Why Choose a DC Inverter Air Source Heat Pump?

dc inverter

Air source heat pumps are novel forms of house heating pumps that are gaining popularity worldwide due to their safety, fast response, efficiency improvements, and ease of use.  Amongst all the various air source heat pumps, the Direct current heat pump are the most prevalent ones.

The popularity might also be attributed to consumer demands. The environment and temperature differences fluctuate everywhere all year round. People’s needs for heated water and home heating will inevitably vary depending on the temperature.

The non-inverter heat pumps or the on/off heat pumps feature compressors that do not vary their frequencies and only function at fixed frequencies. They are therefore insufficiently adaptable. Due to the presence of frequency inverters in heat pumps to modify the compressors, DC inverter air source heat pumps are the best. 

They are better suited for complicated settings.  For instance, domestic heating at -10 °C requires 50 °C of air in cold climes.  As a result, the heat pump compressors need to perform at their peak capability.

Furthermore, in some areas, winter cold with an air temperature of less than 10 °C lasts for about 37 days per year. As such, the air source heat pump needs to be completely operational throughout.  Rather, if you are using the DC inverter air source heat pump, you can switch between the two heating modes. 

These are the energy-saving and quick-heat modes. The compressors run at a reduced frequency when the heat pump is switched to energy-saving, resulting in the greatest power savings. On the other hand, they work at high frequencies in the rapid heating modes, and heated water generation may be completed in a short period.  This is unlike the on/off heat pump machines that cannot adjust the operation, consuming much energy.

Other reasons why you should choose a DC inverter air-source heat pumps

They start softly without consuming much power.

These heat pumps start quietly using soft start mode, reducing the startup power and avoiding a breakdown due to excessive current.  Furthermore, since no electricity affects the compressors, Direct current heat pump have a longer lifespan.

They are steady and comfortable.

The thermostat modification rate of the Direct current heat pump is faster and more pleasant.  But AC devices solely work at fixed frequencies, and this same thermal adaptation speed is comparably slow. 

At the same time, the DC inverters work at high frequencies right from the start. Also, they shall rapidly elevate to the energy demands accordingly or decrease the frequency range to sustain interior temperatures.

In addition, Direct current heat pump can handle different voltages.  Usually, an Alternate current heat pump solely operates at specific voltages, either the national domestic grid volts of two hundred and twenty volts /1N/FiftyHertz or the commercial power supply of three hundred and eighty Volt/3N/ fifty Hertz.  

Direct current heat pump may work across a voltage output of one hundred and thirty to two hundred and eighty, using less electricity and having a wider application scope.

Direct  current heat pump are  super-efficient and run in  -25°C settings 

Direct current heat pump are more suited to working in extreme temperatures.  Compared to the Alternate Current heat pumps, they are more adaptable to low-temperature environments due to additional frequency converters. They automatically modify the compressors’ working frequencies based on the temperatures outside. 

Once the unit requires defrosting, its frequency converter will switch to a higher level.  It reduces the defrosting period, thereby improving the heating value.

Lower noise level

Because the heat pump unit does not restart frequently, it is simply quieter and more energy efficient.  Furthermore, because the Direct current heat pump operates at lower frequencies, the noise level is minimal, providing a more calm and pleasant atmosphere.

Direct current heat pump cut electricity bills by DC inverters.

Because the Alternate current heat pumps compressors’ working frequency is set, should the temperatures be very high or very low, the compressors will have to be switched on and off by hand. Assuming there is a power malfunction or unsteady voltage, the compressors will cease rotating.  

Repeated shutdowns and restarts use a lot of power and shorten the compressors’ overall life. The Direct current heat pumps always adapt to their compressors’ functional speeds.  Additionally, the compressors are not turned on and off regularly.  As a result, there is a much lower power consumption when using DC inverter air source heat pumps. 

As being environmentally friendly, Direct current heat pump have a lower carbon footprint, unlike traditional heating methods. That means a step towards its installation is also a step towards saving the environment. 

Because the operational expenditures of Direct current heat pump are just 1/4 of the price of electric water heaters, 1/3 of the cost of gas boilers, and half of the cost of solar water heaters, needless to say, the installation of Direct current heat pump can be a cost-effective solution to minimize your electricity bills.

Wrapping up 

So that’s it, ladies and gentlemen. While this post may have given you a dare to get yourself a DC inverter heat pump, it will be best if you land in the right hands when searching.  In this regard, it’s worth it if you check out Sprsun heat pumps. Inverter heat pumps of this brand have been tested and approved since 1999.  Suffice it to say they are one of the best heat pump providers on the globe.

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