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*1 The Ground-fault interrupter should support Inverter circuit.
The Ground-fault interrupter should combine using of local switch or wiring breaker.
*2 Please take the larger of F1 or F2 as the value for F0.
F1 = Total operating maximum current of the indoor units 1.2
F2 = {V1 (Quantity of Type1)/C} + {V1 (Quantity of Type2)/C} + {V1 (Quantity of Type3)/C} + {V1 (Quantity of Others)/C}
Indoor unit
PLFY-VBM, PMFY-VBM, PEFY-VMS, PCFY-VKM, PKFY-VHM,
Type1
PKFY-VKM, PFFY-VKM, PFFY-VLRMM
Type2
PEFY-VMA
Type3
PEFY-P200·250VMHS
Type4
PEFY-P40–140VMHS-E, PEFY-P125–250VMHS-E-F
Others
Other indoor unit
C : Multiple of tripping current at tripping time 0.01s
Please pick up "C" from the tripping characteristic of the breaker.
<Example of "F2" calculation>
*Condition PEFY-VMA 3, C = 8 (refer to right sample chart)
F2 = 38 3/8
= 14.25
16 A breaker (Tripping current = 8 16 A at 0.01s)
*3 Current sensitivity is calculated using the following formula.
G1 = (V2 Quantity of Type1) + (V3 Wire length [km])
G1
Current sensitivity
30 or less
30 mA 0.1 sec or less
100 or less
100 mA 0.1 sec or less
Warning:
•
Be sure to use specified wires for connections and ensure no external force is imparted to terminal connections. If connections are not fixed firmly, heating or
fire may result.
•
Be sure to use the appropriate type of overcurrent protection switch. Note that generated overcurrent may include some amount of direct current.
Caution:
•
Some installation sites may require attachment of an earth leakage breaker for the inverter. If no earth leakage breaker is installed, there is a danger of electric
shock.
•
Do not use anything other than the correct capacity breaker and fuse. Using fuse, wire or copper wire with too large capacity may cause a risk of malfunction
or fire.
Notes:
•
This device is intended for the connection to a power supply system with a maximum permissible system impedance (Refer to IEC61000-3-3.) at the interface
point (power service box) of the user's supply.
•
The user must ensure that this device is connected only to a power supply system which fulfils the requirement above.
If necessary, the user can ask the public power supply company for the system impedance at the interface point.
9.2. Connecting remote controller, indoor and out-
door transmission cables
•
Connect indoor unit TB5 and outdoor unit TB3. (Non-polarized 2-wire)
The "S" on indoor unit TB5 is a shielding wire connection. For specifications
about the connecting cables, refer to the outdoor unit installation manual.
•
Install a remote controller following the manual supplied with the remote control-
ler.
•
Connect the "1" and "2" on indoor unit TB15 to a MA remote controller. (Non-
polarized 2-wire)
•
Connect the "M1" and "M2" on indoor unit TB5 to a M-NET remote controller.
(Non-polarized 2-wire)
•
Connect the remote controller's transmission cable within 10 m using a 0.75 mm
core cable. If the distance is more than 10 m, use a 1.25 mm
[Fig. 9.2.1] (P.5) MA Remote controller
[Fig. 9.2.2] (P.5) M-NET Remote controller
A Terminal block for indoor transmission cable
B Terminal block for outdoor transmission cable
C Remote controller
•
DC 9 to 13 V between 1 and 2 (MA remote controller)
•
DC 24 to 30 V between M1 and M2 (M-NET remote controller)
[Fig. 9.2.3] (P.5) MA Remote controller
[Fig. 9.2.4] (P.5) M-NET Remote controller
A Non-polarized
C Remote Controller
•
The MA remote controller and the M-NET remote controller cannot be used at
the same time or interchangeably.
Caution:
Install wiring so that it is not tight and under tension. Wiring under tension
may break, or overheat and burn.
12
Wire thickness
2
1.5 mm
2
2.5 mm
2
4.0 mm
2
junction cable.
B TB15
D TB5
V1
V2
18.6
2.4
38
1.6
13.8
4.8
26.8
1.6
0
0
V3
48
56
66
9.3. Connecting electrical connections
Please identify the model name of the operation manual attached on the terminal
box cover with that shown on the rating name plate.
1. Remove the screws holding the cover to dismount the cover.
[Fig. 9.3.1] (P.5)
A Screws
2. Open knockout holes
(Recommend to use a screwdriver or the like for this work.)
3. Fix power source wiring to terminal box by using buffer bushing for tensile
force. (PG connection or the like.) Connect transmission wiring to transmission
terminal block through the knockout hole of terminal box using ordinary bush-
ing.
2
4. Connect the power source, Earth, transmission and remote controller wiring.
The dismounting of the terminal box is not needed.
[Fig. 9.3.2] (P.5)
A To prevent external tensile force from applying to the wiring connection section of
power source terminal block use buffer bushing like PG connection or the like.
B Power source wiring
D Use ordinary bushing
[Shield wire connection]
[Fig. 9.3.3] (P.5)
P125
A Terminal block
C Shield wire
D The earth wire from two cables are connected together to the S terminal. (Dead
connection)
E Insulation tape (To keep the earth wire of the shielded cable from coming in contact
with the transmission terminal)
P200·250
A Use PG bushing to keep the weight of the cable and external force from being applied
to the power supply terminal connector. Use a cable tie to secure the cable.
Wind the wire around the cable strap once to keep it from being pulled out.
B Power source wiring
D Use ordinary bushing
F Terminal bed for indoor transmission
H Transmission line to the M-NET
Remote controller
Rated Tripping current (x)
Sample chart
B Control box cover
C Tensile force
E Transmission wiring
B Round terminal
-
end
C Tensile force
E Power source terminal bed
G Terminal bed for remote controller
I Transmission line to the MA Remote
controller
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