SEQUENCE of OPERATION
PAGE 30
ENGLISH
Temperature Sensors
Defrost Operation
Protection Functions
1. TTC high temperature protection
Abnormal stop
Decreasing the frequency rapidly (1HZ/1second)
230
°F
212
°F
209
°F
199
°F
194
°F
Decreasing the frequency slowly (1HZ/10 seconds)
The frequency doesn’t change
Increasing the frequency (1HZ/10 seconds)
Increasing the frequency (1HZ/1second)
2. Overheating protection for indoor unit
Four temperature sensors located in the outdoor unit provide
temperature information to the outdoor unit main board for
control of the system during dry mode.
The outdoor ambient temperature sensor provides the
temperature of the air drawn into the condenser coil of the
outdoor unit.
The defrost temperature sensor provides the temperature
sensed at the output of the condenser coil.
The suction line temperature sensor provides the temperature
sensed at the incoming suction line pipe.
The compressor discharge sensor provides the temperature
sensed at the discharge pipe of the compressor.
To stop dry mode, press the power button to turn the system
}$#
Defrost cycle will initiate if any of three conditions are met.
Te = Defrost temperature sensor
Tao = Outdoor ambient temperature sensor
Tes = Condensation point temperature
]_G^J*$G^J*
G_J*
G^J*$
^_
J*J*
Tes = C X Tao-a
^GJ*$%#Z[
Tao > or = 32°F, C = .06
a = 6
The minimum time interval between defrost cycles is 45
minutes.
When the defrost cycle begins, the following conditions take
place:
1. The compressor will stop for 1 minute
2. The outdoor fan will continue to operate at high speed.
3. After 50 seconds, the 4-way valve will shift to the cool
mode position.
4. 5 seconds later the outdoor fan will stop.
5. After 1 minute, the compressor will start.
The outdoor unit will now defrost.
The defrost cycle runs continuously for approximately 10
minutes.
The system will exit the defrost cycle if any of the following
conditions are met:
]#"J*[Z
seconds.
2. The condenser maintains a temperature above 54°F for 5
seconds.
Upon exiting the defrost cycle, the following conditions will
take place:
1. The compressor will stop.
2. The outdoor fan will operate at high speed.
3. 50 seconds later the 4-way valve will shift to the heat mode
position.
4. 60 seconds later the compressor will start.
The system resumes normal operation.
The compressor discharge pipe sensor (exhaust temp)
senses the temperature of the refrigerant exiting the compressor.
The temperature received from the sensorby the control circuitry
will cause the compressor frequency to increase or decrease.
(see chart below). If a temperature of >= 230°F is sensed for 20
seconds, an exhaust overheating protection error code will be
indicated at the outdoor unit.
The indoor tube sensor senses the temperature of the indoor
coil.
If the temperature sensed is greater than 133°F, the compressor
frequency will decrease to prevent overheating of
the coil.
If Tc >= 133°F for more than 10 seconds, the compressor will
stop and an error code will be indicated at the outdoor unit.
}^
]][J*$
will restart.
]][J*$
function is canceled.
Summary of Contents for AW09TE1VHA
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Page 6: ...INTRODUCTION PAGE 6 ...
Page 18: ...REMOTE CONTROL FUNCTIONS PAGE 18 ...
Page 32: ...SEQUENCE OF OPERATION PAGE 32 ...
Page 42: ...INSTALLATION PAGE 42 ENGLISH This page intentionally left blank ...
Page 57: ...REFERENCE INFORMATION PAGE 57 ENGLISH Outdoor Board Schematic 9 12K ...
Page 58: ...REFERENCE INFORMATION PAGE 58 Outdoor Board Schematic Outdoor Board Schematic ENGLISH ...
Page 62: ...REFERENCE INFORMATION PAGE 62 ENGLISH Indoor Board Schematic 09 12K ...
