MSZ-H SERIES
50/60/71
50/60/71 50/60/71
SEER SCOP
A+
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Indoor Unit
Remote Controller
Outdoor Unit
MUZ-HJ25/35VA
MSZ-HJ25/35/50VA
A+
MUZ-HJ50VA
MUZ-HJ60/71VA
MSZ-HJ60/71VA
Silver-ion Optional
Type Indoor Unit Outdoor Unit Refrigerant Source Power Supply Outdoor ( V / Phase / Hz ) Design load Annual electricity consumption (*2) SEER (*4) Cooling Energy efficiency class Rated Capacity Min-Max Total Input Rated Design load at reference design temperature Declared at bivalent temperature Capacity at operation limit temperature Back up heating capacity Heating (Average Annual electricity consumption (*2) Season)(*5) SCOP (*4) Energy efficiency class Rated Capacity Min-Max Total Input Rated Operating Current (Max) Input Rated Operating Current(Max) Dimensions H*W*D Weight Indoor Cooling Air Volume (SLo-LoUnit Mid-Hi-SHi(*3)(Dry/Wet)) Heating Cooling Sound Level (SPL) (SLo-Lo-Mid-Hi-SHi(*3)) Heating Sound Level (PWL) Cooling Dimensions H*W*D Weight Cooling Air Volume Heating Outdoor Cooling Unit Sound Level (SPL) Heating Sound Level (PWL) Cooling Operating Current (Max) Breaker Size Diameter Liquid/Gas Ext. Max.Length Out-In Piping Max.Height Out-In Cooling Guaranteed Operating Range (Outdoor) Heating
kW kWh/a
kW kW kW kW kW kW kW kW kWh/a
kW kW kW A kW A mm kg m3/min m3/min dB(A) dB(A) dB(A) mm kg m3/min 3 m /min dB(A) dB(A) dB(A) A A mm m m ˚C ˚C
25 / 35 / 50 MXZ-DM only
MSZ-HJ25VA MUZ-HJ25VA
Inverter Heat Pump MSZ-HJ35VA MUZ-HJ35VA
2.5 171 5.1 A 2.5 1.3 - 3.0 0.730 1.9 (-10ºC) 1.9 (-10ºC) 1.9 (-10ºC) 1.9 (-10ºC) 0.0 (-10ºC) 698 3.8 A 3.15 0.9 - 3.5 0.870 5.8 0.020 0.3 290-799-232 9 3.8 - 5.5 - 7.3 - 9.5 3.5 - 5.5 - 7.5 - 10.0 22 - 30 - 37 - 43 23 - 30 - 37 - 43 57 538-699-249 24 31.5 31.5 50 50 63 5.5 10 6.35/9.52 20 12 +15 ~ +46 -10 ~ +24
3.1 212 5.1 A 3.15 1.4 - 3.5 1.040 2.4 (-10ºC) 2.4 (-10ºC) 2.4 (-10ºC) 2.4 (-10ºC) 0.0 (-10ºC) 885 3.8 A 3.6 1.1 - 4.1 0.995 6.5 0.021 0.3 290-799-232 9 3.8 - 5.7 - 7.8 - 10.9 3.5 - 5.5 - 7.5 - 10.3 22 - 31 - 38 - 45 23 - 30 - 37 - 44 60 538-699-249 25 31.5 31.5 50 50 64 6.2 10 6.35/9.52 20 12 +15 ~ +46 -10 ~ +24
MSZ-HJ50VA MUZ-HJ50VA R410A(*1) Indoor Power supply 230V/Single/50Hz 5.0 292 6.0 A+
MSZ-HJ60VA MUZ-HJ60VA
MSZ-HJ71VA MUZ-HJ71VA
6.1 354 6.0 A+
7.1 441 5.6 A+
5.0 1.3 - 5.0 2.050 3.8 (-10ºC) 3.8 (-10ºC) 3.8 (-10ºC) 3.8 (-10ºC) 0.0 (-10ºC) 1267 4.2 A+ 5.4 1.4 - 6.5 1.480 9.8 0.037 0.4 290-799-232 9 6.3 - 9.1 - 11.1 - 12.9 6.1 - 8.3 - 11.1 - 14.3 28 - 36 - 40 - 45 27 - 34 - 41 - 47 60 550-800-285 36 36.3 34.8 50 51 64 9.4 12 6.35/12.7 20 12 +15 ~ +46 -10 ~ +24
6.1 1.7 - 7.1 1.900 4.6 (-10ºC) 4.6 (-10ºC) 4.6 (-10ºC) 4.6 (-10ºC) 0.0 (-10ºC) 1544 4.1 A+ 6.8 1.5 - 8.4 1.970 12.5 0.055 0.5 305-923-250 13 9.3 - 12.2 - 15.0 - 19.9 9.4 - 12.5 - 16.0 - 19.9 31 - 38 - 44 - 50 31 - 38 - 44 - 49 65 880-840-330 55 47.9 47.9 55 55 65 12 16 6.35/15.88 30 15 +15 ~ +46 -10 ~ +24
7.1 1.8 - 7.1 2.330 5.4 (-10ºC) 5.4 (-10ºC) 5.4 (-10ºC) 5.4 (-10ºC) 0.0 (-10ºC) 1854 4.0 A+ 8.1 1.5 - 8.5 2.440 12.5 0.055 0.5 305-923-250 13 10.0 - 12.2 - 15.0 - 19.9 10.3 - 12.7 - 16.4 - 19.9 33 - 38 - 44 - 50 33 - 38 - 44 - 49 65 880-840-330 55 49.3 47.9 55 55 66 12 16 9.52/15.88 30 15 +15 ~ +46 -10 ~ +24
(*1) 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 fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, 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. The GWP of R410A is 2088 in the IPCC 4th Assessment Report. (*2) Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. (*3) SHi: Super High (*4) SEER, SCOP and other related description are based on COMMISSION DELEGATED REGULATION (EU) No.626/2011. The temperature conditions for calculating SCOP are based on “Average Season”. (*5) Please see page 63 for heating (warmer season) specifications.
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