1. New CMV introduction
1.1 Modules Range
a) 4 models: 10KW, 12.5KW, 14KW, 16KW.
10KW, 12.5KW, 14KW, 16KW.
1.2 Several core technologies make system high efficiency
1.2.1 High Efficiency DC inverter compressor
High pressure chamber
• has small suction refrigerant superheat, refrigerant volume efficiency is high
• Has large refrigerant discharge buffer volume, Low vibration and noise
Neodymium permanent magnet rotor, has powerful magnetic force, large torque and high efficiency
Concentrated winding, improving low frequency efficiency
1.2.2 High Efficiency DC motor
High efficiency DC fan motor is from well-known brand
Low noise and high efficiency because of high-density wire winding engineering
Brushless with built-in sensor
1.2.3 Stepless Control
DC fan motor can be stepless controlled by outdoor PCB according to system's operating temperature. And it is able to reduce the
energy consumption and maintain the system in the best performance.
1.2.4 180˚ Sine Waveform Control
The perfect combination of 180˚ Sine waveform rotor frequency drive control technology and excellent IPM inverters reduces the
reactive loss of motor-driven, increases motor efficiency by 12%.
1.2.5 CCT Inner-grooved Tube
CCT (Continuous Cooling Transformation) inner-grooved copper tube has high thermometric conductivity. Its inner-grooved fins
break the refrigerant flow boundary layer to enhance refrigerant disturbance to increase heat-exchanging efficiency.
1.2.6 07. 2-in-1 Refrigerant Flow Path Design
Thanks to the 2-in-1 refrigerant flow path design, the liquid refrigerant volume proportion in the condenser outlet is highly
increased, so the indoor unit's will produce more heat (or cool).
1.2.7 Supercooling Flow Path Design.
Supercooling flow path design, separates the refrigerant inlet and outlet, increase the supercooling degree, reduce the effect of
high temperature inlet gas refrigerant to low temperature outlet liquid refrigerant, therefore, the system efficiency will be greatly
increased.
1.2.8 Cross Flow Fins.
Has low air resistance and great heat transfer coefficient
Frosting improved, frost on the heat-exchanger will be well-distributed, easy for defrosting.
1.2.9 Optimized internal structure.
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