i-manager Publications

Embedded Controlled Single Switch Parallel Resonant Converter for Induction Heating

D. Kirubakaran*, Rama Reddy**

* Research scholar, Jerusalem College of Engineering, Chennai.

**Professor,Jerusalem College of Engineering, Chennai.

Periodicity:April - June'2009
DOI : https://doi.org/10.26634/jee.2.4.218

Abstract

An embedded controlled single-switch parallel resonant converter is introduced for induction heating applications. The circuit comprises of an input LC-filter, a bridge rectifier and a controlled power switch. The switch operates in the soft commutation mode and serves as a high frequency generator. This scheme overcomes the shortcomings of the previous schemes i.e. the presence of the DC component in the load current. The steady-state analysis of the converter is given. The theoretical analysis and computer simulation satisfy the experimental results.

Keywords

Electronics, Parallel Resonant Converter, Induction Heating, Closed Loop Control, Embedded Control

How to Cite this Article?

D. Kirubakaran and S. Rama Reddy (2009). Embedded Controlled Single Switch Parallel Resonant Converter For Induction Heating. i-manager’s Journal on Electrical Engineering, 2(4), Apr-Jun 2009, Print ISSN 0973-8835, E-ISSN 2230-7176, pp. 27-32. https://doi.org/10.26634/jee.2.4.218

References

[1]. Dawson,F.P., and Jain,P., 'A comparison of load commutated inverter system for induction hearting and melting applications'. IEEE Tans. on Power Electron., 1991, 6, pp. 430-441.

[2]. Chudnovsky, V., Axelord, .B., and Shenkman, A. , ' An approximate analysis of a starting process of a current source parallel inverter with a high-Q induction heating ', IEEE Trans. on Power Electron., 1997, 12, pp 294-301.

[3]. Kamli, M., Yamamoto, S., and Abe, M., ' A 50-150 kHz half bridge inverter for induction heating applications', IEEE Trans. on Power Electron., 1996, 43, pp 163-172.

[4]. Jang, Y and Ericson, R.w., ' New single switch three phase high power factor rectifier using multi resonant zero-current switching', IEEE Trans. Power Electron., 1998, PE-13, pp. 718-726.

[5]. Ismil, E.H., Oliveira, C.M., and Ericson, R.W., ' A low distortion three phase multi resonant boost rectifier with zero current switching.' IEEE Trans. Power Electron., 1998, PE -13, pp. 718-726.

[6]. Singh, B., Singh, B.N.,Chandra, A., Al-Haddad, K.; EE Trans. Ind. Electron., Vol. 50, No. 5, October 2003, pp. 962-981.

[7]. Singh, B., Singh, B.N., Chandra, A., Al-Haddad, K., Pandey, A., Kothari, D.P., A review of three-phase improved power quality AC-DC converters. IEEE Trans. Ind. Electron., Vol. 51, No. 3, June 2004, pp. 641-660.

[8]. Mollov, S.V., Theodoridis, M., Forsyth, A.J., High frequency voltage-fed inverter with phase-shift control for induction heating, IEEE Proc.-Electr. Power Appl., Vol. 151, No. 1, January 2004, pp. 12-18.

[9]. J.M. Burdio, F.Monterde, J.R. Garcia, “ A two output series-resonant inverter for induction heating cooking appliances,” IEEE Tarns. Power Electron., Vol.20, No.4, pp 815-822, Jul.2005.

[10]. J. Acero, R. Alonsjo, and J.M. Burdio “ Modeling of planar spiral inductors between two multilayer media for induction heating applications,” IEEE Trans.Magn., Vol.42,No.11, pp 3719-3729, Nov. 2006..

[11]. B.Saha, K.Y. Suh, S.K. Kwon, and M.Nakaoka, “Selective dual duty cycle controlled high frequency inverter using resonant capacitor in parallel with an auxiliary reverse blocking switch,” J.Power Electron., Vol.7, No.2, pp118-123, Apr. 2007.

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Embedded Controlled Single Switch Parallel Resonant Converter for Induction Heating

Abstract

Keywords

How to Cite this Article?

References

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