8
[Fig. 8.0.1]
D
C
B
A
9
[Fig. 9.1.1]
~208/230V
L1, L2, G
[Fig. 9.2.1]
B
A
M1M2
M1M2
S
TB3
TB5
[Fig. 9.2.2]
A
B
M1M2
M1M2
S
TB3
TB5
C
A Terminal block for indoor transmission cable
B Terminal block for outdoor transmission cable
C Remote controller
[Fig. 9.2.3]
B
D
2
A
1
DC10~13V
G
L2
M1
C
L1
A B
1 2
A Non-polarized
C Remote Controller
4
E
F
G
D
A
B
C
C
C
C
9.2
A
1
2
M1M2
S
1
2
TB15 TB5
TB15
C
C
A
M1M2
S
TB5
C
[Fig. 9.2.4]
D
B
S
M2
2
M1
1
G
L2
L1
B Upper level (TB15)
D Lower level (TB5)
[Fig. 9.5.1]
ON
SW1
1
JP1
2
3
2
1
1
SWA
SWC
<Address board>
D
C
A Air inlet
C Duct
E Access door
G Ensure sufficient length to prevent short cycling
H Air outlet
H
9.1
A Ground-fault interrupter
B Local switch/Wiring breaker
C
C Indoor unit
D Pull box
[Fig. 9.3.1]
C
[Fig. 9.3.2]
F
B
A To prevent external tensile force from applying to the wiring
B Power source wiring
C Tensile force
D Use ordinary bushing
E Transmission wiring
F Conduit
[Fig. 9.3.3]
S
M2
A
DC24~30V
C
1 2
(A, B)
A Terminal block
B Round terminal
C Shield wire
D The earth wire from two cables are connected together to the S terminal.
(Dead-end connection)
E Insulation tape (To keep the earth wire of the shielded cable from coming in
contact with the transmission terminal)
9.5
8
CN82
1
6
1
10
CN62
SW7
ON
ON
SW12
SW11
JP2
1
3
OFF
SW14
10
1
SW5
N0
N0
B Air filter (supplied at site)
D Canvas duct
F Ceiling
9.3
B
A
A Screws (2 screws)
B Terminal box cover
C Control box cover
D
A
C
E
connection section of power source terminal block use buffer
bushing like PG connection or the like.
A
M1
M2
S
B
D
E
C