• Air Conditioner
  • Daikin VRV System Slim Ceiling Mounted Duct Indoor Unit Inverter (0.8Hp) FXDSQ20AVM
Inverter

Daikin VRV System Slim Ceiling Mounted Duct Indoor Unit Inverter (0.8Hp) FXDSQ20AVM

  • Price: contact
  • The selling price includes VAT and is committed to a genuine 100 percent NEW-WARRANTY NATIONWIDE.
  • Free delivery within Ho Chi Minh City-fast installation, overtime installation as required. Support delivery and installation in the province.
Specifications
Made in Japanese Brand
Refrigerant R-410A
Type Inverter
Cooling Capacity 0.8 Hp - 7.500 Btu/h - 2.2 kW
Heating Capacity 8.500 Btu/h - 2.5 kW
Power Input (Ph/V/Hz) 1 Phase 220 - 240 V 50Hz
Power consumption (kW) Cooling: 0.028 kW Heating: 0.024 kW
Refrigerant/ Liquid Pipe Diameter (mm) 6.4 / 12.7
Dimensions (H x W x D) 200 × 700 × 450 mm
Weigh 17 kg
Panel
Panel Dimensions (mm) 180 × 722 × 70 mm
Panel Net Weight (Kg) 1 kg
Area and air volume calculated by room in ideal conditions, closed room, concrete wall, good insulation, no direct ventilation wc, washbasin...
Product Description

Specifications

Note: Specifications are based on the following conditions:

  • Cooling: Room temp 27 ° CDB, 19.0 ° CWB, Outdoor temp 35 ° CDB, Solvent equivalent length: 7.5m, Level difference: 0m.
  • Heating: Room temp 20 ° CDB, Outdoor temp 7 ° CDB, 6 ° CWB, Piping medium equivalent length: 7.5m, Level difference: 0m.
  • The capacity of the indoor unit is for reference only. The actual capacity of the indoor unit is based on the total capacity rating. (See Technical documentation for details.)
  • Noise level: Convertible in non-anechoic conditions. The measurement position below is 1.5m from the center of the machine.

During actual operation, these values ​​are usually slightly higher due to ambient conditions.

  1. Values ​​are based on conditions when the static pressure is outside 10 Pa.
  2. External static pressure can be changed by setting on the remote, it means ‘High static pressure- Standard’ (Factory setting is 10 Pa).
  3. The noise values ​​given above are for the rear escapement. In the case of the bottom retracement, it can be calculated by adding 5dB(A).