Sharp AH-MX152 User manual

Category
Split-system air conditioners
Type
User manual

This manual is also suitable for

Sharp AH-MX152 is a split type room air conditioner with a cooling capacity of 11700 BTU/h, making it suitable for large rooms. It has a built-in air purifier that removes dust and allergens from the air, creating a healthier and more comfortable environment. The AH-MX152 also features a self-cleaning function that prevents the growth of mold and bacteria on the evaporator coils, ensuring optimal performance and air quality.

Sharp AH-MX152 is a split type room air conditioner with a cooling capacity of 11700 BTU/h, making it suitable for large rooms. It has a built-in air purifier that removes dust and allergens from the air, creating a healthier and more comfortable environment. The AH-MX152 also features a self-cleaning function that prevents the growth of mold and bacteria on the evaporator coils, ensuring optimal performance and air quality.

INDOOR UNIT
AH-MX122/AH-MX152
OUTDOOR UNIT
AU-MX122/AU-MX152
SPLIT TYPE
ROOM AIR CONDITIONERS
In the interests of user-safety (Required by safety regulations in some
countries) the set should be restored to its original condition and only
parts identical to those specified should be used.
SERVICE MANUAL
Page
SPECIFICATIONS ............................................................................................................................................. 2
EXTERNAL DIMENSIONS .................................................................................................................................3
WIRING DIAGRAMS ......................................................................................................................................... 5
ELECTRICAL PARTS.........................................................................................................................................7
BLOCK DIAGRAM ..............................................................................................................................................8
MICROCOMPUTER CONTROL SYSTEM .........................................................................................................9
FUNCTIONS .................................................................................................................................................... 13
FUNCTION AND OPERATION OF PROTECTIVE PROCEDURES ............................................................... 17
BREAKDOWN DIAGNOSIS PROCEDURE .................................................................................................... 19
REFRIGERATION CYCLE ............................................................................................................................. 21
PERFORMANCE CURVES ............................................................................................................................. 22
DISASSEMBLING PROCEDURE.................................................................................................................... 23
REPLACEMENT PARTS LIST .........................................................................................................................30
SHARP CORPORATION
SPECIFICATIONS
MODELINDOOR UNIT OUTDOOR UNIT INDOOR UNIT OUTDOOR UNIT
ITEM AH-MX122 AU-MX122 AH-MX152 AU-MX152
Cooling capacity(Min. ~ Max.) BTU/h 9000(3600~12000)
11700(5400~15000)
Moisture removalLiters/h 0.7 0.7
Electrical data
Phase Single
Rated frequencyHz 50
Rated voltage range V 198 to 242
Rated voltage V 220
Rated current A 4.2 5.5
Rated input W 818 1090
Power factor % 89 90
Type AC Single Rotary
CompressorModel 44A072QV2DJ HV187XV-S12F3
Oil charge SUNISO 4GDID 280cm3 SUNISO 4GDID 370cm3
Evaporator Louver Fin and Grooved tube type , Pre-coat treament
Refrigerant system
Condenser Louver Fin and Grooved tube type
Control Capillary tube
Refrigerant volume
50g 740g 50g 800g
Noise level HighdB(A) 36 43 40 48
(at cooling)Med.dB(A) 32 43 35 48
LowdB(A) 27 43 29 48
Fan system
Drive Direct drive
Air flow quantityHighm3/min. 9.8 30 10.5 30
(at cooling)Med.m3/min. 8.8 30 9.5 30
Lowm3/min. 6.4 30 6.6 30
Fan Cross flow fan Propeller fan Cross flow fan Propeller fan
Connections
Refrigerant coupling Flare type
Refrigerant tube size Gas, Liquid 3/8", 1/4" 3/8", 1/4" 1/2", 1/4" 1/2", 1/4"
Drain piping mm O.D ø 18 - O.D
18 -
Others Compressor: Thermal protector
Safety device Fan motors: Thermal fuse
Fuse, Micro computer control
Air filters Polypropylene net (Washable)
Widthmm 815 780 815 780
Net dimensionsHeightmm 278 550 278 550
Depthmm 198 269 198 269
Net weightkg 9 33 10 38
Note: The condition of star " " marked item are ‘ISO5151’ : 1994(E), condition T1.
EXTERNAL DIMENSIONS
INDOOR UNIT
OUTDOOR UNIT
Length unit (mm)
19.5
58
CRMC-A442JBE0
R03(AAA) 2PCS.
SHARP CORPORATION
INVERTER AIR CONDITIONER
182
815
278
198
1100
269
179.5
182.5
136
81
780
70
540
310
335
540
12
37.5
4.5
58
158
16
INSTALLATION DIMENSIONS
815 (unit size)
More than 50mm
E
Center of wall hole:
Leftward piping Center of wall hole: Backward piping
Outline of indoor unit
55 95
80 55
AJ
IF
ED
D
FA
CJ
H
I
GB
21
278 (unit size)
38
Ceiling
E
Wiring Diagram for AH-MX122 / AH-MX152
WIRING DIAGRAMS
TERMINAL BOARD 1
GREEN-YELLOW
POWER
SUPPLY
SINGLE
PHASE
INDOOR UNIT OUTDOOR UNIT
BROWN In Out
C1
RY1
WPE1
250V
3A
CONTROL BOARD UNIT
LOUVER
(UPPER)
LOUVER
(LOWER)
ROOM TEMP.
THERMISTOR
PIPE TEMP.
THERMISTOR
TH1
TH2
3
4
1
2
CN3
YELLOW
ORANGE
RECEIVER
BOARD UNIT
DISPLAY
BOARD
UNIT
BCN2
BCN3
CN101
CN102
CN2
CN7
BCN1
TRANS1 SSR1 S
SERIAL
SIGNAL
CIRCUIT
FAN MOTOR
CAPACITOR
430V 2µF
CN6
CN1
TERMINAL BOARD 2 TERMINAL BOARD
BLACK
RED
BLUE
BLUE
531
N
BLACK
FAN MOTOR
BLUE
RED
COMPRESSOR
FAN MOTOR
UNIT
TO
UNIT
CORD
CONTROL
BOARD
UNIT
N
1
11
NN
22
R.P.M.
SIGNAL
INTERNAL
THERMAL
FUSE
LED INDICATION FOR SELF-DIAGNOSIS
Abnormal contents
Temperature
Indicator
Blinking No.
1
2
3
4
5
6
7
14
17
18
19
Short circuit of the outdoor thermistor
Overheat of the compressor
Abnormal AC current
Compressor lock
Open circuit of the outdoor thermistor
AC overcurrent
Power module(IPM) abnormality
Open circuit of serial signal line
Short circuit of serial signal line
Abnormal fan motor of indoor unit
Abnormal power factor module(AFM)
< Indication of the abnormal condition >
LED indicator will blink, if the set
is in abnormal condition.
MM
M
M
Electronic Control Circuit Diagram for AU-MX122
Electronic Control Circuit Diagram for AU-MX152
BLOCK DIAGRAMS
INDOOR UNIT
AC power
CPU
3 A
WPE1
DC power supply circuit
Fan motor phase control circuit
Rotation pulse input circuit
AC clock circuit
Louvre motor drive circuit(upper)
Louvre motor drive circuit(lower)
Remote controller signal reception circuit
Buzzer drive circuit
CPU reset circuit
CPU oscillator circuit
Room temp. detect circuit
Heat exchanger pipe thermo circuit
Compensation circuit/ select circuit
Compensation circuit
Switchover circuit
Serial I/O circuit
Compressor relay drive circuit
LED drive circuit
Auto restart circuit
Test run circuit
Auxiliary mode
Power on circuit
Room fan motor
Fan motor pulse detect
Flow direction control (louver motor upper)
Flow direction control (louver motor lower)
Wireless remote control operation
Audible operation confirmation
Room temp. thermistor
Heat exchanger pipe thermistor
Blower temperature, fan speed, model select
Outdoor ratings
Wireless, preheat
Indoor/outdoor control signal I/O
Outdoor unit power supply on/off control
LED display
Test run (forced operation)
Auxiliary mode button ON/OFF
Self diagnostics, fault diagnosis
Unit-unit wiring
(AC power and
serial signals)
CPU
15 A
protection
Outdoor fan
4-way valve
Power transistor module
Compressor
Current transformer
Compressor thermistor
Heat exchanger pipe thermistor
Outdoor temperature thermistor
Heat exchanger pipe thermistor(option)
Outdoor temperature thermistor(option)
LED
3 A
protection
10 A
protection
Power supply circuit
(built into IPM)
CPU oscillator circuit
Outdoor fan relay drive circuit
4-way valve relay drive circuit
Power transistor module drive circuit
Serial I/O circuit
CPU reset circuit
DC overcurrent detection circuit
AC overcurrent detection circuit
Compressor thermo circuit
Heat exchanger pipe thermo circuit
Outdoor temp. thermo. circuit
Winter kit circuit (option)
LED drive circuit
Test mode circuit
Filter
circuit
Smoothing
circuit
Unit-unit wiring (AC power
and serial signals)
OUTDOOR UNIT
MICROCOMPUTER CONTROL SYSTEM
Electronic Control Circuit Diagram for AH-MX122 and AH-MX152
(CN9)
LED101
LED104
LED103
LED102
LED110
LED109
LED108
LED107
LED106
LED105
R101
R102
R103
R104
R105
R106
R107
R108
R109
1/2W
1/2W
1/2W
1/2W
220
220
300
220
220
220
220
220
100
1/2W
1/2W
1/2W
1/2W
1/2W
LED111
1/2W
1/2W
1/2W 330
R114
R40 3.3K
50V
50V C21
C22 1000p
1000p
BCN3
BCN2
R58~R62
(SW2)
MOTOR
FAN
IC
HOLE
3
2
1
P00
P01
P02
P03
P04
P05
P06
P07
P10
P11
P12
P13
P14
P16
P17 33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
52
53
54
55
56
57
58
59
60
61
62
63
64 P63
P64
P65
P66
P67
AVss
Vref
Vcc
P30
P31
P32
P33
P34
51
50
49
P35
P36 P20
P21
P22
32
31
30
P23
P24
P25
P26
P27
Vss
Xout
Xin
P40
P41
RESET
CNVss(Vpp)
P42
29
28
27
26
25
24
23
22
21
20
19
18
17
P62
P61
P60
P57
P56
P55
P54
P53
P52
P51
P50
P45
P43
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
NC
M3803**
IC1
(PATTERN SIDE)
PC2
PC1
4
2
4
3
1
2
4.7K
100K
+
0.047µ
50V
250V
0.01µ680 680
2W 2W
680 680
2W 2W
680
2W
22K
P15
1
10K
10K
0.1µ
25V 8M
6
5
4
3
2
1PIPE TEMP.
TH2
10k(25˚C)
15k(25˚C)
ROOM TEMP.
TH1
C2
0.22µ
250V
NR1
IN
T
250V
OUT
RY1
WPE
N
N
2S
1
UNIT
OUTDOOR
TO
TERMINAL
BOARD
KID65783AP
IC6
10
SW1
5V
GND
12V
-24V
33K
33K
33K
33K
33K
16V
C26
0.01µ
R41
1.8K
33K
33K
33K
1000P
3
2
3
1
2
R23
3.3K
CN6
100µC810V
+
FAN L
FAN M
FAN H
RATE HEAT
TEA
MODEL 5
MODEL 4
MODEL 3
MODEL 2
MADEL 1
R42 R43
R44 R45
R46 R47
R48 R49
R50 R51
R52
R53
R54
R55
R56
JP 1
JP 2
JP 3
JP 4
JP 5
R67 R66
12K 12K
2W
D9
D8
R65R64
11K
2W 2W
11K
2W
C30
100µ
35V
C29
ZD1
R63
C28 D7
R57
C27
R38
R37
R36
R35
R34
JP8
JP7
JP6
R30
380 R29
680
C19
+
+
C18
10µ
16V16V
10µ
10K
(F)
R27 10K
(F)
R26
R21
R20
R19
C13
C12
C11
IC7
IC8
OSC1
FRONT
1/2W
R9
R8
C9
C10 1000p
50V
25V 0.1µ
R5
RY1
R4
BZ1
BUSY
112V
25V
3
4CLOCK
5SERIAL
OE
6
7RESET
GND
8
HOT KEEP
PREHEAT
WIRELESS
2.7K
50V 1000p
1000p
50V
P37
P44
P46
P47
4
3
2
1
7
6
5
8
1
1K
FUSE
THERMAL
SSR1
470
1.8K
16
9
10K
31
POWER
SUPPLY
SINGLE
PHASE
21
JP10
33KR2
TRANS1
D1~4
33K
R3
+
C450V
0.1µ7812
IC2
35V C3
1000µ
IN
0.1µ
25V
OUT
C5
+
47µ
25V
100 1/2W R1
JP11
+
C6
25V
47µ
0.1µ
25V C7
IN IC3
D5
7805
25V
0.1µ
R31
IC4
8
NC
9
118
13
11 C31
250V 0.01µ
SSR1
CNR1 L1
430V C1
2µ
FUSE
THERMAL
MOTOR
FAN
5
3
1
CN1
C32
C33
680
R6
CN101
22
33
11
88
11
22
33
44
55
66
77
CN102
NC
NC
10(B2)
11(A2)
12(F2)
15(B1)
18(F1)
17(G1)
16(A1)
14(CM1)
13(CM2)
9(H2)
8(C2)
7(G2)
6(D2)
5(E2)
4(H1)
3(C1)
2(D1)
1(E1)
H2
H1
CM1,2
D2
G2
A2
E2
F2
B2
C2
D1
G1
A1
C1
B1
E1
F1
33K
33K R33
R32
JP9
JP99
TEST
POWE ON
R39 20K
C24 16V
0.01µ
1
32
C2550V
1000P
330
W115
1/2W
LED121
R1163301/2W
1/2W R111
330
R112
R110
330
330
1/2W R113330
25V
0.1µ
680 680
Q1
Q2
R68 R69
3A
33K
CN7
0.1µ
25V
33µ
10V
+5V
GND
C201 C202
IC201
BCN201
BCN1
11
33
22
6.8K
8
IC59
116
10K R7
CN3
1
2
3
4
5
LOUVER
MOTOR
UPPER
LOWER
LOUVER
MOTOR
4
5
1CN2
2
3
:TEST POINT
(NOTE)
LED101 : OPERATION
LED102 : TIMER
LED103 : ROOM TEMP.
LED104 : OUTDOOR TEMP.
SW1 : AUX.(TEST RUN)
SW2 : POWER SELECTION
LED105 : POWER MONITOR ECO
LED106 : POWER MONITOR 1
LED107 : POWER MONITOR 2
LED108 : POWER MONITOR 3
LED109 : POWER MONITOR 4
LED110 : POWER MONITOR POWER
HL
50V
C34
JP34
C1716V 0.01µ
JP23680
NONEUSE
SW2
USE
NONE
NONENONE NONENONEUSE 15K13K13K 15K15K13K13K15K13K
NONE NONE USENONE NONE NONENONE
USEUSENONE NONENONENONE USENONENONE 13K 15K 13K 13K 15K 15K13K 13K 15K
USE NONE NONE
NONENONEUSEUSE 15K13K13K 15K15K13K13K15K13K
NONE NONE USENONE NONE NONENONE NONE
NONENONENONE NONENONENONE USEUSENONENONENONE 13K 24K 15K13K 13K 15K 15K13K 13K 130K
AH-MX122
AH-MX152
AH-X10BE
AY-X08BE
AH-MX152
AH-MX122
MODEL JP1 JP2 JP3 JP4 JP5 JP6 JP7 JP8 JP9 R51R50R49R48R47R46R45R44R43R42JP99
68K13K13K 15K15K13K13K ----47K13K
NONEUSE USE NONE USE NONE NONE USE NONE NONE
33K13K13K 2.4K3.6K13K----- 15K15K13K
USE NONE USE NONE USENONE NONE NONE
Printed Wiring Board for AH-MX122 / AH-MX152
QPWBFB389JBZZ
HEAT
COOL
RATE
FAN H
FAN M
FAN L
R43
R51
R47
R49
R45
1
JP1
R53
R54
R55
R56
C27
JP2
JP24
R6
JP22
JP21
C9
R8
JP20
C10
R9
R7
JP3
JP4
JP5
2345
MODEL
SELECT
1
18
16
BZ1
R4
BCN1
CN2
9
11
5
SW1
SW2
3
4IC8
IC4
58
DPWBF JB
R69
R68
C11
C12 R5
JP17
BCN2
31
R20
R30
C21
C22
C23
R31
R20
R19
LOUVER LOW
JP16
JP15
H
LLOUVER UP
CN3 THERMISTOR
CN7
151 4
1
19
10
18
18
IC5
BCN3 JP18
JP19
IC6
OSC1
8
916
IC1
116
33 32
17
48
49
49
JP24
JP6
JP7
JP8
JP31
JP33
R35
R36
R34
JP27
R42
R44
R46
R48
R50
C26
R41
R40
C25
JP32
C7
R39 R37
C24 JP29
R31
PC2
PC1
JP23
C17
C29
C3
R58
C32
C2
NR1
R65
R64
C34
Q2 321
R28
C20
R27
C19
R26 C18
JP34
28
9
15
C31
RY1
IC3
WPE1 3A 250V
BLACK
C4
C30
ZD1
JP99
R32
JP9
C8
JP28
D5
IC3
C6
R1
JP11 TRANS1
Q1 R3
R2
C3 (CN8)
1
12 3
38
IC7 C33
JP10
CN9
JP30
C13
R21
JP25 R38
23
3
D7
R63
C28
R57
3412
JP14
TERMINAL
BOARD
TERMINAL
BOARD
JP13
BROWN
IN
OUT
S
RED
N
BLUE
L1
SSR1
1
CN1
FAN M
5
JP12
CNR1
FAN M
CN6
R23
R66
R67 R62
R61 R60 R59
D9
D8
1
D2
D4 D1
D3
C1
3
L
GND
+12V
-24V
+5V
BCN201
C202
C201
13
IC201
FP389-DISPLAY
JP101
CN102
81
LED111
LED110
LED109
LED108
LED107
LED106
LED105
R109
R108
R107
R106
R105
R111
R113
R112
R110
R116
R115
JP102
JP103
R102
LED104
R103
LED103
R101
CN101
13
R114
1018
9
1
LED121
R101
LED102
LED101
TO TERMINAL " 2 " OF
TERMINAL BOARD 4P
(RED)
TO TERMINAL " N " OF
TERMINAL BOARD 4P
(BLUE)
FROM
TERMINAL " 1 " OF
TERMINAL BOARD 3P
(BROWN)
FROM
TERMINAL " 1 " OF
TERMINAL BOARD 4P
(BLACK)
FROM
FAN
MOTOR
FROM
FAN
MOTOR
FROM
THERMISTOR
FROM
LOUVER MOTOR UPPER
(TOP)
FROM
LOUVER MOTOR LOWER
(BOTTOM)
DB1
DB2 WHITE
DB~ DB~
DB~ DB~
BLUE BLUE
ORANGE
ORANGE ORANGE L1
ORANGE
C6
RED
200V 75µF
420V 1500µF
C8
TB (TERMINAL BOAOD)
N12
1
2
3
4
BLUE
BROWN
RED
FC1
FC2
GREEN/YELLOW
T2
T1
T4
T3
L3 L4
C31
275V 1µF
C4
250V 2200pF
1
2
3
4
C2
275V 1µF
C3
250V 2200pF
C34
250V 2200pF
WPE1
250V
15A
C1
275V 1µF
C33
250V 2200pF R2 R1
1/4W
510K 1/4W
510K
CT1
T5
T6
MRY1
PTC
BLUE GRAY
GRAY
BLACK
RED
C30
25V 100µF
C11
25V 0.1µF
C18
50V 0.1µF
R35
510
R36
510
BLUE
NOTE
1. MARK IS TEST POINT.
2. IF NOT SPECIFIED 1/4W (RESISTOR)
YELLOW
T9 T10
T7
C10
630V 0.33µF
R39
1/2W
270K
250V
10A
WPE2
13V
5V
R40
1/2W
270K
T8
C32
250V 2200pF
1 : Red 2-10 : White
10
9
8
7
6
5
4
3
2
1
10 987654321
CN11 (CONTROL PWB)
U
V
W
QM1 (IPM)
TM-31
FC3
RED
WHITE
BLACK
U
V
W
7805
123
R33
R32
R31
R30
R29
R28
390 U
390 X
390 V
390 Y
390 W
390 Z
6
5
4
3
2
1
BCN11
CN8
TH3
(THERMISTOR for OUTDOOR TEMP.)
TH2
(THERMISTOR for HEAT-EXCHANGER)
TH1
(THERMISTOR for COMPRESSOR)
R38
6.8K F
C26
16V 10 F
5V
C22
16V 10 F
C21
16V 10 F
R21
6.8K F
R20
6.8K F
C15
10V 220µF
R10
6.8K F
R8
2.7K F
R9
1.00K F D2
1
2
3
1
2
3
5V
C23
50V 1µF
PST
993D
IC3
OSC1
10MHz
5V 5V
C17
10V 100µF
2
1
F
R46
10K
JP1
R34
10K
NC
NC
5V
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
09
08
07
06
05
04
03
02
01
P27
P26
P25
P24
P23
P22
P21
P20
P17
P16
P15
P14
P13
P12
P11
P10
P07
P06
P05
P04
P03
P02
P01
P00
V
SS
P37
P36
P35
P34
P33
P32
V
CC
V
SS
XI
X0
MOD1
MOD2
RST
P60
P61
P62
P63
P64
AV
SS
AVR
AV
CC
AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0
P40
P41
P42
P43
P44
P45
P46
P47
P30
P31
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
IC1 MB89855
C16
25V 0.1µF
C20
10V 100µF
5V R41 10K
R3
2.2K
5V
LED1
C5
430V 1.5µF
WPE3
250V
3A
NR2
Fan
Motor
5
3
1
CN3
T11
RY1
CNR1
(WINTER KIT)
C12
250V 4700pF
C14
50V 1000pF
C13
25V 0.01µF
R4
D1
3.3K
R6
2.7K
R5
5.6K R7
4.7K
PC817X7
PC1
PC2
PC853H
1
23
4
1
23
4
5V
R11
2W 1.0K
R12
2W 1.0K
R13
2W 1.0K
R17
10K
R16
10K
13V
RY1
D6
Q1
MRY1
D8
Q3
5V
NR1 SA1
Electronic Control Circuit Diagram for AU-MX122
DB1
DB2 WHITE
DB~ DB~
DB~ DB~
BLUE BLUE
ORANGE
ORANGE ORANGE L1
ORANGE
C6
RED
200V 90µF
400V 2000µF
C8
TB (TERMINAL BOAOD)
N12
1
2
3
4
BLUE
BROWN
RED
FC1
FC2
GREEN/YELLOW
T2
T1
T4
T3
L3 L4
C31
275V 1µF
C4
250V 2200pF
1
2
3
4
C2
275V 1µF
C3
250V 2200pF
C34
250V 2200pF
WPE1
250V
20A
C1
275V 1µF
C33
250V 2200pF R2 R1
1/4W
510K 1/4W
510K
CT1
T5
T6
MRY1
PTC
BLUE GRAY
GRAY
BLACK
RED
C30
25V 100µF
C11
25V 0.1µF
C18
50V 0.1µF
R35
510
R36
510
BLUE
NOTE
1. MARK IS TEST POINT.
2. IF NOT SPECIFIED 1/4W (RESISTOR)
YELLOW
T9 T10
T7
C10
630V 0.33µF
R39
1/2W
270K
250V
20A
WPE2
13V
5V
R40
1/2W
270K
T8
C32
250V 2200pF
1 : Red 2-10 : White
10
9
8
7
6
5
4
3
2
1
10 987654321
CN11 (CONTROL PWB)
U
V
W
QM1 (IPM)
TM-35
FC3
RED
WHITE
BLACK
U
V
W
7805
123
R33
R32
R31
R30
R29
R28
430 U
430 X
430 V
430 Y
430 W
430 Z
6
5
4
3
2
1
BCN11
CN8
TH3
(THERMISTOR for OUTDOOR TEMP.)
TH2
(THERMISTOR for HEAT-EXCHANGER)
TH1
(THERMISTOR for COMPRESSOR)
R38
6.8K F
C26
16V 10 F
5V
C22
16V 10 F
C21
16V 10 F
R21
6.8K F
R20
6.8K F
C15
10V 220µF
R10
6.49 F
R8
1.8K F
R9
1.00K F D2
1
2
3
1
2
3
5V
C23
50V 1µF
PST
993D
IC3
OSC1
10MHz
5V 5V
C17
10V 100µF
2
1
F
R46
10K
JP1
R34
10K
NC
NC
5V
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
09
08
07
06
05
04
03
02
01
P27
P26
P25
P24
P23
P22
P21
P20
P17
P16
P15
P14
P13
P12
P11
P10
P07
P06
P05
P04
P03
P02
P01
P00
V
SS
P37
P36
P35
P34
P33
P32
V
CC
V
SS
XI
X0
MOD1
MOD2
RST
P60
P61
P62
P63
P64
AV
SS
AVR
AV
CC
AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0
P40
P41
P42
P43
P44
P45
P46
P47
P30
P31
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
IC1 MB89855
C16
25V 0.1µF
C20
10V 100µF
5V R41 10K
R3
2.2K
5V
LED1
C5
430V 2.0µF
WPE3
250V
3A
NR2
Fan
Motor
5
3
1
CN3
T11
RY1
CNR1
(WINTER KIT)
C12
250V 4700pF
C14
50V 1000pF
C13
25V 0.01µF
R4
D1
3.3K
R6
2.7K
R5
5.6K R7
4.7K
PC817X7
PC1
PC2
PC853H
1
23
4
1
23
4
5V
R11
2W 1.0K
R12
2W 1.0K
R13
2W 1.0K
R17
10K
R16
10K
13V
RY1
D6
Q1
MRY1
D8
Q3
5V
NR1 SA1
Electronic Control Circuit Diagram for AU-MX152
Printed Wiring Board for AU-MX122
Printed Wiring Board for AU-MX152
T5(DB1~)
(BLACK)
C5
NR2
WPE3
R2 R1
CT1
3A 250V
RY1
CNR1
CNR2 RY2
WINTER KIT
(OPTION)
T11
(GRAY)
T10
T9
WPE2
10A
250V
(BLUE)
(YELLOW)
IPM
13V
R33
R32
R31
R30
R29
R28
BCN11 (IPM)
JP2
C32
C10
R40
R39
JP20
JP1
R46
R34 JP14
JP15
JP16 JP12
LED1
JP10
Q3
C33
Q2 Q1
C1
SA1
D7 D6
JP9
JP8
JP7 JP4
JP6
JP5
JP3
IC2
C11
C16
JP21
JP17
JP18
R41
(4-WAY VALVE)
CN4
(FAN MOTOR)
CN3
1315
10 12
E&J
V&W2
IPM
(RED)
(BLUE)
T7
CB
T8
CB
WINTER KIT (OPTION)
CN10
JP22
JP19
C17
R35
JP25
C18
C23
R20
C21
R13
R12
R11
C22
C26
R21
R38
R36
F
JP23
JP24
CN912
14 TERMINAL
FUSE
ONLY
W2
IC3
OSC1
R4 C12
C31
D1
R16
C13
R17
JP16
C14
R1
R6
R5
PC2
PC1
C3
3
4
1
2
2
1
4
3
L3
C4
L4
C34
C2
NR1
WPE1
15A 250V
OUT
32
33
IC1
1
CN8
(THERMISTOR)16
64 R3
C15
R10 D8
JP11
C30 R8
D2
R9
E
C
B
E
C
B
E
C
B
C20 BCEQ4
Cool/40Hz
QPWBFB397JBZZ
DPWBFA JBKZ
0
MRY1
PTC
(BLUE)
IN
(GRAY)
(DB1~) (RED)
(BLUE)
(BROWN)
(GREEN/
YELLOW)
T3
T2
2
N
1
T1
T4
DIP
T6(GRAY)
PTC
5V
GND
FROM
FAN MOTOR
FROM
4 WAY VALVE
(EXCEPT FOR
AU-X08BE AND
AUX10BE)
TO
POWER TRANSISTOR
MODULE QM1
OPTION
(FROM WINTER KIT)
FROM
POWER TRANSISTOR
MODULE QM1 " "
FROM
POWER TRANSISTOR
MODULE QM1 " "
FROM
ELECTLYTIC
CAPACITOR
C8 " "
FROM
ELECTLYTIC
CAPACITOR
C8 " "
FROM
THERMISTOR
OPTION
(WINTER KIT)
FROM
TERMINAL
BOARD " N "
FROM
TERMINAL
BOARD " 2 "
FROM
TERMINAL
BOARD " 1 "
FROM
CONTROL BOX
FROM
DIODE BRIDGE
DB1 " ~ "
FROM
DIODE BRIDGE
DB1 " ~ "
FROM
PTC1
T5(DB1~)
(BLACK)
C5
NR2
WPE3
R2 R1
CT1
3A 250V
RY1
CNR2
CNR1
RY2
WINTER KIT
(OPTION)
T11
(GRAY)
T10
T9
WPE2
20A
250V
(BLUE)
(YELLOW)
IPM
R33
R32
R31
R30
R29
R28
C10
C40
R52
OUT
C45
CN14
1
41 CN12 4
IN
IC2
C45
JP23
R50
R40
R39
JP1
R46
C33
Q2 Q1
C1
SA1
D7 D6
JP2
JP17
JP19
JP18
(4-WAY VALVE)
CN4
(FAN MOTOR)
CN3
1315
IPM
(RED)
(BLUE)
T7
CB
T8 CB
WINTER KIT (OPTION)
CN10
JP16
JP20
C17
R35
R36
JP25
C18
C23
R20
C21
R13
R12
R11
C22
C26
R21
R38
F
JP21
R10
JP22
14
IC3
C15 OSC1
R4 C12
C31
D1
R16
C13
R17 JP12
R7
C14
JP13
R6
R5
R5
PC2
PC1
C3
3
4
1
2
2
1
4
3
L3
C4
L4
C34
C2
NR1
WPE1
25A 250V
OUT
32
33
32
IC1
1
CN8
(THERMISTOR)16
64
C20
LED1
R59
D8
C30
E
C
B
E
C
B
B
C
E
B
C
E
Q4
R3
R41
C12
JP7
JP6 R9
D2 R8
JP3
R57
C44
R58
JP5
JP4
R60
121
BCN11 (IPM)
JP8
JP9
JP10
JP11
C16
Q3
Cool/40Hz
QPWBFB426JBZZ
DPWBFA
JBKZ
0
MRY1
PTC
(BLUE)
IN
(GRAY)
(DB1~) (RED)
(BLUE)
(BROWN)
(GREEN/
YELLOW)
T3
T2
2
N
1
T1
T4
DIP
T6(GRAY)
PTC
2
1
4
3
3
4
1
2PC4
PC3
R34
C32
JP14
JP15
GND
R53
C41
14
8
IC4
5
R54
C43
61
CN13
18V 13V
R51
5V
FROM
FAN MOTOR
FROM
4 WAY VALVE
(EXCEPT FOR
AU-X13BE)
OPTION
(FROM WINTER KIT)
FROM
POWER TRANSISTOR
MODULE QM1 " "
FROM
POWER TRANSISTOR
MODULE QM1 " " FROM
ELECTLYTIC
CAPACITOR
C8 " "
FROM
ELECTLYTIC
CAPACITOR
C8 " "
FROM
THERMISTOR
OPTION
(WINTER KIT)
FROM
TERMINAL
BOARD " N "
FROM
TERMINAL
BOARD " 2 "
FROM
TERMINAL
BOARD " 1 "
FROM
CONTROL BOX
FROM
DIODE BRIDGE
DB1 " ~ "
FROM
DIODE BRIDGE
DB1 " ~ "
FROM
PTC1
TO
TRANSISTOR
MODULE QM1
1. INDOOR UNIT
1-1 Temperature Adjustment
a. Normal control
Proportional control (P control)
When the temperature zone changes, this control
changes the frequency by one rank to move closer
to the set value.
Integral control (I control)
When the temperature zone has set time in the
same zone, this control changes the frequency
by one rank to move closer to the set value.
(Excluding the h zone.)
b. Initial control
The initial frequency is determined as shown in
the tables below based on the difference between
the temperature adjustment setting at the
beginning of operation and the room temperature.
After operation begins, normal control is performed
and therefore the correspondences in the tables
below will not hold.
FUNCTIONS
c. Temperature adjustment
The temperature adjustment range is changed by
changing the operating mode with the operation switch.
(1) Cooling
If the room temperature is in the c zone when
operation begins,proportional/integral control is not
performed, and the machine runs at frequency
code 9 power until the i zone is reached. When the
i zone is reached, the frequency changes to the
frequency code determined by fuzzy calculation,
and after thatproportional/integral control is
performed.
(2) Dry
After operation begins, 2 minutes (running at the h
zone) of the room temperature is stored in memory,
and that becomes the set value.
(3) Circulation
The frequency code 0 is sent to the outdoor
machine, and only the fan of the indoor machine
runs, the compressor does not run.
1-2 Indoor fan control
(1) Control for indoor freezing prevention
If the temperature of the indoor heat exchanger
stays below approximately 0°C for four minutes
during cooling or dry, this control stops the
compressor. Over 2˚C the compressor will run
again.
(2) Indoor fan and operating frequency
The indoor fan has 12 speeds, and changing is
done in four stages, "Auto", "High", "Med", and
"Low". The relations between the indoor fan speed,
air quantity setting, operating frequency, and indoor
heat exchanger are shown in the following charts.
Cooling
Room
temp.
zone
Frequency
Code
c9
d8
e7
f5
g3
h2
i1
j OFF
e7
f5
g3
h2
i1
Dry
Room
temp.
zone
Frequency
Code
e4
d5
f3
g2
h2
h1 1
2
i1
j0
Full power
operation onl
y
Although the initial value
of the h zone is 1, it changes
to 2 after a lapse of 15 minutes.
e
d
g
f
h
j
i
+2.00
+2.66
+1.33
-1.00
+0.66
-1.33
Dry
MEMORY SET VALUE
OFF
1
2
3
4
5
6
7
8
9
10
11
123456789OFF
Fan speed
Frequency cord
Fan speed : High / Med / Low
High
Med
Low
OFF
1
2
3
4
5
6
7
8
9
10
11
123456789OFF
Fan speed
Frequency cord
Fan speed : Automatic
COOLING
c
d
e
f
g
h
i
j
+3.33
+2.66
SET VALUE
-0.66
+0.66
+2.00
Cooling
+1.33
ON OFF ON
ON
Air conditioner
operation
Compressor
relay
100 sec.
ON
OFF
OFF
Air conditioner
operation
Compressor
relay
100 sec.
ON
ON
ON OFF ON
OFF
Air conditioner
operation
Compressor
relay
100 sec. 80 sec.
ON
1-3 Automatic operation
The operating mode and temperature setting are
determined by the room temperature and the external
air temperature.
12
11
10
9
8
7
6
5
4
3
2
1
012345
f
e
d
(Full power only)
ji
h1 h2, g
Dry
Operating frequency code
Fan speed
1-6 Swing louvres
Louvres are moved by stepping motors to perform
swing and fixing in the set position. If the "FLOW
DIRECTION" button is pressed during swing, they
will stop. If the "FLOW DIRECTION" button is pressed
while they are stopped, they will swing.
1-7 Restart control
Once the compressor stops, this control prevents it
from starting again for 3 minutes. It also prevents
starting for 80 seconds immediately following plugging
into the power outlet.
1-8 One-hour operation
If this button is pressed when operation is stopped,
operation will begin and then stop after 1 hour. If
pressed when it is operating, will stop after one hour.
When the set temperature is adjusted within the
range of ±2˚C by the remote control's key. ( ),
the changeover judgement room temp. will also be
shifted within the range of ±2˚C.
1-4 ON-timer
The ON-timer is set by pressing the ON-timer button.
In order to attain the set temperature at the set time,
the operation starting time is corrected by fuzzy
computing one hour before the set time.
1-5 OFF-timer
The OFF-timer is set by pressing the OFF-timer
button. Operation is as follows:
1-9 Full power operation
Immediately begins cooling or heating at maximum
power and air flow.
(During cooling) Operates at setting of 18°C.
1-10 Power ON start
If a jumper wire is inserted into the place indicated
JP99 on the indoor control board, and the power
plug is inserted. cooling mode will be automatically
determined by the room temperature sensor on the
main unit, and operation will begin.
1-11 Compressor relay
(1)It is ON during operation, and when operation is
stopped, goes OFF after a delay of 100 seconds
(not immediately).
(2) The minimum OFF time of the relay is 80 seconds.
It will not go ON again before 80 seconds elapses.
(3)If air conditioner operation is turned on again
during the 100 second delay before the
compressor relay goes off, the compressor relay
will stay on.
Cooling
(24˚C)
(Room temperature
- 2°C)
Cooling
(25˚C) Cooling
(26˚C)
(Dry)
Room
temperature
(˚C)
29
28 34
Outdoor
temperature (°C)
Cooling Set temperature
By fuzzy computing
Set the shift up time
Final ( Cooling setting + 1°C)
Dry Same as above
(Final setting + 1°C)
1°C
Stops
Timer set time
1
hour
Timer operation starts
Room
temperature
*During Cooling / Dry
Model Set valve
Cool
7.5A
AU-X10BV
56˚C
58˚C
55˚C
Lower 5Hz once every 60 seconds
Lower 15Hz once every 120 seconds
Overheating prevention line 1
Overheating prevention line 2
Clear line
1-12 Auto Restart
When power failure occures, after power is
recovered, the unit will automatically restart in the
same setting which were active before the power
failure.
Operating mode (Cool, Dry)
Temperature adjustment (within 2˚C range)
automatic operation
Temperature setting
Fan setting
Air flow direction
Power ON/OFF
Automatic operation mode setting
Swing louver
Setting not memorized
Timer setting
Full power setting
1-13 Indoor/outdoor temperature display
Every time the Temperature check button is
pressed on the remote control, the display changes
in the order of indoor temperature outdoor
temperature
no display. The temperature is
displayed on the temperature indicator on the main
unit to be referred to for energy saving.
(When the unit is not running, the display changes
between indoor temperature and no display.)Indoor
temperature is the temperature of the suction air
measured by the room thermistor, and outdoor
temperature is that measured by the outdoor
temperature thermistor. When indoor temperature
is displayed, the indoor LED on the main unit is lit,
and when outdoor temperature is displayed, the
outdoor LED is lit. For 90 seconds after the
operation starts, - - is displayed instead of the
actual outdoor temperature since it is still being
measured.Because of the effect of the exchanger,
the unit cannot confirm the exact indoor
temperature right after the operation is terminated.
Therefore, for one hour since the operation is
stopped, the indoor temperature immediately before
the operation is stopped is displayed. After over
one hour since it is stopped, the unit displays the
actual room temperature at that point.
1-14 Error diagnostic display
(a) Indoor unit
(1) When an error is detected, all relays are
turned off. At the same time, the details of the
error are displayed by flashing the number
corresponding to the type of the error. The
details can also be displayed by pressing down
the emergency operation switch for 5 seconds
or more in the state ofoperation stop.However,
if the operation is continued only in the serial
open state and the state remains unchanged
after that, the main relay is turned off in 8
minutes. In the serial short state, the error is
not displayed and the operation is continued. If
the unit stays in the same state, the main relay
is turned off in 8 minutes. Although the error is
not displayed, it is memorized and can be
displayed when it is recalled.
(2) If the operation is stopped and the emergency
operation button is pressed down for 5 seconds
or more, the self-diagnosis memory can be
recalled.
2. OUTDOOR UNIT
2-1 Frequency control
(1) AC current peak control
(3) Details of self-diagnosis (error mode) are
informed by the flashing number as well as the
lighting pattern of the operation lamp which
flashes with the timer lamp.(For details, refer to
Error diagnostic method.)
(2) Control for prevention of outdoor heat exchanger
overheating. If the temperature of the outdoor heat
exchanger exceeds the overheating prevention line
1 or 2 during cooling, the operating frequency is
lowered by approximately 5 to 15 Hz.
After that, the frequency is lowered by approximately
5 once every 60 seconds or approximately 15Hz
once every 120 seconds. When the temperature of
the outdoor heat exchanger goes below the
overheating prevention clear line, the frequency is
raised by approximately 5 Hz once every 60 seconds,
and normal operation is restored. If the frequency is
lowered to minimum frequency without the
temperature of the outdoor heat exchanger
decreasing and this condition lasts for 1 minute, the
compressor will be stopped.
(3) Control for prevention of compressor chamber
overheating
If the compressor chamber temperature exceeds
approximately 105°C during compressor operation,
the operating frequency is lowered by approximately
5 Hz. After that, the frequency is lowered by
approximately 5 Hz once every 60 seconds. When
the compressor chamber temperature goes below
approximately 104°C, the frequency is raised by
approximately 5 Hz once every 60 seconds, and
normal operation is restored.
If the frequency is lowered to minimum
frequencywithout the compressor chamber
temperature decreasing and this condition lasts for 1
minute, the compressor will be stopped.
(4) Control for prevention of indoor heat exchanger
freezing
If the temperature of the indoor heat exchanger goes
below approximately 5°C during cooling(only Full
power operation), the operating frequency is lowered
by approximately 5 Hz. After that, the frequency is
lowered by approximately 5 Hz once every 60
seconds. When the temperature of the indoor heat
exchanger rises above approximately 5°C, the
frequency is raised by approximately 5 Hz once
every 60 seconds, and normal operation is restored.
If the temperature of the indoor heat exchanger goes
down to approximately 0°C and this condition
continues for 4 minutes, the compressor is stopped.
When the temperature rises above approximately
2˚C, normal operation is restored.
2-2 Overcurrent protection
(1) Compressor lock detection
If the set value 2.7A of AC current is exceeded in 6
seconds when operation begins, operation is stopped.
In this case, the compressor outdoor fan does not
stop, and 170 seconds after operation is stopped,
another try will be made. Three retries are allowed.
On the fourth retry, a complete stop request signal is
sent to the indoor unit, and the outdoor unit will
remain stopped until reset is performed. At this time,
the 3-minute delay for control of the outdoor unit will
not function; therefore, do not cancel by removing the
plug and cutting the power.
(2) DC overcurrent detection, AC overcurrent detection
To protect against overcurrent due to sudden changes
in load, the compressor is stopped if the set value
26A DC is exceeded in the DC section, or the set
value 11A AC is exceeded in the AC section. In this
case, the outdoor fan does not stop, and 170 seconds
after operation is stopped, another try will be made.
Three retries are allowed. On the fourth retry, a
complete stop request signal is sent to the indoor
unit, and the outdoor unit will remain stopped until
reset is performed. At this time, the 3-minute delay for
control of the outdoor unit will not function; therefore,
do not cancel by removing the plug and cutting the
power.
2-3 Compressor protector control
If the temperature of the compressor chamber exceeds
114°C, the compressor is stopped. In this case, the
outdoor fan does not stop, and when the compressor
chamber temperature decreases to 100°C three
minutes after operation is stopped, another try will be
made. Three retries are allowed. On the fourth retry,
a complete stop request signal is sent to the indoor
unit, and the outdoor unit will remain stopped until
reset is performed. At this time, the 3-minute delay for
control of the outdoor unit will not function; therefore,
do not cancel by removing the plug and cutting the
power.
2-4 Power transistor module protector
If the temperature of the chips in the power transistor
module exceeds 105 °C, the compressor is stopped.
In this case, the outdoor fan does not stop, and when
the temperature of the chips in the power transistor
module decreases to 105 °C 170 seconds seconds
after operation is stopped, another try will be made.
Three retries are allowed. On the fourth retry, a
complete stop request signal is sent to the indoor
unit, and the outdoor unit will remain stopped until
reset is performed. At this time, the 3-minute delay for
control of the outdoor unit will not function; therefore,
do not cancel by removing the plug and cutting the
power.
2-5 Serial signals
(1) Serial signals consist of all 96-bit signals.
(2) If the outdoor unit does not receive a serial signal, it
will stop approximately 30 seconds later. Note that
this is true only of normal operation; in test mode, it
does not stop and operation takes place based on the
test mode commands.
FUNCTION AND OPERATION OF PROTECTIVE PROCEDURES
Function
NO Description Detection
time Restart
condition Restart
times Indoor
Outdoor
Operation Self diagnostic
display
1
2
3
4
5
Indoor fan
lock
Indoor fan
rpm error
Indoor
freezing
guard
DC
overcurrent
AC
overcurrent
Compressor
lock
Stops operation if no revolution pulse
signal is input from the indoor fan motor for
one minute.
Stops operation if the revolution pulse
signal from the indoor fan indicates low
rpm (approximately 300 rpm or less).
Lowers the operating frequency if the
temperature of the indoor heat exchanger
goes below 5°C during cooling. Stops the
compressor if the temperature stays below
0°C for 4 minutes.
Stops the compressor if a current of
approximately 26A or more flows in the
power transistor module. Also stops the
compressor if the temperature of the
power transistor module is exceeds 105°C.
Lowers the operating frequency if the
compressor AC current exceeds
7.5A
Stops the compressor if the current
exceeds at 40Hz or less set valve.
Stops the compressor if the compressor
AC current exceeds 2.7A immediately after
activating the compressor (in 6 seconds).
When indoor
fan is revolving
During cooling
and dry
During
compressor
operation
During
compressor
operation
Immediately
after
compressor
activation.
Operation OFF
Automatically
restarts when the
exchange
temperature rises
above the freezing
prevention
temperature (above
2°C)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts after safety
time (170 seconds)
No limit
No limit
4 times
4 times
4 times
Yes
No
Yes
Yes
Yes
No
No
Yes
Yes
Yes
Function
NO Description Detection
time Restart
condition Restart
times Indoor
Outdoor
Operation Self diagnostic
display
6
7
8
9
10
11
12
Compressor
overheating
control
Compressor
high
temperature
error
Outdoor heat
exchanger
overheating
control
Outdoor
thermistor
short
Outdoor
thermistor
open
AC abnormal
current error
Serial signal
error
Lowers the operating frequency if the
temperature of the compressor chamber
thermistor (TH1) rises above 105°C.
Stops the compressor if the thermistor
stays above 105°C for 1 minutes at
minimum frequency or less.
Stops the compressor if the compressor
chamber thermistor is above 114°C.
(Or when TH1 shorts)
Lowers the operating frequency if the
temperature of the outdoor heat exchanger
rises above 56°C during cooling. Stops the
compressor if the temperature stays above
56°C for 1 minute at minumum frequency.
Stops the compressor if an outdoor
thermistor (excluding TH1) shorts.
Stops the compressor if the circuit of an
outdoor thermistor breaks.
Stops the compressor if if the operating
frequency is above 70 Hz and the
compressor current is below 1.0 A.
Turns the compressor relay off if the indoor
unit does not receive a serial signal from
the outdoor unit for 8 minutes.
Stops the compressor if the outdoor unit
does not receive a serial signal from the
indoor unit for 30 seconds.
During
compressor
operation
During
operation
During
compressor
operation
When
compressor is
activated
When
compressor is
activated
During
compressor
operation
During
operation
During
operation
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts when
thermistor (TH1)
temperature falls
below 100°C
(approximately 30
minutes)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts after safety
time (170 seconds)
Automatically
restarts less than 8
minutes after
operation stops
Restarts after
reception of serial
signal
No limit
4 times
No limit
4 times
4 times
4 times
No limit
No limit
No
Yes
No
Yes
Yes
Yes
Yes
No
Yes
No
Yes
Yes
Yes
Yes
: Blinks at 2-second intervals : OFF : ON : Blinks 3 times at 0.2-second intervals
Indoor and outdoor unit
completely stopped
Indoor unit
operating
Outdoor unit
completely stopped
Display by indoor unit operation lamp
Displayed in a pattern which comes on at the same
time as the timer lamp
4 seconds off
Temperature display
What to check, procedure
Display by
outdoor
unit lamp
LED 1 Diagnosis Solution
Condition
of indoor
and
outdoor
unit
Normal
Once
Twice
3 times
4 times
5 times
6 times
7 times
Compressor lock error
DC overcurrent error
AC overcurrent error
Normal
Serial short
Serial open
Does compressor active ? Does it go off immediately after active ?
1. Check the circuit in the power transistor module.
2. Is the outdoor fan revolving ?
1. Is the discharge outlet of the outdoor unit clogged ?
1. Check the wiring between units.
1. Check the wiring between units.
1. Check the wiring between units.
2. Check the fuse in the outdoor unit.
3. Indoor control board.
4. Outdoor control board.
1. Measure the resistance of thermistor TH2 on the outdoor unit
(see Figure 2).
1. Replace power transistor
module
1. Clear the discharge outlet.
1. Rewire.
1. Rewire.
Indoor fan out of order 1. Is the fan motor locked ?
2. Is the wiring connector firmly fitted ?
3. Is the speed signal applied to the motor ?
Overheat of the comp-
ressor error
(protector operating) or
outdoor compressor
thermistor TH1 short
Outdoor power supply
does't turn on.
Wiring mistake.
1. Rewire.
2. Replace the fuse, replace the
outdoor board assembly.
3. Replace the board.
4. Replace the board.
1. Replace fan motor
2. Reattach.
3. Replace the indoor control board
assembly.
1. Replace the outdoor control board
assembly
(Current transformer wire break.)
1. Reattach.
2. Replace the outdoor thermistor
assembly.
1. Replace the outdoor thermistor
assembly.
1. Clear the discharge outlet.
2. Assure power supply voltage.
3. Refill to rated amount.
4. Replace the outdoor ther-mistor
assembly.
5. Replace the indoor control board
assembly or only TH2.
1. Apply an external shock to the
compressor.
2. Replace the compressor.
1. Can voltage be detected at the current transformer on the outdoor
unit control board?
1. Are the connectors of the outdoor unit thermistors well attached ?
2. Measure the resistance of thermistors TH1 and TH2 on the
outdoor unit (see Figure 2).
1. Is the discharge outlet of the outdoor unit clogged ?
2. Is the power supply voltage at least 198 V at full power operation ?
3. Check for refrigerant leaks at the tubing connections.
4. Measure the resistance of compressor thermistor TH1 on the
outdoor unit (see Figure 2).
5. Measure the resistance of heat exchanger pipe thermistor TH2 on
the indoor unit (see Figure 1).
AC abnormal current
error
Open circuit of the
thermistor error
Short circuit of the
thermistor error
1
sec.. 1
sec 0.6
sec. 1
sec. 1
sec. 1
sec.
1
sec. 1
sec. 0.6
sec. 1
sec. 1
sec. 1
sec.
1
sec. 1
sec. 1
sec.
Short circuit of the outdoor thermistor
1
sec. 1
sec. 1
sec.
Overheat of the compressor
0.6
sec.
0.6
sec.
1
sec. 0.6
sec. 1
sec. 0.6
sec.
1 time
2 times
ON
OFF
ON
OFF
BREAK DOWN DIAGNOSIS PROCEDURE
Self-diagnostic procedure using display mode
If the timer lamp blinks during operation, the problem can be diagnosed using
the following table.
Note: 1. Normal : Only the timer lamp blinks. Error : Displayed by blinking of run
lamp (above table).
2. If the power plug is removed from the outlet or the breaker is switched to
"OFF", the self-diagnostic memory will be erased.
3. Example of outdoor unit LED 1 blinking :
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Sharp AH-MX152 User manual

Category
Split-system air conditioners
Type
User manual
This manual is also suitable for

Sharp AH-MX152 is a split type room air conditioner with a cooling capacity of 11700 BTU/h, making it suitable for large rooms. It has a built-in air purifier that removes dust and allergens from the air, creating a healthier and more comfortable environment. The AH-MX152 also features a self-cleaning function that prevents the growth of mold and bacteria on the evaporator coils, ensuring optimal performance and air quality.

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