R410a, Gs-xp18/24fr, Features outdoor unit – Sharp AY-XP9RMR-AE-X9RMR User Manual
Page 13: Specifi cation, Specifi cation cool/dry/heat, Cool/dry/heat, Gu-xr18fr gu-xr24fr
12
Floor/Ceiling
GS-XP18/24FR
Floor Standing
GS-XP9/12/18FGR
Features
Outdoor unit
R410A
GU-XR18FR GU-XR24FR
Features
Outdoor unit
R410A
AE-X18GR
GU-X9FGR GU-X12FGR
Specifi cation
Specifi cation
Cool/Dry/Heat
Model
GS-XP18FR
5.00 (1.70 – 6.10)
6.20 (1.70 – 7.50)
5.6
3.9
Cooling operation
Heating operation
Capacity (kW)
(Min. – Max.)
Capacity (kW)
(Min. – Max.)
SEER
SCOP
GS-XP24FR
7.00 (2.40 – 8.00)
8.00 (2.80 – 9.00)
5.2
3.7
A
A
+A
A
Cool/Dry/Heat
Model
GS-XP9FGR
2.50 (0.90 – 3.00)
3.40 (0.90 – 5.00)
6.7
3.9
Cooling operation
Heating operation
Capacity (kW)
(Min. – Max.)
Capacity (kW)
(Min. – Max.)
SEER
SCOP
GS-XP12FGR
GS-XP18FGR
3.50 (0.90 – 4.00)
5.00 (0.90 – 5.70)
4.50 (0.90 – 6.00)
5.70 (0.90 – 7.70)
5.8
5.4
3.9
3.8
A
A
A
++A
+A
A
Model
Indoor
GS-XP18FR
GS-XP24FR
Outdoor
GU-XR18FR
GU-XR24FR
Preformance*1
Cooling
Energy Effi ciency Class
A+
A
SEER
5.6
5.2
Pdesign
kW
5.0
7.0
Capacity (Min. – Max.)
kW
5.00 (1.70 – 6.10)
7.00 (2.40 – 8.00)
Input (Min. – Max.)
W
1,560 (370 – 2,650)
2,180 (630 – 3,120)
Annual electricity consumption*2
kWh/a
312
470
Heating
(Average
Climate)
Energy Effi ciency Class
A
A
SCOP
3.9
3.7
Pdesign
kW
5.0
6.2
Capacity (Min. – Max.)
kW
6.20 (1.70 – 7.50)
8.00 (2.80 – 9.00)
Input (Min. – Max.)
W
1,700 (370 – 2,200)
2,210 (730 – 2,800)
Annual electricity consumption*2
kWh/a
1,786
2,333
Nominal Effi ciency*3
EER
3.21
3.21
COP
3.65
3.62
Nominal Current*3
Cooling
A
7.2
10.0
Heating
A
7.8
10.1
Sound Pressure Level*4 (Cool)
Indoor (Hi/Lo)
dB(A)
43/34
46/34
Outdoor
db(A)
54
55
Sound Power Level (Cool)
Indoor (Hi)
57
60
Outdoor
65
69
Airfl ow Volume (Hi, Cool)
m3/min
17.0
19.0
Operation Range (Outdooor)
Coolong
°C
-10 – 46
-10 – 46
Heating
°C
-15 – 24
-15 – 24
Power Supply
Outdoor
V/Phase/Hz 220 – 240/single/50
220 – 240/single/50
Dimensions
Indoor (WxHxD)
mm
1,300x680x212
1,300x680x212
Outdoor (WxHxD)
mm
890x800x320
890x800x320
Weight
Indoor
kg
34
36
Outdoor
kg
57
65
Min. – Max. Pipe Lenght
m
1 – 30
1 – 30
Max. Height Difference
m
20
20
Max. Chargless Lenght
m
30
30
Pipe Diameter
Liquid Side
inch
1/4
3/8
Gas Side
inch
1/2
5/8
Refrigerant (GWP*5)
kgCO
2
eq.
R410A (1975)
R410A (1975)
Model
Indoor
GS-XP9FGR
GS-XP12FGR
GS-XP18FGR
Outdoor
GS-X9FGR
GS-X12FGR
GS-X18FGR
Preformance*1 Cooling
Energy Effi ciency Class
A++
A+
A
SEER
6.7
5.8
5.4
Pdesign
kW
2.5
3.5
5.0
Capacity (Min. – Max.)
kW
2.50 (0.90 – 3.00)
3.50 (0.90 – 4.00)
5.00 (0.90 – 5.70)
Input (Min. – Max.)
W
615 (200 – 890)
1,075 (230 – 1,320) 1,660 (260 – 2,190)
Annual electricity consumption*2
kWh/a
130
211
324
Heating
(Average
Climate)
Energy Effi ciency Class
A
A
A
SCOP
3.9
3.9
3.8
Pdesign
kW
3.4
3.6
4.5
Capacity (Min. – Max.)
kW
3.40 (0.90 – 5.00)
4.50 (0.90 – 6.00)
5.70 (0.90 – 7.70)
Input (Min. – Max.)
W
780 (200 – 1,400) 1,230 (230 – 1,730) 1,580 (260 – 2,400)
Annual electricity consumption*2
kWh/a
1,207
1,300
1,655
Nominal Effi ciency*3
EER
4.07
3.26
3.01
COP
4.36
3.66
3.61
Nominal Current*3
Cooling
A
2.9
5.0
7.4
Heating
A
3.6
5.7
7.0
Sound Pressure Level*4
(Cool)
Indoor (Hi/Lo)
dB(A)
37/22
38/23
44/33
Outdoor
db(A)
45
46
49
Sound Power Level (Cool)
Indoor (Hi)
53
53
60
Outdoor
61
62
65
Airfl ow Volume (Hi, Cool)
m3/min
9.9
10.5
14.2
Operation Range
(Outdooor)
Coolong
°C
-10 – 46
-10 – 46
-10 – 46
Heating
°C
-15 – 24
-15 – 24
-15 – 24
Power Supply
Outdoor
V/Phase/Hz 220–240/single/50 220–240/single/50 220–240/single/50
Dimensions
Indoor (WxHxD)
mm
750x670x235
750x670x235
750x670x235
Outdoor (WxHxD)
mm
750x540x250
750x540x250
750x540x265
Weight
Indoor
kg
17
17
17
Outdoor
kg
33
33
37
Min. – Max. Pipe Lenght
m
1 – 20
1 – 20
1 – 30
Max. Height Difference
m
7
7
10
Max. Chargless Lenght
m
15
15
30
Pipe Diameter
Liquid Side
inch
1/4
1/4
1/4
Gas Side
inch
3/8
3/8
1/2
Refrigerant (GWP*5)
kgCO
2
eq.
R410A (1975)
R410A (1975)
R410A (1975)
*1 According to EN14825; *2 Energy consumption “XYZ” kWh per year, based on standard test results. Actual energy consumption will
depend on how the appliance is used and where it is located; *3 According to EN14511; *4 Sound pressure level is measured according
to JIS C 9612; *5 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP)
would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains
a refrigerant fl uid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fl uid would be leaked to the atmosphere,
the impact on global warming would be 1975 times higher than 1 kg of CO
2
, over a period of 100 years. Never try to interfere with
the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
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