The microprocessor automatically adjusts the air flow intensity to changes in the room temperature.

The unit automatically switches between cooling and heating modes depending on the temperature and room temperature settings.

In the event of a temporary power failure, the air conditioner will automatically restart in the same operating mode as before, once the power supply is restored.

Turbulent flow, in terms of thermal energy exchange, is the most efficient solution. However, from the point of view of air flow and acoustics, this process is undesirable. Designing the fan blade with the profile of an aircraft wing eliminated the phenomenon of turbulence and air separation, and as a result reduced the noise level of the device.

The human sensor detects the movement of people in the room, reducing the efficiency of the air conditioner when the room is empty. After their return, the device   automatically restores the previous operation mode.

This component is installed inside the unit. The finest dust particles are collected (by the electrostatic filter), and unpleasant odours are neutralised with negative ions.

Restriction of the maximum current and power consumption.

Increased heating capacity at low temperatures means that the nominal heating capacity is maintained up to outdoor temperatures of -7°C. The new model can operate at outdoor temperatures as low as -20°C.

The filter dirt control function effectively safeguards the operation of the unit, maintains the efficiency of the fans and ensures proper air filtration. Cleanliness control is based on monitoring the appropriate pressure difference upstream and downstream the filter.

Driver elements in indoor units, such as fan motors, expansion valve actuators, motors for louvres powered by DC current.