Powerware 8 - 15 kVA, 8 - 10 kVA manual External Battery Cabinet EBC installation procedure

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Note!

Site wiring fault must be disabled from LCD User Settings menu.

Figure 23. Wiring diagram of UPS ST-model (1-ph rectifier), (Norway)

External Battery Cabinet (EBC) installation procedure

The installation procedure is as follows:

1.The EBC is recommended to place next to the UPS unit.

Note!

Do not place EBC on the UPS unit.

2.The required minimum distance for UPS unit and EBC is ten millimeters, which is also required distance between two EBCs.

3.Turn F1 battery breaker from the UPS unit in OFF position.

4.Check that the circuit breaker F3 of the EBC is in the OFF position. To minimise safety risk remove one of the cable (+ or -) from battery string to break a battery circuit.

Battery cables can be accessed by removing a plastic front cover and a metal hatch behind the plastic cover. Do not remove the safety wire of the circuit breaker before all the wires are connected and the installation of the whole system is ready. Remove plate A on the rear side of the EBC to connect cables to EBC’s terminal block X6. Bring cables outside from the EBC by removing the cover plate B. Place the plate A back to the original position and connect the cable clamp to the place of the cover plate B.

1022403

UPS 8 – 15 kVA, 230V 50/60 Hz output

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Revision B1

User’s Guide

 

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Contents Page Copyright Contents User precautions Safety instructionsAudience CE markingInquiries EnvironmentMechanical installation Delivery checkUnpacking and visual inspection Type designation label Equipment Weight Point Distributed Planning before installationMechanical bypass switch Cabinet installationMechanical bypass switch MBS when installed in the backside Transformer option Battery racks External battery cabinet optionLocation of the power terminals Electrical installationPower terminals found in UPS units Power cables and protective fusesInstallation procedure Wiring procedureWiring diagram of UPS N-model 3-ph rectifier Wiring diagram of UPS NT-model 3-ph rectifier Wiring diagram of UPS S-model 1-ph rectifier Wiring diagram of UPS ST-model 1-ph rectifier Wiring diagram of UPS S-model 1-ph rectifier, Norway Do not place EBC on the UPS unit External Battery Cabinet EBC installation procedureUser Settings Number of Battery Strings SPM tie cabinet Dimensions of the SPM SPM9155 wiring diagram with three UPSs connected Software and connectivity Communication cablesConnection to the standard RS-232 port LanSafe software External control connectionsExternal control cable connections to the UPS Emergency Power Off EPORelay outputs Programmable signal inputsSNMP/Web Module optional Slot communication optionAS400 Relay Module optional Single Serial Port Module optionalModus/Jbus Module optional Display functions User operationsDescription Available settings Default setting General User SettingsUsing relay outputs Configuring user settingsChanging language Changing charging currentNormal start-up Battery start-upShutdown CheckRegular service/intervals MaintenanceScrapping BatteriesLED Indicators Maintenance bypass switch MBS operationCooling fan No break transfer from normal mode to Service Bypass Turn UPS from normal mode to mechanical bypassNo break transfer from Mechanical Bypass to normal mode Turn UPS from mechanical bypass to normal modeTurn on S3 switch to connect UPS output to load UPS models with no battery sections Dimensional drawingsExternal battery cabinet models with 2 and 3 sections Mechanical configuration Technical dataCharacteristics StandardsAC input DC circuitAC output Warranty

8 - 15 kVA, 8 - 10 kVA specifications

Powerware 8 - 10 kVA and 8 - 15 kVA are robust uninterruptible power supply (UPS) systems designed to provide reliable power protection and enhanced performance for critical applications. These UPS systems are ideal for various business environments, including data centers, server rooms, and industrial settings.

A primary feature of the Powerware series is its modular design, which allows for easy scalability and adaptability to meet the growing power requirements of modern IT infrastructure. The systems can be configured to provide redundancy, ensuring increased reliability and uptime while delivering high-efficiency performance.

One of the standout characteristics of the Powerware 8 - 10 kVA and 8 - 15 kVA models is their advanced double-conversion technology, which offers consistent power conditioning and isolation from utility issues like voltage surges, frequency variations, and power outages. This technology ensures that connected devices receive clean, stable power, minimizing the risk of downtime caused by electrical disturbances.

Another key feature is the availability of an intuitive LCD display that provides users with real-time information about the UPS status, critical alarms, and event logs, enabling proactive management of power demands and potential issues. The systems also support remote monitoring and management through advanced communication options, allowing IT administrators to maintain oversight of the power environment from any location.

The Powerware series incorporates high-efficiency designs that help reduce energy consumption, ultimately lowering operational costs. With an input power factor of up to 0.99 and a typical efficiency exceeding 94%, these UPS units not only contribute to environmental sustainability but also enhance the overall performance of the power infrastructure.

In addition to these practical features, the Powerware 8 - 10 kVA and 8 - 15 kVA models are equipped with multiple output options, including configurable outlets and hardwire connections, offering flexibility in deployment. They also come with advanced battery management systems, which optimize battery performance, extending their lifespan and reducing maintenance efforts.

Overall, Powerware 8 - 10 kVA and 8 - 15 kVA systems are reliable choices for businesses seeking efficient and adaptable power protection solutions to support their critical operations. Their innovative technologies and comprehensive features ensure that companies can maintain productivity while safeguarding their valuable equipment and data against power disruptions.