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Abnormal operations – Liebert Series 610 User Manual

Page 34

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Operating Instructions

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Maintenance Procedures - Tie Control Logic and Power 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

remaining energized.

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

remaining energized.

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.

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.

Abnormal Operations

Improper Transfer
Transfers cannot be performed unless the OK TO TRANSFER LOAD (#) TO SYSTEM (#) light turns

on. This makes it difficult to begin an improper transfer.
The source feeding the UPS modules does not matter because the UPS inverter output is isolated

from the rectifier.
The logic permits transfers to and from a UPS system with the UPS modules running on Utility, Bat-

tery, or Engine-generator so long as the system accepting the load is running on inverter output.
Synchronization is verified by forcing the system to meet three independent criteria. First, all on-line

module oscillators must be synchronized. Second, the voltage zero crossings must be within tolerance.

Third, the instantaneous voltage differential between UPS system voltages must be within tolerance.

But, regardless of synchronization status, a critical load will not be allowed to transfer to a system

running on its bypass source. Transfers from a bypass source to a system on UPS is permitted.
Circuit Breaker Failure
If a “Close” or “Open” command to a circuit breaker fails to return a confirmation of completion within

an acceptable time period the Power-Tie logic initiates corrective actions based on the system’s initial

state and current state.
Loss of Tie Controls
Should a failure occur while the UPS systems are tied, the Loads will be transferred to the selected

Primary Bypass. And, the Load breaker to the other UPS system will be opened to prevent backfeed

from the Primary Bypass. A failure in the Tie controls while the systems are separated has no effect

on either UPS system since all control signals are isolated.