25
G Check of R.V. coil
First of all, measure the resistance of R.V. coil to check if the coil is defective. Refer to 11-4.
In case CN602 (SA71) is not connected or R.V. coil is open, voltage is generated between the
terminal pins of the connector although any signal is not being transmitted to R.V. coil.
Check if CN602 (SA71) is connected.
Is there 230 VAC between CN602 (SA71)
and
on the inverter P.C. board 3
minutes after the power supply is turned
ON?
No
Yes
Replace the inverter
P.C. board.
Replace the 4-way valve.
Unit operates COOL mode even if it is set to HEAT mode.
Is there 230 VAC between CN602 (SA71)
and
on the inverter P.C. board 3
minutes after the power supply is turned
ON?
Yes
No
Replace the inverter
P.C. board.
Replace the 4-way valve.
Unit operates HEAT mode even if it is set to COOL mode.
Disconnect connector between
the compressor and the intelligent
power module.
Turn ON the power supply and start
heating test run.
(TEST RUN OPERATION: Refer to
11-5 )
Disconnect connector between
the compressor and the intelligent
power module.
Turn ON the power supply and start
cooling test run.
(TEST RUN OPERATION: Refer to
11-5 )
H Check of outdoor fan motor
Is the resistance between each ter
-
minal of outdoor fan motor normal?
(Refer to 11-4.)
Disconnect the connectors CN931
and CN932 from the inverter P.C.
board. Check the connection between
the connector CN931 and CN932.
Disconnect CN932 from the inverter P.C. board, and turn on the power sup
-
ply.
Rotate the outdoor fan motor manually and measure the voltage of CN931.
Between 1(+) and 5(-)
Between 2(+) and 5(-)
Between 3(+) and 5(-)
Does the voltage between each terminal become 5 and 0
VDC repeatedly?
Does the outdoor fan motor rotate smoothly?
Replace the outdoor fan motor.
Replace the inverter P.C. board.
Yes
Yes
No
(Fixed to either 5 or 0 VDC)
No
No
Yes
OCH561