Text preview for : 81204315.pdf part of panasonic cs-g123ke i have some code indicated F99 and the air conditioning stop
i think this might be same model,it shows the fault codes at the end i think
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CS-G93K/G123K
CS-G93K/G123K
CS-G93K/G123K
CS-G93K/G123K
ELECTRONIC CIRCUIT DIAGRAM
G
· CS-G93KE · CS-G123KE
PH302C
MAIN SWITCH AC 230V 50Hz 102°C THEROMAL FUSE
RY-PWR 1 2 3 TO OUTDOOR
C6 0.01µ
+
C37 10µ
R29 100k 5 O G I
LC1 A49AF32102TL
e 10k
Q4 A55DA143XKTX
4.7k CLOCK PULSE GENERATION b c
+
C24 + 33µ 25V
C23 100µ 6.3V
R34 10k
R37 10k
R39 10k
R43 10k
+
MAIN RECEIVER
(MX-3) CN-RCV1 8 IN+ 330 7 IN0.01µ 6 CO 0.01µ 5 GND FO 4 VCC2 3 137k 6.3V 47µ
+
C22 1.5µ 16V (T)
IC4 A52PST600D
RESET SIGNAL GENERATION
C21 0.01µ c R62 5.1k
Q3 A55DC143XKTX
CLOCK PULSE GENERATION b
R65 10k R67 1k CN-PWR CN-PWR 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
3 DL 2 CS
1 8 SCK 5 S0 6 S1 7
2 4 SCK 6 D0 5 D1 RST 8 CS 3 BUSY 1 7 X1 4MHz (27pF X 2) R64 7.5k C4 1000p
R66 330
C18 0.022µ
R63 1k e
10k
4.7k C17 0.1µ 1 R68 680
PC2 TLP371
TRANSMISSION 5 0 R76 15k 2W
D3 A54D1F68
F
VCC1 1 OUT 2
1 2 3
3 2 1 CN-RCV2 (MX-3) + C7 1.5µ (T)
R21 1k
R24 5.1k C19 3300p
4
IC2 A52BR9020F
5 R42 150k
IC6 A52A2003GR2
7 6 g f 10 11 4
2 1~2 6 0
4
ICX
PC3 TLP521L1BL
RECEPTION
ZNR2 ERZVA9V271 C5 2200P
CLOCK PULSE 1.1GENERATION 4 3 1 2
PC1 A52S2581L1KC
R74 47k 2W
R79 47k 2W
FUSE1 3.15A C32 0.01µ 250VAC (KH) C31 0.01µ 250VAC (KH) DB1 A54D3SBA60F1 ~ + ~ + C34 100µ 450V (ECEC)
R70 200k 1 0
R72 2.4k
R82 510k D9 A54D1F60
R81 510k
L6 A43101T
C30 0.22µ
TH1 A47N11D5R0TT LF1 A49217
C33 0.1µ
3 1~3
2
R73 1k
D1 A541SS355T
ZNR1 ERZVEAV511
DISPLAY
IC8 A52C108
REGULATOR 5 R113 R114 R115 R116 25 A B C D E 5 1 2 24 23 22 21 20 19 18 17 16 15 14 13 11 12 QA QB QC QD QE QF QG QH QI QJ QK QL QM QN QO QP VCC 3 R117 R118 R119 R120 R121 430 x 9 + C105 1.5µ
R109 R108 R110 R111
D6 A54D1F60
T1
L4 L5 C35 470µ (FC) C38 0.01µ 8 2 - 3.5 + 5 GND 12
A40C295 DC/DC CONVERTER
DC INPUT C
E
D102 A54LNK4171B POWERFUL SLEEP TIMER POWER D103 A54LNK5372 5 5 5 5
5 24 23 22 21 20 19 18 17 16
2.5 15
2.5 14 13 12 11 10 9 8 7 6 5 4 3 2 1 C16 0.01µ R50 R71 R77 5.1k 5.1k 5.1k C1 100µ + C2 0.01µ
O
5V G
I C3 0.01µ
7 DC OUTPUT
RESET 80 DATA TRANSMISSION 26 27 DISPLAY 28 CN-DISP1 9 8 7 6 5 4 3 2 1 CN-DISP2 1 2 3 4 5 6 7 8 9 29 30 31 32 33 34 STANDBY SEGMENT DRIVE 76 75 77 4MHz OSC RELAY DRIVE BUZZER FAN MOTOR SPEED CONTROL 79 78
GND F C10 22µ (FC) + D 1 FAN SPEED CONTROL SIGNAL E 6 A B 0 2 OVERCURRENT SIGNAL OUTPUT VOLTAGE AC ( V ) 21 ( 23 ) 21 ( 23 ) 21 ( 23 )
R19 25.5k
R23 10k
C39 2200P
C40 1000P 630V
C29 1000P 630V
R 7
R112 100k C106 0.01µ
IC1 A5278366F100
D5 74 73 72 71 70 R57 10k R2 10k A541SS355 x 3
D7
D8
15 - 34
4 FAN SPEED CONTROL VOLTAGE
180 x 4
SW2 R3 1k
D
R101 R102 R103 R104 R105 R106 R107 820 x 7
Q1 A55DC143XKTX
b 4.7k 10k
C36 390µ (FA) c R1 1k BZ1 R48 C41 5600P BZ L2 R20 18.2k R22 0.33 1k
+
CKS 6 A 4 CLK 8 10 OE 5 GND 9
Q10 A55DA143XKTX
SEGMENT DRIVE C25 0.01µ
Q8 A55DA143XKTX
SEGMENT DRIVE
Q7 A55DA143XKTX
SEGMENT DRIVE
C101
C102
C103
C104
REMOTE CONTROL NO. SW1 J2 1 OFF 2 ON 3 OFF SHORT 4 ON SHORT
STANDBY
e J1
35 36 R31 1k C26 1000P 37 38 39 40 REMOTE CONTROL COMMAND INPUT REMOTE CONTROL NO. INTAKE AIR TEMP. CLOCK PULSE INPUT 41 42 43 44 45 46 HEAT EXCHANGER TEMP. 47 48 49 50 51 5 52 53 54 POWER TEST RUN STEPPING MOTOR DRIVE RIGHT 55 56 57 58 LEFT 59 60 61 UP/DOWN 62 63 64 TIMER SHORTEN GND AUTO
69 68 67 66 65 R18 1k R4 10k 7 10 9 12 11 14 13 22 2
L3 FAN MOTOR BETWEEN COILS 1 & 2 1 & 3 2 & 3 LOGIC R55 10k C13 0.01µ C24 1000P 18 C25 1000P LOGIC LOGIC DRIVE CIRCUIT RESISTANCE AT 20°C ( ) 6.1 6.1 6.1
IC101 A52M66311FP
11 g e 10 a 9 f 8 b 7
1000P x 4
e 10k
e 10k b
e 10k b
CHECK PIN (TEST) SW1 4.7k b R38 24k J2
R30 10k
D101 A54LNM23301A c
4.7k
4.7k
C
c COM1 d COM2 COM3 D.P 1 2 3 4 5 6
c
c
R40 10k
R33 10k
2.5
R36 10k
L1 A438LM31A02T
(XH3) CN-MTR 4 1 23 3 2 1
Fig.2 Fig.2 C11 0.01µ
16 15 17
SENSOR CIRCUIT
RA RA RA
Fig. 1
Sensor (Thermistor) Characteristics
INDOOR FAN MOTOR
AIR TEMP. SENSOR (15k 3950) Fig.1 PIPE TEMP. SENSOR (20k 3950)
(PH4) CN-TH 1 2 3 4 (MX-5) CN-STM1
R41 + 5.9k
C8 10µ 16V
R35 + 15k
C9 10µ 16V
R68 1M R45 374 7 6 5 4 3 2 1 D4 A541SS355 R59 5.49k + C12 1µ 50V R58 49.9k DRIVE CIRCUIT
70 60
1 2 3
R73 + 10k
C26 33µ 25V
10 11 12 13 14 15 16
9 g f e d c b a 8
IC5 A52A2003GR2
STEPPING MOTOR DRIVE
IC7 A52TPD4007K
50 Resistance (k )
21 19 5 3 8 28 6
Indoor Heat Exchanger Sensor Indoor Intake / Outdoor Air Sensor Outdoor Heat Exchanger Sensor
1
Fig. 22 Fig. 2 Fig.
Intake Air/ Indoor Heat Intake Air/ Indoor Heat Exchanger Temp. Exchanger Temp.
4 4 Voltage (V) Voltage (V) 3 3 2 2 1 1
B
RIGHT
1 2 3 4 5 (ZH5)
1 2 3 4 5 (MX-5) CN-STM2 1 2 3 4 5
FAN MOTOR CONTROL
40 30 20 10 0
3
2
Intake Air Intake Air Temp. Data Temp. Data
R28 10k
IC3 A52MPC393G22
7 6 5 C43 1000P C44 + 1µ 50V
R69 26.7k 1 R25 220 R80 13.7k 1/4 W
SW3 TEST RUN 8 4 3 2 C42 1000P + C28 10µ R26 49.9k R47 10k C13 0.01µ R46 10k SW4 AUTO R56 10k C15 0.01µ R51 2k
LEFT
1 2 3 4 5 (ZH5)
(GND)
12 (MX-5) CN-STM3 13 14 15 16
9 e d c b a 8
5 4 3 2 1
IC6 A52A2003GR2
STEPPING MOTOR DRIVE
CHECK PIN
D2
R32 10k
IC3 A52MPC393G22
R27 5.49k
Indoor Heat Exchanger Indoor Heat Exchanger Temp. Data Temp. Data 0 0 10 20 30 40 50 60 70 10 20 30 40 50 60 70 Temperature (°C) Temperature (°C)
A
UP/DOWN
1 2 3 4 5 (ZH5)
1 2 3 4 5
-10
0
10
20
30
40
50
Temperature (°C)
CS/CU-G93KE/G123KE (45%) CI-G123KE.DWG
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
CS-G93K/G123K How to use electronic circuit diagram
Before using the circuit diagram, read the following carefully. * Voltage measurement Voltage has been measured with a digital tester at rated frequency. Use them for servicing. Voltage indication is in Red at cooling and all operations. Voltage indication is in (Red) at heating. * Indications for capacitor a. Unit µ .... µF P .... pF b. Type Not indicated ... ceramic capacitor (S) .......... S series aluminium electrolytic capacitor (Z) .......... Z series aluminium electrolytic capacitor (SU) ....... SU series aluminium electrolytic capacitor (P) .......... P series polyester system (SXE) ..... SXE series aluminium electrolytic capacitor (SRA)...... SRA series aluminium electrolytic capacitor (KME)......KME series aluminium electrolytic capacitor
CS-G93K/G123K
CS-G93K/G123K
CS-G93K/G123K
G
TIMER TABLE
Name 4 way valve abnormality Outdoor air temp. for Hz No. decision Anti-dew formation control Anti-freezing control Thermo OFF delay Low pressure control (gas leakage) compressor OFF time Time delay safety control Odour timer status shift time Intake air temp. sampling time Self diagnosis display time Auto mode judgement sampling time 24 hours ON / OFF timer Time 4 min. 30 min. 20 min. 6 min. 3 min. 3 min. 2 min. 58 sec. 30 sec. 60 sec. 2 min. 10 sec. 20 sec. 0 sec. 0 sec. 0 sec. 0 sec. 1 hour 1 min. 120 min. 30 min. 4 min. 30 min. 12 sec. 3 sec. 0 sec. 3 sec. 9 sec. 18 sec. 42 sec. 3 sec. 1 hour 6 sec. 2 min. 12 sec. Test mode When test point short-circuited 2.4 sec. 0 sec. 0 sec. Deice detection 0 sec. 0 sec. 0 sec. 0 sec. Deice forced completion Hz lock time DC PEAK
TIMER TABLE
Name Time 30 sec. 120 min. 80 min. 40 min. 40 min. 11 min. 30 sec. 30 sec. 3 min. Test mode When test point short-circuited 3 sec. 24 sec. 16 sec. 8 sec. 8 sec. 66 sec. 0 sec. 3 sec. 18 sec.
ELECTRONIC CIRCUIT DIAGRAM
· REMOTE CONTROL
WIRELESS REMOTE CONTROL
F
C7 0.01µ
* Indications for resistance a. K .... k M ... M W ... watt Not indicated .... 1/4W b. Type Not indicated .......... carbon resister Toleranceħ5% .......... metal oxide resister Toleranceħ1%
LED1 SID1003BQ R11 510k R5 2.2 1/8W
Q1 2SB710
C1 47µ + C2 47µ + C9 0.01µ
C8 0.01µ
CN1
Outdoor fan delay operation control 4 way valve delay operation control
R9 200k R3 51 R2 1.5k X1 3.52Hz (33P x 2)
R8 200k
R7 200k
R03
Q2 2SD602
R4 22k
E
C4 8P (NPO) 16
OSC2
15
OSC1
14
VDD
13
VLCD1
12
VLCD2
11
VLCD3
10
COM0
9
COM1
8
COM2
7
SEG0
6
SEG1
5
SEG2
4
SEG3
3
SEG4
2
SEG5
1
SEG6
C5 8P (NPO) R1 100k R6 300 DOOR OPEN/CLOSE SW1 (CLOSE:ON) SW2 J-B R12 51k
X2 32.768kHz
17 XOSC2 18 XOSC1
SEG 7 64 SEG8 63 SEG9 62 SEG10 61 SEG11 60
* Diode without indication .............. MA165 * Circuit Diagram is subject to change without notice for further development.
Heating SSHi fan speed shift Cooling SHi fan speed shift Hot start forced completion
19 VSS 20 RESET 21 PC3 22 PC2 23 PC1 24 PC0 25 PA0 26 PA1
C6 0.1µ
SEG13 58
IC1
SEG14 57 SEG15 56 SEG16 55 SEG17 54 SEG18 53 SEG19 52 SEG20 51 SEG21 50
Remote Controller No.
D
Anti-fog discharge control
90 min. 180 min. 420 min.
R13 51k R14 51k
27 PA2 28 PA3 29 PA4 30 PA5
Auto mode judgement interval Sleep mode time shift After Hot start / Deice
30 min.
31 PA6
SEG32 SEG31 SEG30 SEG29 SEG28 SEG27 SEG26 SEG25 SEG24
32 PA7
RMO PC4 PC5 PC6 PC7 BZ
SEG22 49 SEG 23 48
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
C
(POWERFUL) SELF DIAGNOSIS
SLEEP
TIMER ON
TIMER CANCEL
FAN SPEED (TEMP 9)
B
WIDE / SPOT
AIR SWING 8 9
TIMER OFF
TIMER SET
SW2 0
AIR SWING /(OFF / ON) q MODE (TEMP 8) CLOCK
J-B
OFF ON OFF ON SHORT SHORT
1 2 3
A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
LIQUID CRYSTAL DISPLAY
SEG12 59
CS-G93K/G123K
CS-G93K/G123K
CS-G93K/G123K
ELECTRONIC CIRCUIT DIAGRAM
G
· CU-G93KE · CU-G123KE
OUTDOOR TERMINAL AC 230V AC18-23V AC230V 1 2 3 FUSE 250V, 20A 1 2 5 3 4
Fig. 3 Fig. 3
DIODE REACTOR FOR CU-G123KE ONLY ~ ~ + + C1 + C2 DIODE
Outdoor Air/Outdoor Heat Exchanger Temp.
Outdoor Air Temp. Data
REACTOR
CAPACITOR
F
(WHT) AC1 (WHT) AC2 L
PTC
P
AC3 DC+ RY-PWR DC-
Voltage (V)
APPROX 280 DCV
3 2 1 Outdoor Heat Exchanger Temp. Data 0 10 20 30 40
Q8
CT1 A40260 D11 D14 R48 1.65k FAN MOTOR FUSE1 T3 15A L250V CN-FM C-FM 400V 2µF 1 2 3 4 5 CR2 120 0.033µ RY-FM (BLUE) (VH-3) CN-HOT 1 2 3 HOT 5 6 D12 D13 D15 R49 598 C27 220µ 10V + PC6 2 CR1 120 0.033µ SSR1 4 3 1 R35 560 TLP521-IGH 3 1 4 R67 560 C7 270µ 25V (SXE)
8
e D16 b 4.7k
Q7 UN4116
2 c D2 A54RA22-04
7
P Vin Vcc GND Vfo CT Vout Vsen GND U 100 ACV (XH3) CN-MTR 3 2 1
RED
BLU
R79 10k
3 T1 A48367 1
0 -10
E
YEL OPEN : 145°C CLOSE : 88°C
VR1 200
IC3 A5278M05
REGULATOR
+
D1 A54AU02ZV8
9
Temperature (°C)
COMPRESSOR
I R2 27 3/4W + C1 470µ 25V + C2 10µ 25V
5V G
O + C3 100µ 10V
5 6 4
Vin Vcc GND Vfo
CT Vout Vsen GND V
IC1 A5278214WC26
C98 0.01µ 3.4 64 63 62 61 60 59 IPM (POWER TRANSISTOR) BASE SIGNAL OUTPUT 1 2 3 4 5 6 PHOTO COUPLER DRIVE VOLTAGE DETECTION HEAT EXCHANGER TEMP. INTAKE AIR TEMP. COMP. TEMP. CURRENT POWER ON PHOTO COUPLER DRIVE RELAY DRIVE 7 8 9 10 + 54 53 52 11 12 13 REF. VOLTAGE RESET 14 15 16 17 18 19 FAN MOTOR DRIVE 20 21 22 23 24 4-WAY VALVE 25 26 COMPRESSOR ROTOR POSITION DETECTION TIMER SHORTEN 27 28 DC. PEAK DC RESET 29 30 31 GND 32 L1 A43036 RA1 10k X 5 R73 5.23k R43 1k R45 STN-BY 10k C24 0.01µ TEST (NH-2)
1
D3 EBR43-02 3.4 PC7 3.4 3.4 3.4 3.4 LED1 (YLW) A5448YPXTA3E 1 e 10k R37 560 PC8 2 TLP521-IGH 3 4 R69 560 C9 + 270µ 25V (SXE)
4
100 ACV
1 2 R36 560 TLP521-IGH
4 3 R68 560 C8 + 270µ 25V (SXE)
5
11
Fig. 4 Fig. 4
CT Vout Vsen 100 ACV GND W C40 1µ 630v (ECQE)
8 A56S26MD81M
2 R50 10k
FUSE2 T3 15A L250V
13
8 R78 56k 3W R77 56k 3W 9 7 11 10
Vin Vcc GND Vfo
6
R5 680 3W C4 470p 1kV AC
R4 620k 3/4W
R8 560k 3/4W
Total Running Current Data
D4 EBR43-02
3 12
D
PIPE TEMP. SENSOR (4.96k, 3800) AIR TEMP. Fig. 1 SENSOR (15k, 3950) COMPRESSOR TEMP. SENSOR (50k, 3975) Fig. 5
4 3 2 1 1 2 CN-TANK (NV-2) (NH-2) CN-S TEST RUN 1 2 + C37 22µ 10V C33 + 470µ 16V R52 10k L2 A43036
R53 15k
R54 15.8k
57 Fig. 3 Fig. 3 Fig. 6 56 55
0 5
b
4.7k
16
Vcc R6 100 3/4W D6 A541SS136 C5 0.033µ (ECQM) ZD1 A54D6.2 EB1 GND Vfo
Vsen GND N
Voltage (V)
(YEL) (XH-4) CN-TH
2.8 R81 1k
58
0
R34 620
Q1 A55C4420
R21 1.82k
VR2 1k
12
Vin
CT Vout
4 3 2 1
c O C46 3.3µ 50V 5V G I + C18 470µ 10V C47 0.1µ (ECQV)
Q4 UN411F
1 VOLTAGE DETECTION PC12 4 3 1 2 TLP521-I R12 510k R75 10k R22 2.55k R1 5.23k R39 560 3 4 2 5 12 PC9 2 R80 4.7k R38 560 TLP521-IGH 3 4 R70 560 +
D5 A54RA22-04 C10 270µ 25V (SXE)
1
R55 + 4.99k 5V
C31 + 10µ 16V
C29 + 10µ 16V
C30 10µ 16V
+
2 15
Fig. 4 R51 20.5k 5 C32 + 220µ 16V R52 10k
IC4 78M05
REGULATOR 5 2.5 2.5 X1 12MHz 30pF X 2
C6 100µ 50V (SXE)
R7 330
R3 1
13
Vin Vcc GND
CT Vout Vsen GND
IC8
R71 560 C14 0.01µ 1 PC10 2 TLP521-IGH 3 4 14 Vin Vcc 15 GND 989k 0.1 (ECQB) 1M 33k 3k + 6 23.2k 1000P 47.5k + 1 2 9 C13 0.33µ 50V (ECQV) R82 383k R17 619k GND CT Vout Vsen Vfo
ICX A52D27C18C
51 50 49 48 47
C
POWER
12MHz OSC
R42 150k
C28 + 220µ 16V
1 Vcc 2 3 CS DL
Vcc 8 S1 7 S0 6 SCK 5
IC8
A52MPC339C 18 13 11
IC6 A52AN78L10
REGULATOR D9 EBR12-01 I R72 560 C19 120µ 25V R10 118 1W + C20 120µ 50V + D8 A54RA22-04 I 10V G O
+
C17 22µ 25V (SXE)
0
5
10
15
Current (A)
R56 10k
3.4 2.3 5
46 45 44 43 42
7 5 1 2
9
RY-PWR 10 12
Vfo Temp.
4 GND
DATA TRANSMISSION
PC13 16 15 3 4 6 0 (5) 3 8 13 11 14 R41 470 1W 2 TLP521-I R19 750k R9 4.53k RY-FM 4 1 1 IC8 6 7
R28 4.7k R40 560
C21 + 10µ 25V C22 + 10µ 25V O D10 EBR12-01
1 PC11 2 TLP521-IGH
4 3
G 10V
R57 1k CN-AC 1 2 3 4 5 R66 38k D19 ERA15-10
PC4 A52PS2633E
IC2 µPA2003C
R18 75k
5 R65 51k C39 + 22µ 400V
1 R59 680
41 40 2.6 2.6 39 38 37 36 35 34
R11 5.23k
C16 0.01µ
R32 1k
IC7 A52AN79L10
1 2 REGULATOR C23 1000P 1M
989k 0.1 (ECQB)
B
D18 ERA15-06
C37 2200p 50V
4
2
4 PC3 3 PC1 1 8 9 R76 4.7k R23 R74 240k 1000p x 3 C34 C35 C36 2 1 4 3 6 5 PC2 A52LP521-3 14 IC8 TLP521-I 2 4 DC RESET 3 R31 10k C48 0.01µ R30 15k R33 18k C25 1000P TLP521-I DC PEAK
33k 3k + 5 1000P 47.5k 23.2k R25 3.6k + 11
C12 0.33µ 50V (ECQV)
R83 499k R13 499k
Fig. Fig. 5 5
Compressor Temp. Sensor (Thermistor) Characteristics
70 60
Fig. 6 Fig. 5 Compressor Temp. Data
R60 200k Q6 UN421F
c b 2.2k e 10k
2.6 5
R16 75k
Q5 C1740S
989k 0.1 (ECQB) R26 3.6k 1M 33k 3k + 4 1000P 47.5k 23.2k 11 12 9 10 7 8 1.5k x 3 R27 R28 R29 R24 3.6k + 10
2
(RED) AC4 C15 1000PF AC250V
D17 ERA15-06
ZNR1
1 R61 1k 2
4 R62 300 3
Resistance (k )
33
R44 51k
R46 2.2k
C11 0.33µ 50V (ECQV)
Voltage (V)
R84 383k R15 619k
4 3 2 1
50 40 30 20 10 0
R64 11k 3W
D20 ERA15-06 PC5 TLP521-1BL (BL) R63 7.5k C38 1000p
R14 75k
R47 1k
C26 2200p
IC5 A52BX454
COMPRESSOR ROTOR POSITION DETECTION
A
50 60 70 80 90 100 110 120 130 140
20 40 60 80 100 120 140
Temperature (°C)
Temperature (°C)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CS-G93K/G123K
CS-G93K/G123K
CS-G93K/G123K
G
PRINT PATTERN INDOOR UNIT PRINTED CIRCUIT BOARD
OUTDOOR UNIT PRINTED CIRCUIT BOARD
· MAIN
F
· INDICATOR
· MAIN
E
D
C
B
A
1
2
3
4
5
6
7
8
9
10
11
12
13
14