134
9-2-2. Cross section area of Wire for Main Power and ON/OFF capacities
PUMY-P112VKM3(-BS) PUMY-P125VKM3(-BS)
PUMY-P140VKM3(-BS)
PUMY-P112YKM3(-BS) PUMY-P125YKM3(-BS)
PUMY-P140YKM3(-BS)
PUMY-P112YKME3(-BS) PUMY-P125YKME3(-BS)
PUMY-P140YKME3(-BS)
<Outdoor unit> <When power is supplied to outdoor unit and branch box separately>
Model
Power Supply
Minimum Wire Cross-sectional
area (mm²)
Breaker for Wiring *
1
Breaker for Current Leakage
Main Cable
Branch
Ground
Outdoor Unit
P112–140VKM3
~/N 220/230/240 V, 50 Hz
~/N 220 V, 60 Hz
6
–
6
32 A
32 A 30 mA 0.1 seconds or less
P112–140YKM3
3N~380/400/415 V, 50 Hz
3N~380 V, 60 Hz
1.5
–
1.5
16 A
16 A 30 mA 0.1 seconds or less
P112–140YKME3
3N~380/400/415 V, 50 Hz
<Outdoor unit> <When power is supplied to branch box from the outdoor unit>
Model
Power Supply
Minimum Wire Cross-sectional area (mm²)
Breaker for Wiring *
1
Breaker for Current Leakage
Main Cable
Branch
Ground
Outdoor Unit
P112–140VKM3
~/N 220/230/240 V, 50 Hz
~/N 220 V, 60 Hz
6
–
6
40 A
40 A 30 mA 0.1 seconds or less
P112–140YKM3
3N~380/400/415 V 50 Hz
3N~380 V, 60 Hz
2.5
–
2.5
20 A
20 A 30 mA 0.1 seconds or less
P112–140YKME3
3N~380/400/415 V 50 Hz
*
1
A breaker with at least 3.0 mm contact separation in each poles shall be provided. Use non-fuse breaker (NF) or earth leakage breaker (NV).
<Indoor units> <When power is supplied to indoor unit and outdoor unit separately>
Total operating current of the indoor unit
Minimum wire thickness (mm²)
Ground-fault interrupter *
2
Local switch (A)
Breaker for wiring
(NFB)
Main Cable
Branch
Ground
Capacity
Fuse
F0 = 16 A or less *
3
1.5
1.5
1.5
20 A current sensitivity *
4
16
16
20
F0 = 25 A or less *
3
2.5
2.5
2.5
30 A current sensitivity *
4
25
25
30
F0 = 32 A or less *
3
4.0
4.0
4.0
40 A current sensitivity *
4
32
32
40
Apply to IEC61000-3-3 about max. permissive system impedance.
*
2
The Ground-fault interrupter should support inverter circuit.
The Ground-fault interrupter should combine using of local switch or wiring breaker.
*
3
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 Type 1)/C} + {V1 × (Quantity of Type 2)/C} + {V1 × (Quantity of Type 3)/C} + ··· + {V1 × (Quantity of Type 14)/C}
Continue to the next page
Indoor unit
V1
V2
Type 11
PEFY-VMA(L)-E, PEFY-VMA3-E
38.0
1.6
Type 12
PMFY-VBM-E, PLFY-VBM-E, PLFY-VFM-E1, PEFY-VMS1(L)-E,
PCFY-VKM-E, PKFY-VHM-E, PKFY-VKM-E, PFFY-VKM-E2, PFFY-VLRMM-E
19.8
2.4
Type 13
PKFY-VBM-E
3.5
2.4
Type 14
PLFY-VLMD-E, PEFY-VMR-E-L/R, PDFY-VM-E, PEFY-VMH-E, PFFY-VLEM-E,
PFFY-VLRM-E, PWFY-VM-E1(2)-AU, PEFY-P·VMH-E-F, GUF-RD(H)4
0.0
0.0
Connect to Branch box (PAC-MK·BC(B))
Indoor unit
V1
V2
Type 1
PEAD-RP·JA(L)Q
26.9
2.4
Type 2
SEZ-KD·VAQ(L), PCA-RP·KAQ, PLA-ZRP·BA, PLA-RP·EA, SLZ-KF·VA2
19.8
Type 3
MLZ-KA·VA
9.9
Type 4
MFZ-KJ·VE2
7.4
Type 5
MSZ-FH·VE2, MSZ-SF·VE3, MSZ-EF·VE3, MSZ-SF·VA, MSZ-GF·VE
6.8
Type 6
Branch box (PAC-MK·BC(B))
5.1
3.0
Type 7
ecodan C generation
5.0
*5
*5 This value may increase due to a locally connected actuator.
Connect to Connection kit (PAC-LV11M-J)
Indoor unit
V1
V2
Type 8
MFZ-KJ·VE2
7.4
2.4
Type 9
MSZ-GE·VA, MSZ-SF·VA, MSZ-SF·VE3, MSZ-EF·VE3, MSZ-FH·VE2
6.8
Type 10
Connection kit (PAC-LV11M-J)
3.5
OCH632A
Summary of Contents for PUMY-P112VKM3
Page 157: ...157 OCH632A ...
