Are Inverter Heat Pumps Better

Although central air conditioners and furnaces have done well in meeting the needs of homeowners for decades, heat pumps have surpassed them in two respects: efficiency and versatility. However, despite this, there are still many areas for improvement in heat pumps.

But now, thanks to variable speed compressors driven by inverter drives, heat pumps are even better than before. We will introduce all the details below by explaining the role of inverter technology and how it can help improve efficiency.

1. Save money

Due to the operation control design of the heat pump inverter manufacturer Leomon, its compressor will not work at full capacity all the time, so you don't need to pay thousands of dollars in additional electricity costs.

2. High efficiency and energy saving

In terms of energy efficiency and economic operation, inverter technology is considered the perfect solution. In the inverter model of the heat pump inverter manufacturer, cooling and heating are automated in an energy-efficient and seamless manner, while early technologies consume a lot of electricity regardless of usage.

3. Silent operation

The compressor motor used by DC inverter heat pump manufacturers is not always on and off, but always works at low power. This kind of machine makes the operation quieter.

Unlike non-inverters, they do not automatically turn on and off every time a certain temperature is reached; instead, they just constantly maintain and adjust the temperature.

4. Longevity

During the operation of the non-inverter air source heat pump, the heat pump unit can only operate at one frequency regardless of the multiple loads. When the temperature reaches the set temperature, the unit will stop. It will not restart until the temperature drops to this range. Such frequent shutdowns and restarts will not only consume electricity, but also affect the life of the compressor. The DC inverter air source heat pump can automatically adjust the compressor speed according to changes in the ambient temperature, while keeping the temperature more stable. Even if the set temperature is reached, the unit will not shut down and maintain low energy consumption operation. Therefore, in terms of service life, energy consumption and service life, the DC inverter air source heat pump is better than the on/off heat pump.

5. Faster cooling/heating

At normal temperature, the heating efficiency of the on/off air source heat pump and the DC inverter heat pump is similar, but the lower the temperature, the more obvious the difference. Take the DC inverter heat pump air conditioner as an example. At 15℃～20℃, the heating capacity difference between on/off heat pump and DC inverter heat pump is less than 10%. At -15℃, the heating capacity of the variable-frequency heat pump is about 60% higher than that of the non-variable-frequency heat pump. At -25℃, the gap expands to 80%. Therefore, it can be concluded that the best heating option for low ambient temperature areas is the DC inverter heat pump, otherwise it cannot provide stable and sustainable indoor warming.

6. High comfort

Because the on/off air source heat pump may shut down after setting the temperature, it is easy to cause the indoor temperature to be unstable, which makes people feel a little uncomfortable. In contrast, the DC inverter heat pump can continue to operate at low frequency after reaching the set temperature to keep the indoor temperature stable. Therefore, compared with the on/off heat pump, the DC inverter heat pump can ensure a more stable indoor temperature.

7. Environmentally friendly

The main difference between inverter and non-inverter heat pumps is that the former provides variable compressor speed. The speed of a non-inverter compressor is fixed, which means it will either run at full speed or at the lowest speed.

Compared with non-inverter heat pumps, inverter heat pumps have the ability to detect sudden fluctuations and the automatic adjustment of compressor speed, which is more environmentally friendly. This highly complex and innovative mechanism helps save energy and brings benefits to the environment.