5 static bypass, Bypass circuit breaker, Pulsed parallel operation – Liebert 610 User Manual

Theory of Operation

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2.2.5 Static Bypass

A static bypass is an integral part of the UPS. The static bypass consists of a static bypass switch,

consisting of two reverse-paralleled SCRs (silicon-controlled rectifiers) per phase and bypass power

switching devices (motor-operated circuit breakers). An automatic transfer control circuit senses the

status of the operator controls, UPS logic signals and alarm messages and critical bus operating con-

ditions. If the inverter output can no longer supply the critical load, the static bypass switch (in con-

junction with motorized circuit breakers) automatically transfers the critical load to the bypass source

without interruption.

Bypass Circuit Breaker

The motor-operated bypass circuit breaker, wired in parallel with the static switch, automatically

closes within 200 milliseconds after the load is transferred to the bypass power source, removing the

static switch from the power flow.

Pulsed Parallel Operation

When an overload condition such as transformer inrush current or a branch load circuit fault exceeds

155% of the full-load current rating, the static bypass switch pulses on for 40 milliseconds. This

allows up to 1000% rated full load current (as limited by distribution feeders) from the bypass source

to clear the overload without closing the bypass circuit breaker (a Liebert design exclusive). The

bypass source is in parallel with the UPS system, permitting the bypass source to carry the initial

overload current. If the overload clears before 40 milliseconds, a load transfer to bypass is not made. If

the overload condition exceeds the inverter capacity, the automatic transfer is made (maintaining the

load voltage within the specified limits).
This pulsed static switch operation reduces nuisance operation of motor-operated circuit breakers for

such short-term conditions and serves, under some circumstances, as a backup in the event that an

external bypass feeder breaker trips open during this pulse-paralleling period.

Load Transfers

Transfers to (transfer) or from (retransfer) the bypass may be performed automatically or manually in

a make-before-break (MBB) sequence. This is accomplished through the overlapping operation of the

UPS output and the bypass power switching devices.
Manual load transfers and retransfers are initiated by the operator from the UPS control panel.
In a manual operation or an automatic retransfer, the two motorized circuit breakers UPS output and

system bypass (SBB) are both closed simultaneously for a short period of time (overlap).
Automatic transfers are initiated by the UPS system control logic when an overload is beyond the

specified capabilities of the UPS inverter or when a fault occurs within the UPS module. An auto-

matic retransfer is initiated if this function is enabled and if system conditions for a retransfer are

present.
In an automatic transfer, the circuit breakers do not overlap, but, during the short time gap, bypass

power is supplied to the critical load through the solid state static switch.

Fuse Protection

The static bypass switch path uses two back-to-back SCRs per phase. Each phase is individually pro-

tected by a fuse sized to clear only in the event of a catastrophic fault. This is a more reliable method

than depending on external protection devices. The fuses are in the circuit to protect the critical bus

distribution equipment against catastrophic faults. The static switch SCRs are oversized to easily

handle any current surges that may blow the fuses.

Static Switch Backfeed Protection

The static bypass system is equipped with redundant disconnect circuits that prevent backfeed of

lethal voltage to a de-energized bypass input in the event of a shorted static switch SCR. If the bypass

input power is interrupted, the static switch disconnect devices will open, preventing backfeed of

inverter voltage to the bypass input terminals.