10
GB
D
F
SW
I
NL
E
P
11.4
14.1
11
14
[Fig.11.4.1]
1
2
3
(1)
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
ON OFF
˚C
1Hr.
˚C
CHECK MODE
FILTER
CLOCK
FUNCTION
1
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
ON OFF
˚C
1Hr.
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
ON OFF
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
˚C
1Hr.
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
ON OFF
˚C
1Hr.
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
ON OFF
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
˚C
1Hr.
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
ON OFF
˚C
1Hr.
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
L
Remote controller transmission data
M
Transmission data at transmission path
I
Electric current marker
ON OFF
˚C
CHECK MODE
FILTER
CHECK
FUNCTION
STAND BY
DEFROST
INDOOR UNIT
ADDRESS NO
CLOCK
˚C
1Hr.
K
When the number
of data errors
generated is 02.
(2)
(2)
(1)
[Fig.14.1.1]
TB4
TB5
TB1
TB4
TB5
TB1
TB1
TB4
TB5
1
1
2
2
A
A
B
B
B
C
D
A
F
G
E
E
SW 1 - 3 ~ 6
ON
OFF
3
4
5
6
ON/OFF
TEMP
FAN
VANE
TEST RUN
AUTO STOP
AUTO START
h
min
LOUVER
MODE
CHECK
RESET
SET
CLOCK
CHECK
2
4
A
3
B
ON/OFF
TEMP
FAN
VANE
TEST RUN
AUTO STOP
AUTO START
h
min
LOUVER
MODE
CHECK
RESET
SET
CLOCK
TEST RUN
5
7
A
3
,
4
2
6
[Fig.12.2.1]
[Fig.12.3.1]
12.2
12
12.3
10
A
Outdoor unit
B
Indoor unit
C
Master remote controller
D
Subordinate remote controller
E
Standard 1:1 (Refrigerant address = 00)