INVERTER is an equipment that controls the electrical voltage, current and frequency of the compressor motor in an air conditioner.
An INVERTER air conditioner changes the speed of the compressor by varying the frequency of the power supply to give superior cooling, ranging from high to low.
When an INVERTER air conditioner is started, the compressor runs at high speed for quick cooling. But once the set temperature is reached, the INVERTER air conditioner enters an ‘energy saving mode’ by reducing the compressor speed. Thus, effectively reducing its power in order to save energy.
I-PAM inverter control is a technology which reduces loss by adjusting the current waveform to a better sine waveform. This promotes the effective use of the input power supply to attain high performance.
"I-PAM (Intelligent power module – Pulse Amplitude Modulation)"
Energy saving and quick heating only possible by I-PAM
V-PAM inverter control reduces the effects of magnetic flux and increases the maximum speed and efficiency of the compressor by vector control technology. With this technology, further miniaturization, higher efficiency and better performance is attained.
"V-PAM (Vector – Pulse Amplitude Modulation)"
It becomes more powerful with the newly developed high efficient compressor motor control.
By making all the motors DC, electricity loss is decreased and power consumption is substantially reduced. In addition high speed fan motor rotation is possible, heat exchange efficiency is increased and annual power consumption amount is saved by increasing the airflow.
Precision wind direction control is possible with 3 dimensional air flow technology. Our air flow control makes your environment more comfortable, with both horizontal and vertical deflection at the same time automatically.
Large independently driven power diffuser is used.
Heat exchange performance is substantially improved by the thin high-density heat exchanger and multi-path efficiency technology. High performance grooved piping with expanded heat exchanger area is used.
Hydrophillic coated heat exchanger ensures rust resistance for prolonged life.
High heating capacity is realized even at low outdoor temperature by mounting a large heat exchanger or large DC rotary compressor and developing high performance inverter PCB
Piping can be extended up to the above length for full efficiency with additional charge of gas over and above 7.5 mts. as per Installation manual.
Compressor capacity higher than machine capacity ensures powerful operation at high ambient temperature.
|ISEER Star Rating||-||-||4|
|Standard Cooling at 100% Capacity (min ~ max Operating Range)||Cooling||W||7,900 (2,900~9,000)|
|Standars Cooling at 50% Capacity||W||3,950|
|Standard Heating at 100% Capacity (min ~ max Operating Range)||Heating||W||8,800 (2,200~11,000)|
|Power Consumption at 100% Capacity||Cooling||W||2,360|
|Power Consumption at 50% Capacity||W||930|
|Power Consumption at 100% Capacity||Heating||W||2,440|
|Electricity Consumption per Annum||Cooling||kWh||1,499|
|Indoor Airflow Volume-High||Cooling||m3/h||1,120|
|Indoor Airflow Distance||Cooling||m||15|
|Indoor Unit Dimensions HxWxD||-||mm||320x998x238|
|Indoor Unit Net Weight||-||kg||14|
|Outdoor Unit Dimensions HxWxD||-||mm||830x900x330|
|Outdoor Unit Net Weight||-||kg||61|
|Indoor Noise Level (Quiet)||Cooling||dB(A)||33|
|Outdoor Noise Level||Cooling||dB(A)||53|
|Connnection Pipe (Gas, Liquid)||-||inch||5/8, 3/8|
|Pipe Length Min~Max (Precharged)||-||m||3~30(15)|
|Max Height Difference||-||m||30|
|Compressor Type||-||-||Twin Rotary|