

Overview

Principles of high frequency heating ㅣ Strength of high frequency heating ㅣ Characteristics of PSTEKㅣ Specificationsㅣ Applications
The principle is based on occurrence of heat in resistance components of metal as the secondary current is induced through the surface of the heated object due to magnetic field created by currents on heating coil from AC power. As frequency gets higher, it leads currents to be excessively concentrated on the surface of the heated object and the heated object only, which increases electrical resistance equivalently and improves relative efficiency.

– Rapid response: Metal heating is possible compared to indirect heating as heat occurs from the
material itself
– High efficiency: Higher than gas heating and control of heat input is convenient
– Eco-technology: Hazardous gas or the surrounding environment is clean
– Various characteristics of heating: Hardness depth or heat distribution can be adjusted according
to purposes of application by differentiating permitted input frequency
material itself
– High efficiency: Higher than gas heating and control of heat input is convenient
– Eco-technology: Hazardous gas or the surrounding environment is clean
– Various characteristics of heating: Hardness depth or heat distribution can be adjusted according
to purposes of application by differentiating permitted input frequency
– High frequency and large capacity are possible
– With the high power factor, it is highly efficient
– Regular quality is possible with the high-performance system design
– Full Digital Control method enables free remote control and monitoring
– Using high frequency inverter, heating of thin metal materials is possible
– Heating quality improves by making exact heat input with full digital control
(Temperatures at the start and the end of heating are consistent for moving materials)
– Materialization of the high frequency noise-preventive circuit heating equipment is possible
– With the high power factor, it is highly efficient
– Regular quality is possible with the high-performance system design
– Full Digital Control method enables free remote control and monitoring
– Using high frequency inverter, heating of thin metal materials is possible
– Heating quality improves by making exact heat input with full digital control
(Temperatures at the start and the end of heating are consistent for moving materials)
– Materialization of the high frequency noise-preventive circuit heating equipment is possible
