The operation efficiency has been improved using highly efficient R410A refrigerant, a DC Inverter compressor, DC motor and a heat exchanger design.
Energy Savings Design
A large-capacity inverter compressor has been adopted. The inverter compressor is superior in performance with improved partial-load capacity.
The number of PCB is 2 pieces for making maintenance easier.
A large accumulator has been adopted to maintain compressor reliability because of the increased refrigerant quantity, which allows an extended max piping length.
Checking load and outside temperature, the DC motor is controlled for optimum air volume.
The newly designed fan blades have been developed to inhibit air turbulence and to increase efficiency. As fan diameter has been increased its size, the air volume has been increased whilst maintaining a same sound level.
The heat exchanger size and the copper tube sizes in the heat exchanger have been redesigned to increase efficiency.
A centrifugal separator has been adopted to improve oil separation efficiency and reduce refrigerant pressure loss.
Flexible Demand Response with the Optional Terminal Block
Featuring inverter control technology, all Panasonic Mini FSV systems are Demand Response Management (DRM) ready. With this control, power consumption at times of peak load can be set in three steps to deliver optimum performance. This helps to reduce annual power consumption with minimal loss in comfort.
*Terminal block parts to be supplied separately. Please ask your dealer.
Flexible demand response with the CZ-CAPDC2 *1
Setting is possible as 0% or in the range from 40 to 100% (in steps of 5%). At the time of shipping, setting has been done to the three steps of 0%, 70% and 100%.
*1 An outdoor Seri-Para l/O unit (CZ-CAPDC2) is required for demand input signal.
* Demand timer setting for high spec remote controller is available.