02252nam 2200373 450 99627957760331620231206214256.01-5044-0389-410.1109/IEEESTD.1955.7430213(CKB)3710000000613087(NjHacI)993710000000613087(EXLCZ)99371000000061308720231206d1955 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierIEEE Std No 54-1955 IEEE Standard, Test Code, and Recommended Practice for Induction and Dielectric Heating Equipment /Institute of Electrical and Electronics EngineersPiscataway, NJ, USA :IEEE,1955.1 online resource (24 pages)High-frequency heating equipments divide into two main types: (1) those used for dielectric heating, and(2) those used for induction heating. The induction heating equipments again divide into seven types: (1) commercial power line; (2) rotary generator; (3) mercury-arc-converter; (4) gaseous-tube converter; (5) mercury-hydrogen-spark-gap converter; (6) quenched spark-gap converter; (7) vacuum-tube generator. Dielectric heating equipments in general use a vacuum-tube oscillator as a source of radio-frequency power ranging in frequency from 2 megacycles to hundreds of megacycles. At frequencies above about 200 megacycles,the power is generated by devices other than a conventional vacuum tube, such as a magnetron, Klystron or other microwave device. A dielectric heating generator is normally a high-voltage generator, and application requires high-voltage radio-frequency matching techniques. An induction heating generator is essentially a high-current device operating into very low impedance circuits and sometimes requires transformation in the load circuit to provide the desired heating effect.IEEE Std No 54-1955Electric heatingInduction heatingElectric heating.Induction heating.697.045NjHacINjHaclDOCUMENT996279577603316IEEE Std No 54-19553646328UNISA