For a small portable heater i think this is a really good choice for a few reasons.
Ceramic infrared heater emf.
Next the heater is both small in size and the wattage can be adjusted which will in turn reduce the emitted radiation.
This high rating allows ceramic materials to absorb and radiate infrared better than any other material.
Zero rated emf nano carbon infrared heater.
The carbon in our heaters allows the heater to produce long wave far infrared heat.
Extremely low frequency elf are the electric fields with frequencies from 3 to 30 hertz.
Ceramic material is a powerful conductor of energy with an emissivity rating that is nearly a full 1 0 higher than any other material.
True wave infrared heaters produce the long wave infrared heat of a carbon heaters with the very high infrared output of a ceramic heater combined into one heater.
Low emf infrared saunas.
Clearlight true wave far infrared heaters combine carbon and ceramic to produce healing infrared heat that is unmatched.
The main problem with a ceramic heater however is that it actually gets too hot.
Electromagnetic fields emf are energy waves with frequencies below 300 hertz or cycles per second.
The heater is then tested under power for several hours and measured for the electrical draw surface temperature and emf output in twelve locations.
It really is the best of both worlds and they are fantastic infrared heaters.
Our r d department has ended that debate by introducing the only combination carbon ceramic far infrared heater.
Our heaters are comprised of micro thin carbon fibers 1 1000th the thickness of a human hair combined with our.
Clearlight true wave far infrared heaters combine carbon and ceramic to produce infrared heat that is unmatched.
There are many types of materials that emit far infrared sauna heat including ceramic steel incoloy rods and carbon.
Nano technology carbon plate.
One the ffddy space heater uses a ceramic plate which will emit less radiation than a coil system that many of these heaters use.
The carbon in our heaters allows the heater to produce long wave far infrared heat.
The heater is then tested under power for several hours and measured for the electrical draw surface temperature and emf levels.
A nano carbon center plate and reflective foil backing are heat compressed to form a safe and highly efficient far infrared heater panel.
