Operations; Cooling Mode Sequence Of Operation - Haier AW07EH2VHA Service Manual

The outdoor unit is capable of controlling up to 4 individual indoor units. The outdoor unit will vary compressor capacity and
outdoor fan motor speed to match the demand requirement from the indoor units. All capacity and diagnostic decisions are
controlled by the outdoor unit ECU. During any period where the outdoor unit is running, all indoor units must be in the same
mode of operation. If any unit is energized in a mode that opposes the first indoor unit that was turned on and set to provide
cooling or heating, the opposing unit's request will be ignored.
Throughout a call for either heating or cooling operation, the temperature sensors in the indoor and outdoor units will provide
critical temperature points to the outdoor unit ECU. If the temperatures being sensed are abnormal or trending to a level that is
potentially going to create overheating of the compressor or freezing of the indoor unit.
The frequency adjustments or system responses to temperature sensors readings are explained in the section Temperature
Sensor Responses.

Cooling Mode Sequence of Operation

4-way valve coil:
OFF Refrigerant flow in cooling
ON Refrigerant flow in heating
Indoor
heat
exchanger
temp.
sensor
FAN-IN
Indoor
ambient
temp.
sensor
Indoor unit A
Indoor unit B
Indoor unit C
Indoor unit D
On a call for cooling, the indoor unit will send the room temperature and set-point requirement to the outdoor unit ECU via the
data signal wire path. The data travels from the indoor unit to the outdoor unit via the wire located on terminal 3. The indoor
unit's louver will open and the indoor fan motor will start.
The outdoor unit will energize the EEV's that are controlling refrigerant flow to the calling indoor units. The position of the EEV
valves will be set to a beginning position based upon the outdoor air temperature.
The 4-way valve will be de-energized. After a 3 minute time delay, the outdoor fan motor will be energized. Shortly after the
outdoor fan motor turns on, the compressor will start in low frequency. The operating frequency of the compressor will be
displayed on the Service Monitor Board Display.
The refrigerant in the system will begin to flow. The compressor will discharge hot gas into the oil separator. Oil will be trapped in
the separator and returned to the suction inlet of the compressor via the capillary tube assembly low pressure path.
B-8
6
Unit A gas pipe temp. sensor
Indoor unit A
Unit B gas pipe temp. sensor
Indoor unit B
Unit C gas pipe temp. sensor
Indoor unit C
Unit D gas pipe temp. sensor
Indoor unit D
5
Unit A liquid pipe temp. sensor
Strainer
Unit B liquid pipe temp. sensor
Strainer
Unit C liquid pipe temp. sensor
Strainer
Unit D liquid pipe temp. sensor
Strainer
OUTDOOR TECHNICAL OVERVIEW

Operations

Comp-
ressor
Oil
separator
High pressure
switch
Gas stop valve
5/8
Liquid stop vavle
valve
EEV C
3/8
EEV D
7
Low pressure
Suction temp.
switch
sensor
Discharge temp.
sensor
1
Accumulator
Capillary tube
Pipe sensor
4-way valve
Toci
Outdoor
3
heat
exchanger
temp.
sensor
EEV O
Strainer
Receiver
Check valve
2
FAN-OUT
4
Outdoor
ambient
temp.
sensor
Defrost
sensor
Distributor