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Uninterruptible Power Supplies PowerWAVE 9000DPA User Manual

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PowerWAVE
9000DPA

User Manual

Pioneering solutions for
total power protection

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Summary of Contents for Uninterruptible Power Supplies PowerWAVE 9000DPA

  • Page 1: User Manual

    PowerWAVE 9000DPA User Manual Pioneering solutions for total power protection...
  • Page 3 Document Control ISSUE DATE REVISION SUMMARY 471-02-00 06/08/2014 Manual revised and published as 471-02-00 UPS471-02-00 PW9000DPA User Manual UK Dated 06/08/14...
  • Page 4 Uninterruptible Power Supplies Ltd has taken every precaution to produce an accurate, complete and easy to understand manual and will therefore assume no responsibility nor liability for direct, indirect or accidental personal or material damage due to any misinterpretation of or accidental mistakes in this manual.

  • Page 5: Table Of Contents

    Table of Contents Safety 1.1 Description of symbols used in this manual 1.2 User precautions General Description 2.1 Introduction 2.2 PowerWave 9000 Model range 2.2.1 Advanced design features 2.3 Functional description of operation 2.3.1 PowerWave 9000 Module block diagram 2.3.2 UPS Module operating modes 2.3.3 UPS System operating modes 2.3.4 Multi-module parallel system operation 2.4 PowerWave 9000 User controls...
  • Page 6 Operation 4.1 Introduction 4.1.1 Operating procedure summary 4.2 Operating Instructions 4.2.1 Starting the UPS system from the maintenance bypass 4.2.2 Individual module start/stop procedure in a parallel system 4.2.3 Transfer the load from UPS to maintenance bypass mode 4.2.4 Complete system shutdown 4.3 Replacement of the UPS module in a single module system 4.3.1 Removing a UPS Module in a single module system (e.g.
  • Page 7 Specifications 8.1 Mechanical Characteristics 8.2 Input Characteristics 8.3 Battery 8.4 Output 8.5 Environmental 8.6 Packed weights 8.7 Cable and fuse sizing (Single feed input) 8.8 Cable and fuse sizing (Dual feed input) UPS471-02-00 PW9000DPA User Manual UK Dated 06/08/14...
  • Page 8 UPS471-02-00 PW9000DPA User Manual UK Dated 06/08/14...

  • Page 9: Safety

    1: Safety Safety Description of symbols used in this manual WARNING: The warning symbol is used where there is danger of an electrical shock, equipment damage or personal-injury. CAUTION: The caution symbol is used to highlight important information to avoid possible equipment malfunction or damage.

  • Page 10: General Description

    High reliability, upgrade ability, low operating cost and excellent electrical performance are just some of the highlights of this innovative UPS solution. Uninterruptible Power Supplies Ltd specialises in the installation and maintenance of Uninterruptible Power Systems; and this powerful UPS is just one example of our wide range of state-of-the-art power protection devices that will provide your critical equipment with a steady and reliable power supply for many years.

  • Page 11: Powerwave 9000 Model Range

    2: General Description PowerWave 9000 Model range The PowerWave 9000 UPS is based on a range of 30kVA to 50kVA plug-in power modules fitted into one of three purpose-designed cabinets. Each power module is a self-contained UPS comprising a rectifier, battery charger, inverter and static switch;...

  • Page 12: Advanced Design Features

    2: General Description 2.2.1 Advanced design features Hot-swappable modules In a redundant module system the unique ‘hot-swappable’ feature enables a UPS power module to be inserted or removed from its cabinet whilst it is still powered (hot) without having to shut down the load or transfer it to the bypass supply.

  • Page 13: Functional Description Of Operation

    2: General Description Functional description of operation This section describes: • The internal operation of an individual UPS power module at block-diagram level (see paragraph 2.3.1) • The various operational modes of an individual UPS power module (see paragraph 2.3.2) •...

  • Page 14: Ups Module Operating Modes

    2: General Description UPS Output (load) supply Figure 2.3 shows that the UPS output (Load Supply) can be provided through one of three power paths depending on the UPS operating mode: • From the inverter (4), via the static switch and isolator IA2 •...
  • Page 15 2: General Description If the mains supply fails, the LINE 1 led will extinguish and the rectifier will shut down. The battery now provides an alternative DC power source for the inverter via the charger/booster and the BATTERY led will flash green to indicate that it is on load.

  • Page 16: Ups System Operating Modes

    2: General Description Load on Maintenance Bypass MAINTENANCE BYPASS LINE Bypass Supply STATIC BYPASS LINE Load Supply STATIC  SWITCH Mains Supply RECTIFIER INVERTER Charger BATTERY PW9000 DPA Cabinet Figure 2.7 Load on maintenance bypass In this mode of operation the manually closed maintenance bypass switch (IA1) connects the load supply directly to the unprocessed bypass supply.

  • Page 17: Multi-Module Parallel System Operation

    2: General Description WARNING: The on-line mode must always be used for critical load protection. 2.3.4 Multi-module parallel system operation As described above, the PowerWave 9000 cabinets are designed to Operator Control Panel (for each Module) accommodate between one and five UPS power modules. Each module has an individual output power isolator (IA2) which connects the module's output to the cabinet’s output power terminals.
  • Page 18 2: General Description Three-cabinet parallel system with interconnected Parallel Control Bus 5x Power Modules in each cabinet Inter-cabinet Parallel Control Bus Cabinet 1 Cabinet 2 Cabinet ‘n’ CABINET 1 Control  MAINTENANCE BYPASS LINE Logic Bypass Supply STATIC BYPASS LINE STATIC  Mains SWITCH Supply RECTIFIER INVERTER BATTERY Charger POWER MODULE 1‐5...

  • Page 19: Powerwave 9000 User Controls

    2: General Description PowerWave 9000 User controls The following illustrations show the location of the PowerWave 9000 power switches and fused isolators that are used when operating the equipment. Note that the input mains fuse (F1) is located within the module and is not accessible with the module in-situ.
  • Page 20 2: General Description DPA-150 Component identification The DPA-150 can be fitted with up to three UPS power modules, with the uppermost module identified as module 1. The battery fuses (F4) are identified with their associated power module on the panel silk-screen – e.g. F4-2 is the battery fuse associated with module 2.

  • Page 21: Ups Module Control Panel

    2: General Description DPA-250 Component identification The DPA-250 contains no batteries and can be fitted with up to five UPS power modules, with the uppermost module identified as module 1. The module parallel isolator switches (IA2) are identified with their associated power module on the panel silk-screen – e.g.

  • Page 22: Ups Module Control Panel Keys

    2: General Description Mimic LED Indicators Power Management Display (PMD) Module ON/OFF control keys Alarm & Reset Menu navigation & selection keys Figure 2.13 UPS Module control panel 2.5.1 UPS Module control panel keys The keys on the operator control panel allow the user to: •...

  • Page 23: Module Mimic Leds

    2: General Description 2.5.2 Module mimic leds The mimic diagram leds indicate the status of the general UPS power flow and change colour between Green and Red (and OFF) to indicate the present UPS operating conditions. LED Indication summary Indicator Indicator Status Interpretation LINE 1...
  • Page 24 2: General Description DESCRIPTION LCD-DISPLAY SYSTEM CONFIGURATION Unit:01/1 1. Single Systems. SINGLE SYSTEM CONFIGURATION Unit:02/2 2. Parallel System e.g. First Cabinet/Master Modules no 2 in slot 2. PARALLEL LOAD OFF Unit:05/3 3. Parallel System e.g. Second Cabinet/Slave Modules no 5 in slot 3. SUPPLY FAILURE LOAD DISCONNECTED Unit:06/4...
  • Page 25 2: General Description Measurements menu screen DESCRIPTION LCD-DISPLAY BATT. RUN TIME (MIN) 1. Battery Runtime 00h 00mm OUTPUT FREQUENCY (HZ) 2. UPS-Output Frequency 50.00 BYPASS FREQUENCY (HZ) 3. Bypass Frequency. 50.00 BATTERY VOLTAGE (V) 4. Battery Voltage +0.0 - 0.0 BATT.
  • Page 26 2: General Description UPS Data menu screen DESCRIPTION LCD-DISPLAY UPS SERIAL NUMBER 1. These general UPS Data are installed at the manufacturing plant. nn-nnnnn DATE OF MANUFACTURE 2. Manufacturing date 15-03-09 EPROM VERSION 3. EPROM Version V-000 DATE TIME 4. Actual Date and Time dd-mm-yyyy hh:mm:ss Set-up User menu screen...
  • Page 27 2: General Description Set-Up Service menu screen DESCRIPTION LCD-DISPLAY  SET-UP SERVICE 1. This Menu is reserved for authorized service engineers. It is not to be used by End- PASSWORD Users.  PASSWORD* 2. Type in password. Key Point: It is essential to enter the password. From within the Set-up Service menu a service engineer can adjust the UPS voltages, frequencies, currents, power and autonomies, together with setting up: •...

  • Page 28: Warranty

    If the UPS fails to conform to the above within the warranty period then Uninterruptible Power Supplies Ltd. will, at its sole option, repair or replace the UPS. All repaired or replaced parts will remain the property of Uninterruptible Power Supplies Ltd.
  • Page 29 2: General Description Fax to: 01256 386701 www.upspower.co.uk Uninterruptible Power Supplies Ltd Woodgate Bartley Wood Business Park Hook Hampshire RG27 9XA Tel: 01256 386700 Name: .................... Job Title: .................... Company: .................... Address: ..........................................................................Post Code .................... Tel.

  • Page 30: Installation

    All installation and operating procedures must be carried out in strict accordance with the instructions contained in this manual. Uninterruptible Power Supplies Ltd will take no responsibility for any personal injury or material damage caused by the incorrect installation, cabling or operation of this product.

  • Page 31: Unpacking

    3: Installation CAUTION: Potential dangers: • If the UPS/battery cabinet is tilted by more than 10° it could cause internal damage. If tilting occurs do not connect the UPS to the mains electrical supply. • The weight of the UPS/battery equipment can cause serious personal injury and/or structural damage to the surrounding area if dropped in transit.

  • Page 32: Planning The Installation (Site Considerations)

    3: Installation Planning the installation (site considerations) A certain amount of pre-planning will help ensure a smooth and trouble-free installation of the UPS system. The following guidelines should be taken into account when planning a suitable UPS location and operating environment. The route to the installation location must allow the equipment to be transported in an upright position.

  • Page 33: Planning The Installation (Cabling Considerations)

    3: Installation Planning the installation (cabling considerations) 3.6.1 General requirements The information in this section should help with the preparation and planning of the UPS power cabling. It is the customer’s responsibility to provide all external fuses, isolators and cables that are used to connect the UPS input and output power supplies.
  • Page 34 3: Installation MAINS DISTRIBUTION BOARD Mains Supply  (3x380/400/415) UPS MAINS SUPPLY INPUT/ BYPASS LINKS FITTED 1L1 – 2L1, 1L2 – 2L2, 1L3 – 2L3, 1N – 2N Cable E Rectifier Rectifier Rectifier Inverter Inverter Inverter Static Switch Static Switch Static Switch Maint. Bypass IA 2 IA 2 IA 2 IA 1 PW9000  CABINET BATTERY 1 LOAD DISTRIBUTION BOARD Cabinet Power Single Input (3 x 400V) Output (3x400V, 0.8 pf) (Frame) (kVA) Fuse A (A)
  • Page 35 3: Installation MAINS DISTRIBUTION BOARD Mains Supply  (3x380 /400/415) Mains Supply  (3x380/400/415) UPS MAINS SUPPLY UPS BYPASS SUPPLY Cable E Rectifier Rectifier Rectifier Inverter Inverter Inverter Static Switch Static Switch Static Switch Maint. Bypass IA 2 IA 2 IA 2 IA 1 PW9000  CABINET BATTERY 1 LOAD DISTRIBUTION BOARD Cabinet Power Dual Input (3 x 400V) Output (3x400V, 0.8 pf) (Frame) (kVA) Fuse B/C...

  • Page 36: Ups Power Cable Termination Sizes

    3: Installation 3.6.3 UPS Power cable termination sizes The table below gives details of the cable termination sizes applicable to the various models across the PowerWave 9000 range. Cabinet Battery Input* Output* (Frame) (+ / N / -) +PE Bypass 3+N Rectifier 3+N+PE 3+N+PE DPA-50...
  • Page 37 3: Installation Bypass Mains Input (Dual feed only) Remove links for  dual feed input + + + External Battery Protective Earth Mains UPS Output Common battery links Input Figure 3.6 DPA-150 Terminal connections Bypass Mains Input (Dual feed only) Protective Earth Remove links for  dual feed input + + + UPS Output Common battery links Mains Input External Battery Figure 3.7 DPA-250 Terminal connections UPS471-02-00 PW9000DPA User Manual UK Dated 06/08/14...

  • Page 38: Power Cabling In A Multi-Cabinet Installation

    3: Installation 3.6.5 Power cabling in a multi-cabinet installation In order to achieve equal load sharing between the UPS cabinets in a multi-cabinet installation, the input cables from the input distribution board to each cabinet should be of equal length, as should the UPS output cables to the output distribution board (See Figure 3.8).

  • Page 39: Battery Cabling Considerations

    3: Installation 3.6.6 Battery cabling considerations The PowerWave 9000 UPS battery comprises a number of (30-50) sealed, maintenance-free batteries that are mounted either within the UPS cabinet (DPA-50 & DPA-150) or in an external battery cabinet(s) (DPA-250). An external battery cabinet can also be used in conjunction with the DPA-50 or DPA-150 to increase the available battery autonomy time if required.
  • Page 40 3: Installation EXTERNAL BATTERY CABINET UPS CABINET TO UPS Modules For reasons of clarity, the wiring for modules 1,3,5 only is shown in detail EXTERNAL BATTERY CABINET UPS CABINET TO UPS Modules Figure 3.10 External battery cabinet wiring (5-module UPS cabinet shown) UPS471-02-00 PW9000DPA User Manual UK Dated 06/08/14...
  • Page 41 3: Installation Internal battery installations DPA-50 A DPA-50 cabinet contains a single UPS power module and can accommodate up to 280 x 7Ah internal batteries. Figure 3.11 shows the different battery configurations. UPS Module UPS Module UPS Module 10x7Ah 10x7Ah 10x7Ah 2x5x7Ah 10x7Ah...
  • Page 42 3: Installation External battery installations Two matching external battery cabinets are available: • CBAT DPA-120 for battery configurations of 24Ah or 28Ah blocks (max. 120 Blocks) • CBAT DPA-200 for battery configurations for 24Ah or 28Ah blocks (max. 200 Blocks) S-type = For Separate Battery CBAT-DPA-120 CBAT-DPA-200...

  • Page 43: Ups Cabling Procedure

    3: Installation UPS Cabling procedure WARNING: Opening or removing the UPS-covers will create a risk of exposure to dangerous voltages if power is connected to the UPS. Safety notes Please ensure you read and understand the following safety notes before you begin the UPS electrical installation. Do not commence this procedure until the UPS mechanical installation is completed.

  • Page 44: Connecting The Ups Output Cables

    3: Installation Connect the UPS input supply cables to the UPS power terminals 1L1, 1L2, 1L3 and 1N. Ensure correct (clockwise) phase rotation. CAUTION: The input Neutral cable must ALWAYS be connected. Connect the earth cable from the bypass mains distribution board to the UPS cabinet’s protective earth (PE) terminal. 10.
  • Page 45 3: Installation 10/11 12 1. X1-X4 Customer interface on Phoenix Terminals: X1 Customer Inputs X2…X4 = Potential free contacts 2. SW1-9 Multi-Cabinet Configuration Switch 3. JD8 Parallel BUS connector Only for paralleling cabinets use optional adapter: JD5 Parallel BUS - Input Connector JD6 Parallel BUS - Output Connector 4.
  • Page 46 3: Installation 19 14 15 16 10 11 1. X1-X4 Customer interface on Phoenix Terminals: X1 Customer Inputs X2…X4 = Potential free contacts 2. SW1-9 Multi-Cabinet Configuration Switch 3. JD8 Parallel BUS connector Only for paralleling cabinets use optional adapter: JD5 Parallel BUS - Input Connector JD6 Parallel BUS - Output Connector 4.
  • Page 47 3: Installation 10/11 9/9* 1. X1-X4 Customer interface on Phoenix Terminals: X1 Customer Inputs X2…X4 = Potential free contacts 2. SW1-9 Multi-Cabinet Configuration Switch 3. JD8 Parallel BUS connector Only for paralleling cabinets use optional adapter: JD5 Parallel BUS - Input Connector JD6 Parallel BUS - Output Connector 4.

  • Page 48: Battery Cabling Procedure

    UPS. If the UPS is delivered without batteries, Uninterruptible Power Supplies Ltd is not responsible for any damage or malfunction caused to the UPS by the incorrect storage, installation or connection of batteries by third parties.

  • Page 49: Multi-Cabinet Configuration And Paralleling Cables

    3: Installation Multi-cabinet configuration and paralleling cables Key Point: This section is required only if two (or more) cabinets are to be connected in a multi-cabinet parallel configuration, as described paragraph 2.3.3. In a multi-cabinet system a series of communication bus cables must be connected between each cabinet to enable various parallel control functions to operate.

  • Page 50: Optional Remote Monitoring And Control Facilities

    3: Installation Connecting the parallel cabinet control cables Fit a parallel adaptor board over the connector JD8 on the interface board (Figure 3.17) in every UPS cabinet. Note: The parallel adapter contains two port connectors, JD5 and JD6 and a configuration DIP Switch (SW2) (see Figure 3.18).

  • Page 51: Operation

    • Perform a controlled UPS start-up and functionally test the system for correct operation and configuration. • Carry out customer operator training and equipment handover. WARNING: Uninterruptible Power Supplies Ltd. accepts no responsibility for the equipment or the safety of any personnel when operating this equipment before it has been properly commissioned.

  • Page 52: Starting The Ups System From The Maintenance Bypass

    4: Operation 4.2.1 Starting the UPS system from the maintenance bypass This procedure describes the sequence of operations necessary to power up the UPS module(s) whilst the load is connected to the maintenance bypass supply, and then transfer the load to the UPS inverter(s) (‘On-Line’ mode). WARNING: All the operations in this section must be performed by authorised and trained personnel.

  • Page 53: Individual Module Start/Stop Procedure In A Parallel System

    4: Operation Transferring the load to the UPS from the maintenance bypass: Ensure that the BYPASS LED is green (on all modules). Open the maintenance bypass switch (IA1) (on all cabinets in a multi-cabinet system). a) The LCD panels will display MANUAL BYPASS OPEN. b) The INVERTER LED will be extinguished.
  • Page 54 4: Operation Module start-up: Use this procedure to start a module and connect it to a multi-module system. This procedure assumes the following initial conditions: • The fused battery isolator(s) are open (in the UPS cabinet or external battery cabinet) •...

  • Page 55: Transfer The Load From Ups To Maintenance Bypass Mode

    4: Operation 4.2.3 Transfer the load from UPS to maintenance bypass mode If needed, to perform service or maintenance, it is possible to transfer the load to maintenance bypass and power down the UPS module(s) whilst leaving the load connected to the raw bypass mains supply. WARNING: Before you close the maintenance bypass isolator ensure that the UPS is operating in the (static) bypass mode.
  • Page 56 4: Operation Closing the maintenance bypass switch: Close the maintenance bypass switch IA1 (in all cabinets in a multi-cabinet system). On all UPS modules check and confirm that: a) The INVERTER LED has turned to red. b) The BYPASS LED is green. The LCD displays MANUAL BYP IS CLOSED.

  • Page 57: Complete System Shutdown

    4: Operation 4.2.4 Complete system shutdown The UPS system may be shutdown completely if the load does not require power for an extended period of time. Use this procedure to turn off the load power and shutdown the entire UPS system. WARNING: All the operations in this section must be performed by authorised and trained personnel.

  • Page 58: Replacement Of The Ups Module In A Single Module System

    4: Operation Replacement of the UPS module in a single module system WARNING: All the operations in this section must be performed by authorised and trained personnel. By opening or removing the UPS modules and module covers you run risk of exposure to dangerous voltages! WARNING: When removing a UPS module wait for at least 10 minutes after it has been disconnected in order to allow the DC Capacitors to fully discharge.

  • Page 59: Refitting The Ups Module

    4: Operation 4.3.2 Refitting the UPS module Remove the UPS module compartment protection cover (if fitted) by unscrewing four screws on the front. Using two persons to lift the UPS module, slide two thirds of the module into the UPS-compartment (make sure not to plug the UPS-Module into the rear connector).

  • Page 60: Inserting A Ups Module

    4: Operation Pull the UPS module forwards until the rear connectors are disconnected. DO NOT FULLY EXTRACT THE UNIT. WARNING: Wait at least 2 minutes to allow the module’s electrolytic capacitors time to discharge. After waiting two minutes, fully withdraw the UPS-Module from the cabinet by pulling it horizontally. If you are not intending to replace the UPS module immediately, cover the UPS compartment opening with an appropriate protection cover and secure with four screws.

  • Page 61: Removing A Module

    4: Operation 4.5.1 Removing a module Verify that the load is on BYPASS and is supplied by the mains power on ALL UPS modules. a) In the majority of the events the LED indicators on control panel of a faulty module will show: LINE 2 BY PASS Colour...

  • Page 62: Refitting A Module In A Capacity Multi-Module System

    4: Operation 10. After waiting two minutes, fully withdraw the UPS power module from the cabinet by pulling it forward horizontally. 11. If you are not intending to replace the UPS module immediately, cover the UPS compartment opening with an appropriate protection cover and secure with four screws.

  • Page 63: Maintenance

    UPS. Preventative maintenance inspections involve working inside the UPS which contains hazardous AC and DC voltages. WARNING: Only Uninterruptible Power Supplies Ltd. trained and authorised field service engineers are fully aware of all of the hazardous areas within the UPS.

  • Page 64: Battery Testing

    The battery test procedure can be performed from the UPS front panel (See paragraph 4.3.5). Battery maintenance The battery maintenance shall be done by an authorized Uninterruptible Power Supplies Ltd Service Partner. Battery disposal and recycling Batteries contain dangerous substances that will harm the environment if thrown away. If you change the batteries yourself, call qualified organizations for battery disposal and recycling.

  • Page 65: Troubleshooting

    Identify the cause of the alarm condition by means of the events register in the main menu (see paragraph 2.5.3). In case of doubt please contact your nearest service agent or call Uninterruptible Power Supplies Ltd. on 0800 731 3269.

  • Page 66: Fault Identification And Rectification Messages And Alarms

    Load supplied by mains. Maintenance Bypass. Contacting Service Uninterruptible Power Supplies Limited has a service department dedicated to providing routine maintenance and emergency service cover for your UPS. If you have any queries regarding your UPS please contact us. Uninterruptible Power Supplies Ltd.

  • Page 67: Options

    7: Options Options Introduction X1-X4 Customer interface on Phoenix Terminals: X1 Customer Inputs X2…X4 = Potential free contacts SW1-9 Multi-Cabinet Configuration Switch JD8 Parallel BUS connector Only for paralleling cabinets use optional adapter: JD5 Parallel BUS - Input Connector JD6 Parallel BUS - Output Connector JD11 RS232 / Sub D9/ female, PC interface JD12 RS232/ Sub D9 / male for Multidrop ONLY USB PC Interface...

  • Page 68: Dry Port (Volt-Free Contacts)

    7: Options Dry port (volt-free contacts) Customer I/O interface facilities are made to Phoenix spring terminal blocks (cable 0.2mm² to 1.5mm²) annotated X1, X2 and X3. All voltage-free contacts are rated at 250Vac/8A, 30Vdc/8A, 110Vdc/0.3A, 220Vdc/0.12A 7.2.1 Input interfaces terminal block X1 The customer inputs normally connected to the input interface terminal block X1 are: •...

  • Page 69: Output Interfaces Terminal Blocks

    7: Options Generator ON customer input The Generator ON input uses a normally-open contact which closes to indicate that the standby generator is running and supplying input power to the UPS. When used, this facility enables an option to inhibit the operation of the battery charger and/or static bypass (see Set-up User menu screen on page 18).

  • Page 70: Rs232 Computer Serial Interface - Usb & Jd11

    7: Options Term Contact Signal Display Function X4/5 ALARM MODUL_ALARM4 Module 4 Alarm X4/6 No Alarm X4/7 Common X4/8 ALARM MODUL_ALARM5 Module 5 Alarm X4/9 No Alarm X4/10 Common Figure 7.5 Dry port (X2– X4) connections RS232 Computer serial interface – USB & JD11 A serial RS 232 interface is available through a standard 9-pin D-Type female socket (JD1) or USB port to provide an intelligent RS 232 serial port which allows the UPS to be connected to a computer.

  • Page 71: Snmp/ Modem Slots For Remote Monitoring/Control

    Uninterruptible Power Supplies Ltd considers it important to have a complete solution for its UPS systems, and offers its customers a number of remote control and monitoring tools to provide optimum protection.

  • Page 72: Wavemon Shutdown And Management Software

    Windows NT systems on INTEL and ALPHA network platforms. WAVEMON UPS monitoring and control software WAVEMON is designed to operate in conjunction with many of the systems supplied by Uninterruptible Power Supplies Ltd and features both UPS monitoring and automatic UPS/server shutdown facilities. The system comprises a bespoke software package which is installed on a local PC and communicates with the UPS over a standard RS232 cable of up to 15m in length.

  • Page 73: Powerreporterâ„¢ Management Software

    7: Options • Scheduled UPS service mode and other systems status. • Graphical user interface for Windows-compatible platforms. • Automatic unattended local shutdown. • Special modules for MS-Office software to close and save open documents. • Compatible with all optional modules like UPSDIALER, SNMP adaptors, temperature sensors, etc. Functional description WAVEMON is a client/server software application for networks and local workstations.
  • Page 74 • Priority driven Management (with escalation) Comprehensive management system • Reception and management of alarm calls from Uninterruptible Power Supplies Ltd • Storage of UPS data in a database exportable in a CSV-format for easy handling in Excel • Unlimited number of UPS that can be managed •...
  • Page 75 7: Options UPS with Power REPORTER Batteries Server Email Site manager Battery Care System Servers with Alarm Event Data Power REPORTER & monthly report software UPS Email server UPSL 24Hr Analyst Helpdesk Consultant specialists Service co-ordinator UPS Service Engineer Figure 7.9 PowerREPORTER operation •...

  • Page 76: Specifications

    8: Specifications Specifications Mechanical Characteristics CLASSIC TRIPLE UPGRADE DPA-50 DPA-150 DPA-250 Capacity Max. 1 module (30-45kVA) 3 modules (30-45kVA) 5 modules (30-45kVA) 280 x 7/9Ah batteries 240x 7/9Ah batteries no batteries Max. Power connection Dimensions (WxHxD) 730x1650x800 730x1975x800 730x1975x800 Weight of Empty Cabinet Weight of Cabinet with 300 - 310 420 - 450...

  • Page 77: Input Characteristics

    8: Specifications Input Characteristics Module Type DPA 30 DPA 40 DPA 50  Output Rated Power per Module cos  Output Rated Power per Module cos Nominal Input Voltage 3x380/220V+N, 3x400V/230V+N, 3x415/240V+N Input Voltage Tolerance (-23%/+15%) 3x308/177 V to 3x460/264 V for <100 % load (ref to 3x400/230V) for Loads in %: (-30%/+15%) 3x280/161 V to 3x460/264 V for <...

  • Page 78: Output

    8: Specifications Output Module Type DPA 30 DPA 40 DPA 50 Output Rated Power per Module 45 1) Output Rated Power per Module  Output Current In @ cos 1.0 (400 V) 46.5 Output Rated Voltage 3x380/220V or 3x400/230V or 3x415/240V Output Voltage Stability Static: <...

  • Page 79: Packed Weights

    8: Specifications Efficiency AC-AC up to (pf = 1.0) Load : 100 % 75 % 50% 25% (depending on Module power) Efficiency : 94.5% 94.5% 94% 93% Efficiency Linear Load at pf = 0.8ind Typically up to 1 % higher of above values Efficiency Non-linear Load (EN 62040-1-1:2003) Typically up to 1 % lower of above values Eco-Mode efficiency at 100% load...

  • Page 80: Cable And Fuse Sizing (Single Feed Input)

    8: Specifications Cable and fuse sizing (Single feed input) MAINS DISTRIBUTION BOARD Mains Supply  (3x380/400/415) UPS MAINS SUPPLY INPUT/ BYPASS LINKS FITTED 1L1 – 2L1, 1L2 – 2L2, 1L3 – 2L3, 1N – 2N Cable E Rectifier Rectifier Rectifier Inverter Inverter Inverter Static Switch Static Switch Static Switch Maint. Bypass IA 2 IA 2 IA 2 IA 1 PW9000  CABINET BATTERY 1 LOAD DISTRIBUTION BOARD Cabinet Power Single Input (3 x 400V) Output (3x400V, 0.8 pf)

  • Page 81: Cable And Fuse Sizing (Dual Feed Input)

    8: Specifications Cable and fuse sizing (Dual feed input) MAINS DISTRIBUTION BOARD Mains Supply  (3x380 /400/415) Mains Supply  (3x380/400/415) UPS MAINS SUPPLY UPS BYPASS SUPPLY Cable E Rectifier Rectifier Rectifier Inverter Inverter Inverter Static Switch Static Switch Static Switch Maint. Bypass IA 2 IA 2 IA 2 IA 1 PW9000  CABINET BATTERY 1 LOAD DISTRIBUTION BOARD Cabinet Powe Dual Input (3 x 400V) Output (3x400V, 0.8 pf) (Frame) Fuse B/C...

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