Technology

Benefits of energy saving inverter aircon

The biggest advantage of an inverter aircon system is energy saving. With inverter technology, air conditioner can vary its power output to precisely maintain room temperature. Inverter technology also enables high powered start up which lets you enjoy fast cooling up to 25% faster than conventional air conditioner.

Below is an excerpt from Toshiba with regards to their inverter technology.

Inverter Technology

The innovative inverter technology achieves high power and high efficiency simultaneously. Inverter control rapidly reaches the desired temperature by increasing compressor operating frequency. When the temperature has been attained, the inverter control adjust the compressor rotation speed (frequency) to efficiently maintain precise temperature control without consuming excess power. This offer remarkable energy saving control and efficient economical operation.

Optimum Comfort

Toshiba inverter technology maintains precise control of room temperature and creates a comfortable environment. In conventional units, compressor triggers on/off to adjust to the desired room temperate. This causes great fluctuation in the indoor temperature. With inverter technology, the power to the compressor is reduced rather than cut off and this provides superior control in maintaining the desired temperature. By putting an end to on/off compressor operation, the technology also significantly reduce noise level.

Efficient-Saving and Economy

Toshiba inverter features energy-saving operation that reduces annual power consumption by as much as 40% compare to conventional units. The variable power level of the compressor allows evenly maintain of room temperature so less energy is wasted. Moreover, without the surging on/off of compressor operation, the compressor can operate at as low as 1.5kW, saving a bundle of energy.

Ac Inverter Technology

What is Inverter Technology and how is it different from Non- Inverter Technology?

An inverter is a device for converting frequency. The technology is used in many home appliances and controls electric voltage, current and frequency. Inverter air-conditioners vary their cooling/heating capacity by adjusting the power supply frequency of their compressors.

An inverter type air-conditioner adjusts the speed of the compressor to control the refrigerant (gas) flow rate, thereby consuming less current and power. An inverter has precise temperature control and as the set temperature is attained, the unit adjusts its capacity to eliminate any temperature fluctuations.

In contrast, non-inverter airconditioners have a fixed cooling/ heating capacity and can only control the indoor temperature by starting or stopping their compressors.

Non-inverter air-conditioners stops and starts repeatedly. The power consumption and current goes down when the operation stops, but it goes up sharply at the time of restart and thus it has high average power consumption and temperature variations. As a result, inverter airconditioners are more energy-saving and comfortable than non-inverter air-conditioners.

Let’s take an example of 1.5 Ton AC. Inverter AC can work from. 3 to 1.7 ton based on cooling requirement. Non-inverter AC can work at 1.5 ton only (fixed capacity)*.

Variable capacity operation

Inverter power control

Non-inverter type air-conditioner

Inverter air-conditioners are able to vary their operating capacity. Non-inverter air-conditioners can only operate at a fixed capacity.

Scenario: Indoor Temperature: 22o, Set Temperature: 22o

Inverter air-conditioner

Non-inverter air-conditioner

Inverter air-conditioners are more comfortable than non-inverter models

Diagrams are used for illustrative purpose only; actual conditions and scenario may vary from the one shown.

What are the benefits of Inverter Air-Conditioners?

Daikin’s Technology Makes The Difference

Swing compressor

Thanks to its smooth rotation, the swing compressor decreases friction and vibration. It also prevents leakage of refrigerant gas during compression. These advantages provide quiet and efficient operation.

Daikin was presented 32nd Chairman’s award by the Japan society for the promotion of the machine industry for swing compressor.

DC inverter

Daikin calls an inverter model that is equipped with a DC motor as DC inverter. A DC motor offers higher efficiency than an AC motor. A DC motor uses the power of magnets to attract and repel to generate rotation. A DC motor that is equipped with power neodymium magnets, which enable even greater efficiency, is called a reluctance DC motor.

Recipient of Electric Science Promotion Award (Reluctance DC motor for compressor)

DC motor for fan

The DC motor allows fine rotation control, which reduces energy consumption. The motor also provides improvements in operational efficiency of up to 40%, compared to AC motor. These improvements are particularly noticeable in the low-speed range.

Reluctance DC motor

for compressor

Daikin DC inverter models are equipped with the reluctance DC motor for compressor. The reluctance DC motor uses two different types of torque, neodymium magnet1 and reluctance torque2. This motor saves energy by generating more power with a smaller electric current than AC or conventional DC motors. Daikin’s internally embedded neodymium magnet generates strong magnetic field and high torque resulting in high operational efficiency with less electricity consumption.

It is more efficient at low frequencies most commonly used by air-conditioners3 improving efficiency by approximately 20%.

Neodymium magnets are used in the pink-coloured area.

Integral piston of blade and roller

The swing compressor can reduce operational vibration and sound because its piston moves smoothly inside the compressor.

Neodymium magnet

Neodymium magnets are approximately 10 times stronger than standard magnets. The use of neodymium magnets in Daikin compressors enhances their performance*. Besides, it helps to improve the frequency range used by air-conditioners during periods of stable operation in which air-conditioners operate for the longest periods.

Sine wave

Smooth sine wave of the inverter’s electric current eliminates pulsation and high harmonic noise. Highly effective inverter, that can generate the control signal which is closer to the sine wave, thus helping in better efficiency.

Pulse Amplitude

PAM control reduces energy loss by controlling how often the converter switches on and off.

Highest ISEER Rating

Save more with Daikin’s Inverter technology that lets you enjoy better cooling at competitive costs. Investing in highest ISEER Rating AC means more energy savings, best-in-class cooling and long life.