Service Manual

ManualsBrandsGoodman ManualsCentral Air & Heating3 Ton 16 SEER Heat Pump

SYSTEM OPERATION

HEATING

The heating portion of the refrigeration cycle is similar to the

cooling cycle. By energizing the reversing valve solenoid coil, the

flow of the refrigerant is reversed. The indoor coil now becomes

the condenser coil, and the outdoor coil becomes the evaporator

coil.

The check valve at the indoor coil will open by the flow of

refrigerant letting the now condensed liquid refrigerant bypass

the indoor expansion device. The check valve at the outdoor coil

will be forced closed by the refrigerant flow, thereby utilizing the

outdoor expansion device.

The restrictor orifice used with the CA*F, CHPF and CH**FCB coils

will be forced onto a seat when running in the cooling cycle, only

allowing liquid refrigerant to pass through the orifice opening.

In the heating cycle, it will be forced off the seat allowing liquid

to flow around the restrictor. A check valve is not required in this

circuit.

COOLING CYCLE

For legacy room thermostat: When the room thermostat calls for

cool, the contacts of the room thermostat close making termi-

nals R to Y1 & G (if thermostat calls for low stage cool), or R to

Y1, Y2 & G (if thermostat calls for high stage cool), the low voltage

circuit of the transformer is completed. Current now flows

through the magnetic holding coils of the compressor contactor

(CC) and fan relay (RFC). If thermostat calls for high stage cool,

the microprocessor on the UC board will also energize the

compressor high stage solenoid to run the compressor at full

capacity.

This draws in the normally open contact CC, starting the com-

pressor and condenser fan motors in either low or high stage

depending on the thermostat’s demand. At the same time, con-

tacts RFC close, starting the indoor fan motor.

When the thermostat is satisfied, it opens its contacts, breaking

the low voltage circuit, causing the compressor contactor and

indoor fan relay to open, shutting down the system.

If the room thermostat fan selector switch should be set on the

“on” position, then the indoor blower would run continuously

rather than cycling with the compressor.

GSZ, ASZ, SSZ, DSZ, and VSZ models energize the reversing valve

thorough the "O" circuit in the room thermostat. Therefore, the

reversing valve remains energized as long as the thermostat

subbase is in the cooling position. The only exception to this is

during defrost.

For heat pumps, during cooling cycle the reversing valve is

energized as the room thermostat closes “O” terminal to R and

the microprocessor on the UC board responds to such a condi-

tion by energizing the solenoid coil on the reversing valve.

DEFROST CYCLE

The defrosting of the outdoor coil is jointly controlled by the

defrost control board and the defrost thermostat.

Solid State Defrost Control

During operation the power to the circuit board is controlled by

a temperature sensor, which is clamped to a return bend (3/8"

coils) or a feeder tube (5 mm coils) entering the outdoor coil.

Defrost timing periods of 30, 60, or 90 minutes may be selected

by connecting the circuit board jumper to 30, 60, or 90 respec-

tively. Accumulation of time for the timing period selected starts

when the sensor closes (approximately 31° F), and when the room

thermostat calls for heat. At the end of the timing period, the unit’s

defrost cycle will be initiated provided the sensor remains

closed. When the sensor opens (approximately 75° F), the defrost

cycle is terminated and the timing period is reset. If the defrost

cycle is not terminated due to the sensor temperature, a ten

minute override interrupts the unit’s defrost period. The new

upgraded defrost control has a 12 minute override interrupt.

HEATING CYCLE

The reversing valve on the GSZ, SSZ, ASZ and DSZ models is

energized in the cooling cycle through the "O" terminal on the

room thermostat.

These models have a 24 volt reversing valve coil. When the

thermostat selector switch is set in the cooling position, the "O"

terminal on the thermostat is energized all the time.

Care must be taken when selecting a room thermostat. Refer to the

installation instructions shipped with the product for approved

thermostats.

When the room thermostat calls for heat, the contacts of the

room thermostat close making terminals R to Y & G, the low

voltage circuit of the transformer is completed. Current now

flows through the magnetic holding coils of the compressor

contactor (CC) and fan relay (RFC).

This draws in the normally open contact CC, starting the com-

pressor condenser fan motors. At the same time, contacts RFC

close, starting the indoor fan motor.

When the thermostat is satisfied, it opens its contacts, breaking

the low voltage circuit, causing the compressor contactor and

indoor fan relay to open, shutting down the system.

If the room thermostat fan selector switch should be set to the

“on” position, then the indoor blower would run continuously

rather than cycling with the compressor.

When the thermostat is satisfied, appropriate commands are

sent to the UC control. The compressor relay and outdoor fan

relay is de-energized. The compressor high stage solenoid

is de-energized if it was energized. The UC control sends an

appropriate command to the indoor unit to de-energize the

indoor blower motor.