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• Make sure the electrical imbalance ratio is no greater than 2%. If it is
larger than this, the unit's lifespan will be reduced.
If the ratio exceeds 4%, the unit will shut down and an malfunction
code will be displayed on the indoor remote controller.
• Connect the wire securely using designated wire and fix it with
attached clamp without applying external pressure on the terminal
parts (terminal for power wiring, terminal for transmission wiring
and ground terminal).
• If there exists the possibility of reverse-phase, lose phase, mo-
mentary blackout or the power goes on and off while the product is
operating, attach a reverse-phase protection circuit locally.
Running the product in reverse-phase may break the compressor
and other parts.
9 . 1 . Power circuit, safety device and cable requirements
• Make sure to apply the rated voltage of 208/230V, 460V or 575V for
the unit.
• A power circuit (see the following table) must be provided for con-
nection of the unit. This circuit must be protected with the required
safety devices, i.e. a main switch, a slow blow fuse on each phase.
• When using residual current operated circuit breakers, be sure to
use a high-speed type (0.1 seconds or less) 200 mA rated residual
operating current.
• Use copper conductors only.
• Use insulated wire for the power cord.
• Select the power supply cable type and size in accordance with
relevant local and national regulations.
Phase and
Model name
Voltage
frequency
REYQ72XATJU
f3, 60Hz
208/230V
f3, 60Hz
REYQ96XATJU
208/230V
f3, 60Hz
REYQ120XATJU
208/230V
f3, 60Hz
REYQ144XATJU
208/230V
REYQ168XATJU
f3, 60Hz
208/230V
REYQ192XATJU
f3, 60Hz
208/230V
REYQ216XATJU
f3, 60Hz
208/230V
REYQ240XATJU
f3, 60Hz
208/230V
f3, 60Hz
REYQ264XATJU
208/230V
f3, 60Hz
REYQ288XATJU
208/230V
f3, 60Hz
REYQ312XATJU
208/230V
f3, 60Hz
REYQ336XATJU
208/230V
REYQ360XATJU
f3, 60Hz
208/230V
REYQ384XATJU
f3, 60Hz
208/230V
REYQ408XATJU
f3, 60Hz
208/230V
REYQ432XATJU
f3, 60Hz
208/230V
f3, 60Hz
REYQ456XATJU
208/230V
REYQ72XAYDU
f3, 60Hz
460V
REYQ96XAYDU
f3, 60Hz
460V
REYQ120XAYDU
f3, 60Hz
460V
REYQ144XAYDU
f3, 60Hz
460V
REYQ168XAYDU
f3, 60Hz
460V
f3, 60Hz
REYQ192XAYDU
460V
f3, 60Hz
REYQ216XAYDU
460V
f3, 60Hz
REYQ240XAYDU
460V
REYQ264XAYDU
f3, 60Hz
460V
REYQ288XAYDU
f3, 60Hz
460V
REYQ312XAYDU
f3, 60Hz
460V
REYQ336XAYDU
f3, 60Hz
460V
f3, 60Hz
REYQ360XAYDU
460V
f3, 60Hz
REYQ384XAYDU
460V
f3, 60Hz
REYQ408XAYDU
460V
f3, 60Hz
REYQ432XAYDU
460V
REYQ456XAYDU
f3, 60Hz
460V
REYQ72XAYCU
f3, 60Hz
575V
f3, 60Hz
REYQ96XAYCU
575V
f3, 60Hz
REYQ120XAYCU
575V
f3, 60Hz
REYQ144XAYCU
575V
f3, 60Hz
575V
REYQ168XAYCU
REYQ192XAYCU
f3, 60Hz
575V
REYQ216XAYCU
f3, 60Hz
575V
REYQ240XAYCU
f3, 60Hz
575V
REYQ264XAYCU
f3, 60Hz
575V
f3, 60Hz
REYQ288XAYCU
575V
f3, 60Hz
REYQ312XAYCU
575V
f3, 60Hz
575V
REYQ336XAYCU
REYQ360XAYCU
f3, 60Hz
575V
REYQ384XAYCU
f3, 60Hz
575V
REYQ408XAYCU
f3, 60Hz
575V
REYQ432XAYCU
f3, 60Hz
575V
19
Maximum
Minimum circuit
Transmission
overcurrent
amp.
line selection
protective device
38.1
45
AWG18-16
38.1
45
AWG18-16
43.0
50
AWG18-16
58.3
70
AWG18-16
61.9
70
AWG18-16
38.1+38.1
45+45
AWG18-16
38.1+43.0
45+50
AWG18-16
43.0+43.0
50+50
AWG18-16
43.0+58.3
50+70
AWG18-16
58.3+58.3
70+70
AWG18-16
58.3+61.9
70+70
AWG18-16
61.9+61.9
70+70
AWG18-16
43.0+43.0+43.0
50+50+50
AWG18-16
43.0+43.0+58.3
50+50+70
AWG18-16
43.0+58.3+58.3
50+70+70
AWG18-16
58.3+58.3+58.3
70+70+70
AWG18-16
58.3+58.3+61.9
70+70+70
AWG18-16
18.9
25
AWG18-16
21.1
25
AWG18-16
21.1
25
AWG18-16
27.9
40
AWG18-16
31.1
40
AWG18-16
21.1+21.1
25+25
AWG18-16
21.1+21.1
25+25
AWG18-16
21.1+21.1
25+25
AWG18-16
21.1+27.9
25+40
AWG18-16
27.9+27.9
40+40
AWG18-16
27.9+31.1
40+40
AWG18-16
31.1+31.1
40+40
AWG18-16
21.1+21.1+21.1
25+25+25
AWG18-16
21.1+21.1+27.9
25+25+40
AWG18-16
21.1+27.9+27.9
25+40+40
AWG18-16
27.9+27.9+27.9
40+40+40
AWG18-16
27.9+27.9+31.1
40+40+40
AWG18-16
15.1
20
AWG18-16
16.8
20
AWG18-16
18.2
25
AWG18-16
22.3
30
AWG18-16
24.9
30
AWG18-16
16.8+16.8
20+20
AWG18-16
16.8+18.2
20+25
AWG18-16
18.2+18.2
25+25
AWG18-16
18.2+22.3
25+30
AWG18-16
22.3+22.3
30+30
AWG18-16
22.3+24.9
30+30
AWG18-16
24.9+24.9
30+30
AWG18-16
18.2+18.2+18.2
25+25+25
AWG18-16
18.2+18.2+22.3
25+25+30
AWG18-16
18.2+22.3+22.3
25+30+30
AWG18-16
22.3+22.3+22.3
30+30+30
AWG18-16
9 .2 . Wiring connection example for whole system
1 1
2
2
4
3
1
Power supply
2
Main switch
3
Fuse or circuit breaker
4
Outdoor unit
5
COOL/HEAT selector
6
Remote controller
7
Indoor unit
8
Branch Selector unit
This image is intended as an example only. Please follow local and
national electrical code.
NOTE
• Make sure the low voltage wiring (i.e. for the remote controller, between
units) and the power wiring do not pass near each other, keeping them at
least 2 in. (51 mm) apart.
Proximity may cause electrical interference, malfunctions, and breakage.
• Be sure to connect the power wiring to the power wiring terminal block
and secure it as described in 9.5. Power wiring connection procedure.
• Transmission wiring should be secured as described in 9.4. Trans-
mission wiring connection procedure.
• Secure wiring with clamp such as insulation lock ties to avoid con-
tact with piping.
• Shape the wires to prevent the structure such as the control box
cover deforming. And close the cover firmly.
• All field wiring is to be procured on site.
9 .3 . leading wire procedure
• The power wiring and ground wiring are passed out from the power
wiring hole on the front (knock hole).
• The transmission wiring is passed out from the wiring hole (knock
hole) on the front of the unit.
1
Wiring diagram printed on the back of the control box cover.
2
Knockout hole
3
Power line
4
Transmission line
8
5
3
7
6
1
2
3
4
3P477778-7G
English
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