FHQ36MVJU Indoor Heat Pump, 3 ton Nominal, 37500 BTU/hr Heating, 36000 BTU/hr Cooling

DAIFHQ36MVJU MFG #: FHQ36MVJU
  • Cooling Capacity: 36,000 Btu/hr
  • Nominal Capacity: 3 ton
  • Power Source: 60 Hz
  • Refrigerant Type: R-410A
  • SEER Rating: 14 SEER
  • Sound Level: 45 dBA
  • Color: White
  • COP Rating: 2.68
  • Dimensions: 62-5/8 in W x 26-3/4 in D x 7-11/16 in H
  • Discharge Line Size: 3/8 in
  • EER Rating: 10.2 EER
  • Flow Rate: 670 to 830 cfm
  • Fuse Size: 15
  • HSPF Rating: 8.1
  • Manufacturer: Daikin
  • Manufacturer #: FHQ36MVJU
  • Maximum Piping Length: 230
  • Mounting Type: Ceiling Suspended
  • Series: FHQ
  • Voltage Rating: 208 - 230 VAC
  • Weight: 90 lb
Daikin®'s Heat Pump SkyAir system provides comfortable heating and cooling in a one-to-one application. With the ability to combine a quiet indoor unit with a variety of sleek indoor units such as the easily installed wall mounted unit, the concealed, built-in DC Duct unit, the comfort customizing roundflow ceiling mounted cassette, or the slim, silent operating ceiling suspended unit, Daikin provides the ultimate duct-free solution for large residential or light commercial projects.

Daikin® Indoor Heat Pump, Series: FHQ, 3 ton Nominal Capacity, 37500 Btu/hr Heating, 36000 Btu/hr Cooling, 208 to 230 VAC 60 Hz 1 ph, 670 to 830 cfm, 10.2 EER, 14 SEER, HSPF: 8.1, 2.68 COP Rating, R-410A, 5/8 in Suction Line, 3/8 in Discharge Line, 15 A Fuse, 80 deg F Cooling/70 deg F Heating, 46 dBA, 230 ft Maximum Piping Length, Ceiling Suspended Mount, Galvanized Steel, White, 62-5/8 in W x 26-3/4 in D x 7-11/16 in H
  • Features
  • Inverter technology delivers precise temperature control and superior energy efficiency
  • Maximum piping length up to 230 ft allows flexible placement of indoor unit
  • Maximum piping height separation up to 164 ft
  • Quiet operation makes it ideal for many light commercial applications
  • Fully optimized for R-410A refrigerant, recognized as the future industry standard
  • Self-diagnostic capabilities provide added reliability