5
2. Specification
Model
Indoor CS-PS9PKV
CS-PS12PKV
Outdoor CU-PS9PKV
CU-PS12PKV
Performance Test Condition
JIS
JIS
Power Supply
Phase, Hz
Single, 60
Single, 60
V 220
220
Min. Mid. Max. Min. Mid. Max.
Cooling
Capacity
kW 0.84 2.54 3.15 0.92 3.06 4.00
BTU/h 2860 8660 10700 3140 10400 13600
kJ/h 3020 9140 11340 3310 11020 14400
Running
Current A - 3.4 - - 4.0 -
Input
Power
W 225 680 885 260 820 1.17k
EER
W/W 3.73 3.74 3.56 3.54 3.73 3.42
BTU/hW
12.71 12.74 12.09 12.08 12.68 11.62
kJ/hW 13.42 13.44 12.81 12.73 13.44 12.31
Power
Factor % - 91 - - 93 -
Indoor Noise (H / L / QLo)
dB-A
36 / 26 / -
38 / 28 / -
Outdoor Noise (H / L / QLo)
dB-A
46 / - / -
47 / - / -
Max Current (A) / Max Input Power (W)
6.2 / 1.12k
7.4 / 1.43k
Starting Current (A)
3.4
4.0
Compressor
Type
Hermetic Motor / Rotary
Hermetic Motor / Rotary
Motor Type
Brushless (6 poles)
Brushless (6 poles)
Output Power
W
650
650
Indoor Fan
Type
Cross-flow fan
Cross-flow fan
Material
ASG20K1
ASG20K1
Motor Type
AC / Induction (4 poles)
AC / Induction (4 poles)
Input Power
W
51.0
51.0
Output Power
W
16
16
Speed
Lo rpm
680
720
Me rpm
840
890
Hi rpm
1000
1060
Outdoo
r Fa
n
Type
Propeller
Propeller
Material
PP Resin
PP Resin
Motor Type
AC / Induction (6 poles)
AC / Induction (6 poles)
Input Power
W
-
-
Output Power
W
20
28
Speed Hi
rpm
770
790
Moisture Removal
L/h (Pt/h)
1.6 (3.4)
1.7 (3.6)
Indoor Airflow
Lo m
3
/min (ft
3
/m)
6.3 (222)
6.8 (240)
Me m
3
/min (ft
3
/m)
8.2 (290)
8.8 (311)
Hi m
3
/min (ft
3
/m)
10.1 (355)
10.9 (385)
Outdoor
Airflow
Hi m
3
/min (ft
3
/m)
22.0 (780)
31.2 (1100)
Refrigeration
Cycle
Control Device
Capillary Tube
Capillary Tube
Refrigerant Oil
cm
3
FV50S (320)
FV50S (320)
Refrigerant Type
g (oz)
R410A, 740 (26.1)
R410A, 690 (24.4)
Summary of Contents for CS-PS9PKV
Page 9: ...9 3 Location of Controls and Components 3 1 Indoor Unit 3 2 Outdoor Unit 3 3 Remote Control...
Page 10: ...10 4 Dimensions 4 1 Indoor Unit 4 1 1 CS PS9PKV CS PS12PKV...
Page 11: ...11 4 1 2 CS PS18PKV CS PS24PKV...
Page 12: ...12 4 2 Outdoor Unit 4 2 1 CU PS9PKV 4 2 2 CU PS12PKV CU PS18PKV...
Page 13: ...13 4 2 3 CU PS24PKV...
Page 14: ...14 5 Refrigeration Cycle Diagram 5 1 CS PS9PKV CU PS9PKV CS PS12PKV CU PS12PKV...
Page 15: ...15 5 2 CS PS18PKV CU PS18PKV CS PS24PKV CU PS24PKV...
Page 16: ...16 6 Block Diagram 6 1 CS PS9PKV CU PS9PKV...
Page 17: ...17 6 2 CS PS12PKV CU PS12PKV...
Page 18: ...18 6 3 CS PS18PKV CU PS18PKV...
Page 19: ...19 6 4 CS PS24PKV CU PS24PKV...
Page 21: ...21 7 1 2 CS PS18PKV CS PS24PKV...
Page 26: ...26 8 Electronic Circuit Diagram 8 1 Indoor Unit 8 1 1 CS PS9PKV CS PS12PKV...
Page 27: ...27 8 1 2 CS PS18PKV CS PS24PKV...
Page 28: ...28 8 2 Outdoor Unit 8 2 1 CU PS9PKV...
Page 29: ...29 8 2 2 CU PS12PKV...
Page 30: ...30 8 2 3 CU PS18PKV...
Page 31: ...31 8 2 4 CU PS24PKV...
Page 33: ...33 9 1 1 2 CS PS18PKV CS PS24PKV 9 1 2 Indicator and Receiver Printed Circuit Board...
Page 34: ...34 9 1 3 Comparator Printed Circuit Board 9 1 4 Human Activity Sensor Printed Circuit Board...
Page 35: ...35 9 2 Outdoor Unit 9 2 1 Main Printed Circuit Board 9 2 1 1 CU PS9PKV...
Page 36: ...36 9 2 1 2 CU PS12PKV...
Page 37: ...37 9 2 1 3 CU PS18PKV...
Page 38: ...38 9 2 1 4 CU PS24PKV...
Page 39: ...39 9 2 2 Noise Filter Printed Circuit Board 9 2 2 1 CU PS9PKV...
Page 93: ...93 15 2 5 To remove cross flow fan and indoor fan motor Figure 17 Figure 18 Figure 19...
Page 94: ...94 Figure 20...