Liebert Series 610 user manual Maintenance Procedures Maintaining Power-Tie Components

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Operating Instructions

4.2.6Returning an Isolated System to Normal Operation - End Combined Loads Operation

One Load circuit breaker and the Tie circuit breaker are closed. The Load circuit breaker of the iso- lated system which was being serviced will be opened.

1.Select the UPS system to accept the load. Press the TRANSFER LOAD TO SYSTEM (#). If System 2 had been isolated then press the SYSTEM 2 button. Load 2 will be returned to System 2.

2.Wait for the OK TO TRANSFER LOAD light to turn on. If System 2 was isolated then the OK TO TRANSFER LOAD 2 TO SYSTEM 2 light should turn on when it is safe to perform the transfer.

3.After the OK TO TRANSFER LOAD 2 TO SYSTEM 2 light turns on, press the PUSH TO TRANSFER AFTER OK button. The transfer will be performed. If System 2 was isolated then the Load 2 breaker will close and the Tie circuit breaker opens after the overlap period times out.

4.Both UPS systems will now be supplying their normal Load and operating independent of each other.

4.2.7Maintenance Procedures - Maintaining Power-Tie Components

Refer to the procedures in 4.2.3 - Maintenance Procedures - Isolating Each UPS System to iso- late the UPS’s load circuit breaker and the associated downstream feeders for service.

By using downstream switchover devices for the individual critical loads, such as ATSs or dual input PDUs, the load feeder components to be maintained are de-energized. All critical load operations are transferred to the feeder which will power the combined loads.

There are three approaches to maintaining the Tie circuit breaker and its associated circuit compo- nents depending on the convenience and isolation desired.

1.Single fixed-mount Tie circuit breaker

Complete UPS system and critical loads must be placed on a reliable maintenance bypass source (e.g., standby engine-generator) to de-energize the Tie circuit breaker.

Using appropriate safety equipment and procedures, the Tie circuit breaker can be serviced while one or both systems remain energized (depending on isolation breaker usage).

2.Single drawout Tie circuit breaker

Drawout mechanism permits servicing the Tie circuit breaker and associated circuitry while the Power-Tie system is in its normal mode of operation.

To de-energize the drawout carriage plug-in stubs and buswork, however, one feeder at a time must be isolated for service. Refer to 4.2.3 - Maintenance Procedures - Isolating Each UPS System.

Using appropriate safety equipment and procedures, these components can be serviced while one or both systems remain energized (depending on isolation breaker usage).

3.Two Tie circuit breakers in series—Fixed-mount or Drawout

By using two Tie circuit breakers in series, each circuit breaker and its associated buswork can be conveniently and completely de-energized for service. Refer to 4.2.3 - Maintenance Procedures - Isolating Each UPS System.

Using appropriate safety equipment and procedures, these components can be serviced while one of the two systems remains energized.

4.2.8Maintenance Procedures - Tie Control Logic Components

Unless the controls are in a continuous parallel mode or currently in the process of transferring a load, it is possible to service the Tie controls by taking a few precautions. Since all control signals are isolated, they can be safely de-energized for maintenance without affecting the UPS systems.

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Contents Continuous POWER-TIE Configuration Page Table of Contents Initial System Start-Up 4.2 Basic Operation Operating InstructionsSystem Flexibility FunctionInter-System Isolation and Reliability Basic Dual-Bus Power-Tie one-line diagram Power-Tie systems fault isolation issues Power-Tie systems control interface diagram Operational Description Control System FeaturesIntersystem Synchronizing Momentary Tie OperationMomentary Tie Transfer Controls Continuous Tie Intersystem Sync and Power SharingTie System Components Continuous Tie/Transfer/Parallel ControlModes of Operation Power-Tie system one-line diagram Synchronizing the UPS Systems Continuous Power-TieChecking for Phase, Voltage, and Capacity Selecting a Line Sync SourceControl panel layout Load Transfers Between UPS Systems Separating Tied SystemsCombined Loads on One System to Continuous Tie Operation Combined Loads on One System from Continuous Tie OperationDesign Criteria Line Sync Signal Power-Tie system fault isolation issues Power-Tie systems fault tolerance Transfer Operation Improper User OperationTie Operation Hardware Failures Tie Circuit Breaker or Logic FaultsWhat Happens If a Failure Occurs During a Power Transfer Recommendations Tie Circuit Breaker SelectionMimic Panel Load Transfer Controls Transfer Function Available OK to Transfer Load 2 to System Transfer Control DisabledTransfer Function Available Transfer Function Available OK to Transfer Load 1 to SystemControl Inhibits Continuous Tie ControlManual Controls Basic Operation Normal Transfer Operation ConfigurationsMaintenance Procedures Isolating Each UPS System Initial System Start-UpTransfer of Load Between Two Systems Maintenance Procedures Tie Control Logic Components Maintenance Procedures Maintaining Power-Tie ComponentsCircuit Breaker Failure Trouble RecoveryAbnormal Operations Improper TransferContinuous Tie-Systems Normal Operating ConfigurationTying the UPS Systems Continuous Parallel Operations Abnormal Operations Isolation for Maintenance Power-Tie system one-line diagram Operation Scenarios/Transfer Procedures Combined Loads Operation See 4.2.4 Isolating a UPS System for MaintenanceSee 4.2.5 Transfer of Load Between Two Systems Parallel Operations See 4.2.11 Tying the UPS Systems ContinuousUPS System See 4.2.3 Maintenance Procedures Isolating EachOne system in bypass to Continuous Tie operation Option Operating Instructions Page Company Behind the Products Technical Support/ServiceLocations
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