R32
R58
R157
b
b
H
I
C−A
CN13A
CT−5P
2
0
1
9
27
46
4
5
33
34
35
36
37
38
39
40
41
42
4
3
44
62
47
6
3
59
60
61
58
11
12
13
16
15
14
17
18
51
64
65
69
67
31
32
52
53
54
55
49
48
68
26
10
24
21
22
23
66
30
2
9
28
50
2
5
70
(WHT)
C
C1
C2
C3
OSC
12V
R
9
7
R
9
8
−
+
I
C3
R120
R
1
0
3
C
3
3
R
1
1
0
R
11
1
R109
R119
R108
R
1
0
7
R
8
8
R
9
2
R
10
6
C
3
4
R
11
3
R
11
4
R11
2
14
8
9
−
+
1
3
3
1
0
1
1
5
0V
1
2
2
4
+
−
1
6
7
−
+
R
9
0
R
9
4
C
3
5
R
1
0
5
c
R124
R122
R
1
1
8
R128
R
8
9
R
9
1
R
9
3
R
9
5
R
8
6
R
8
7
0V
5V
R
1
0
4
R
9
9
R
1
0
0
5V
5V
5V
5V
5V
5V
5V
0V
0V
R
1
1
7
0V
0V
0V
0V
0V
5V
C
3
6
C
3
7
C
3
8
D6
D7
Q13
Q14
Q20
Q16
Q17
Q15
Q18
Q19
R
1
4
8
5V
D8
D9
0V−A
C
3
0
6
A
R
1
3
3
R
1
3
2
R
1
3
1
R
1
3
0
R137
R136
R135
C
4
3
C
4
2
R
1
3
4
0V
C
4
4
0V
3
7
1
5
1
4
6
1
1
6
I
C4
1
0
5
1
2
9
8
11
1
3
R
14
5
R
14
4
R
14
3
X2
X1
X0
X5
X6
X7
X4
IN
H
X
C
B
A
X3
0V
R146
0V
R142
0V
R141
2
4
R1
39
R1
40
C44
C
4
1
R138
C
4
5
5V
5V
R
14
7
R
1
2
7
R
1
2
6
R
1
2
5
0V
76
7
5
74
7
3
72
71
70
9 8 7 6 5 4 3 2
20
11 1
0
80
7
9
78
77
SD
I
2
V
d
V
C
C
X
T
A
L
WD
T
1
B
1
A
1
9 1
8
1
6
9
67
65
64
6
3
62
61
1
7 1
6 1
5 1
4 1
3 1
2
A
B
C
S
D
A(E
2
PR
OM
)
S
CL
(E
2
PR
OM
)
OH
DEF
AV
CC
FANCHOP
ACT ON/OFF
I
d
E
X
T
A
L
V
S
S
NM
I
R
E
S
E
T
S
T
B
Y
MD
1
MD
0
CHNG
V
CC
68
66
I S
AV
ss
V
S
S
φ
21
41 42 4
3 4
5 46 47 48 50
4
9
44
FA
N
LO
CK
A
D
S0
A
D
S1
A
D
S2
}
AX−6N00
SD
I
1
SDO1
SDO2
RE
SO
(L
o)
VSS
22
2
3
24
2
5
26
27
28
2
9
30
31
32
33
34
35
36
37
38
39
40
51 52 53 54 55 56 57 58 5
9 60
2-WAY VALVE
REV VALVE
STICK RELAY
RUSH CURRENNT RELAY
POWER RELAY
SELF DIAGNOSIS 1
SELF DIAGNOSIS 2
SELF DIAGNOSIS 3
15/20A SELECT
COOLIG SIGNAL OUTPUT
HEATING SIGNAL OUTPUT
VALVE 2A
VALVE 2B
VALVE 2A
VALVE 2B
VALVE 1A
1
B
MU
LT
IP
LE
XE
R
O/D TEMP
NOT USE(Lo)
(TEMP DEATA INPUT)
MONITOR(SEND)
MONITOR(RECV)
NOT USE(Lo)
60 ゜el OUTPUT(NOT REVISE)
6
0°
el
O
U
T
P
U
T
S
E
N
D
R
E
C
V
NO
T
U
SE
(L
o)
FO
RC
E
COO
L
IP
MI
CON
0V
C
1
7
R44
R45
R46
R47
R48
R49
R50
R51
R52
R63
R64
R65
R66
R67
R68
R69
R70
R71
R72
R73
R74
R75
R76
R77
R78
R84
R85
R96
R101
R1
0
2
R149
R150
R151
R152
R153
R154
R155
R156
C24
C23
C22
C27
C26
C25
C28
C29
C31
C32
D5
R161
R
5
3
C21
R
5
4
R
5
5
R
5
6
R
5
7
R
5
9
R
6
0
R
6
2
R
6
1
C
1
8
C
1
9
C
1
3
C
1
2
C
1
1
C
1
0
R
3
3
R
3
5
R
3
6
C
1
6
R
3
1
R43
C
1
4
R
3
4
C
1
5
a
C
2
0
0V
0V
17V
12V
5V
D1
D2
R42
5V
5V
5V
5V
0V
3
−
+
2
1
8
0V
12V
I
C2
R82
−
+
5
6
7
0V
4
R
8
1
R80
R83
R160
R158
5V
0V
0V
0V
Q8
Q9
Q7
Q10
R159
5V
0V
Q12
4
3
2
1
8
7
6
5
E
2
PROM
R
2
9
R
3
0
5V
D3
D4
5V
0V
0V
R27
R28
C9
17V
R
1
5
R
1
6
R
1
7
R
1
8
R
1
9
R
2
0
R21
R22
R23
R24
R25
R26
Q1
Q2
Q3
Q4
Q5
Q6
0V
5V
12V
C4
+
−
+
−
+
−
+
−
1
1
2
3
2
1
3
7
6
5
4
1
1
1
0
1
4
9
8
a
R1 R2 R3
R
4
R
5
R
6
R7
R8
R9
R10
I
C1
R
1
1
R
1
2
R
1
3
R
1
4
C
5
C
6
C
7
C
8
R
1
1
5
R
1
1
6
9
8 7 6 5 4 3
2
1
0
1
+
C305B
2
1
E
D
C
B
A
U
+
V
+
W
+
W
−
V
−
U
−
IP
0V
Id
17
V
CN13
CT−5P
L1 L2
P1
N1
P2
5
4
3
2
1
+
+
+
−
−
−
1
2
0V
27
26
25
24
30
1
2
1
3
1
6
11
1
0
W
U
V
E
A
C D
(GRY)
CN11
MI
N
I
CT−5P
(GRY)
CN14
MI
N
I
CT−10P
(14−A)
U
V
W
28
9
23 22
1
5
5
4
3
2
0
16
15
14
12 11 10
13
1
9
1
8
1
7
8
7
6
+
−
SPM−2B
1
2
3 4 5 6 7 8
9 1
0
2
3
4
(14−B)
6
7
4
5
1
3
2
1
5
29
VIN
IDET
VDET
GND
IFB
I
IN
1
4
9
8
0V
0V
0V
0V
0V
CT
VCC
SYNC
OUT
VFB
OVP
CS
VC
REF(5V)
ON/OFF
0V
B
H
(4−B)
i
(4−B)
CN11B
MI
N
I
CT−5P
CN14B
MI
N
I
CT−10P
(BLU)
GRY
(SP
I
RAL)
RED
(SP
I
RAL)
YEL
YEL
REACTOR B
(BLU)
(WHT)
RED
YEL
BRN
(SP
I
RAL)
(SP
I
RAL)
(SP
I
RAL)
COMPRESSOR
(WHT)
(WHT)
R002
C
0
0
9
L
N
25A FUSE
R
0
0
1
C
0
0
3
C
0
0
2
C
0
0
1
C
0
1
2
0V−A
0V−A
0V−B
0V−B
CT−A
CT−B
F (7−A)
H (12−A)
G
(7−A)
i
C
0
1
0
C
0
1
1
C
0
1
3
C
0
1
4
N
(4−G)
J
L003
L004
L006
C301B
C301A
JW001
K
5
A
F
U
S
E
(12−A)
(11−B)
(2−H)
JW002
C
0
0
7
C
0
0
8
C
0
1
6
C
0
1
7
C
0
0
5
C
0
0
4
L001 L002
L005
BLK
WHT
VAR
I
STOR1
VARISTOR2
SURGE
ABSORBER
GRN3
NOI
SE
F
I
LTER COI
L1
R003
VAR
I
STOR3
GRN2
GRN
TERMI
NAL
BOARD
POWER RELAY A
POWER RELAY B
INRUSH PREVENTION
RELAY A
R004
INRUSH PREVENTION RELAY B
3
1
1
3
4
2
7
8
5
6
0V
0V
5V
CN19A
CT−8P
MI
CON TEST
(WHT)
R38
R79
0V
C
3
0
0V
Q11
0V
R
3
9
B
1
2
0V
27
26
25
2
4
30
1
2
1
3
1
6
1
1
1
0
W
U
V
E
A
C D
(GRY)
(GRY)
CN14A
MI
N
I
CT−10P
(9−A)
U
V
W
28
9
2
3 2
2
1
5
+
+
+
−
−
−
2
1
E
D
C
B
A
U
+
V
+
W
+
W
−
V
−
U
−
IP
0
V
Id
17
V
CN13
CT−5P
R S
L1
L2
P1
2 1
N1
P2
3
5
4
3
2
1
VC
U
VC
V
VCW
VC
C
SU
T
SU
B
OC
SV
T
SV
B
PG
U
PG
V
PGW
U
V
W
VDET
GND
I
FB
I
I
N
1
4
9
8
0V
0V
0V
0V
0V
CT
VCC
SYNC
OUT
VFB
OVP
CS
VC
REF(5V)
ON/OFF
0V
5
4
3
2
0
1
6
1
5
1
4
1
2 1
1 1
0
1
3
1
9
1
8
1
7
8
7
6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
CB
GL
1
SWT
NG
U
NG
V
NGW
SW
B
GL
2
A
O
A
−
F
6
7
4
5
1
3
2
1
5
29
VI
N
I
DET
SPM−2A
1
2
3 4 5 6 7 8
9 1
0
2
3
4
(13−H)
(9−B)
D15VBA60
+
−
F
(4−A)
G
(4−A)
(13−H)
CN11A
MI
N
I
CT−5P
5 4 3 2 1
(GRY)
CN11
MI
N
I
CT−5P
CN14
MI
N
I
CT−10P
(GRY)
D15VBA60
D
IODE BR
I
DGE A
YEL
BLU
GRY
RED
YEL
YEL
REACTOR A
COMPRESSOR
(CYCLE A)
WHT
YEL
RED
YEL
(SP
I
RAL)
BLU
(SP
I
RAL)
D
IODE BR
I
DGE B
(CYCLE B)
CN12
VH−3P
2
1
3
4
9
8
7
6
5
1
2
3
4
5V−A
0V−A
E
2
PROM
CN17A
(WHT)
(CT4P)
+
0V−A
D301A
C
3
0
2
A
C
3
0
3
B
R313A
R301A
R32
R58
R157
b
b
5 4 3 2 1
H
I
C−B
25 50
28 29 30
66 23 22 21 24
10
26
68
5 6 7 8 9
20
19
70
48
49
46
45
27
33
34
35
36
37
38
39
40
41
42
43
44
47
62
63
59
60
61
58
11
12
13
16
15
14
17
18
51
64
65
57
56
69
67
31
32
52
53
54
55
57
56
c
C1
C2
C3
OSC
12V
R
9
7
R
9
8
−
+
I
C3
R120
R
10
3
C
3
3
R
11
0
R1
11
R1
0
9
R119
R1
08
R
10
7
R
8
8
R
9
2
R
10
6
C
3
4
R
1
1
3
R
1
1
4
R11
2
1
4
8
9
−
+
1
3
3
1
0
1
1
5
0V
1
2
2
4
+
−
1
6
7
−
+
R
9
0
R
9
4
C
35
R
10
5
c
R124
R122
R
1
1
8
R128
R
8
9
R
9
1
R
9
3
R
9
5
R
8
6
R
8
7
0V
5V
R
10
4
R
9
9
R
1
0
0
5V
5V
5V
5V
5V
5V
5V
0V
0V
R
1
1
7
0V
0V
0V
0V
0V
5V
C
36
C
37
C
3
8
D6
D7
Q13
Q14
Q20
Q16
Q17
Q15
Q18
Q19
R
1
4
8
5V
D8
D9
0V−B
C
3
0
6
B
R
1
3
3
R
1
3
2
R
1
3
1
R
1
3
0
R137
R136
R135
C
4
3
C
4
2
R
1
3
4
0V
C
4
4
0V
3
7
1
5
1
4
6
1
1
6
I
C4
1
0
5
1
2
9
8
1
1
1
3
R
1
4
5
R
1
4
4
R
1
4
3
X2
X1
X0
X5
X6
X7
X4
IN
H
X
C
B
A
X3
0V
R146
0V
R142
0V
R141
2
4
R
13
9
R
1
4
0
C44
C
4
1
R138
C
4
5
5V
5V
R1
47
R
1
2
7
R
1
2
6
R
1
2
5
0V
R78
R77
R76
R75
R74
0V
C
1
7
R44
R45
R46
R47
R48
R49
R50
R51
R52
R63
R64
R65
R66
R67
R68
R69
R70
R71
R72
R73
R84
R85
R96
R101
R102
R149
R150
R151
R152
R153
R154
R155
R156
C24
C23
C22
C27
C26
C25
C28
C29
C31
C32
D5
R161
R
5
3
C21
R
5
4
R
5
5
R
5
6
R
5
7
R
5
9
R
6
0
R
6
2
R
6
1
C
1
8
C
1
9
C
1
3
C
1
2
C
1
1
C
1
0
R
3
3
R
3
5
R
3
6
R
3
1
R43
C
1
4
R
3
4
C
1
5
a
C
2
0
0V
0V
17V
12V
5V
D1
D2
R42
5V
5V
5V
5V
0V
3
−
+
2
1
8
0V
12V
I
C2
R82
−
+
5
6
7
0V
4
R
8
1
R80
R83
R160
R158
5V
0V
0V
0V
Q8
Q9
Q7
Q10
R159
5V
0V
Q12
4
3
2
1
8
7
6
5
E
2
PROM
R
2
9
R
3
0
5V
D3
D4
5V
0V
0V
R27
R28
C9
17V
R
1
5
R
1
6
R
1
7
R
1
8
R
1
9
R
2
0
R21
R22
R23
R24
R25
R26
Q1
Q2
Q3
Q4
Q5
Q6
0V
5V
12V
C4
+
−
+
−
+
−
+
−
1
1
2
3
2
1
3
7
6
5
4
1
1
1
0
1
4
9
8
a
R1 R2 R3
R
4
R
5
R
6
R7
R8
R9
R10
I
C1
R
1
1
R
1
2
R
1
3
R
1
4
C
5
C
6
C
7
C
8
R
1
1
5
R
1
1
6
9
8 7 6 5 4 3
2
1
0
4
3
2
5
1
1
CN13B
CT−5P
4
3
5
1 2
(BLU)
1
/1
0
0
1/
1
0
0
0
1
/
1
0
4
3
2
1
5V−B
R308B
R309B
R310B
C
Y
C
L
E
B
F
A
S
T
F
E
E
D
(W
H
T)
C
N
2
0
B
P
H−
4
P
R79
0V C
3
0
0V
Q11
0V
R
3
9
R38
R38
12V−B
12V−B
1
2
D
3
0
2
B
D
3
0
3
B
2
3
P
OW
E
R
R
E
L
AY
B
IN
R
U
S
H
P
R
E
V
E
N
TI
O
N
R
E
L
AY
B
2
1
3
4
17V−B
12V−B
+
1
2
3
4
5V−B
0V−B
E
2
PROM
CN17B
(WHT)
(CT4P)
5V−B
0V−B
5V−A
1
3
1
6
1
4
1
1
1
2
1
0
1
2
3
4
5
6
7
8
4
3
2
1
9
8
7
6
5
4
3
PQ301A
PQ302A
PQ303A
10
11
2
1
9
1
5
1
6
1
3
11
1
4
1
2
7
6
9
8
3
2
5
4
1
1
0
1
5
PQ302B
PQ301B
PQ303B
5V−B
9
8
7
6
5
4
3
L
(5−E)
1
2
11
10
CN9B
(BLU)
L
+
C307B
0V
R312B
+
C307A
0V
R312A
(9)
(10)
+
C
2
4
3
(3)
(3)
1
5
6
R221
C222
4
M
3
2
1
5
6
2
D208
3
1
BEN−12V−A
BEN−12V−B
BEN−5V−B
BEN−5V−A
35V−A
35V−B
I/F0V−B
I/F0V−A
R250
R251
C238
C239
C240
C241
2
6
4
+
C
2
4
2
(13)
IC201
I
C202
I
C204
I
C205
I
C206
I
C207
R
2
0
2
4
M
M
3
2
1
5
6
4
3
2
R
2
1
8
C218
4
M
C224
R
2
1
1
R
2
1
2
R
2
1
3
C
2
1
2
D209
C213
C214
C
2
1
5
D210
R214
D
2
1
1
D212
C
2
1
6
C
2
2
1
D
2
1
4
L
2
0
2
R
2
1
7 R216
C
2
2
0
D213
R215
C219
C217
R220
R
2
1
9
PQ202
3
R
2
0
3
C
2
0
2
D201
C201
C203
D202
C204
C
2
0
5
D203
R204
D205
D
2
0
4
C
2
0
6
R205
D206
C209
C207
C
2
1
1
D
2
0
7
R
2
0
7
R
2
0
8
L
2
0
1
PQ201
C208
R210
R
2
0
9
10
14
11
9
16
2
7
9
16
2
7
4 5
12 13
6
Q201
R226
14
11
R224
1
Q202
4 5
3
1
D215
2
1
5
6
R225
3
1
D216
R228
R227
1
9
16
2
7
16
2
7
12 13
6
3
8
R223
1
11
C223
R222
1
9
3
8
15
10
4 5
C225
12 13
6
3
8
15
5
7
4 5
15
10
14
12 13
6
3
8
15
10
14
11
REG4
+
+
3
1
2
REG6
+
1
2
1
3
2
C2
10
R
2
0
1
R
E
G
7
1
5
2
R206
4
3
1
+
3
4
2
+
R
E
G
5
3
1
−
+
+
4
+
1
3
3
5
+
4
(2)
(4)
(6)
(7)
(14)
(12)
(11)
(8)
(2)
(4)
(6)
(7)
L203
L204
11
1
2
3
4
5
6
7
8
9
10
(10−E)
11
1
2
3
4
5
6
7
8
9
10
(13)
(12)
(14)
(8)
(9)
(10)
(11)
C
2
4
5
C
2
4
6
C
2
4
7
C
2
4
8
C
2
5
2
C
2
4
9
C
2
5
1
C
2
5
0
C
2
5
5
C
2
5
4
C
2
5
6
C
2
5
3
C258
C260
C259
C257
CN1
(BLU)
(VH2P)
3AFUSE
CN9A
(GRY)
(MI
N
I
CT11P)
CN9B
(BLU)
(MI
N
I
CT11P)
CN8
(WHT)
(XA7P)
NOI
SE
F
I
LTER COI
L3
NOI
SE
F
I
LTER COI
L4
CN15A
(YEL)
(XA−6P)
CN16A
(BLU)
(XA−6P)
CN15B
(WHT)
(XA−6P)
CN16B
(RED)
(XA−6P)
CN21A
(RED)
(VH−2P)
CN21B
(BLK)
(VH2P)
ELECTR
I
C
EXPANS
ION
VALVE 2
(CYCLE A)
ELECTR
I
C
EXPANS
ION
VALVE 1
(CYCLE A)
ELECTR
I
C
EXPANS
ION
VALVE 4
(CYCLE B)
ELECTR
I
C
EXPANS
ION
VALVE 3
(CYCLE B)
REVERS
I
NG
VALVE A
REVERS
I
NG
VALVE B
SW TRANSFORMER 2
SW TRANSFORMER 3
(COVERED TYPE)
I
O
G
O
G
I
SW POWER P.
W.
B.
(11−F)
J
C811A
C812A
C809A
C815A
C816A
C813A
C811B
C812B
C809B
L803A
L804A
L803B
C807A
C808A
C807B
L801A
L802A
L801B
L805
L806
L807
2
6
4
C8
18
A
C8
17
A
C8
18
B
C8
17
B
0V−A
0V−A
0V−B
12V−A
0V−A
12V−A
0V−A
12V−B
0V−B
D2
C2
D1
C1
1
3
5
7
Q
D3
C3
D4
C4
(2−B)
K
1
3
5
7
1
3
5
7
+
+
+
(2−B)
BRN
TERMI
NAL
BOARD
TERMI
NAL
BOARD
(SP
I
RAL)
RED
(SP
I
RAL)
BLU
(SP
I
RAL)
YEL
(SP
I
RAL)
YEL
BLU
RED
BRN
I
NTERFACE
I
NTERFACE
I
NTERFACE
RELAY1−B
RELAY2−A
RELAY1−A
I
NTERFACE TRANS1
I
NTERFACE TRANS2
I
NTERFACE
TRANS3
NOI
SE
F
I
LTER COI
L5
NOI
SE
F
I
LTER
COI
L6
NOI
SE
F
I
LTER COI
L7
GRN1
1
3
7
8
1
3
8
7
1
3
8
7
(RRMH3573)
(RRMH3573)
(RRMH3573)
(11−F)
C815B
C816B
C813B
L804B
C808B
L802B
0V−B
12V−B
0V−B
p
+
I
NTERFACE
RELAY2−B
INTERFACE TRANS4
NOI
SE
F
I
LTER COI
L8
1
3
8
7
(RRMH3573)
(I
NDOOR
UN
I
T 1)
(I
NDOOR
UN
I
T 2)
(I
NDOOR
UN
I
T 3)
(I
NDOOR
UN
I
T 4)
CN2
(WHT)
(VH4P)
CN2
(BLK)
(VH4P)
1
2
1
2
1
2
CN4A
R302A
R303A
R304A
R305A
CN5A
CN6A
CN7A
5V−A
5V−A
5V−A
5V−A
5V−A
XA2P
(WHT)
XA2P
(BLU)
XA2P
(RED)
XA8P
(WHT)
OVERHEAT
THERMI
STOR−A
DEFROST
THERMI
STOR−A
EXPANSION VALVE THERMISTOR A
EXPANSION VALVE THERMISTOR A
EXPANSION VALVE THERMISTOR A
EXPANSION VALVE THERMISTOR A
〔SMALL P
I
PE 1〕
〔SMALL P
I
PE 2〕
〔B
IG P
I
PE 1〕
〔B
IG P
I
PE 2〕
OUTDOOR TEMP
THERMI
STOR−A
5V−A
0V−A
R
8
0
2
A
R801A
C801A
C802A
C803A
5V−A
0V−A
R
8
0
4
A
R803A
C805A
C804A
C806A
1
/1
0
0
1/
1
0
0
0
4
3
2
1
5V−A
R308A
R309A
R310A
1
/1
0
(W
H
T)
C
Y
C
L
E
A
F
A
S
T
F
E
E
D
C
N
2
0
A
P
H−
4
P
1
2
1
2
CN4B
CN5B
5V−B
R302B
R303B
R304B
R305B
5V−B
5V−B
5V−B
5V−B
5V−B
R
3
1
1
B
1
2
3
4
5
6
7
8
OVERHEAT
THERMI
STOR B
DEFROST
THERMI
STOR B XA2P
(BLK)
XA2P
(YEL)
5V−A
1
3
4
2
7
8
5
6
9
10
CN18A
CT−10P
−5V
0V−A
12V−A
17V−A
R306A
O
(6−D)
R307A
TEST
(WHT)
4
3
2
1
PQ304A
5V−A 5V−B
5V−A
C304A
C304B
4
3
2
1
PQ304B
5V−A 5V−B 5V−B
+
0V−B
0V−B
R
3
0
1
B D301B
C
3
0
2
B
R313B
N
(3−B)
M
−5V
5V−A
12V−A
0V−A 1
2
3
4
5
6
(12−K)
CN10
(BLK)
(XA6P)
12V−A
2
3
D
3
0
3
A
IN
R
U
S
H
P
R
E
V
E
N
TI
O
N
R
E
L
AY
A
1
2
12V−A
D
3
0
2
A
P
OW
E
R
R
E
L
AY
A
5V−A
LD301A
LD302A
LD303A
LD304A
LD303B
LD304B
5V−B
LD301B
LD302B
R307B
1
3
4
2
7
8
5
6
0V−B
5V−B
0V−B
CN19B
CT−8P
(WHT)
MI
CON TEST
5V−B
1
3
4
2
7
8
5
6
9
1
0
CN18B
CT−10P
0V−B
12V−B
17V−B
R306B
TEST
(WHT)
(CYCLE B)
(CYCLE B)
(CYCLE A)
17V−A
12V−A
+
0V−A
C
3
0
3
A
5V−A
+
C305A
MAI
N P.
W.
B.
C801B
C802B
R
8
0
2
B
R801B
C803B
5V−B
0V−A
p
R
8
0
4
B
R803B
C806B
C804B
C805B
5V−B
0V−B
Q
(3−G)
(3−A)
0V−A
+
3
1
+
REG1
8
6
1
−
17V−B
4
3
2 3 4
17V−A
12V−B
9
1
0
7
12V−A
1
5V−B
5V−A
−5V
SPM0V−B
SPM0V−A
0V−B
0V−A
+
+
+
2
+
REG2
+
+
+
R
E
G
3
2
(1)
(6)
(5)
(3)
(16)
(15)
(14)
(13)
(12)
(11)
(10)
(8)
(9)
DB1
C015
I
C203
R235
D217
PQ20
3
D219
C229
C237
R231
C227
R
2
3
7
R
2
3
3
R236
C236
C
2
2
6
R
2
2
9
D
2
1
8
R
2
3
4
C
2
2
8
R
2
3
0
R2
32
D220
D221
C230
C231
D222
C232
C235
D223
C233
C234
D224
C244
R238
SW TRANSFORMER 2
O
G
I
O
G
I
C
1
6
O
0V−A
(10−F)
SERV
I
CE
SWI
TCH
PUSH:COOL
NOTE
TYPE OF CAPAC
I
TOR
F
:
F
I
LM
C:CERAMI
C
D:
ELECTROLYT
I
C
76
7
5
74
7
3
72
71
70
9 8 7 6 5 4 3 2
20
11 1
0
U
+
V
−
W
−
V
+
W
+
80
7
9
78
77
SD
I
2
V
d
V
C
C
X
T
A
L
WD
T
1
B
1
A
1
9 1
8
1
6
9
67
65
64
6
3
62
61
1
7 1
6 1
5 1
4 1
3 1
2
U
−
A
B
C
S
D
A(E
2
PR
OM
)
S
CL
(E
2
PR
OM
)
OH
DEF
AV
CC
FANCHOP
ACT ON/OFF
ACT−CHOP
I
d
E
X
T
A
L
V
S
S
NM
I
R
E
S
E
T
S
T
B
Y
MD
1
MD
0
CHNG
V
CC
68
66
I S
AV
ss
V
S
S
φ
21
41 42 4
3 4
5 46 47 48 50
4
9
44
FA
N
LO
CK
A
D
S0
A
D
S1
A
D
S2
}
PAM
AX−6N00
MD
2
SD
I
1
SDO1
SDO2
POR
RE
SO
(L
o)
VSS
22
2
3
24
2
5
26
27
28
2
9
30
31
32
33
34
35
36
37
38
39
40
51 52 53 54 55 56 57 58 5
9 60
2-WAY VALVE
REV VALVE
STICK RELAY
RUSH CURRENNT RELAY
POWER RELAY
SELF DIAGNOSIS 1
SELF DIAGNOSIS 2
SELF DIAGNOSIS 3
15/20A SELECT
COOLIG SIGNAL OUTPUT
HEATING SIGNAL OUTPUT
VALVE 2A
VALVE 2B
VALVE 2A
VALVE 2B
VALVE 1A
1
B
MU
LT
IP
LE
XE
R
O/D TEMP
NOT USE(Lo)
(TEMP DEATA INPUT)
MONITOR(SEND)
MONITOR(RECV)
NOT USE(Lo)
60 ゜el OUTPUT(NOT REVISE)
6
0°
el
O
U
T
P
U
T
S
E
N
D
R
E
C
V
NO
T
U
SE
(L
o)
FO
RC
E
COO
L
IP
MI
CON
U
+
V
−
W
−
V
+
W
+
U
−
ACT−CHOP
PAM
MD
2
POR
VC
U
VC
V
VCW
VC
C
SU
T
SU
B
OC
SV
T
SV
B
PG
U
PG
V
PGW
U
V
W
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
CB
GL
1
SWT
NG
U
NG
V
NGW
SW
B
GL
2
A
O
A
−
F
M
(11−E)
C930
2AFUSE
R
0V−A
2 1
3
2
9
1
9
21
Q903
26
2
5
30
5
1
2
22
24
1
4
1
5
1
6
33
32
31
Q915
Q918
R
9
2
5
S
−5V
1
8
1 2 3 6
9
4
27
28
C
9
2
2
20
Q921
R
9
2
8
Q912
R
9
2
2
Q904
+
+
+
+
+
+
+
+
+
R
9
1
1
+
+
Q909
D906
D914
Q911
Q914
R
9
2
4
R
9
2
1
C
9
2
1
Q908
D905
D
9
0
3
Q920
C
9
2
3
R
9
3
2
Q910
Q913
R
9
2
7
R
9
2
6
R9
20
D
9
0
2
Q917
C
9
2
4
R
9
3
3
C
9
2
5
R915
R904
R901
C904
Q907
D904
D
9
0
1
Q916
C916
ZD901
C914
Z
D
9
0
6
R
9
3
4
R
9
1
3
R
9
1
6
R
9
1
7
R903
R906 C906
R909
C901
R908
Q901
R907
R910
C903
R
9
3
5
R
9
3
6
R
9
3
7
R
9
4
8
Z
D
9
0
5
Z
D
9
0
4
C917
+
C
92
0
Q919
R940
R941
8
1
0
R912
C910
R914
C909
C908
C907
C911
C912
C913
C915
R902
R905 C905
C902
2
1
6
Q902
R
9
2
3
−5V
R
9
5
0
D915
D913
R931
R
9
4
9
R930
R929
5
4
3
C9
31
2
3
7
11
1
7
1
3
0V−A
12V−A
12V−A
12V−A
5V−A
12V−A
0V−A
C919
C91
8
12V−A 5V−A 5V−A
0V−A
5V−A
R942
R943
R944
C
9
2
8
C
92
7
C
92
6
C929 L901
L902
L903
CN12
H
I
C3
3
5
1
JW903
JW901
JW902
L904
(8−A)
(8−A)
(0V)
0V−A
DC FAN MOTOR
U
(WHT)
V
(YEL)
W(RED)
CN22
VH3P
CN10
(BLK)
(XA6P)
(VH2P WHT)
FM P.
W.
B.
M
EXPANSION VALVE THERMISTOR B
〔SMALL PIPE 1〕
EXPANSION VALVE THERMISTOR B
〔BIG PIPE 1〕
EXPANSION VALVE THERMISTOR B
〔SMALL PIPE 2〕
EXPANSION VALVE THERMISTOR B
〔BIG PIPE 2〕
1
2
3
4
5
6
7
8
CN7B
XA8P
(BLK)
YEL
(SP
I
RAL)
BLU
(SP
I
RAL)
BLU
YEL
REACTOR C
1
3
1
6
1
4
1
1
1
2
1
0
1
2
3
4
5
6
7
8
4
3
2
1
9
1
5
1
6
1
3
11
1
4
1
2
7
6
9
8
3
2
5
4
1
1
0
1
5
R001
5% 1/2
1M
R002
100 5% 10
R003
100 5% 10
R201
1M 5% 1/2
R202
1M 5% 1/2
R203
820K 5% 1/4
R204
10 2% 1/4
R206
680 5% 1/4
R205
2K 5% 1/6
R207
0.
33 5% 1
R208
3.
3K 5% 1/4
R209
150 5% 1/4
R211
1M 5% 1/2
R212
1M 5% 1/2
R210
4.
7K 5% 1/4
R213
820K 5% 1/4
R214
10 2% 1/4
R215
2K 5% 1/6
R216
680 5% 1/4
R217
0.
33 5% 1
R218
3.
3K 5% 1/4
R219
150 5% 1/4
R220
4.
7K 5% 1/4
R250
47 5% 1/2
R251
47 5% 1/2
R221
100 5% 1/6
R222
100 5% 1/6
R223
100 5% 1/6
R224
100 5% 1/6
R225
750 5% 1/6
R226
10K 5% 1/6
R227
750 5% 1/6
R004
5%
0.
56
7
R930
1K 5% 1/6
R931
1K 5% 1/6
R932
10K 5% 1/6
R933
10K 5% 1/6
R934
10K 5% 1/6
R935
15K 5% 1/2
R936
15K 5% 1/2
R937
15K 5% 1/2
R940
3.
0 2% 2
R941
3.
0 2% 2
R942
100 5% 1/6
R943
100 5% 1/6
R944
100 5% 1/6
R948
1K 5% 1/6
R949
1K 5% 1/6
R950
1K 5% 1/6
0.
1 50 C
C301B
C302B
10 D
C303B 100 6.
3 D
C304B
50 C
C305B 100 25 D
C306B 0.
1 50 C
C801B 0.
15 50 F
C802B
50 F
C803B 0.
1 50 C
C804B 0.
15 50 F
100
0.
0047
C805B 0.
022 50 F
C806B 0.
1 50 C
C807B 100 50 D
C808B 100 50 D
C809B 0.
15 50 F
C811B 0.
01
C
C812B
C813B 0.
15 50 F
C815B
C816B
AC250
0.
01 AC250 C
0.
01 AC250 C
0.
01 AC250 C
C817B
C818B
0.
01 AC250 C
0.
01 AC250 C
0.
022
D
22
C307B
6.
3
C223 0.
1 50 C
100 6.
3 D
C215 470 50 D
C216 330 25 D
C217 0.
00047 AC250 C
C218 0.
1 50 C
C219 0.
00033
F
C220 0.
00047
C
50
50
C221 0.
00068 2K C
C222 0.
1 50 C
C206 330 25 D
C207
AC250 C
0.
00047
C208 0.
1 50 C
C209 0.
00033
F
50
C210 0.
00047
C
50
C211 0.
00068 2K C
C212 0.
01
C
C213 330 25 D
C214
C013
AC250 C
C014
AC250 C
C015 270 450 D
C201
450 D
C202 0.
01 AC250 C
10
C203 330 25 D
C204 100 6.
3 D
C205 470 50 D
C005
AC250 C
C007
AC250 C
C008
AC250 C
C009
AC350
F
C010 0.
01 AC250 C
C011 0.
01 AC250 C
C012
F
0.
0047
C
AC250
0.
0047 AC250 C
0.
56 630 F
C003
C002
C001
C004
AC250 C
AC250
C016
AC250 C
C017
AC250 C
0.
01
0.
01
3.
3(4.0)
(AC300)
AC350
3.
3(4.0)
(AC300)
PQ201 PS2501
PQ202 PS2501
PQ203 PS2501
PQ301A
PQ302A
PQ303A PS2501
PQ301B
PQ302B
PQ303B PS2501
PS2501−4
PS2501−4
PS2501−4
PS2501−4
PQ304A PS2501
PQ304B PS2501
Q201 2SC1214CT
Q202 2SC1214CT
Q901
Q902
Q903
Q904
Q907
2SC3632
2SC3632
2SC3632
MTP2P50E
Q908 MTP2P50E
Q909 MTP2P50E
Q910 2SA673
Q911 2SA673
Q912 2SA673
Q913 2SA673
Q914 2SA673
Q915 2SA673
Q916 2SC458
Q917 2SC458
Q918 2SC458
Q919 2SK2842
Q920 2SK2842
Q921 2SK2842
AA1A4M
REG1 MC7805CT
REG2 MC7805CT
REG3
REG4
REG5
REG6
REG7
SE012N
μPC78L05J/T
SE034N
μPC78L05J/T
SE034N
RA−102M−V1−Y
450NR−12D
450NR−12D
450NR−12D
SKHHLQ−SW
DIODE
D201
D202
D203 FML−G22S
D204
D205
D206
D207
D208
D209
D210 FML−G22S
D211
D212
D213
D214
D215
D216
D217
D218
D219
D220
D221
D222
D223
D224 AK06
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
AG01Z
SARS01
SARS01
RN2Z
RN2Z
1SS120
1SS120
L005
L006
L201
L202
L801A
L802A
L801B
L802B
L803A
L804A
L803B
L804B
L805
L806
L807
L901
L902
L903
L001
L002
L003
L004
FBA04MA450
FBA04MA450
FBA04MA450
FBA04MA450
FBA04MA450
FBA04MA450
FBA04MA450
EXCELSA35V
EXCELSA35V
RCH106−820
RCH106−820
RCH106−820
RCH106−820
L204
L203
L904 EXCELSA35V
EXCELSA35V
INDUCTANCE
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
WIRE JUMPER
JW002
JW001 ○
−
JW901 ○
○
JW902
JW903 −
R804A
5% 1/4
1K 1% 1/6
R301A
R302A
1/6
R303A
1/6
R304A
1/6
R305A
1/6
R306A 100 5% 1/6
R307A 1.
6K 5% 1/6
R308A 4.
3K 5% 1/6
R309A 1.
6K 5% 1/6
R310A 470 5% 1/6
R801A
5% 1/4
R802A
5% 1/4
R803A
5% 1/4
1/6
5%
5.
1k
1/6
R313A 1.
69k
R312A
1%
33
33
33
33
R307B 1.
6K 5% 1/6
R308B 4.
3K 5% 1/6
R309B 1.
6K 5% 1/6
R310B 470 5% 1/6
R801B
5% 1/4
R802B
5% 1/4
R803B 33 5% 1/4
R804B 33
33
33
5% 1/4
R311B
1K 1% 1/6
R301B
R302B
1/6
R303B
1/6
R304B
1/6
R305B
1/6
R306B 100 5% 1/6
WIRE
JUNPRE
1/6
5%
5.
1k
R312B
1/6
1%
1.
69k
R313B
RESISTOR
SYMBOL RETER VALUW
Ω
LIMIT W
RESISTOR
SYMBOL RETER VALUW
Ω
LIMIT W
SYMBOL RETER VALUW
Ω
LIMIT W
SYMBOL RETER VALUW
Ω
LIMIT W
RESISTOR
SYMBOL RETER VALUW
Ω
LIMIT W
RESISTOR
RESISTOR
CAPACITOR
CAPACITOR
CAPACITOR
PHOT COUPLER
SYMBOL MODEL
TRANSISTOR
SYMBOL MODEL
SYMBOL
REGULATOR
MODEL
JUMPER WIRE
SYMBOL
SYMBOL
SYMBOL
MODEL
MODEL
MODEL
DIODE
SYMBOL MODEL
SYMBOL
SURGE ABSORBER
VARISTOR1
VARISTOR2
VARISTOR3
SURGE ABSORBER
MODEL
SWITCH
SYMBOL
SERVICE SWITCH
MODEL
C901 10
100 D
C902 10 100 D
C903 10 100 D
C904 4.
7 100 D
C905 4.
7 100 D
C906 4.
7 100 D
C907 22
10 D
C908 1
50 D
C909
6.
3 D
C910 100 16 D
C911 100 10 D
100
C912
0.
0047 50 F
C913 0.
1 50 F
C914 0.
1 50 F
C915 0.
1 50 F
C916 0.
022 50 F
C917 220 10 D
C918 0.
1 50 C
C919 0.
1 50 C
C920 0.
001 50 C
C921 0.
001 50 C
C922 0.
001 50 C
C923 0.
022 25 C
C924 0.
022 25 C
C925 0.
022 25 C
C926 0.
1 50 C
C927 0.
1 50 C
C928 0.
1 50 C
C929 0.
1 50 C
C930 0.
082 630 F
C931 0.
1 50 C
RMF3249
RMF3249
RMF3249
RMF3249
SYMBOL
INTERFACE TRANS
INTREFACE TRANS1
INTREFACE TRANS2
INTERFACE TRANS4
INTREFACE TRANS3
MODEL
SYMBOL
μF
RETER VALUE
V TYPE
SYMBOL
μF
RETER VALUE
V TYPE
CAPACITOR
SYMBOL
μF
RETER VALUE
V TYPE
SYMBOL
μF
RETER VALUE
V TYPE
R229
2.
2M 5% 1/4
R230
3.
3K 5% 1/4
R231
680 5% 1/4
R232
2
5% 1/2
R233
1K 5% 1/2
R234
2.
2K 5% 1/4
R235
22 2% 1/4
R236
1.
8K 5% 1/6
R237
R238
5% 1/6
1K
1K
5% 1/2
R901
180K 0.
5% 1/2
R902
180K 0.
5% 1/2
R903
180K 0.
5% 1/2
R904
1% 1/6
R905
47K
47K
1% 1/6
R906
47K 1% 1/6
R907
15K 5% 1/2
R908
15K 5% 1/2
R909
15K 5% 1/2
R910
620 2% 1/6
R911
10K 5% 1/6
R912
1.
5K 1% 1/6
R913
68K 5% 1/6
R914
5.
11K 1% 1/6
R915
3.
0K 2% 1/6
R916
1/6
R917
26.
7K 1% 1/6
R920
10K 5% 1/6
R921
10K 5% 1/6
R922
10K 5% 1/6
R923
4.
7K 5% 1/6
R924
4.
7K 5% 1/6
R925
4.
7K 5% 1/6
R228
10K 5% 1/6
R926
100 5% 1/6
R927
100 5% 1/6
R928
100 5% 1/6
R929
1K 5% 1/6
0.
1 50 C
C301A
C302A
10 D
C303A 100 6.
3 D
C304A
50 C
C305A 100 25 D
C306A
C
C801A 0.
15 50 F
C802A
50 F
C803A 0.
1 50 C
C804A 0.
15 50 F
100
0.
0047
C805A 0.
022 50 F
C806A 0.
1 50 C
C807A 100 50 D
C808A 100 50 D
C809A 0.
15 50 F
C811A 0.
01
C
C812A
C813A 0.
15 50 F
C815A
C816A
AC250
0.
01 AC250 C
0.
01 AC250 C
0.
01 AC250 C
C817A
C818A
0.
01 AC250 C
0.
01 AC250 C
0.
022
D
22
C307A
6.
3
0.
1 50
CAPACITOR
SYMBOL
μF
RETER VALUE
V TYPE
C232 220 25 D
C233 220 25 D
C234 47
16 D
C235 100 6.
3 D
C236 100 6.
3 D
C237 0.
00047
C
AC250
C224 0.
1 50 C
C225 0.
1 50 C
C226 0.
00022 2K C
C227 0.
00047 50 C
C228 4.
7 25 D
C229 0.
001 50 F
C230 22
50 D
C231 22
50 D
C238
0.
001 AC250 C
C239
0.
001 50 C
C240
0.
001 AC250 C
C241
0.
001 50 C
50
470
D
C242
50
470
D
C243
C244 0.
1 50 C
C245 0.
01
C
C246 0.
01
C
C247 0.
01
C
C248 0.
01
C
C249 0.
01
C
C250 0.
01
C
C251 0.
01
C
C252 0.
01
C
C253 0.
01
C
C254 0.
01
C
C255 0.
01
C
C
0.
01
C257
C
0.
01
C256
C260
C
C259 0.
01
C
0.
01
C258
0.
01
C
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
ZD901 HZ7A1
ZD904 HZ15−2
ZD905 HZ15−2
ZD906 HZ15−2
HIC−A
HIC−B
HIC−3
IC201
IC202
IC203
IC204
IC205
IC206
IC207
M68979−01
M68979−01
STR−F6667B
STR−F6667B
STR−L451
SPM2−A
SPM2−B
M54532P
M54532P
M54532P
M54532P
M68298
LD301A LED−T2−R
LD302A LED−T2−D
LD303A LED−T2−G
LD304A LED−T2−R
LD301B LED−T2−R
LD302B LED−T2−D
LD303B LED−T2−G
LD304B LED−T2−R
ZENER DIODE
SYMBOL
MODEL
LED
SYMBOL MODEL
IC
SYMBOL
MODEL
D301A
D302A
D303A
D301B
D302B
D303B
D901
D902
D903
D904
D905
D906
D913
D914
D915
1S2076A
1S2076A
1S2076A
DB1
1SS120
1SS120
1SS120
1SS120
1SS120
1SS120
S3L60
S3L60
S3L60
S3L60
S3L60
S3L60
D15XB60
A
B
C
D
E
F
G
H
J
K
A
B
C
D
E
F
G
H
J
K
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1 6
Ð 107 Ð
MODEL RAM-80QH4
Summary of Contents for RAD25QH4
Page 3: ... 0Ω 112 3 4 1 5 6 7 7 8 9 4 DANGER ...
Page 10: ... SPECIFICATIONS EU1013DD 2 ...
Page 11: ... EU1013DD 2 ...
Page 31: ... 0 1 2 3 1 4 5 6 4 7 8 9 4 1 2 1 0 ...
Page 32: ... 1 2 3 4 1 2 5 6 2 5 6 7 2 28 2 9 9 1 1 2 7 6 8 2 8 ...
Page 33: ... 0 1 0 1 1 1 0 1 1 2 3 4 0 5 3 6 7 3 6 7 8 3 39 3 3 8 7 9 3 9 2 2 1 2 2 ...
Page 35: ... 0 1 2 3 2 456 7 0 1 8 9 5 5 8 3 8 5 3 4 4 8 8 3 8 3 3 7 A 3 3B C 9 8 D ...
Page 127: ... 0 1 22 3 3 4 567 89 5 8 8 3 567 89 ...
Page 152: ... 0 1 0 2 3 5 6 1 7 6 6 3 5 3 5 8 9 9 ...
Page 154: ... A 0 11 2 3 1 1 3 1 3 4 4 5 A 6 8 3 1 11 1 1 1 5 A 6 9 ...
Page 162: ... Mode Refroidissement 0 1 2 3 4 55 6 7 85 9 6 7 A 75 1 B B 6 A 75 1 B B C 9 ...
Page 183: ... 0 1 2 3 4 0 3 4 5 1 5 5 6 7 8 1 5 1 9 1 0 5 1 9 9 5 ...
Page 184: ... 01 0 2 3 4 3 0 5 3 3 0 3 0 067 8 3 0 7 3 0 3 9 3 9 1 9 1 0 A 0 B ...
Page 188: ... 0 2 2 3 4 567 3 4 567 3 4 567 3 4 567 8 9 2 8 9 2 4 6 0 0 6 0 4 ...
Page 194: ... 1 2 3 4 5 6 7 6 6 7 6 8 9 9 9 8 9 9 9 8 9 9 5 9 9 5 9 9 A A 2 3 4 9 9 ...
Page 203: ... 0 1 0 0 2 0 3 3 4 3 3 5 5 0 0 0 0 5 5 0 5 0 1 32 6 6 6 76 0 8 9 0 0 0 0 ...
Page 204: ... 0 1 2 3 4 5 6 2 2 3 7 7 1 3 7 2 2 8 7 1 2 29 9 5 6 2 3 2 2 2 29 9 5 9 0 3 7 2 2 4 0 0 3 6 ...
Page 207: ... 0 1 2 1 0 1 3 41 3 41 1 2 1 ...
Page 211: ... 0 1 23 4 1 03 4 1 4 1 5 6 4 7 8 7 7 8 7 7 8 7 7 8 7 5 0 9 0 9 5 5 5 5 5 5 5 5 5 5 ...
Page 212: ... 0 1 0 234 0 5 134 5 0 0 5 0 0 5 6 7 8 9 8 8 9 8 8 9 8 8 9 8 6 1 1 0 0 ...
Page 214: ... 7 Circuit de contr le facteur de puissance 0 ...
Page 217: ... 0 0 1 2 3 4 ...
Page 221: ... AT STARTING OPERATION 0 0 OTHERS 1 2 1 3 2 0 0 ...
Page 226: ... 0 0 1234 5 5 6 7 8 8 0 0 0 7 0 9 0 0 2 0 50 0 0 0 0 0 0 9 0 0 0 0 0 0 0 5 0 0 0 0 0 0 ...
Page 228: ... FIXATION 0 1 2 3 1 40 0 1 2 3 1 1 6 2 3 1 22 7 8 9 2 3 1 6 8 2 40 0 2 3 1 0 0 6 ...
Page 230: ... 01234 54 567 8 94 4 4 8 8 2 8 8 7 FIXATION FIXATION ...
Page 232: ... 0 1 2 3 4 1 1 6 7 8 7 7 9 8 0 3 4 8 FIXATION 3 1 3 1 ...
Page 236: ... FIXATION 0 1 2 2 3 4 5 6 ...
Page 249: ... 0 1 1 234 354 64 234 354 74 8 2349 354 4 49 64 49 64 239 354 74 7 1 ...
Page 280: ...Ð 307 Ð MODEL RAD 25QH4 RAD 40QH4 MODELE 67 11 ...
Page 293: ...TC NO 0757EF RAF 25NH4 RAF 50NH4 RAD 25QH4 RAD 40QH4 RAM 70QH4 RAM 80QH4 ...
