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PowerWAVE 1000
1 kVA to 10kVA Technical Specification
PowerWAVE 1000 UPS SYSTEM DESCRIPTION
By employing the latest technological developments in power engineering, the PowerWAVE 1000 represents a new
generation of transformerless, single phase output UPS-System. Its advanced double conversion Voltage and Frequency
Independent (VFI) topology responds fully to both the highest availability, and environmentally friendly requirements,
compliant with IEC 62040-3 (VFI-SS-111) standards.
PowerWAVE 1000 model range
The PowerWAVE 1000 UPS range comprises seven models rated from 1 kVA to 10 kVA, each of which can be
mechanically configured to be floor standing (Tower) or rack-mounted in a standard 19 inch cabinet. An accessory pack
containing all the parts necessary to prepare the enclosures for both types of installation is available.
For the purpose of this specification, the 1 kVA, 2 kVA and 3 kVA models are grouped into the PowerWAVE 1000 “Low
Power” range and the 4.5 kVA, 6.0 kVA, 8.0 kVA and 10.0 kVA models into the “High Power” range. All models share the
same advanced design principles; however, the “High Power” models offer additional features and functionality over and
above that which is available from the models in the “Low Power” range.
Key design features (common to all modules)
The highlights of the PowerWAVE 1000 UPS system include its high reliability, low operating costs and excellent electrical
performance.
Its key features include:
• High-frequency transformerless technology with a rack/tower-compatible enclosure which permits the integration of
the UPS even under the most challenging space constraints.
• Compliance with stringent international standards for electromagnetic interference & protection.
• True on-line technology continuously supplies your critical applications with stable, regulated, transient-free, pure
sine-wave AC power.
• User friendly design that permits simple and trouble-free installation.
• Highly efficient PWM sine-wave technology yields excellent UPS efficiency. The high crest factor of the inverter
handles peak inrush current loads and so avoids a need to upgrade to a UPS with a higher power rating.
• Fully digitized control logic for better functionality and high quality output power supply. Digital signal processing
(DSP) also provides an efficient communication capability that enhances the UPS flexibility for easy remote control
and monitoring.
• A DC-start function permits the UPS to be started during a utility power failure if required.
• The wide input voltage tolerance, from 120V~288V, allows the UPS to operate without draining the battery
unnecessarily during mains under-voltage or overvoltage conditions – which extends the battery service life.
• An active power factor correction (PFC) control function continuously corrects the UPS input power factor (PF) to
>0.99, which results in outstanding energy efficiency.
• Maintenance-free battery reduces the need for after-sales service.
• A revolutionary battery management circuit continuously analyses the battery status during discharge and adjusts
the battery cut-off point accordingly – which extends the battery service life.
• An overload detection system automatically switches the UPS output from its inverter to an internal bypass in the
event of an overload that exceeds the rated inverter capacity; and automatically switches back to the inverter mode
once the overload condition clears.
• Output short-circuit protection which puts the UPS system in stand-by mode and cuts off the output supply until the
short circuit is manually remedied.
• Selectable bypass input voltage tolerance (low/high sensitivity) to restrict the range of voltages that can be applied
to the load when the UPS operates on bypass. The selectable voltage ranges are 184~260V (low sensitivity) and
194~260V (high sensitivity).
• A single module UPS can be operated in a frequency-changer mode with 50/60 Hz or 60/50 Hz input/output
frequency operation. When operating in this mode the bypass circuit is disabled, so it is normal to derate the
system as the bypass supply is not available to assist with handling rapid overload conditions.
2
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
Low power model range design features
Maximum output power
Dimensions (WxHxD)
Weight (230V version with standard batteries)
Sound level
PW1000/1
PW1000/2
kVA (kW)
1.0 (0.8)
2.0 (1.6)
PW1000/3
3.0 (2.4)
mm
440x88x405
440x88x650
440x88x650
kg
15.1
28.2
29.8
dBA
<50 (at 1m)
<50 (at 1m)
<50 (at 1m)
The 1 kVA, 2 kVA and 3 kVA models are designed to operate as an independent single module UPS system only, and
cannot be paralleled. In this range, the batteries are contained within the UPS enclosure to provide a self-contained
module: but an optional external battery kit is available to supplement the standard internal batteries in order to extend the
UPS autonomy time if required. Where used, the external battery is contained in a matching enclosure which, when
configured as a Tower installation, is mechanically attached to the UPS enclosure to form a single, floor-standing unit.
When rack mounted, the external battery enclosure must be installed immediately adjacent to the UPS enclosure; and due
to the weight of the equipment it is usual to mount the UPS/Battery enclosure(s) near the bottom of the rack cabinet.
In this power range all input and output power cables are connected to standard IEC sockets fitted to the back of the
equipment, and suitable power cables are supplied as standard.
High power range design features
PW1000/4.5
Maximum output power
Dimensions (with batteries) (WxHxD)
Sound level
PW1000/8.0
PW1000/10.0
kVA(kW)
4.5 (4.05)
6.0 (5.4)
8.0 (7.2)
10.0 (9.0)
mm
440x88x680
440x88x680
440x132x680
440x132x680
(3U+3U) x 680
19" rack mounting (UPS+Batt)
Weight
PW1000/6.0
(2U+3U) x 680
(2U+3U) x 680
(3U+3U) x 680
kg
24.0
24.0
26.0
26.0
dBA
<50 (at 1m)
<50 (at 1m)
<50 (at 1m)
<50 (at 1m)
The 4.5 kVA to 10.0 kVA models can be operated as an independent, single module UPS system, or up to four modules
can be connected together as part of a parallel module UPS system. In a parallel module system, the module outputs are
connected in parallel to enhance the overall system reliability through the provision of module redundancy. A parallel
module system can be initially installed with fewer than four modules and expanded (up to the full four modules) later as
the load demand increases. Such an expansion is straight-forward and does not require modification to the existing
modules, but note that all the modules connected in a parallel system must be of the same power rating.
In this power range the number and weight of batteries preclude them from being fitted within the UPS enclosure and they
are instead fitted within a matching ‘battery enclosure’ as standard.
Models in this power range can be operated as an ‘OFF LINE’ UPS, whereby the load is normally connected to the mains
supply and transferred to the UPS inverter if the mains supply fails. Owing to the slightly reduced running costs, due to
there being no inverter losses during normal operation, this is sometimes known as the ‘ECO mode’ of operation;
however, this mode is not suitable for all loads due to an unavoidable momentary load break occurring during the load
transfer from the (failed) bypass supply to the inverter.
Features summary
Low Power Range (1 kVA to 3 kVA)
High Power Range (4 kVA to 10.0 kVA)
Floor-standing Tower installation
Yes
Yes
19 in Rack-mounting installation
Yes
Yes
Standard battery installation
Single/Parallel system operation
Internal (with external enclosure option)
External enclosure only
Single only
Single or Parallel (up to 4 modules)
Off-line operation (ECO mode)
No
Yes (for suitable loads)
Frequency changer operation
Yes, 50/60 or 60/50 Hz (Single module only)
Yes, 50/60 or 60/50 Hz (Single module only)
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
3
GENERAL SPECIFICATIONS (Low power range)
UPS Module
PW1000/1 kVA
PW1000/2 kVA
PW1000/3 kVA
Input :
Nominal voltage window
Single phase, 120 - 288 VAC (@33% load)
Single phase, 140 - 288 VAC (@66% load)
Single phase, 160 - 288 VAC (@100% load)
Frequency
50/60 Hz ± 5 Hz (Auto sensing),
Phases
Single
Power factor
>0.99 at full rated linear load
Output :
Voltage
Single phase, 230 VAC, selectable at 200/208/220/230/240 VAC
2 programmable outputs (setting via software)
Voltage regulation
Capacity
±1% (until low battery warning)
1000VA / 800W
2000VA / 1600W
Power factor
Current (max.)
Waveform
3000VA / 2400W
0.8 lagging
4.35A
8.7A
13.04A
Sine Wave ≤ 3% THD (linear load), ≤ 7% THD (non linear load)
Frequency stability
±0.1 % (unless synchronised to line)
Synchronisation window
±3 Hz or ±1 Hz (selected via software)
Transfer time Inverter-Bypass (typical)
2.5 ms
0 ms
Crest factor
3:1
DC Start
Yes
Efficiency :
Mains operation (100/ 75/ 50/ 25% Load)
85/ 82/ 82/ 80%
88/ 85/ 85/ 83%
Battery mode (100/ 75/ 50/ 25% Load)
83/ 80/ 80/ 78%
85/ 82/ 82/ 80%
Protection:
Overload capability (AC mode & Backup mode)
(Delay before switching to bypass)
Up to 105% load = continuous operation,
from 106%...120% load = switching to bypass after 30 sec.
from 121%...150% load = switching to bypass after 10 sec
from 151 % load = switching to bypass immediately
Overload capability (On Battery mode)
>150% load = immediate UPS shutdown
Short circuit handling
In normal mode: output breaker / electronic fuse
In battery mode: output breaker / electronic fuse
In bypass mode: input fuse
Over temperature (AC Mode)
Switch to bypass
Over temperature (On Battery mode)
Immediate UPS shutdown
Emergency Power Off (EPO) button
UPS total shuts down and isolated the load on operation
Battery :
Battery type
Battery quantity (12V)
VRLA, leak-proof (lead-acid), hot swappable
3 x 7.2Ah
Autonomy time (standard battery)
Float charging voltage
Maximum charging current (built-in charger)
Charging time to 90% load
Discharging current (with UPS and Mains OFF)
Life cycle (typical)
4
6 x 7.2Ah
6 x 9.0Ah
82 VDC ± 0.5
82 VDC ± 0.5
2.1A
2.7A
>7 min
41 VDC ± 0.5
1.8A
>5 min
4 hours
< 30uA ± 10 uA
Up to 5 years, at max. 20°C ambient temperature
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
PW1000/1 kVA
PW1000/2 kVA
PW1000/3 kVA
Display Panel:
LED
Normal input, Programmable outlet 1, Programmable outlet 2, Normal Output, Fault
LCD Metering display
Input voltage, Input frequency, Output voltage, Output frequency, Load percentage, Battery
voltage, Internal temperature
LCD Status display
Module mimic showing operating status,
Fault and diagnostic indications
Software configuration menu indications
Operator buttons (keys)
UPS ON/OFF, Alarm Test/Silence, Meter selection, Software menu selection
Audible Alarms :
Battery mode
Audible beep every 1.5 seconds
Battery low
Audible beep every 0.2 seconds
Overload
Audible beep every 3.0 seconds
General error
Continuous alarm sound permanently (or every 3 seconds)
Communications Options :
In-built computer interfaces
1 x RS-232, 1 x USB
Optional plug-in interface cards
SNMP-Card, Modbus-Card, Relay-Card
Compatible operating systems
Windows, Unix (and derivatives), OS/2, Novell, AppleOS
Hardware Options :
Accessories
External bypass
External battery module
Output distribution
19 in rack mounting rails
Environmental:
Temperature (°C)
Operating: 0-40°C / Storage: 0-45°C
Altitude
0-2000m up to 40ºC / 3000m up to 35ºC
Humidity
0%...90%, non-condensing
Heat dissipation (approx.)
275W
150W
Sound level
415W
50 dBA (@ 1m)
Mechanical Data :
Dimensions (WxHxD) mm
440x88x405
19" rack mounting space
2U x 440mm
Weight (net)
Weight (including standard batteries)
440x88x650
2U x 650mm
15.1 kg
28.2 kg
19 kg
30 kg
Input power connectors
Output power connectors
Other connectors
29.8 kg
33 kg
IEC-C14
IEC-C20
6 x IEC-C13
4 x IEC-C13, 1 x IEC-19
1 x USB, 1 x RS232, 1 x 2-pole EPO-Connector 1 x Interface Slot
Standards :
Safety
EN 62040-1-1, IEC 60950-1
EMV Compatibility
EN 62040-2, EN 61000-3-2, EN61000-3-3, FCC-A
Performance features
IEC/EN 62040-3
Product certification
CE, FCC (additional versions on request)
Protection class
IP 20
Manufacturing standards
ISO 9001.2000
External battery enclosure (option)
Batt. Capacity
Qty.
Net Weight
Weight with batts. fitted
Dimensions (WxHxD)
PWBAT-7-12
7 AH
12
8 kg
38 kg
440x88x650 mm
PWBAT-9-12
9 AH
12
8 kg
38 kg
440x88x650 mm
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
5
GENERAL SPECIFICATION (High power range)
UPS module
PW1000/4.5
PW1000/6.0
PW1000/8.0
PW1000/10.0
Input :
Nominal voltage
1φ, 160- 288VAC,
3φ, 277 - 485VAC
Single phase 160 VAC- 288 VAC
Frequency
50 - 65 Hz, ±5 Hz (auto sensing)
Phase
Single
Power factor
Single or three
Up to 0.99 at full rated linear load
Input current total harmonic distortion (THDi)
< 6% at 100% linear load
Output :
Voltage
200/208/220/230/240 VAC (selectable) (208/120V optional)
Voltage adjustment
±0%, ±1%, ±2%, ±3% (selected by software)
Voltage regulation
Capacity
±2%
4500VA/4050W
6000VA/5400W
Power factor
8000VA/7200W
10000VA/9000W
0.9 Lagging
Wave form
Sine wave, THD<3% (linear load)
Frequency stability
±0.2% (unless synchronised to line)
Synchronisation window
±1 Hz, ±3Hz (selectable via software)
Transfer time Inverter-Bypass (typical)
0 ms
Crest factor
3:1
DC Start
Yes
Efficiency :
Efficiency (AC to AC Normal)
91%
Efficiency (AC to AC ECO mode)
Up to 92%
Up to 93%
Up to 96%
Protection :
Overload capability (AC mode & Backup mode)
Up to 105% load = normal operation,
from 106%...120% load = switching to bypass after 1 min.
from 121%...150% load = switching to bypass after 10 Sec
from 151 % load = switching to bypass immediately
Overload capability (bypass operation)
<105% load continuously
>106%...120% load for 250sec shut down
>121%...130% load for 125sec shut down
>131%...135% load for 50sec shut down
>136%...145% load for 20sec shut down
>146%...148% load for 5sec shut down
>149%...157% load for 2sec shut down
>158%...176% load for 1sec shut down
>177%...187% load for 0.32sec shut down
>188% load for 0.16sec shut down
Short circuit handling
In normal mode: output breaker / electronic fuse
In battery mode: output breaker / electronic fuse
In bypass mode: input fuse
Over temperature (AC mode)
Switch to bypass
Over temperature (Bypass mode)
Immediate UPS shutdown
Battery :
Battery type
VRLA, leak-proof (lead-acid)
Battery quantity (12V)
Autonomy time (full load)
Charging time to 90% load
External battery connection
Life cycle (typical)
6
20 x 7.0 Ah
>7 min
20 x 9.0 Ah
>4 min
>4 min
4 hours
>2 min
6 hours
Plug & play (cable provided)
Up to 5 years, at max. 20°C ambient temperature
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
PW1000/4.5
PW1000/6.0
PW1000/8.0
PW1000/10.0
Display Panel :
Status on LED and LCD
On-line mode, On-battery mode, ECO mode, Input supply, Bypass supply, Battery low, Battery
bad/disconnect, Overload, Transfer with interruption, UPS fault
LCD Metering display
Input voltage, Input frequency, Output voltage, Output frequency, Load percentage, Battery
voltage, Internal temperature
LCD Status display
Module mimic showing operating status, fault and diagnostic indications
Software configuration menu indications
Self diagnosis
Upon power-on, Front panel setting and software control,
24-hour routing checking
Operator buttons (keys)
UPS ON/OFF, Alarm test/silence, Meter selection, Software menu selection
Audible Alarms :
Line failure (‘on-battery’ mode)
Audible beep every 1.5 seconds
Battery low
Audible beep every 0.2 seconds
Overload
Audible beep every 3.0 seconds
Fault transfer to bypass
Will sound permanently (or every 3 seconds)
System fault condition
Will sound permanently (or every 3 seconds)
Communications Options :
In-built computer interfaces
1 x RS-232, 1 x USB
Optional plug-in interface cards
SNMP-Card, Modbus-Card, Relay-Card
Compatible operating systems
Windows, Unix (and derivatives), OS/2, Novell, AppleOS
Hardware Options :
Accessories
External bypass
External battery module
Output distribution
19 in rack mounting rails
Environmental :
Temperature (°C)
Operating: 0-40 / Storage: 0-45
Maximum altitude above sea level
0-2000m up to 40ºC / 3000m up to 35ºC
Humidity
0%...90%, non-condensing
Sound level
50 dBA (@ 1m)
Heat dissipation (approx)
450W
500W
600W
700W
Mechanical Data :
Dimensions (WxHxD) mm
440x88x680
440x132x680
19" rack mounting space
(2U+3U)x680
(3U+3U)x680
Weight (net)
24 kg
Input / output power connections
26 kg
Hardwired to terminal block
Other connectors
1 x USB, 1 x RS232, 1 x 2-pole EPO-Connector 1 x Interface Slot
Standards :
Safety
EN 62040-1-1, IEC 60950-1
EMV Compatibility
EN 62040-2, EN 61000-3-2, EN61000-3-3, FCC-A
Performance features
IEC/EN 62040-3
Product certification
CE, FCC (additional versions on request)
Protection class
IP 20
Manufacturing standards
ISO 9001.2000
External battery enclosure
Batt. Capacity
Qty.
Net Weight
Weight with batts. fitted
Dimensions (WxHxD)
PWBAT-7-20
7 AH
20
18 kg
68 kg
440x132x650 mm
PWBAT-9-20
9 AH
20
18 kg
68 kg
440x132x650 mm
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
7
COMMUNICATIONS OPTIONS
Four optional interface cards (described below) are available to meet various communication needs. These cards can be
fitted into an ‘options slot’ located behind a blanking plate on the UPS back panel. The communications software bundled
with the UPS is compatible with most operating systems including Windows 98, 2000, ME, NT and XT. For other
applications, such as Novell Netware, Unix or Linux please contact your local dealer for suitable products.
Although all the communication ports can be active simultaneously to monitor the UPS status, only one communication
has the ability to command and control the UPS at any given time.
The priority of the communication interfaces are:
• EPO input port
• Optional slot-mounted dry contact interface card
• USB Port
• RS-232.
Standard communication features
Operator control panel
1 x Operator control panel on each module
USB Port
1 x USB Port for connecting to PC monitoring and software management
RS-232 Interface
1 x 9-pin USB port for connecting to PC monitoring and software management
Emergency Power OFF interface
1 x N/O EPO contact brought to wired terminal block
Optional communication features via plug-in card slot (only one slot available)
Dry contact relay card
Volt free contacts for external facilities monitoring/control
RE2 Card
Provides an alternative RS-232 interface
USE Card
Provides an alternative USB interface
SNMP Card
SNMP adapter for remote UPS monitoring/control and software management
Operator Control Panel
1
A
2
2
1
?
LINE
UPS
LOAD
LOW
C
1
N+
O
EC
?
V
Hz
A
%
B
LINE
UPS
LOAD
LOW
C
V
Hz
A
%
C
O
N
O
FF
r
te
En
tio
nc
Fu
n
1 kVA - 3 kVA (Low power range)
A
B
C
8
O
N
FF
O
r
te
En
tio
nc
Fu
n
4.5 kVA - 10.0 kVA (High power range)
Led indicators
A row of leds indicate the UPS input and output power status, together with a general fault warning.
LCD Display
Provides indication of the UPS operating mode via a mimic diagram. Via a 4-digit alpha-numeric display, it also displays
metering of various input, output, and battery parameters; and displays error codes and UPS set-up data.
Operator Keypad
The keypad contains 6 keys that are used to navigate through the UPS control menu system and turn the UPS OFF/ON.
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
LED Indicators
1 kVA to 3 kVA (Low power range) – left to right
Input mains supply status:
ON = utility supply is between 168~288 VAC, FLASHING = supply between 120~159 VAC, OFF = utility supply failure.
Programmable outlet status (x2):
ON = Programmable outlet live. The UPS has two programmable outlets that can be set to turn off under certain
circumstance. These outlets are connected to less critical loads which (for example) can be shed when the utility power
fails in order to increase the autonomy time for the more critical loads.
Bypass supply status:
ON = bypass supply is available, FLASHING = the UPS is operating ON BYPASS.
UPS fault indication:
ON = There is a UPS fault condition that needs attention.
4 kVA to 10 kVA (High power range) – left to right
Input mains supply status:
ON = utility supply is between 168~288 VAC, FLASHING = supply between 120~168 VAC, OFF = utility supply failure.
Bypass mains supply status:
This indicates the state of the bypass supply. This supply is internally linked to the UPS input supply terminals except for
the 10 kVA UPS where the bypass terminals are optionally connected to a dedicated bypass supply. Indications are
interpreted as per the input mains supply status led above.
N+1 Redundancy status (Used in a parallel system only):
On = the number of on-line UPS modules exceeds the number required to power the existing load by at least one module.
ECO Mode (single module installation only):
ON = the UPS is selected to operate in the ECO mode.
UPS fault indication:
ON = There is a UPS fault condition that needs attention.
LCD Display
The LCD Displays contains a row of status and fault symbols, an active module mimic diagram and a multi-function four
digit alpha-numeric display.
Status and fault symbols:
The status symbols along the top of the display are normally hidden. They indicate load transfer inverter/bypass/inverter
events, earth fault, battery fault, overload and service mode.
Module mimic diagram:
The module mimic indicates the existing power flow through the UPS module/bypass, and the battery charger operation.
An arrowhead shown on the mimic indicates the existing LCD meter monitoring point – e.g input, output, battery.
4-digit alpha-numeric display:
The alpha-numeric display serves three purposes which are selected though the operator keypad.
• It provides a settings interface during UPS configuration.
• It provides error code information in the event of a UPS (or application) problem.
• It provides metering of Input voltage, Input frequency, Output voltage, Output frequency, Percentage load, Battery
voltage, Internal temperature
Operator keypad
The multi-function operator keypad provides a single point of UPS control for the following functions:
UPS ON/OFF control:
Separate keys are provided to turn the UPS ON and OFF. These keys must be held pressed for several second to activate
the ON/OFF function to prevent accidental selection.
Meter selection:
UP/DOWN selector keys permit the operator to scroll through the range of metered parameters (described above) and
select the parameter to be displayed on the LCD Meter.
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
9
UPS Configuration setup:
The FUNCTION, UP/DOWN and ENTER keys are used to control a menu driven UPS configuration facility as part of the
UPS installation process or application change.
Audible alarm cancel:
The ON key is also used to cancel the audible alarm following a fault event.
USB port
A USB type B socket is provided to allow the UPS to be connected to a PC using a standard USB peripheral interface
cable. The USB communication protocol complies with USB version 1.0 (1.5 Mbps) and USB HID version 1.0. This facility
can be used in conjunction with the UPS external monitoring and shutdown software (WAVEMON) and with the supplied
UPS Configuration Software.
RS-232 Interface port
The RS-232 port also allows the UPS to be connected to a PC. It can be used with the UPS external monitoring and
shutdown software (WAVEMON) and also with the supplied UPS Configuration Software.
Emergency power off (EPO)
An external emergency power off facility can be connected to a dedicated EPO socket provided on the back of the UPS.
An emergency power off event is activated when the external EPO circuit presents a short-circuit at the UPS EPO
terminals. Under normal conditions, the external EPO wiring must present a volt-free, ‘normally-open’ input.
A plug-in connector with screwed terminal connections is supplied ready-fitted to the EPO socket to simplify the
connection of the external cable if the UPS is located in a confined space, such as when it is rack mounted.
DCE (dry contact) card
The DCE dry contact card provides seven volt-free, switched outputs that can be used to control the automatic and orderly
shutdown of servers (e.g. AS400), or as control inputs to building management systems. The switched contacts are rated
at 40 VDC (max) and 25 mA, and the terminal block will accept cables up to 0.5 mm².
All the interface connections are wired to a 10-way terminal block situated on the back of the card. The function of each
terminal is shown in the illustration below. Note that all pins except Pins 9 and 10 (which are isolated) are link-selectable to
be either short-circuited or open-circuited to the common Pin 8 when the monitored parameter is ‘active’.
The UPS can be shut down remotely by connecting a DC voltage of 5.5V~25V between pins 9 (+) and 10 (-).
Pin
Terminal Block
10
Function
1
UPS on bypass mode
2
Utility input abnormal
3
Utility input normal
4
Inverter On
5
Battery Low
6
Battery weak or faulty
7
UPS fault Alarm
8
Common
9
Shutdown UPS positive (+) signal
10
Shutdown UPS negative (-) signal
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
USE (second USB) card
This card can be installed in the Option Slot located on the
rear of the UPS to facilitate an alternative USB interface
that can be used in addition to the standard USB port.
R2E (second RS-232) card
This card can be installed in the Option Slot located on the
rear of the UPS to facilitate an alternative RS-232 interface
that can be used in addition to the standard RS-232 port.
SNMP adapters
1
AC OUTPUT
AC INPUT
G
INTERFACE
External SNMP card
DC 36V
2
EPO
INPUT
BREAKER
Internal SNMP card
fitted in expansion slot.
Simple Network Management Protocol (SNMP) is a world-wide, standardised communication protocol that can be used to
monitor any network-connected device via a simple control language, and display the results in a browser-based
application.
The UPS management software can make your UPS data available in this SNMP format thanks to the software agent built
in to the SNMP adapter. Uninterruptible Power Supplies Ltd. offer software with SNMP functionality for Novell, OS/2, and
Windows that run both on INTEL and on ALPHA, DEC VMS and Apple.
Two models of SNMP adapters are available for use with the PowerWAVE 1000, both of which share the same
functionality. An internal SNMP card can be fitted into the communications card expansion slot located on the UPS rear
panel and communicates with the UPS via a serial interface. An optional external SNMP adapter can be used, located
remotely and connected to the UPS via its RS232 port.
The SNMP adapter can be configured via Telnet, http (browser) or serial connection. For normal operation, at least one
Ethernet network connection is necessary. Further details are provided in the manual that is supplied on the WAVEMON
installation CD.
RCCMD
RCCMD (Remote Console Command Module) for ‘multi-server shutdown’, is an independent software module intended
for transmitting and receiving ‘remote commands’. The new version RCCMD2 is, similar to WAVEMON, available for the
most widespread operating systems. Using the ‘RCCMD send’ function, the SNMP adapter can send status messages to
connected users or initiate automatic shutdown throughout the whole network. Our SNMP adapters are fully compatible
with RCCMD.
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
11
INSTALLATION PLANNING
The following guidelines should be taken into account when planning a suitable UPS location and environment.
Location considerations summary
• As the UPS weighs several kilograms, the location where the UPS is to be installed must meet be able to safely
support its weight.
• The UPS is designed for indoor use only.
• The installed location must be dry and free of excessive dust.
• The floor material where the UPS is to be located should be non-flammable.
• The ventilation grills at the front of the UPS and extractor fans at the rear of the UPS must not be obstructed.
• Local fire protection standards must be respected.
• Ensure that appropriate power supplies are available and that UPS cabling can be performed easily.
• The location must be vibration free.
Environmental considerations summary
• Avoid high ambient temperature, moisture and humidity.
Humidity (< 90% non-condensing) and temperature (0°C to +40°C) are the prescribed limits.
• An adequate air cooling flow must be available. Ensure the air conditioning system can provide a sufficient amount
of air cooling to keep the room at, or below, the maximum desired temperature. The UPS heat dissipation is
described in the specification tables given earlier.
• Ensure no dust or corrosive/explosive gases are present.
CLEARANCES
12
680 mm
800 mm
800 mm
Front
800 mm
Front
4.5 kVA /
10 kVA
650 mm
Note: Due to considerations of weight distribution,
the UPS/Battery enclosures must be kept level while
they are inserted into the rack to prevent them from
tilting backwards.
1 kVA
2 kVA
3 kVA
800 mm
A clearance of 800 mm is required at the rear of the
rack to permit pedestrian access to cable-up the
UPS; 800 mm is also required at the front of the rack
to allow sufficient room to lift and install the
enclosure(s) onto the rack mounting rails or shelf.
405 mm
An adjustable rack mounting kit that can be
extended to fit a 900 mm cabinet is available.
800 mm
When rack mounting the UPS in a standard 19
cabinet, a minimum cabinet depth of 900 mm is
required in order to provide an adequate exhaust
airflow from the cooling fans located on the rear of
the UPS enclosure.
800 mm
Rack mounting
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
Tower installation
With regards to a Tower installation, there are two sets of clearance criteria to consider; the first is to satisfy the cooling
ventilation requirements, and the other the installation and cabling requirements.
For ventilation purposes, a minimum of 300 mm (12 in) free space must be provided at the front and rear of the UPS to
permit adequate cooling air flow; however, a rear clearance of 500 mm (20 in) and side clearance of 300 mm (12 in) is
necessary to access the rear of the UPS for cabling. Depending on the installed location, a compromise can sometimes be
achieved by installing the UPS with a sufficient cable length to enable it to be pulled forward sufficiently for rear access.
If the UPS is installed in a location which subject to regular pedestrian passage, it is recommended that the front clearance
is increased to at least 1000 mm (40 in).
500 mm
UPS Enclosure tower footprint
2 kVA / 3 kVA
(External Batt.)
176 x 650 mm
300 mm
2 kVA / 3 kVA
(Internal Batt.)
88 x 650 mm
Rear
cabling
access
300 mm
1 kVA
(Internal Batt.)
88 x 405 mm
300 mm
Minimum
front/back
ventilation
for cooling
4.5 kVA / 6 kVA
8 kVA / 10 kVA
220 x 680 mm
264 x 680 mm
1000 mm
300 mm
Safe
pedestrian
passage
POWER CABLING
In order to minimise any problems due to noise interference, separate cable runs should be used for the power cables and
control cables. In particular, if the control cables have to run parallel to the power cables keep a separation distance of
200 mm is recommended if possible. Do not attach the control cables to the power cable looms using cable ties, spiralwrap or any other means. Where the control cables have to cross the power cables make best effort to ensure they do so
at an angle of 90º.
UPS input/output power cables
Depending on the model variant, the UPS input and output power cables can be connected either by means of a single
plug/socket or hard-wired to a terminal block. If a plug/socket arrangement is used then a ready cabled plug will be
supplied with the UPS equipment. If a terminal block connection is used then the provision of all external cables and fuses
(or circuit breakers) used to connect the UPS input and output terminals to their respective distribution panels is the
responsibility of the customer. All cables and fuses should be rated according to the maximum UPS system rating in
accordance with local regulations. For guidance:
• Fuse and cable recommendations must be to IEC 60950-1:2001.
• All external fuses, isolators and power cables must be rated and installed in accordance with the prescribed IEC
standards or local regulation – e.g. BS7671:2008.
To obtain the optimum balanced conditions in a parallel UPS system, the input power cables to each UPS module from
the mains switchboard should be of equal length; and the output cables from all UPS modules to the load distribution
panel should also be of equal length. All input and output power cables should be a maximum of 25m.
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
13
1 kVA to 3 kVA models
All power cables are connected using standard IEC cables supplied with the UPS.
4.5 kVA and 6.0 kVA UPS
Depending on version, the power cables are either connected using a 5-pin plug (supplied) or hardwired.
OUTPUT
OUTPUT
INPUT
G2
OUTPUT
INPUT
L
N
L
N
(3) Output Live
(2) Input Neutral
INPUT
G1
N1
L12
Output Live
(1) Input Live
(4) Output Neutral
N22 L22
Input Live
Output Neutral
Input Neutral
Output Earth
(Ground)
(5) Earth (Ground)
Input Earth
(Ground)
UPS
BATTERY
SYSTEM
RATING
Max. Current
4.5 kVA
25A
6 mm²
2 Nm
19A
6 mm²
6.0 kVA
33A
10 mm²
2 Nm
25A
6 mm²
Conductor
Torque
Max. Current
Conductor
8.0 kVA and 10.0 kVA (single phase input) UPS
Depending on version, the power cables are either connected using a 6-pin plug (supplied) or hardwired.
Output Line [L21]
Output Line [L21]
Input Line [L12]
Output Neutral [N22]
Output Neutral [N22]
Input Neutral [N1]
Earth (Ground) [G2]
(Not used)
Input Earth [G1]
(Ground
Output Earth [G2]
(Ground)
The 8.0 kVA and 10.0 kVA terminal block version has a split
bypass facility whereby the utility input and bypass input
supplies can be connected to independent sources.
Earth (Ground) [G1]
Input Neutral [N1]
If you do not want to connect a separate bypass supply you
must link together terminals [L11] and [L12].
14
Input Line [L12]
Bypass Line [L11]
UPS
BATTERY
SYSTEM
RATING
Max. Current
Conductor
Torque
Max. Current
8.0 kVA
43.4A
10 mm²
2 Nm
33A
6 mm²
10.0 kVA
54.3A
16 mm²
2 Nm
41A
10 mm²
Conductor
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
10.0 kVA (three phase input) UPS
The three-phase version of the 10kVA UPS is hardwired only.
The 10.0 kVA UPS model is available as a three-phase input (single
phase output) version, and connected as shown.
Note that the input R phase is also connected internally as the static
bypass line and must therefore be capable of carrying the fully rated
single phase output current.
Output Live [L21]
Output Neutral [N22]
Earth (Ground) [G2]
Earth (Ground) [G1]
10 kVA 3 Phase input UPS
Max current
54.3A
Conductor
16 mm² / 25 mm²
Input Neutral
16 mm² / 25 mm²
Output max current
Output conductor
54.3A
Input Neutral [N1]
16 mm² / 25 mm²
Input Line [T]
Battery max current
41A
Input Line [S]
Battery conductor
10 mm²
Input Line [R]
UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013
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UPS726-01-00 PW1000 Technical Specification 1 to 10kVA - Dated 5 August 2013