0 theory of operation, 1 ac (line) operation, 2 standby operation – Alpha Technologies GMX-915 User Manual

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017-932-B0-002, Rev. B

2.2 Standby Operation

When incoming AC line voltage drops or rises significantly, or a complete power outage

occurs, the GMX line monitor activates standby operation. During the transfer from AC line to

standby operation, the battery powered inverter comes on-line as the isolation relay opens to

prevent AC power from back-feeding to the utility. The energy contained in the ferroresonant

transformer continues to supply power to the load. The following changes also occur within

the GMX Power Supply:
• The control logic drives the inverter field-effect transistors (FETs) on and off. This

switching action converts the DC battery current into AC current in the inverter windings

of the ferroresonant transformer, which provides regulated power to the load.

• The control logic, which includes a microprocessor and other circuits to protect the

inverter FETs from overcurrent damage, monitors the condition of the batteries and the

inverter during standby operation. Since a prolonged AC line outage would severely

discharge the batteries, resulting in permanent damage, the control logic disables the

inverter when the batteries drop to approximately 10.5Vdc per battery (31.5Vdc in a

three-battery set, or 42Vdc in a four-battery set).

When acceptable AC line voltage returns, the power supply transfers back to AC line

operation within 10 to 20 seconds. This delay allows the AC line voltage and frequency to

stabilize before the control logic phase-locks the inverter’s output to the utility input. The

control logic then de-energizes the isolation relay, reconnects the AC line to the primary of

the ferroresonant transformer and disables (turns off) the inverter. This results in a smooth,

in-phase transfer back to utility power without interruption of service to the load. The battery

charging circuit then activates to recharge the batteries in preparation for the next power

outage.

2.0 Theory of Operation

2.1 AC (Line) Operation

During AC line operation, utility power is routed into the primary winding of the ferroresonant

transformer through the contacts of the transfer isolation relay. At the same time, power is

directed to the rectifier circuitry in the inverter which provides power for the control circuitry.

The bidirectional inverter also serves as a battery charger during AC line operation. The

ferroresonant transformer and an AC capacitor form the resonant tank circuit, which provides

excellent noise and spike attenuation, output short circuit current limiting, and output voltage

regulation. The ferroresonant transformer produces a quasi square wave output which

resembles a rounded square wave.

To minimize the possibility of the transformer entering unstable operation, the GMX Power Supply

requires a minimum load of at least one ampere connected to the output. Unstable transformers will

self-correct as soon as a load of one ampere or greater is connected to the power supply.

CAUTION!

The duration of battery-backed standby operation depends upon the type and number of batteries and the

load on the power supply.

NOTE: