All DC inverter technology to improve compression efficiency
All DC inverter compressor and high-performance high pressure
chamber are adopted to reduce loss of overheat and improve
compression efficiency from direct intake. Compared with low
pressure chamber, the compression efficiency is improved.
High-efficient permasyn motor is adopted to provide better
performance than traditional DC inverter compressor.
Sensorless DC inverter fan motor
Stepless speed regulation ranges from 5Hz to 65Hz.Compared
with traditional inverter motors, the operation is more
Technology of maximum torque control with minimum current
It can reduce energy loss caused by device winding so as to realize higher efficiency.
Low-frequency torque control
It can directly control motor torque, through which fan motor can
run at a low speed. Users will feel more comfortable while
requirements of the system are also met.
180° sine wave DC speed varying technology
It can satisfy various places’ demands for different temperature
and is able to save a great deal of electricity and provide users
with utmost comfort at the same time
88HP max capacity-the largest free combination
Max capacity of single outdoor unit reaches 22HP and max combination capacity is even up to 88HP, in an industry leading level.
Non-polar CAN technology to improve communication efficiency
Gree is the first one to adopt non-polar CAN communication
technology in the industry. CAN communication technology
provides quicker system response speed, more convenient
installation debugging and more reliable communication data.
Wide range of voltage and operation condition
Working voltage range of TMV system has been improved
to 320V-460V, which surpasses the national standard of
342V-420V. For places with unsteady voltage, this system can
still be running well..
Wider applicable location
TMV can realize a combination of 4 outdoor unit modules
connecting with as many as 80 indoor units. It’s especially
applicable for business building or hotels.
Refrigerant storage and distribution
The TMV system is designed without liquid receiver and the
excess refrigerant is stored in the piping, which can minimize
the refrigerant charging volume and enhance the control
accuracy of refrigerant.
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