21
DK
SW
NL
I
E
F
D
GB
RU
TR
GR
P
The fan setting changes during heating.
The fan stops during heating.
When the switch is turned ON, the fan does
not begin to operate.
The outdoor unit fan turns in reverse or stops,
and an unusual sound is heard.
During thermostat OFF mode, light air or low air operation will take place.
During thermostat ON mode, light air or low air will switch automatically to set notch on
the basis of time or piping temperature.
During defrosting, the fan will stop.
After the switch is turned to ON or until the piping temperature reaches 35
°
C, there will
be 5 minutes of light air operation. After that there will be 2 minutes of low air operation,
then set notch will begin (hot adjustment control).
There is a risk of the power to the outdoor unit being connected in reverse phase. Be
sure to check that the phase is correct.
Ordinary display
Defrosting display
Remote controller display
13.2. The following occurrences are not problems or errors
Problem
Cause
Heating preparations
underway
Ordinary display
14.1. System settings
[Fig. 14.1.1]
(P.5)
A
Outdoor unit
B
Indoor unit
C
Main remote controller
D
Subordinate remote controller
E
Standard 1:1 (Refrigerant address = 00)
F
Refrigerant address = 01
G
Refrigerant address = 02
* Set the refrigerant address using the DIP switch of the outdoor unit.
1
Wiring from the Remote Control
This wire is connected to TB5 (terminal board for remote controller) of the indoor
unit (non-polar).
2
When a Different Refrigerant System Grouping is Used
Up to 16 refrigerant systems can be controlled as one group using the MA remote
controller.
14. System control
ON
1 2 3 4 5 6
OFF
SW1
Function table
<SW1>
Function
1 Compulsory de-
frosting
2 Error history clear
3
4
5
6
SW1
function
settings
Operation according to switch setting
ON
OFF
Start
Normal
Clear
Normal
Settings for outdoor unit ad-
dresses 0 to 15
Refrigerant sys-
tem address set-
ting
Note:
In single refrigerant system, there is no need of wiring
2
2
2
2
2
.
Note:
If the fan in the indoor unit does not operate, check the over-current relay on the fan motor to determine whether it has been tripped.
If the over-current relay has been tripped, reset it after eliminating the cause of the problem (e.g. motor lock).
To reset the over-current relay, open the control box and press the green claw on bottom-right of the relay until a click is heard. Release the claw and check that
it returns to its original position.
Note that if it is pressed too hard it will not return to its original position.
14.2. Examples of refrigerant system address
setting
Ex.
1
* Set the refrigerant system address of one outdoor unit to 00 for the power supply
to the remote controller.
(The refrigerant system address is set to 00 when shipped from the factory.)
Do not duplicate the refrigerant system address settings within the same system.
Indoor unit
PEH-RP200·250MYA
Outdoor unit
–
Outdoor unit refrigerant
system address
00
Remote controller
power supply unit
•
Depending on the position of the SW2 switch on A Control Service Tool, the segments light up to indicate the running condition of the unit and the particulars of the check
code.
SW2 setting
123456
000000
011100
111100
Item
Operation mode/relay output
Error code history 1
Error code history 2
Display contents
tens place
O: stop
C: cooling
H: heating
d: defrosting
units place
1: SV
2: 21S4
4: MC
8: Warning-up MC
When an error occurs, the error code
and error signal (*1) are displayed in
alternation.
Relay output = SV + 21S4 + MC
Ex. During cooling mode, when MC and SV are
ON: C5
The error code (ex. U8, UA) and error indicator (*1) are displayed in alternation.
*1 Display system for error indicator
The indicator corresponds to the following numbers
0 ............. Outdoor unit
1 ............. Indoor unit No.1
2 ............. Indoor unit No.2
3 ............. Indoor unit No.3
4 ............. Indoor unit No.4