No. 51 (2018), TECHNOLOGICAL ELECTRICAL EQUIPMENT

INVESTIGATION OF THE RESONANT INVERTER FOR INDUCTION HEATING WITH STABILIZATION OF THE LOAD POWER

TECHNOLOGICAL ELECTRICAL EQUIPMENT

Published 2018-10-31

H.S. Bielokha⁺⁻
D.I. Morosov⁺⁻

H.S. Bielokha

Donbass State Technical University, Lysychansk, Peremohy ave., 84, 93100, Ukraine

D.I. Morosov

Donbass State Technical University, Lysychansk, Peremohy ave., 84, 93100, Ukraine

Article_19 PDF (Українська)

Keywords

resonant inverter
induction heating
power stabilization

How to Cite

Bielokha, H.S., and D.I. Morosov. “INVESTIGATION OF THE RESONANT INVERTER FOR INDUCTION HEATING WITH STABILIZATION OF THE LOAD POWER”. Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine, no. 51, Oct. 2018, p. 120, https://www.prc.ied.org.ua/index.php/proceedings/article/view/186.

Abstract

Presents voltage source inverter for induction heating applications, which is characterized by the power control based. The output power control is achieved by varying the shape of the voltage up applied to the resonant circuit. This power control strategy allows the inverter to work to the resonance frequency for all output-power levels. Control of the heating temperature is performed by controlling the resonance inverter power load. The simulation results of are presented. The way of determining the resonant inverter properties by using analytical calculations based on the inverter output voltage distribution on the first harmonic of is presented. Referenses 6, figures 4.

Article_19 PDF (Українська)

References

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Lucia О., Maussio P., Dede E.J., Burdio J. Induction heating technology and its applications: past developments, current technology, and future challenges. IEEE Transactions on Industrial Electronics. 2013. Vol. 61 (n5). Рp. 2509–2520.

Rapoport E.Ya., Pleshivtseva Yu.E. Optimum control of temperature modes of induction heating. Мoskva: Nauka, 2012. 309 p. (Rus)

Beloha G.S., Morozov D.I. Resonance inverter for induction heating with stabilization of the load power. Elektrotehnicheskie i kompyuternyie sistemyi. 2017. №25(101). P. 132–138. (Rus)

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Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Copyright (c) 2018 H.S. Bielokha, D.I. Morozov

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