A
N
5
EEPROM
S
D
A
S
C
L
φ1
φ2
φ
3
φ
4
φ
1
φ
2
φ
3
φ
4
φ
4
φ
3
φ
2
φ
1
FT
IOD1
FT
IOC1
FRONT PANEL
R
OO
M
TEM
PE
R
A
T
U
RE
FAST FEED
TEST
H
E
A
T
E
X
C
HA
N
G
E
R
H
UM
ID
IT
Y
POW
ER
SU
PP
LY
V
OL
TAG
E
I/F
T
RA
NSM
IS
SIO
N
I/F
R
EC
EP
TIO
N
AUTO RESTART
OUTS
I
DE TXD
OUTS
I
DE RXD
REMOTE CONTROL ID SELECT
H−L
I
NK
INDOOR FAN PWM OUTPUT
HUMIDITY
OPERATION
T
IMER
F
I
LTER
W
IR
E
D
REMOTE CONTROL
HA
O/
P
B
U
Z
Z
E
R
HIG
H
VO
LT
AG
E
DIF
EC
TIO
N
AUTO SWEEP2
SWEEP1
A
U
T
O
FM ROTATION NO.
FB
WIRELESS INPUT
CLOCK
OSC
I
LAT
ION
C
I
RCU
I
T
RESET
GRN1
1
3
2
CN16
2
3
1
2
3
1
PH−3P−Top
Humi
d
i
t
y
Senso
r
TLP421
(BL)
TLP421
(BL)
PQ911
PQ912
H
H
Pho
t
o Coup
l
e
r
0V
OV
REC
SEND
R
9
1
1
R
9
1
2
R
9
1
3
R
9
1
4
C
9
1
1
C
9
1
2
C
9
1
3
C
9
1
4
C
9
1
5
R915
L
9
1
1
L912
CN9
12V
5V
12V
PA−4P−Top
Wired remote control
1
2
0V
PQ912
PQ911
0V
3
4
−
+
D
0V
PA−6P−Top
3
4
5
6
2
1
CN7
H−L
I
NK
RX
TX
0V
12V
12V
R
9
0
1
5V
0V
C901
0V
CJ801
H
H
H
H
H
H
H
H
C
C
C
C
H
H
H
C
C
R
H
H
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
R
C
C
C
C
C
C
C
C
C
C
C
C
C
H
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
R
D
C
C
C
C
C
C
C
C
C
A
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
A
C
C
C
A
C
A
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
H
C
C
C
C
C
C
R
R
H
C
C
C
C
C
C
C
D
C
C
C
C
R
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
H
SW1
C
C
C
C
C
C
C
C
C
C
C
R
C
C
C
C
C
C
D
C
A
A
C
A
C
C
(9,
D)
(9,
G)
(4,
F)
(4,
F)
H
H
H
H
(15,
D)
(3,
C)
C
C
C
C
H
H
KSM0633B
C
C
C
D
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
H
R
D
C
C
C
D
C
Swi
t
ch
R
6
1
4
Au
t
o
Res
t
a
r
t
OFF
Remote
control
ID
R
6
1
2
CN11A
CN12A
CN13A
CN11B
CN12B
CN13B
J101〜J140
C
Jumpe
r
Use
Use
R651
R
6
5
2
C651
NMI12
TX
RX
R654
R
6
5
6
R655
R
6
5
3
R512
11
10
C
1
C
2
6
9
C2
M2
C612
SW1
D
Tempo
r
a
ry SW
B
A
R
6
0
1
R602
C601
B
A
R701
36
NMI
37
P61
P60
38
P65
47
56
58
59
62
60
61
15
X2
VCL
OSC2
OSC1
Vcc
P35
P64
P
3
3
P
3
1
P
3
0
P
3
2
TM
O
V
9
P
6
3
IR
Q
2
IR
Q
3
WKP0
P62
WKP1
IR
Q
0
IR
Q
1
Vss
10
RES
P
1
0
P
5
3
P
1
2
P
1
1
P
5
2
S
D
A
21
20
23
22
49
19
24
30
29
32
31
26
25
28
27
P87
RXD
P20
S
C
L
P
7
5
P
7
4
AN6
AN7
P85
P70
AVCC
P86
P23
48
46
40
41
39
44
45
42
43
50
63
64
54
55
52
53
57
I
C501
TXD
51
A
N
3
P
5
4
P
5
5
A
N
1
A
N
2
A
N
4
A
N
0
2
1
3
P
2
4
T
X
D
2
R
X
D
2
X1
4
5
8
TEST
7
6
18
17
16
P
3
6
P34
P
3
7
13
12
14
11
34
33
35
0V
0V
2
5
1
2
Fi
lt
er
Con
t
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l P.
W.
B.
I
nd
i
ca
t
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P.
W.
B.
L
i
gh
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Rece
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v
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ng
P.
W.
B.
Tempo
r
a
ry
Swi
t
ch
P.
W.
B.
5
L
D
2
0
1
R745
R746
R747
R744
1
5V
3
4
L
D
2
0
3
L
D
2
0
2
3
4
C
6
4
2
C
2
1
3
0V
R
7
6
1
5V
R
7
6
3
C
7
4
1
C
7
4
5
C
7
4
4
C
7
4
3
C
7
4
2
Q111
R114
Q113
Q112
R
1
1
1
R115
C
1
1
3
C
1
1
6
R
1
1
2
Z
D
1
1
1
R
1
1
6
R
1
1
7
C
1
1
1
Q116
R
1
2
4
R121
R
1
2
2
R
1
2
3
Q115
C
1
1
2
I
C111
2
3
8
5
6
4
7
1
C
D
CN3
3
2
1
Te
rmi
na
l Boa
rd
XA−3P−Top
(BRN)
(RED)
M
3
2
1
4
M
8
7
6
10
9
9
7
10
11
12
6
5
4
13
3
14
2
15
1
16
8
C
7
1
1
I
C711
12V
9
7
10
11
12
6
5
4
13
I
C712
1
16
8
3
14
2
15
5
CN4
C
7
1
2
CN5
M
3
2
1
5
4
PA−10P−Top
PH−5P−Top
CZ−5P−Top
CZ−5P−Top
CZ−3P−Top
CZ−3P−Top
PA−3P−Top
ZH−3P−S
i
de
Q212
2SC2462LC
Q801
Q802
Q803
Q821
Q111
Q112
Q113
2SC5209H
2SC5209H
2SJ518
Q722
Q521
Q115
Q116
2SA1162Y
2SC3441E
DTC114EE
DTC114EE
DTC114EE
DTC114EE
DTA114EE
2SC5383
Q723
DTC114EE
T
r
ans
i
s
t
o
r
PH−4P−Top
XA−3P−Top
PH−5P−Top
PA−6P−Top
PA−4P−Top
XA−6P−Top
CZ−5P−Top
CZ−5P−Top
CZ−3P−Top
CZ−3P−Top
PA−3P−Top
ZH−3P−S
i
de
PH−3P−Top
CONNECTER
CN1
CN3
CN5
CN7
CN10
CN4
CN6
CN11A
CN12A
CN13A
CN9
PA−10P−Top
PH−12P−Top
CN11B
CN12B
CN13B
CN16
R812
R813
39 ±5% 1/8W
R821
39 ±5% 1/8W
R822
1K ±5%
10K ±1% 1/16W
R825
±1% 1/16W
R826
R827
3K ±5% 1/16W
R828
10K ±5% 1/16W
1K
R824
R823
10K
8.
25K
±1%
±1%
1/16W
1/16W
10K
R803
R804
120K
120K
±5%
±5%
1/16W
1/16W
R805
R806
R807
4.
3K
120K
120K ±5%
±5%
±5% 1/16W
1/16W
1/16W
R811
2K
680
±5% 1/16W
1/10W
R829
5.
1K ±5% 1/16W
±5%
±5% 1/16W
R810
R830
1K ±5% 1/16W
±5% 1/16W
R751
2.
7K
±5%
R761
±5%
R763
10K
10K
R901
10K ±5%
R902
1K ±5%
R911
560 ±5%
R912
2K ±5%
R913
2K ±5%
R914
1.
2K ±5% 1/8W
R915
620 ±5%
1/10W
1/8W
1/8W
1/8W
1/8W
1/10W
1/10W
C101
0.
22μ 55V F
C102
50V
C111
10V
C121
25V
C122
100μ 10V
C304
0.
1μ 25V
C401
0.
1μ 25V
180μ
0.
1μ
2.
2μ
0.
1μ 25V
C302
C113
25V
0.
047μ
C303
25V
C114
220μ 25V
C116
0.
1μ
C123
0.
1μ 25V
C103
C131
50V
0.
1μ
C132
25V
0.
22μ
16V
C211
47μ
630V C
470p
25V
C212
0.
1μ
C213
0.
1μ 25V
C301
0.
1μ 25V
25V
0.
1μ
C305
C105
180μ 50V
Capac
i
t
o
r
C911
100μ 25V
C912
0.
1μ 25V
C913
1000p
50V
C914
C915
0.
1μ
C601
25V
0.
1μ 25V
C502
0.
1μ 25V
C501
25V
C505
0.
1μ
C521
0.
1μ 25V
C522
0.
01μ 50V
25V
C523
0.
1μ
C524
0.
1μ 25V
25V
C506
0.
1μ
25V
C507
0.
1μ
C711
0.
1μ 25V
C631
1000P 50V
C801
C802
C821
C822
C751 1μ 16V
C823
0.
01μ 50V F
0.
22μ 50V F
150P 50V
1000P 50V
0.
047μ 25V
C824
0.
01μ
50V
50V
C611
1000P
C825
0.
1μ 25V
C612
0.
1μ 25V
C621
C651
0.
1μ 25V
C115
C803
C804
C805
25V
C642
0.
1μ
C712
0.
1μ 25V
C741
C742
C743
C744
C745
0.
1μ 25V
C112
1000P 50V
C901
C902
0.
1μ 25V
R602
10K ±5% 1/16W
R611
1K ±5%
±5%
R601
1K
±5% 1/16W
R521
1M
±5%
1K
R631
R522
1K ±5% 1/16W
R701
1K ±5%
±5%
1K
R651
1/16W
±5%
1K
R653
±5%
1K
R656
R654
1/16W
±5%
10K
R655
1/16W
±5%
10K
R605
10K ±5% 1/16W
R610
10K ±5% 1/16W
R612
10K ±5% 1/16W
R523
300K ±5% 1/16W
R614
1K ±5%
10K
R657
±5% 1/16W
1/6W
1/6W
1/8W
1/6W
1/8W
1/8W
1/8W
R501
1M ±5% 1/16W
R504
10K ±5% 1/16W
R403
R402
R401
R404
390 ±5%
390 ±5% 1/16W
5.
1K ±5% 1/16W
5.
1K ±5% 1/16W
R502
±5%
±5% 1/16W
R505
10K
0
R506
10K ±5% 1/16W
R507
10K ±5% 1/16W
R508
10K ±5% 1/16W
R509
10K ±5% 1/16W
R510
10K ±5%
R511
10K ±5% 1/16W
R512
10K ±5% 1/16W
1/8W
1/8W
1/8W
1/8W
1/8W
R308
1K ±5% 1/16W
R306
±5%
R307
±5%
1K
1K
R305
1K ±5%
R302
12.
7K ±1% 1/16W
R301
12.
7K ±1% 1/16W
±1% 1/16W
R304
300K
±5% 1/16W
R303
10K
I
CP1
0.
8A
CCP2E−20
I
CP2
2.
0A
CCP2E−50
Ove
r Cu
r
ren
t P
ro
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t
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ZD111
ZD211
ZD121
RD6.
2UJN2
ZD131
PTZ20A
RD5.
6UJN2
RLZ6.
8A
LED
LD201
LD202
LD203
SEL6414E
SEL6914A
SEL6814A
Green
Ye
l
l
ow
Or
ange
1/8W
1/8W
1/8W
1/8W
RES
I
STOR
R215
2.
7K ±5% 1/10W
±5% 1/10W
±5% 1/16W
±5% 1/8W
±5% 1/8W
30K
560
R111
R112
R114
R115
R116
R117
±5% 1/16W
1/16W
±2%
75K
R118
R119
6.
8K ±2% 1/16W
27K
750
68K
±5% 1/4W
R121
R122
±5% 1/16W
100
R123
±5%
33K
R124
±5%
100
R127
±5% 1/16W
5.
1K
0.
56
±5%
R217
1K
R219
±5% 1/16W
3.
3K
1/8W
±5% 1/10W
R216
47
R652
±5%
100
R745
±5% 1/16W
300
R746
±5%
300
R747
±5%
390
10K ±5% 1/16W
10K ±5% 1/16W
R132
R133
R744
±5%
390
PKM13EPY
BZ
Buzze
r
I
RR
GP1UX511RK
Senso
r Un
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t
RES1
10MHz
CSTLS10M0G53
Osc
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l
l
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t
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I
C
I
C501
I
C121
I
C401
I
C111
BA50BC0T
I
C521
NJM2903M
I
C801
I
C711
ULN2003ANS
I
C712
ULN2003ANS
NJM2340M
S24CS04AFJ
HD64F36077
S80942CNMC
AX−7X30
D101
D401
HN1D03FU
D
i
ode
DSM3MA2
D111
D821
1SS355
D121
1SS355
1SS355
D402
D1FS6
L101
82μ
L111
Co
i
l
560μ
0.
4A
L501
1.
3A
L751
L741
L742
L743
L744
−
−
−
−
L801
L911
L912
7A
7A
−
−
BL01RN1
BL01RN1
1608CJ
1608CJ
1608CJ
1608CJ
1608CJ
1608CJ
R
6
0
5
R504
R505
R506
R
5
0
7
R
5
0
9
R
5
0
8
R
5
1
1
R
5
1
0
R
5
2
3
C507
R610
Q521
C505
C
5
0
1
R522
C
5
2
3
5V
R
5
2
1
C
5
2
1
C
5
2
2
2
5
3
1
I
C521
5V
L
5
0
1
C
5
0
2
R502
R501
R
E
S
1
C524
C506
1
2
3
4
CN6
D
4
0
2
5V
5V
5V
5V
D
4
0
1
0V
R
4
0
3
R
4
0
4
R401
R402
0V
4
3
2
1
8 7 6 5
I
C401
C
4
0
1
PH−12P−Top
R902
C
9
0
2
0V
Te
rmi
na
l f
o
r EEPROM
da
t
a wr
i
t
i
ng
0V
CJ801
C
8
2
4
0V
C
6
3
1
L801
0V
C803
C804
C805
5V
5V
Q801
R
8
3
0
C
8
2
5
R
8
2
9
R
8
2
8
R827
R
8
2
2
R
8
2
6
Q821
R
8
2
5
R
8
2
3
D821
R
8
2
4
C
8
2
3
I
C801
R
8
0
3
R805
R806
R
8
0
7
I
C801
C
8
0
1
R
8
1
1
R810
Q803
Q802
C
8
2
2
R
8
0
4
7
5
1
3
2
6
4
8
+
−
R
8
1
3
R812
0V
R821
C821
C
8
0
2
+
−
L
7
5
1
R
6
3
1
C
1
3
2
Z
D
1
3
1
M
CN10
1
2
3
4
5
6
C
1
3
1
C
7
5
1
C
6
2
1
R
7
5
1
Mo
t
o
r
I
ndoo
r Fan
R308
C
3
0
5
3
4
PH−4P−Top
Hea
t Exchange
r The
rmi
s
t
o
r
Room Temp.
The
rmi
s
t
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Room Temp.
0V
R
1
2
7
5V 5
SDA
SCL
RES
0V
8
C
3
0
4
C
3
0
3
C
3
0
2
7
2
1
R
3
0
3
Tes
t
R
3
0
4
5V
CN1
R306
R307
R305
R
3
0
1
R
3
0
2
C
1
0
5
+
−
C
3
0
1
I
N
OUT
GNG
D121
C
2
1
2
C
1
0
1
L741
L742
L743
L744
−
0V
+
Z
D
1
2
1
R
1
1
8
C
1
0
3
35V
I
CP2
C
1
1
5
L111
C
1
1
4
D
1
1
1
R
1
1
9
I
CP1
−
−
+
L101
C
1
0
2
+
12V
D
1
0
1
5V
C
1
2
1
I
C121
C
1
2
3
C
1
2
2
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(Ω)
S
h
a
p
e
Co
mm
on
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(F)
Vo
lta
ge
(V)
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
C
i
rcu
i
ts
Symbo
l
S
h
a
p
e
Use/
Don
ts Use
C
i
rcu
i
ts
Symbo
l
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(H)
S
h
a
p
e
Ra
tin
g
Cu
rr
en
t
C
i
rcu
i
ts
Symbo
l
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Co
l
o
r
S
h
a
p
e
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
C
i
rcu
i
ts
Symbo
l
S
h
a
p
e
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
R
6
5
7
R
1
3
2
Q723
0V
Buzze
r
BZ
R
2
1
9
2
2
1
1
0V
12V
1
1
3
3
R
1
3
3
2
Light receiving
unit
C
2
1
1
+
−
R216
I
RR
V
DD
GND
V
OUT
2
3
3
ZD211
Q212
R215
R217
0V
R
6
1
1
C611
Q722
T
y
p
e
Mode
l
Mode
l
Mode
l
Mode
l
Mode
l
Mode
l
Mode
l
Ra
t
i
ng
Cu
r
ren
t
1/16W
1/16W
1/6W
1/16W
1/6W
XA−6P−Top
Ti
m
er
O
p
er
at
io
n
Zene
r D
i
ode
dif
f
Pow
er(W)
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(Ω)
S
h
a
p
e
Co
mm
on
dif
f
Pow
er(W)
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(Ω)
S
h
a
p
e
Co
mm
on
dif
f
Pow
er(W)
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(Ω)
S
h
a
p
e
Co
mm
on
dif
f
Pow
er(W)
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(Ω)
S
h
a
p
e
Co
mm
on
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(F)
Vo
lta
ge
(V)
T
y
p
e
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(F)
Vo
lta
ge
(V)
T
y
p
e
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Nume
r
i
ca
l
Va
l
ue
(F)
Vo
lta
ge
(V)
T
y
p
e
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Model
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Model
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Model
S
h
a
p
e
C
i
rcu
i
ts
Symbo
l
Model
S
h
a
p
e
C
i
rcu
i
ts
Frequency
Symbo
l
Model
S
h
a
p
e
dif
f
Pow
er(W)
Au
t
o sweep
Mo
t
o
r
2
Au
t
o sweep
Mo
t
o
r1
Suction Deflector
Motor
L
E
D
IN
DI
C
A
TI
O
N
O/
P
J
A
B
C
D
E
F
G
H
J
K
A
B
C
D
E
F
G
H
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
No
t
e
1.
Type of Capac
i
t
o
r
F……F
i
lm Capac
i
t
o
r
C……Ce
r
ami
c Capac
i
t
o
r
D……E
l
ec
t
ro
l
y
t
i
c Capac
i
t
o
r
WIRING DIAGRAM OF THE PRINTED WIRING BOARD
MODEL RAF-50FX8
– 45 –