from dust. Keep the UPS always in
upright position and do not drop the equipment.
2.2
Site Planning and Positioning
2.2.1
Planning before the installation
The appropriate place of installation for the unit is to be selected in such a way that the danger of
damage to the UPS is minimized and a long service life of the device is thus ensured. Please
observe the following instructions:
- Install the UPS in the indoor area.
- Leave 50cm of space on each side of the cabinet to enable cooling airflow and ensure that the
circulation of air to the ventilation slits is not obstructed.
- Avoid excessively high temperature and excessive moisture.
- Make sure that the floor surface is solid and suitable for the wheeling and weight.
2.2.2
Positioning
PowerValue 11 (6-10 kVA) have wheels that make the positioning of the UPS simple after it has
been unpacked. However, if the unpacking area is distant from the installation site, it is
recommended to transport the UPS with a forklift before unpacking the UPS.
It is recommended to install external battery cabinet(s) next to the UPS unit. Check before the
installation that the battery voltage values in the type plate of the UPS and external battery cabinets
are the same.
Water condensing may occur if the UPS is unpacked in a very low temperature environment. In this
case it is necessary to wait until the UPS is fully dried inside out before proceeding installation and
use to avoid hazards and electric shock.
2.3
General Characteristics
2.3.1
Rear View
USB Port
RS232(optional)
EPO Port
Dry contact
Fan
Intelligent Slot
Parallel Port
Maintenance Switch
Input Breaker
Terminal Block
6 kVA
10 kVA
Figure 1: UPS rear view
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2.4
Electrical Installation
2.4.1
Commissioning
The UPS must be commissioned by a fully trained and authorized field service engineer before
being put into use. The commissioning of the UPS involves the connection of the UPS and batteries,
the verification of the electrical installation and operating environment of the UPS, the controlled
start-up and testing of the UPS and customer training.
OPERATIONS INSIDE THE UPS MUST BE PERFORMED BY A SERVICE
ENGINEER FROM THE SUPPLIER OR FROM AN AGENT AUTHORIZED
BY THE SUPPLIER.
WARNING!
DO NOT OPERATE IN CASE OF PRESENCE OF WATER OR MOISTURE.
BY OPENING OR REMOVING THE UPS-COVERS YOU ARE EXPOSED TO
DANGEROUS VOLTAGES.
PHYSICAL INJURY OR DEATH MAY FOLLOW, OR DAMAGE MAY OCCUR
TO THE UPS, OR THE LOAD EQUIPMENT IF THESE INSTRUCTIONS ARE
IGNORED
To ensure correct operation of the UPS and its ancillary equipment it is necessary to provide the
mains cables with appropriate fuse protection.
2.4.2
Recommended Cable Sections and Fuse Ratings
Model
6kVA
10kVA
Protective earth conductor
Minimum cross section
UL1015
6mm2 (8AWG)
UL1015
10 mm2 (6AWG)
Input L, N, G
UL1015
UL1015
Minimum conductor cross section
3x6mm2 (8AWG)
3x10 mm2 (6AWG)
Input breaker
40A/250VAC
63A/250VAC
Output L,N, G
UL1015
UL1015
3x 6mm2 (8AWG)
3x 10 mm2 (6AWG)
Minimum conductor cross section
External Battery Cabinet
UL1015
2x 6mm2 (8AWG)
UL1015
2x 10 mm2 (6AWG)
Positive Pole(+), Negative pole(-), Neutral Pole
Minimum conductor cross section
External Battery Cabinet Fuse
30A/240VDC
32A/240VDC
60A/240VDC
50A/240VDC
in Positive Pole(+), Negative pole(-), Neutral Pole
External Battery Cabinet Breaker
in Positive Pole(+), Negative pole(-), Neutral Pole
Torque for fixing above terminals
3.95~4.97Nm (35~44 1b in)
Table 2: Recommended Cables and Fuses
It is suggested to install an external isolating device against current back feed between Mains input
and UPS as indicated in Figure 2.
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Figure 2: External Backfeed Isolation
AFTER THE DEVICE IS INSTALLED, ADD
A
LABEL WITH THE
FOLLOWING WARNING ON THE EXTERNAL AC CONTACTOR: “RISK OF
BACKFEED VOLTAGE. ISOLATE THE UPS BEFORE OPERATING ON
THIS CIRCUIT AND CHECK FOR HAZARDOUS VOLTAGE”
WARNING!
The UPS unit has the following power connections:
Rectifier (In):
1 phase (input L), 1 Neutral (input N) and protective earth (input G)
connection for the rectifier input
Load (Out):
1 phase (output L), 1 Neutral (output N) and protective earth (output G)
connection for the load output
External battery:
Paralleling:
Plus (+), Minus (-) and protective earth (G) connection for the external batteries
Parallel Jumper 1 and 2
IP_G IP_N IP_L
B+
B-
B_G
J1
J2
OP_N OP_L OP_G
INPUT G
OUTPUT G
INPUT N
OUTPUT L
INPUT L
OUTPUT N
BATTERY +
BATTERY -
BATTERY G
PARALLEL JUMP2
PARALLEL JUMP1
Figure 3: Terminal block wiring diagram
1 - The output of the UPS may be energized even if the UPS is turned off. To ensure that the UPS
has no power in the output, power off the UPS, and cut off the mains power supply. Wait the UPS
shut down completely.
2 - Open the terminal block cover located on the rear panel of UPS (refer to diagram on Section
3 - Do not use the wall jack because its rated current is higher than the UPS maximum input current.
4 - Install the protective earth (ground) wire (refer to Figure 3). It is recommended to use green or
green/yellow wires.
5 - Connect the input and output wires to the corresponding terminals
Use appropriate tools and terminal splices to guarantee a reliable contact between the wires and the
terminal blocks.
Note:
- If the UPS is single in a system, JP1 and JP2 must be connected.
- If the UPS is used in parallel, the jumper between JP1 and JP2 must be removed.
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- The battery connectors are only used for the UPS using external batteries
6 - Install an output breaker between the output terminal of the UPS and the load. It is
recommended to use a breaker with leakage current protection.
7 - Turn off all the loads. Then connect the load to the UPS and finally turn on the loads one by one.
8 - After completing the steps above, check that all wires are connected correctly and tightly.
9 - Turn On the mains power switch and turn the input breaker to the On position. The UPS will
charge the batteries automatically. The UPS can be immediately used in inverter mode but it is
recommended to charge the batteries completely to guarantee the maximum back up time.
Note: The power consumption in the start-up of inductive loads (such as monitors and laser printers)
is very high. If such loads are connected to the UPS, the start-up power consumed by these devices
should be considered when calculating the capacity of the UPS. If this is not taken into
consideration, the UPS goes often in overload and may turn off easily depending on its
dimensioning.
2.5
Battery Connections (Model without internal batteries)
ANY INCOMPLIANCE MAY RESULT IN THE RISK OF ELECTRIC SHOCK.
FOLLOW THE INSTRUCTIONS
THE UPS CONTAINS HIGH DC VOLTAGES. A QUALIFIED PERSON MUST
DO THE CONNECTIONS BETWEEN THE UPS AND THE EXTERNAL
BATTERIES.
WARNING!
The nominal DC voltage of external battery pack is 240VDC. Each battery pack consists of 20
pieces of 12V maintenance free batteries in series. To achieve longer backup time, it is possible to
connect several battery packs, but the principle of “same voltage, same type” should be strictly
followed.
The external battery pack must be independent for each UPS. Two or more UPS cannot use the
same external battery pack.
Follow the steps below to connect the battery packs.
1 - Ensure the UPS is not powered on and the mains input breaker is set in the “OFF” position.
2 - A DC breaker must be installed between the external battery pack and the UPS. The capacity of
breaker must be higher than specified in the general specification.
3 - With the external battery pack breaker in “OFF” position, connect the 20 batteries in series.
4 - Connect the external battery pack to the battery terminals. Check the polarity if the connection is
correct.
5 - Turn the breaker of the battery pack to the “ON” position. The UPS will power on and start to
charge the battery pack.
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2.6
Emergency Power Off (EPO)
The EPO connector gives the user the possibility to block the output of the UPS in case of an
emergency. This connector can be configured as Normally Closed (NC) of Normally Opened (NO)
through the USD or RS232 port.
As a default the EPO is Normally Closed (NO) by a jumper in the rear panel. If the jumper is
removed, the UPS output will not supply energy to the load until the EPO status is again modified.
Enable the EPO status
Disable the EPO status
To recover to normal status, the EPO connector should first be closed. Then, enter the LCD menu
recovered. To have the UPS in inverter mode, the selection has to be made by manual operation.
local supplier for further information before modifying the settings.
2.7
Installation Checklist
All packing materials and restraints have been removed from each cabinet.
Each cabinet in the UPS system is placed in the installed location.
All conduits and cables are properly routed to the UPS and auxiliary cabinets.
All power cables are properly sized and terminated.
A ground conductor is properly installed.
Battery cabinet installation instructions have been completed.
Air conditioning equipment is installed and operating properly.
The area around the installed UPS system is clean and dust-free.
Adequate workspace exists around the UPS and other cabinets.
Adequate lighting is provided around all UPS equipment.
Any optional accessories are mounted in their installed location and properly wired.
Summary alarms and/or building alarms are wired appropriately. (OPTIONAL)
Start-up and operational checks performed by authorized service personnel.
All network connections are completed.
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3 OPERATION
This chapter describes how to operate the UPS through the LCD display.
ONLY PERSONS WHICH HAVE BEEN TRAINED BY SERVICE
TECHNICIANS OF THE SUPPLIER OR HIS AUTHORIZED SERVICE
PARTNERS ARE ALLOWED TO OPERATE THE CONTROL PANEL OF
THE UPS.
WARNING!
ALL OTHER INTERVENTIONS ON THE UPS SYSTEM HAVE TO BE
DONE ONLY BY SERVICE TECHNICIANS OF THE SUPPLIER.
The only user permitted operations are:
Operate the LCD display
Start up and shut down of the UPS of the user field (excluding the commissioning start up)
Operation of additional SNMP adapters and their software
3.1
Control Panel
The user-friendly control panel is composed of two parts:
Selection Keys
Power Management LCD Display (PMD)
Figure 4: Control Panel
3.1.1
Selection Keys
The
Function
Illustration
Button
If the unit is not powered and has the batteries connected, press this button for more
than 100ms and less than 1s to power on the UPS
Power on
If the unit is powered on and is on Bypass mode, press this button for more than 1s to
turn on the UPS
Turn on
Power off
If the unit is ON, press this button for more than 3s to turn off the UPS
Enter main
menu
If displaying the default UPS status screen, press this button for more than 1s to enter
the main menu tree
Press this button for more than 1s to exit the present menu. Directs the user to default
system status menu without executing any command or changing settings
Exit main menu
Scroll up
Press this button for >100ms&<1s to scroll up the menu option
Scroll down
Press this button for more than 100ms and less than 1s to scroll down the menu option
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Enter next menu Press this button for more than 100ms and less than 1s to select the present menu
tree
option or enter next menu. No settings are modified.
Select one
menu option
Press this button for more than 100ms and less than 1s to select the present menu
option or enter next menu. No settings are modified.
Confirm the
present setting
Press this button for more than 1s to confirm the edited options and change the settings
3.1.2
LCD Display
The LCD display gives the user a complete overview on the status of the UPS. It shows information
on the input, output, battery, load parameters, working mode and also the settings on voltage,
frequency and bypass presence.
UPS state
Normal LED
(Green)
Battery LED
(Yellow)
Bypass LED Fault LED
(Yellow)
(Red)
Bypass mode
with no output
Bypass mode
with output
-
-
-
-
C
D
D
A
Turning on
B
A
A
A
B
-
B
-
B
D
D
D
Line mode
Battery mode
HE mode
A
-
-
A
Battery test
mode
B
B
B
B
Fault mode
-
-
D
D
A
C
Warning mode
D
D
Figure 5: LED representation
A: Lightened constantly
B: LEDs 1 to 4 Lightened circularly
C: Flashing
D: Depends on the fault/warning status or other status
UPS condition
Fault active
Buzzer status
Continuous
Warning active
Beep every second
Beep every 4 seconds, if battery low, buzzer Beep
every second
Battery output
Bypass output
Overload
Beep every 2 minutes
Beep twice every second
Figure 6: Definition of Alarms
When powering on, the LCD displays a welcome message for a few seconds and then enters the
default page that shows the UPS status.
From any screen, if the user does not press any button for more than 15 minutes, the default screen
is displayed.
The status screen provides the following information:
- Status summary, including operating mode and load information
- Alarm status, if any are present (including fault and warning information)
- Battery and charger status (including battery voltage, charge level and charger status)
- Running information including parallel UPS and running time
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UPS operating status
Battery information
Input
Output
UPS output
information
220 V
60 Hz
220 V
60 Hz
273.0 V
100%
5400 W
Utility input
information
Load information
Figure 7: The default LCD display
For detailed information on how to operate the LCD, see Section 3.5.
3.2
Turning On the UPS
SWITCH OFF THE CONNECTED LOADS BEFORE TURNING ON THE UPS.
SWITCH ON THE LOADS ONE BY ONE AFTER THE UPS IS TURNED ON.
WARNING!
3.2.1
Turning on the UPS with mains
1 - Check that all cables are connected correctly and well-fixed mechanically. Check that the
position of the breaker on the external battery pack is “ON”.
2 - Set input breaker to “ON” position. The fans are activated and the LCD shows a welcome screen.
The UPS then performs a self-test and finally displays the UPS status screen.
3 - Press the power-on button
continuously for more than 1 second. The alarm buzzer will sound
for 1s and the UPS start-up will take place.
4 - After a few seconds, the UPS goes to Online mode. If the mains power is abnormal, the UPS will
transfer to Battery mode without interruption of the output the UPS.
3.2.2
Turning on the UPS without mains (Cold start)
1 - Check that all cables are connected correctly and well-fixed mechanically. Check that the
position of the breaker on the external battery pack
2 - Pressing the power-on button
continuously for more than 100ms, the UPS is powered on. The
fan are activated and the LCD shows a welcome screen. The UPS then performs a self-test and
finally displays the UPS status screen.
3 - Pressing the power-on button
and the UPS start-up takes place.
continuously for more than 1s, the alarm buzzer sounds for 1s
4 - After a few seconds, the UPS goes to Battery mode. When the UPS is fed with power from the
mains, the UPS transfers to Online mode without interruption in the output of the UPS.
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3.3
Turning Off the UPS
WARNING!
SWITCH OFF ALL OF THE CONNECTED LOADS BEFORE TURNING OFF THE
UPS
3.3.1
Turning off UPS with mains
1 - To turn off the inverter of UPS, press the button
continuously for more than 3s. The alarm
buzzer will sound for 3s and the UPS will go to Bypass mode. Note: the output is still energized.
2 - In order to remove the UPS output power, disconnect the mains power supply. A few seconds
later, the display will shut down and no output voltage will be available in the UPS output terminal.
3.3.2
Turning off UPS without mains
1 - To power off the UPS, press the power on/off button
continuously for more than 3s. The alarm
buzzer will sound for 3s. The output power will be immediately cut-off.
2 – After a few seconds, the display will shut down and no voltage will be present in the UPS output.
3.4
Operating Mode
Different symbols indicate the status and the operating mode of the UPS. Such symbols appear
always in the position indicated in Figure 8.
Operating mode
Input
220 V
60 Hz
Output
220 V
273.0 V
100%
60 Hz
5400 W
Figure 8: Operating mode
Status
Symbol
Description
Online Mode
UPS is running through the inverter (Online)
UPS running on battery. (The alarm buzzer sounds every 4
seconds.)
Battery Mode
The power used by the load is supplied from the mains power
via internal filter. The UPS does not have the backup function
when it is in bypass mode. (The alarm buzzer will sound every
2 minutes.)
UPS is running through bypass but there is no power in the
output
Bypass with output
Bypass without output
After the UPS is turned on, the power used by the load is
supplied from the mains power via internal filter if the mains
power is in an acceptable range. This guarantees higher
efficiency of the UPS. In case of mains failure, the UPS
transfers to Online mode or Battery mode and the load is
ECO Mode
Note: ECO mode can be enabled through the LCD settings or
the monitoring software.
Warning: The transfer time of UPS output from ECO mode to
battery mode is 10ms and not recommended for sensitive
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loads.
In converter mode, the UPS runs with fixed output frequency
(50Hz or 60Hz). In case of mains power failure, the UPS
transfers to battery mode and the load is supplied continuously.
Converter Mode
Note:
- Converter mode function can be enabled through the LCD
settings or the monitoring software.
- The load is de-rated to 60% in converter mode.
Warnings indicate abnormal situations that does not stop the
UPS from working. In this case the UPS continues running but
In fault situations, the UPS’s output is disconnected or the UPS
is transferred to bypass with a constant alarm. The backlight of
the UPS becomes red to indicate to the user the alarming
Warning
Fault
!
When the UPS is in overload, an alarm sounds twice every
second. Some unnecessary loads should be disconnected one
by one to decrease the load. The load should be lower than
90% of its nominal power capacity in order to stop alarming.
While doing the battery test, LEDs are lightened circularly and
the battery test symbol is displayed.
Overload
Battery test
If the battery is disconnected, the symbol of battery failure is
shown and the UPS alarm sounds.
Battery disconnected
3.4.1
ECO Mode / High Efficiency Mode
If ECO mode (High Efficiency - HE Function) is enabled, after the UPS is turned on, the power used
by the load is directly supplied from the mains power via internal filter. This guarantees a higher
efficiency of the UPS. In case of mains failure, the UPS transfers to Online mode or Battery mode
and the load is supplied continuously. This function can be enabled through the LCD settings in
Bypass mode. Enter the power strategy Settings menu as indicated in Section 3.5.1.6.
The overall efficiency in Eco mode is higher than 96% of UPS, saving energy and reducing the
running costs.
Note:
- The level of load protection is lower than in Online mode since the load is directly supplied from the
mains.
- The transfer time of the UPS output from Eco mode to Battery mode is about 10ms. This function
is not suitable for sensitive loads and in regions where mains power is very unstable.
3.4.2
Converter Mode
In converter mode, the UPS runs with fixed output frequency (50Hz or 60Hz). This mode is
commonly used with loads that are very sensible to frequency variations. In case of mains failure,
the UPS transfers to Battery mode and the load is supplied continuously. This function can be
enabled through the LCD settings in Bypass mode. Enter the power strategy Settings menu as
indicated in Section 3.5.1.6.
Note:
The load capacity of the UPS is de-rated to 60% in converter mode.
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3.5
LCD Operation
Information regarding the status of the UPS, measurements, events and general information on the
UPS are available through the LCD display. This chapter describes how to navigate through the
display and how to adjust the user’s settings.
3.5.1
Navigation
From the UPS status screen, press
system and battery.
or
for less than 1s for information on alarm, parallel
From the UPS status screen, press
for more than 1s to enter the main menu. The main menu
includes the following submenus: UPS status, event log, measurements, control, identification,
settings.
Figure 9: Main menu tree
3.5.1.1 UPS Status
Contains general information on the status of the UPS.
3.5.1.2 Event log
Displays the last 50 events, alarms and faults occurred in the UPS. The alarms are indicated by the
corresponding illustration, event code and operating time of UPS when the event occurred. To
navigate through the events and alarms, press
or
for less than 1s.
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3.5.1.3 Measurements
Several measurements are displayed in the menu such as output voltage, frequency, current, load
capacity, input voltage and frequency. To navigate through the measurements, press
less than 1s.
or
for
3.5.1.4 Control
From this menu, the user can give commands to the UPS. It is possible to change the UPS mode,
perform battery tests, reset some status and restore settings.
Pressing
on the control submenu, the display would enter another menu tree with the following
information:
- Single UPS turn off: This command is used to turn off one UPS in a parallel system. The other
UPS continue to run to supply the load in the parallel system.
- Single UPS battery test: This command is used to control one UPS in a parallel system to do the
battery test singularly. The other UPS do not perform the battery test.
- Parallel UPS battery test: This command is used to perform the battery test in all UPS in a parallel
system simultaneously.
- Clear EPO status: Once the EPO status is enabled, the UPS output is cut-off. To recover the
normal status, EPO connector must first be closed. Enter this menu to clear the status of EPO. The
UPS will stop alarming and will recover in Bypass mode. Note that the UPS needs be turned on by
manual operation.
Example: Clearing the EPO status
Note: First make sure the EPO signal is inactive or the LCD will show that the EPO active status
couldn’t be cleared.
<1s
Status:EPO signal active
Clear EPO status
Clear:no
Figure 10: Clear EPO status
- Reset fault status: When a failure occurs, the UPS goes to Fault mode and the buzzer alarm
sounds. After checking the reason of the failure and taking the appropriate corrective actions, enter
this menu to reset the error status and recover the normal status. The UPS alarm will stop and will
go to Bypass mode.
- Restore factory settings: All the factory settings are recovered. Note that this operation can only be
executed when the UPS is in Bypass mode.
Figure 11 gives an overview on how to navigate on the control menu.
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Figure 11: Control menu tree
3.5.1.5 Identification
Press
includes UPS serial number, firmware serial number and model type.
Press >1s to return to the last main menu.
on the Identification menu to navigate through its data. The identification information
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Figure 12: Identification menu tree
3.5.1.6 User’s Settings
Contact your local distributor for further information before using the settings. Some settings can
impact on the performance of the UPS and others can enable and disable functions within the UPS.
Failures and reduced protection can occur if the equipment is not set in an adequate way.
Note that most settings should be done only with the UPS in Bypass mode.
Press
in the Identification menu to enter the Setting menu. If the User password is enabled, the
user must enter the password by pressing the buttons
indicated in Table 3
,
, and . The setting menu is as
Submenu item
User password
Audio alarm
Optional Values
enabled/disabled
enabled/disabled
208/220/230/240V
autosensing/50/60Hz
Default value
disabled
enabled
Rated output voltage
Output frequency
230V
autosensing
normal/high efficiency/
converter
Power strategy**
normal
DC start
enabled/disabled
enabled/disabled
enabled
enabled
Site wiring fault alarm
Ambient temperature
warning
Automatic battery tests
period
enabled/disabled
0-31days
enabled
7days
Auto Restart
enabled/disabled
enabled/disabled
enabled/disabled
enabled/disabled
110~215V
enabled
enabled
enabled
disabled
176V
Automatic overload restart
Auto Bypass
Short circuit clearance
Bypass voltage low limit
Bypass voltage high limit
Bypass frequency low limit
Bypass frequency high limit
Language
245~276V
264V
1%~10%
10%
1%~10%
10%
Simple Chinese
1%~10%
English
5%
HE voltage low limit
HE voltage high limit
1%~10%
5%
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Submenu item
Optional Values
1%~10%
Default value
HE frequency low limit
HE frequency high limit
Battery quantity***
5%
5%
20
1%~10%
19/20/21
Day:hour:minute:second
0000:0000:00~9999:23:59:59
Set running time
LCD contrast
Running time
0
-5~+5
Table 3
*Password is USER when enabled.
***Ensure the real battery quantity is same as the settings not to damage the batteries.
Figure 13: Setting menu tree
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Example: Setting the rated output voltage value
Setting menu tree
...
or
<1s
<1s
Output voltage
<230V>
Output voltage
<230V>
The option would flash
or
<1s, to select the wanted option
Output voltage
<220V>
>1s, to confirm the setting
The option would stop flashing
after being confirmed
Output voltage
<220V>
Figure 14: Setting rated output voltage value
3.6
Paralleling the units
N+X is the most reliable power structure. N represents the minimum UPS number that the total load
needs and X represents the number of redundant UPS. The larger is X, higher is the reliability of the
system. With PowerValue 11, up to 4 UPS can be connected in parallel to obtain output power
sharing and power redundancy.
3.6.1
Installation and operation
1) Prepare the input and output wires, the output breaker and the parallel cable.
2) Use a standard 25-pin communication cable (25 colors) ideally shorter than 3m.
3) Remove the cover plate of the parallel port in the UPS
4) Connect the UPS, one by one, with the parallel cable and re-screw the parallel port cover
each UPS. Connect the output wires of each UPS to an output breaker panel.
6) Disconnect the Jumpers JP1 and JP2 of the terminal block, then connect each output breaker to
a main output breaker and then to the loads.
Each UPS needs an independent battery pack. Please refer to the wiring diagram in the following
diagram. The distance between the UPS in parallel and the breaker panel is should be lower than 20
meters. The difference between the wires of the input and the output of the UPS is required to be
less than 20%.
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IP_G IP_N IP_L
B+
B-
B_G
J1
J2
OP_N OP_L OP_G
BAT Ground
BAT PACK #1
(For “S” model)
IP_G IP_N IP_L
B+
B-
B_G
J1
J2
OP_N OP_L OP_G
BAT Ground
BAT PACK #2
(For “S” model)
TO UTILITY
TO LOAD
Figure 15: Input and output Terminal Block wiring diagram
Figure 16: Parallel System Installation Diagram
7) Confirm that the output breaker of each UPS is switched OFF.
8) Switch on the input breaker of the each UPS. The UPS will start running in bypass mode.
Observe the UPS displays to check if there are warnings or fault information. Measure the output
voltage of each UPS separately to check if the voltage difference between them is lower than 1V. If
this difference is higher than 1V, check the wiring.
9) Press the
button of one UPS and each UPS will start to turn on. All UPS will transfer to inverter
mode simultaneously. Measure the output voltage of each UPS separately to check if the voltage
difference between them is lower than 0.5V. If this difference exceeds 0.5V, the UPS have to be
regulated.
10) Press the
button of one UPS and observe that each UPS will turn off and transfer to Bypass
mode. Switch on the output breaker of each UPS to parallel the output of all UPS.
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11) Press the
button of one UPS and observe that each UPS will turn on. The UPS will then work
in parallel Online Mode.
3.6.2
Adding an UPS to an existing parallel system
A main maintenance mechanical switch or static switch must be installed in a parallel system.
1) Regulate the output voltage of the new UPS separately. Check if the output voltage difference
between the new UPS and the parallel system is lower than 0.5V.
2) Ensure that the bypass of the parallel system is normal and that the bypass setting is “enabled”.
Remove the cover plate of the maintenance switch on the rear panel of each UPS. The UPS system
will transfer to bypass automatically.
3) Set the main maintenance switch or static switch from “UPS” to “BPS”. Switch off the main output
breaker and the main input breaker, the UPS will shut down.
4) Ensure the UPS are completely shut down. Add the new UPS and reinstall the new UPS parallel
system by following steps 1) to 6) on Section 3.6.1.
5) Switch on the main input breaker and the main output breaker. Set the main maintenance switch
or static switch from “BPS” to “UPS”, then set the UPS maintenance switch from “BPS” to “UPS” and
screw the maintenance cover plate back again. Press the
on and then they will all work in parallel in Online mode.
button on one UPS. Each UPS will turn
3.6.3
Removing a Single UPS from a parallel system
A main maintenance mechanical switch or static switch must be installed in a parallel system.
1) Ensure the bypass of the parallel system is normal and that the bypass setting is “enabled”.
Remove the cover plate of maintenance switch on the rear panel of each UPS. The UPS system will
transfer to bypass automatically.
2) Set the maintenance switch of each UPS from “UPS” to “BPS”.
3) Set the main maintenance switch or static switch from “UPS” to “BPS”
4) Switch off the main output breaker and the main input breaker. The UPS will shut down.
5) Ensure the UPS are completely shut down and remove the chosen UPS from the system.
Reinstall the new UPS parallel system by following steps 1) to 6) on Section 3.6.1.
6) If the removed UPS or the remained UPS will be used in a standalone mode, then JP1 and JP2
on the terminal block should be connected with a short connection wire.
7) Switch on the main input breaker and the main output breaker.
8) Set the main maintenance switch or static switch from “BPS” to “UPS”, then set the UPS
maintenance switch from “BPS” to “UPS”.
9) Screw the maintenance cover plate back again. Press the
turn on and then they will all work in parallel in Online mode.
button on one UPS. Each UPS will
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4 COMMUNICATION
4.1
Interface
4.1.1
USB
The USB port present in the back of the UPS is compliance with USB 1.1 protocol.
4.1.2
Dry contact
PowerValue 11 UPS has independent dry contact interfaces. Please contact your local supplier for
Figure 17: DB 9 Pin Layout
Pin # Description
I/O
1
2
3
4
5
6
7
8
9
UPS Failure
Summary Alarm
GND
Remote Shutdown
Common
Bypass
Battery Low
UPS ON
Output
Output
Input
Input
Input
Output
Output
Output
Output
Line Loss
Table 4: Dry contact Pin-out
4.1.3
Intelligent Slot
PowerValue 11 is equipped with an intelligent slot for other optional cards for remote management
of the UPS through internet / intranet. Please contact your local supplier for further information.
4.2
Monitoring Software
WinPower is a UPS monitoring software that allows the user to monitor the UPS. This software
provides a remote and safe shutdown for multi-client systems in case of absence of power in the
output of the UPS.
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Figure 18: Monitoring Software WinPower
Installation procedure:
- Go to the website http://www.ups-software-download.com/
- Choose your operating system and follow the instructions described in the website to download the
software.
- When downloading the files from the internet, enter the serial No: 511C1-01220-0100-478DF2A.
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5 MAINTENANCE
PowerValue 11 (6-10 kVA) UPS only requires minimal maintenance. The only requirement is to charge
the UPS regularly in order to maximize the expected life of the battery. When being connected to the
mains power, whether the UPS is turned on or not, the UPS keeps charging the batteries and also offers
the protective function of overcharging and over-discharging.
BATTERY REPLACEMENT SHOULD ONLY BE PERFORMED BY
QUALIFIED PERSONNEL
WARNING!
- If the battery service life (3~5 years at 25°C ambient temperature) has been exceeded, the batteries
must be replaced. In this case please contact your dealer.
- The UPS should be charged once every 4 to 6 months if it has not been used for a long time.
- In high temperature regions, the battery should be charged and discharged every 2 months. The
standard charging time should be of at least 12 hours.
- Under normal conditions, the battery life lasts 3 to 5 years. In case the battery is not in good conditions,
earlier replacement should be made.
- Replace batteries with the same number and same type of batteries.
- Do not replace the batteries individually. All the batteries should be replaced at the same time following
the instructions of the battery supplier.
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6 TROUBLESHOOTING
6.1
Fault identification and rectification
If the UPS system does not operate correctly, please attempt to solve the problem using the table below.
If the problem still persists, consult your supplier.
Problem Displayed
Read EEPROM Error
EPO Active
Possible cause
UPS internal fault
Remedy
Consult your supplier.
EPO connector is open
Check the EPO connector status
On Maintain Bypass
Maintain bypass switch is open
Check the maintain bypass switch status
IP soft start failed
Site Wiring Fault
UPS internal fault
Consult your supplier.
Phase and neutral conductor at
input of UPS system are reversed
Reverse mains power wiring.
Battery Disconnect
Battery pack is not connected
correctly
Do the battery test to confirm.
Check the battery bank is connected to the UPS.
Check the battery breaker is turned on.
If audible alarm sounds every second, the battery is
almost empty.
Battery low
Battery voltage is low
Overload
Output Overload
Check the loads and remove some non-critical
loads.
Check if some loads have failures.
Check if the fan is running normally.
Consult your supplier.
Fan Failure
Fan abnormal
Charger Fail
The charge fails
Battery Over Voltage
Battery voltage is higher than
normal value
Check if the battery quantity is correct.
Over Charge
Battery is over charged
The UPS will turn off the charger until the battery
voltage is normal
Model Pin Error
UPS internal fault
Consult your supplier.
Ambient Over Temperature
Heat sink Over Temperature
The ambient temperature is too high Check the environment ventilation.
Inside temperature of UPS is too
high
Check the ventilation of UPS and the ambient
temperature.
Ambient NTC abnormal
Para Cable Male Loss
Para Cable Female Loss
Para Bat Differ
UPS internal fault
Consult your supplier.
The parallel cable is disconnected
The parallel cable is disconnected
The battery packs of some UPSs
are disconnected
Check the parallel cable.
Check the parallel cable.
Check if all the battery packs are connected.
Para Line Differ
The mains input of some UPSs is
disconnected
Check the building wiring and input cable.
Check if the input breaker is closed.
Ensure the UPS are connected to the same input
source.
Para Work Mode Differ
Para Rate Power Differ
UPS are configured with different
power settings (Ex. one in Online
mode and one in Converter mode).
Modify the settings of the UPS. All UPS should be
running in the same mode
There are different UPS in a parallel UPS with different capacity (Ex. one 6kVA and one
system
10kVA) cannot be paralleled.
ECO In Para
IP Fuse Open
ECO mode is enabled in a parallel
Eco mode cannot be used in a parallel system.
system
Input fuse break is opened
Check the input fuse status
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Problem Displayed
Possible cause
Remedy
Inv Overload Fault
Overload
Check the loads and remove non-critical
loads. Check if there are failures in the load.
Byp Overload Fault
Output Short Circuit
Overload
Check the loads and remove non-critical
loads. Check if there are failures in the load.
Output short circuit
Remove all loads. Turn off the UPS.
Check if the UPS output and loads are short
circuited. Ensure short circuit is removed
before turning on the UPS again.
Heat sink Over Temperature Fault Inside temperature of UPS is too high
Check the ventilation of UPS and the
ambient temperature.
Bus Over Voltage
Bus Under Voltage
Bus Unbalance
UPS internal fault
UPS internal fault
UPS internal fault
UPS internal fault
UPS internal fault
UPS internal fault
UPS internal fault
UPS internal fault
Consult your supplier.
Consult your supplier.
Consult your supplier.
Consult your supplier.
Consult your supplier.
Consult your supplier.
Consult your supplier.
Consult your supplier.
Bus short
Bus Soft start Fail
Inv Over Voltage
Inv Under Voltage
Inv Soft start Fail
Negative Power Fault
The load is purely inductive or
capacitive
Remove non-critical loads.
Bypass supplies the load. Ensure there is no
overload, then turn on UPS.
Cable male and female Loss fault
The parallel cable is disconnected
Check the parallel cable.
Fan lock fault
Back Feed
Fan blocked or disconnected over time
Output voltage is returned to input
Check the fan status.
Consult your supplier.
No indication, no warning tone
even though system is connected
to mains power supply
No input voltage
Check the building wiring and input cables.
Check if the input breaker is closed.
BYPASS LED light up even
though the power supply is
available
Inverter not switched on
Press On-Switch to turn on the UPS.
BATTERY LED lights up, and
audible alarm sounding every 1
beep in every 4 seconds
Input voltage and/or frequency are out
of tolerance
Check input power source.
Check the building wiring and input cable.
Check if the input breaker is closed.
Emergency supply period shorter
than nominal value
Batteries are not fully charged /
batteries defect
Charge the batteries for at least 12 hours
and then check capacity.
Please have the following information at hand before calling the After-Sales Service Department:
1. Model number, serial number
2. Date on which the problem occurred
3. LCD/LED display information, Buzzer alarm status
4. Mains power condition, load type and capacity, environment temperature, ventilation condition
5. Information on external battery pack (battery capacity, quantity)
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7 TECHNICAL SPECIFICATION
GENERAL DATA
Output rated power [W]
Output power factor
Topology
Inbuilt batteries
INPUT
6 kVA
5400 W
0.9
True online double conversion
No Yes
6 kVA B
5400 W
10 kVA
9000 W
10 kVA B
9000 W
No
Yes
Nominal input voltage
Input voltage tolerance
Input current THD
Rated current (ref. 230V)
Frequency range
Power factor
200 / 208 / 220 / 230 / 240 VAC
110-276 VAC (depends on load level)
<5% with full resistive load
25.8 A
45-55 Hz / 54-66 Hz
≥0.99
43 A
OUTPUT
Rated output voltage
Waveform
208* / 220 / 230 / 240 VAC
Sinusoidal
Voltage tolerance
(referred to 230V)
Voltage distortion
Overload capability**
(inverter mode)
Overload capability**
(bypass mode)
±1%
≤2% full linear load, ≤5% full non-linear load
2 min.: 105-125% load / 30s.: 125-150% load / 1s.: >150%
1 min.: 120-150% load / 10s.: >150% load / 1s.: >170%
Nominal frequency
Crest Factor
50 or 60 Hz x (1± 0.5 Hz on battery mode)
3:1
TRANFER TIME
Battery inverter
Bypass inverter
Inverter to Eco-mode
Eco-mode to inverter
EFFICIENCY
0 ms
0 ms
0 ms
<10 ms
AC-AC
≥ 92%
In eco-mode
≥ 96%
ENVIRONMENT
Protection rating
UPS storage temperature
Batteries storage
temperature
IP 20
-15 – +60°C
0~35°C
Operating temperature
Relative humidity
Altitude (above sea level)
BATTERY
0 – 45°C
0-95% (Non-condensing)
<1000m for nominal power*
Type
VRLA, vented lead-acid
Battery configuration
Backup time (100% load)
Charging current
Recharge time
EXBAT max current
COMMUNICATIONS
User interface
-
-
4A
-
32A
20 x 7.2Ah
6 minutes
1.2 A
3h to 90%
32A
-
-
4A
-
50A
20 x 9Ah
4 minutes
1.2 A
3h to 90%
50A
LCD display
Communication cards
STANDARDS
SNMP (option), AS400 relay card (option)
Safety
IEC/EN 62040-1
Performance
IEC/EN 62040-3
RoHS
Manufacturing
IEC/EN50581:2012
ISO 9001:2008, ISO 14001:2004
WEIGHT, DIMENSIONS
Weight
25.4 kg
80 kg
28.3 kg
84 kg
Dimensions WxHxD
260 x 708 x 558 mm 260 x 708 x 558 mm 260 x 708 x 558
260 x 708 x 558
*Technical specifications are subject to change without notice.
*The load capacity is de-rated to 90% when the output voltage is adjusted to 208VAC.
*The overload capacity is de-rated in Online mode if the ambient temperature is higher than 35 ºC.
* The load capacity is de-rated by 1% for every 100m above 1000m.
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