Why Inverter/Ductless Technology is Changing Heat Pumps for Good
When it comes to air conditioning and heating, many choose forced-air systems, like central air conditioners, furnaces, and heat pumps.While central air and furnaces have served the needs of homeowners, heat pumps still needed improvement. Heat pumps are even better than they used to be, thanks to inverter-driven variable speed compressor. Below is how Inverter Technology works and why you should make this the choice for your home.
With Normal AC it will cycle between an on and off. It turns on for a period of time and, when the home has been cooled, it turns off. As the air begins to match the outdoor temperature, the AC will turn back on again.An inverter-driven variable speed compressor works by analyzing the temperature and conditions inside the home and then adjusts its output to maximize efficiency and comfort. Inverter Technology Improves Overall Efficiency, Non-inverter heat pumps are less efficient since they cannot control energy output, they also put far more strain on the system than necessary.
Why You Should Choose Inverter/Ductless Technology
1. Flexible Solutions:
Ductless are small mounted units and only need access to electricity.Ductless heating and cooling are a cost-effective way to replace window air conditioning units, space heaters and electric baseboard heaters. They can be installed in apartments, condos, new construction or even homes and businesses that currently use traditional forced air systems.
2. They Save Money:
You No Longer Have To Heat Or Cool Rooms That Aren’t Occupied! Ductless uses less power and air goes only to the rooms you want to cool or heat. It saves you money on utilities and homeowners may be eligible for tax credits or utility rebates.
3. They Improve Air Quality:
Ductless offers multi-stage filtration that reduces dust, bacteria, pollen an allergens.
4. They Are Quick And Easy To Install:
Ductless are typically installed in one day.
5. They Lower Your Carbon Footprint:
Ductless are more energy efficient than traditional forced air units.