1-239
1
Single -Type
1-1. Unit Specifi cations
PEY1
7. Ducted Type S-125PN1E5 / U-125PEY1E8
INDOOR
MODEL
S-125PN1E5
PANEL
MODEL
-
OUTDOOR
MODEL
U-125PEY1E8
Branch pipe
MODEL
-
PERFORMANCE TEST CONDITION
ISO5151 / EN14511
POWER SUPPLY
ø, Hz
1ø 50Hz
3ø 50Hz
V
220
230
240
380
400
415
Min
Max
C
O
O
L
I
N
G
CAPACITY
kW
12.5
12.5
12.5
3.8
13.5
BTU/h
42700
42700
42700
13000
48100
CURRENT
A
1.74
1.67
1.61
6.85
6.50
6.25
-
-
INPUT POWER
W
225
225
225
4.220k
4.220k
4.220k
-
-
TOTAL W
-
4.445k
4.445k
4.445k
950
5.200k
ANNUAL CONSUMPTION TOTAL W 4
-
-
2222.5k
-
-
-
EER/EER CLASS
TOTAL(W/W) 5/("A"~"G")
-
-
-
2.81
2.81 / C
2.81
4.00
2.60
Erp
6
Pdsign
kW
-
-
-
-
-
-
SEER
(W/W)
-
-
-
-
-
-
Annual consumption
kWh
-
-
-
-
-
-
Class
-
-
-
-
-
-
POWER FACTOR
%
-
-
-
94
94
94
-
-
NOISE INDOOR
(H/M/L)
dB-A
45/43/38
-
Power Level dB
66/64/59
-
NOISE OUTDOOR
(H/L)
dB-A
56/-
Power Level dB
73/-
H
E
A
T
I
N
G
CAPACITY
kW
12.5
12.5
12.5
3.4
15.0
BTU/h
42700
42700
42700
11600
51200
CURRENT
A
1.74
1.67
1.61
5.55
5.30
5.10
-
-
INPUT POWER
W
225
225
225
3.440k
3.440k
3.440k
-
-
TOTAL W
-
3.665k
3.665k
3.665k
780
4.600k
COP/COP CLASS
TOTAL(W/W) 5/("A"~"G")
-
-
-
3.41
3.41 / B
3.41
4.36
3.26
Erp
6
Pdsign
kW
-
-
-
-
-
-
Tbivalen
°C
-
-
-
-
-
-
SCOP
(W/W)
-
-
-
-
-
-
Annual consumption
kWh
-
-
-
-
-
-
Class
-
-
-
-
-
-
POWER FACTOR
%
-
-
-
94
94
94
-
-
NOISE INDOOR
(H/M/L)
dB-A
45/43/38
-
⁄
⁄
Power Level dB
66/64/59
-
NOISE OUTDOOR
(H/L)
dB-A
-
56/-
⁄
⁄
Power Level dB
-
73/-
EXTRA LOW TEMP Total CAPACITY(kW)/INPUT POWER(W)/COP
-
MAX CURRENT(A)/MAX INPUT POWER(W)
2.36/300
2.30/300
2.24/300
10.0/6.200k
10.0/6.500k
10.0/6.750k
⁄
STARTING CURRENT(A)/COMP OUTPUT(W)
-
-
-
6.85/3.0k
6.50/3.0k
6.25/3.0k
⁄
NETWORK IMPEDANCE (
Ω
MAX.)
-
-
FM OUTPUT (W)
200
90
⁄
MOISTURE REMOVAL VOLUME
L/h(Pt/h)
7.9
(16.6)
-
External static pressure
Pa
50 (MIN10 ~ MAX80)
I/D AIR
FLOW
COOL
m
3
/min (ft
3
/min)
38
(1342)
HEAT
m
3
/min (ft
3
/min)
38
(1342)
O/D AIR
FLOW
COOL
m
3
/min (ft
3
/min)
80
(2825)
HEAT
m
3
/min (ft
3
/min)
73
(2578)
REFRIGERANT TYPE, AMOUNT
g
(oz)
R410A 3.20k
(112.9)
/
P
R
O
D
I
M
HEIGHT : H mm(inch)
250 9-27/32
996 (39-7/32)
/
WIDTH : W mm(inch)
1200 (+100) 47-1/4 (+3-15/16)
940 (37-1/32)
/
DEPTH : D mm(inch)
650 25-19/32
340 (13-13/32)
/
P
A
C
D
I
M
HEIGHT : H mm
338
1136
/
WIDTH : W mm
1402
1055
/
DEPTH : D mm
761
485
/
MASS
(NET) k
g
(lb)
41
(91)
85
(188)
/
(GROSS) k
g
(lb)
48
(106)
93
(205)
/
LAYERS LIMIT (actually)
6 (7)
2 (3)
Operation
Condition
Cool O.D(DBT)
18°C ~ 32°C
-10°C ~ 43°C
Heat O.D(DBT)
16°C ~ 30°C
-15°C ~ 24°C
P
I
P
I
N
G
PIPE DIAMETER mm (inch)
(Liquid)ø9.52(3/8) (Gas)ø15.88(5/8)
(Liquid)ø9.52(3/8) (Gas)ø15.88(5/8)
CONNECT METHOD, STD LENGTH m (ft)
fl
ared type, 5.0(16.4)
fl
ared type, 5.0(16.4)
PIPE LENGTH RANGE m (ft)
5 ~ 50
(16.4 ~ 164.0)
~
~
I/D&O/D HEIGHT DIFFERENCE m (ft)
15 (OD located lower) / 30 (OD located higher)
(49.2/98.4)
ADD GAS AMOUNT
g
/m (oz/ft)
50
(537.6)
PIPE LENGTH FOR ADDITIONAL GAS m (ft)
30
(98.4)
*1
:
In case it is necessary to indicate the air fl ow volume in (l/s), the value in (m
3
/min.) shall be multiplied by 16.7 and rounded down the decimal point.
*2
:
If the EUROVENT Certifi ed models can be operated under the “extra-low” temperature condition, -7°C dry bulb and -8°C wet-bulb temperatures with rated voltage
230 V shall be used.
*3
:
Network Impedance shall be applicable for EUROPE and CHINA models.
*4
:
The annual consumption is calculated by multiplying the input power at 230 V (400 V) by an average of 500 hours per year in cooling mode.
*5
:
EER and COP classification is at 230 V (400 V) only in accordance with EU directive 2002/31/EC.
*6
:
SEER and SCOP classification is at 230V(400V) only in accordance with EN-14825. For heating, SCOP indicates the value of only Average heating season,
Other fiche data indicates in an attached sheet.
SM830211-07̲PAC-i.indb 239
SM830211-07̲PAC-i.indb 239
2013/09/17 22:47:39
2013/09/17 22:47:39
Summary of Contents for U-100PEY1E5
Page 536: ... MEMO 1 526 ...
Page 540: ... MEMO 2 4 ...
Page 549: ...3 9 3 3 1 Indoor Units Ducted Type S 36PN1E5 S 45PN1E5 S 50PN1E5 Electric Wiring Diagram ...
Page 551: ...3 11 3 3 2 Outdoor Units Single phase U 50PE1E5 ...
Page 552: ...3 12 3 3 2 Outdoor Units Single phase U 50PE1E5 ...
Page 553: ...3 13 3 3 2 Outdoor Units Single phase U 60PE1E5 U 71PE1E5 䡵 ...
Page 554: ...3 14 3 3 2 Outdoor Units Single phase U 100PE1E5 U 125PE1E5 U 140PE1E5 䡵 ...
Page 555: ...3 15 3 3 2 Outdoor Units Single phase U 60PEY1E5 U 71PEY1E5 ...
Page 556: ...3 16 3 3 2 Outdoor Units Single phase U 60PEY1E5 U 71PEY1E5 ...
Page 558: ...3 18 3 3 2 Outdoor Units 3 phase U 71PE1E8 ...
Page 559: ...3 19 3 3 2 Outdoor Units 3 phase U 100PEY1E8 U 125PEY1E8 ...
Page 560: ...3 20 3 3 2 Outdoor Units 3 phase U 100PE1E8 U 125PE1E8 U 140PE1E8 U 140PEY1E8 ...
Page 594: ...4 34 4 HIC PCB A746895 U 60PE1E5 U 71PE1E5 CN VDC U P V W N CN VDC 4WAY Valve CN 20S ...
Page 595: ...4 35 4 HIC PCB continued A746846 U 100PE1E5 CN VDC U V W CN VDC 4WAY Valve CN 20S P NU ...
Page 597: ...4 37 4 HIC PCB A746846 U 100PEY1E5 CN VDC U V W CN VDC 4WAY Valve CN 20S P NU ...
Page 598: ...4 38 4 HIC PCB continued A746847 U 125PEY1E5 CN VDC U V W CN VDC 4WAY Valve CN 20S P NU ...
Page 602: ...4 42 4 HIC PCB A747248 U 100PEY1E8 U 125PEY1E8 CN VDC U V W CN VDC 4WAY Valve CN 20S P NU ...
Page 738: ... MEMO 8 34 ...
Page 739: ...201309 ...