Continuous tie/transfer/parallel control, 4 tie system components, Tie system components – Liebert Series 610 User Manual

System Description

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Synchronizing activity takes place automatically once the preferred source is chosen and a manually

initiated “SYNCHRONIZE SYSTEMS” signal is given. Visual indicators show that the systems are

synchronizing and when the systems are ready for the manually initiated, automatically controlled

paralleling sequence.

Continuous Tie/Transfer/Parallel Control

The transfer load and tie controls operate the tie breakers between systems in a sequential manner to

allow paralleling and make-before-break transfer of loads. Once the synchronizing sequence is com-

plete, visual indicators show parallel operation is permitted. The operator initiates the closing of the

tie breaker. Once initiated, the tie command is executed when conditions of sync and voltage match-

ing are verified prior to tie execution. In essence, the tie breaker closes and two UPS systems are par-

alleled.
With the two systems operating in parallel, only one bypass circuit is active. Should something occur

that requires the UPS to automatically transfer to bypass, then all the load will be supplied through

the static switch and bypass circuit breaker of the system that was selected as the preferred source.
When the two systems are paralleled, it is possible to isolate and then shut down one system entirely

for maintenance. The system to be shut down must be the one that is not the designated preferred

source. Shutdown is accomplished by first opening the System Isolation Breaker of the selected sys-

tem. Once this action is taken, all the load remains on the preferred system.
The three load sharing control circuits between systems are disconnected with the opening of the Sys-

tem Isolation Breaker. At this time, sync control of the off-line system will be returned to its own local

bypass source, and the system can be operated in its normal manner for testing and maintenance.
Restart of the systems under maintenance is accomplished in the normal manner. Once the system

has been brought on-line, the resync to the on-line system can be initiated. The sequence from this

point is similar to the sequence that paralleled the two systems initially. As soon as the OK TO TIE

SYSTEMS indication is given the System Isolation Breaker can be closed, once again paralleling the

two systems and enabling the load-sharing loops between the two.
Taking the systems out of parallel operation is manually initiated. The tie breaker automatically

opens separating the loads onto their respective UPS systems. The intersystem power sharing is dis-

abled and the sync circuits revert to independent operation.

1.5.4 Tie System Components

See Figure 4.
A Liebert Power-Tie Uninterruptible Power System consists of the following basic components:
1. Two complete, independent UPSs with individual load buses, each with the capability to source

the combined critical load of the two load buses. Each of the two UPSs may be a single-module

system (SMS) or a multi-module system (MMS).

2. Two discrete system input sources, each with the capacity to source the combined critical load.

The two input sources need only be acceptable with regard to frequency and voltage. The two

sources do not require an in-phase relationship, although under this circumstance, a “V Lockout”

alarm will be indicated until the “Sync Systems” button is pushed. Then the “V Lockout” should

clear.

3. Two discrete bypass sources, each with the capacity to source the combined critical load. The two

bypass sources need only be acceptable with regard to voltage and frequency, such as the utility or

an emergency generator, and are not required to be in-phase. However, if make-before-break

downstream load switching equipment, such as automatic transfer switches, static transfer

switches (STS) or dual input power distribution units, is intended to be used, having the two

bypass sources in sync is preferable.

4. One system isolation and tie switchboard containing system isolation breakers and tie breaker(s).
5. Tie Control Unit, wall or floor mounted or installed in the tie switchboard.
6. Optional maintenance bypass breakers and test load distribution.