SiUS371901EB
Outline of Control (Indoor Unit)
Part 4 Functions and Control
166
Assuming suction temperature has changed from 30°C (86°F) to 18°C (64°F) (F
→
A):
Suction air thermistor is used for temperatures from 30
°
C (86
°
F) to 25
°
C (77
°
F) (F
→
D).
Remote controller thermistor is used for temperatures from 25
°
C (77
°
F) to 21
°
C (70
°
F) (D
→
B).
Suction air thermistor is used for temperatures from 21
°
C (70
°
F) to 18
°
C (64
°
F) (B
→
A).
Heating
When heating, the hot air rises to the top of the room, resulting in the temperature being lower near
the floor where the occupants are. When controlling by suction air thermistor only, the indoor unit
may therefore be turned off by the thermostat before the lower part of the room reaches the set
temperature. The temperature can be controlled so the lower part of the room where the occupants
are does not become cold by widening the range in which remote controller thermistor can be used
so that suction temperature is higher than the set temperature.
Assuming the set temperature in the figure above is 24°C (75°F), and the suction
temperature has changed from 18°C (64°F) to 28°C (82°F) (A
→
D):
(This example also assumes there are several other air conditioners, and the suction temperature
changes even when the thermostat sensor is off.)
Suction air thermistor is used for temperatures from 18°C (64°F) to 25°C (77°F) (A
→
C).
Remote controller thermistor is used for temperatures from 25°C (77°F) to 28°C (82°F) (C
→
D).
Assuming suction temperature has changed from 28°C (82°F) to 18°C (64°F) (D
→
A):
Remote controller thermistor is used for temperatures from 28°C (82°F) to 23°C (73°F) (D
→
B).
Suction air thermistor is used for temperatures from 23°C (73°F) to 18°C (64°F) (B
→
A).
Range in
w
hich remote controller
thermistor can
b
e
u
sed
Range in
w
hich
s
u
ction air thermistor
can
b
e
u
sed
Differential
S
u
ction air temperat
u
re (TH1)
Set temperat
u
re (Ts)
12
14
16
1
8
20
22
24
26
2
8
30
32
34
53.6
57.2
60.
8
64.4
6
8
.0
71.6
75.2
7
8
.
8
8
2.4
8
6.0
8
9.6
93.2
°
C
°
F
°
C
32
30
2
8
26
24
22
20
1
8
16
°
F
8
9.6
8
6.0
8
2.4
7
8
.
8
75.2
71.6
6
8
.0
64.4
60.
8
TH1 = Ts + 12
≤
33
°
C
TH1 = Ts + 21.6
≤
91.4
°
F
TH1 = Ts + 10
≤
31
°
C
TH1 = Ts + 1
8
≤
8
7.
8
°
F
TH1 = Ts + 1
≤
31
°
C
TH1 = Ts + 1.
8
≤
8
7.
8
°
F
TH1 = Ts – 1
°
C
TH1 = Ts – 1.
8
°
F
Summary of Contents for REYQ72-432XAYCU
Page 455: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 448 REYQ144 168XATJU REYQ144 168XATJA 2D119206B ...
Page 457: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 450 REYQ144 168XAYDU REYQ144 168XAYDA 2D119208C ...
Page 461: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 454 FXZQ05 07 09 12 15 18TAVJU 3D110443A ...
Page 463: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 456 FXEQ07 09 12 15 18 24PVJU 3D098557A ...
Page 464: ...Wiring Diagrams SiUS371901EB 457 Part 7 Appendix FXDQ07 09 12 18 24MVJU C 3D050501C ...
Page 468: ...Wiring Diagrams SiUS371901EB 461 Part 7 Appendix FXHQ12 24 36MVJU 3D048116C ...
Page 469: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 462 FXAQ07 09 12 18 24PVJU 3D075354F ...
Page 475: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 468 VAM1200GVJU 3D073270D ...
Page 478: ...Wiring Diagrams SiUS371901EB 471 Part 7 Appendix BS6 8Q54TVJ 2D089122B ...
Page 479: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 472 BS10 12Q54TVJ 2D089121B ...
Page 481: ...SiUS371901EB Wiring Diagrams Part 7 Appendix 474 BSF6 8Q54TVJ 2D123905A ...