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Daikin’s constant efforts have been devoted towards using the latest and most revolutionary technologies in the development of the VRV system for large-sized buildings. The system offers larger outdoor capacities, greater
 energy savings, easier installation, longer actual and total piping, and more.

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  1. Fans and grilles
  2. Heat exchanger
  3. High efficiency compressor
  4. Heat transfer circuit
  5. Compact electrical panel
  6. Smooth sine wave DC Inverter
  7. DC fan motor

1. Newly improved fans and grilles

A higher external static pressure has been achieved-from 0.24” to 0.32” W.G.-thanks to reduced internal pressure loss, use of the new fans and the new grilles.

New aero spiral fan and aero asymmetrical fan
The area of these new fan blades has been increased and optimized for each casing. This greatly reduces pressure loss, resulting in a higher external static pressure.

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New aero spiral fan (Powerful Dual DC fan)
In the 12-Ton unit, a single fan with a diameter of 27.5" has been split into two fans with diameters of 21.25" each. Blade area has been increased by 20% to increase airflow.

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softwovensteelright2Aero smooth grille

The three-dimensional, integrated, soft woven steel grilles are
covered with a plastic coating that protects them from rotating
elements and the possibility of fire damage.

2. Heat exchanger

The new heat exchanger contributes to a higher COP because of an increase from 7% to 10% of the effective length as well as an optimized e-Pass heat exchanger.

3. Improving the high efficiency compressor to achieve a higher COP and larger capacity

Reluctance DC scroll compressor
Daikin's unique scroll compressor minimizes heat loss, and is driven by a high efficiency motor to achieve significant energy savings.  By introducing high pressure oil, the reactive force from the fixed scroll is added to the internal force, thereby reducing thrust losses. This results in improve deficiency and suppressed sound levels.

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4. Heat transfer circuit

By performing sub cooling before the expansion process, the volume of refrigerant that needs to be circulated to the indoor units can be reduced without lowering the evaporation temperature. This permits the use of narrower piping.

5. Compact Electrical Panel

Realizes a compact casing by stacking the Inverter and control PCBs plusoptimizing the internal design to suit airflow speed. This achieves lower noise and reduces the power input.

6. Smooth sine wave DC Inverter

By adoption of the Sine Wave, which smoothes the rotation of the motor, operation efficiency is dramatically improved.

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7. DC fan motor

Across entire range of models (from 6 to 30-Ton).

Efficiency improvement by up to 40% especially at low speed.

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