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Reseach Article

Design and Implementation of dsPIC Fed Vienna Rectifier for Induction Heating Appliances

by S.manojmanimaran, C. Amutha
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 114 - Number 15
Year of Publication: 2015
Authors: S.manojmanimaran, C. Amutha
10.5120/20054-2012

S.manojmanimaran, C. Amutha . Design and Implementation of dsPIC Fed Vienna Rectifier for Induction Heating Appliances. International Journal of Computer Applications. 114, 15 ( March 2015), 20-25. DOI=10.5120/20054-2012

@article{ 10.5120/20054-2012,
author = { S.manojmanimaran, C. Amutha },
title = { Design and Implementation of dsPIC Fed Vienna Rectifier for Induction Heating Appliances },
journal = { International Journal of Computer Applications },
issue_date = { March 2015 },
volume = { 114 },
number = { 15 },
month = { March },
year = { 2015 },
issn = { 0975-8887 },
pages = { 20-25 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume114/number15/20054-2012/ },
doi = { 10.5120/20054-2012 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T22:52:52.281962+05:30
%A S.manojmanimaran
%A C. Amutha
%T Design and Implementation of dsPIC Fed Vienna Rectifier for Induction Heating Appliances
%J International Journal of Computer Applications
%@ 0975-8887
%V 114
%N 15
%P 20-25
%D 2015
%I Foundation of Computer Science (FCS), NY, USA
Abstract

The main work of this paper is to increase the efficiency and also safe operation of the power electronics switches which are used in the circuit. Induction heating is a technique, in that a suitable range of frequencies is needed for different work piece geometry requirements. More number of topologies is available among which half bridge topology is found to be efficient. The approach is based on the closed loop operation in order to improve the efficiency of the induction heating system. This project describes the main consideration in the study of resonant converter, PID controller and VIENNA rectifier for an induction heating appliances. Here the controller used is dsPIC (digital signal controller) for producing switching pulses to the inverter section and Vienna rectifier. The simulation is obtained using MATLAB/SIMULINK.

References
  1. S. Shanthi, et al. , Dec. 2013 " Design And Implementation of Low-Cost Power Efficient Embedded Control Systems in Domestic Induction Heating Appliances," IJETAE. Vol. 3, Issue 12, December 2013, pp. 577- 582.
  2. Acero. J, et al. , Mar. /Apr. 2010 "Domestic induction appliances," IEEE Ind. Appl. Mag. ,vol. 16, no. 2, pp. 39- 47.
  3. Oscar Jimenez, Oscar Lucia, Isidro Urriza, Luis A. Barragan, Paolo Mattavelli,Dushan Boroyevich. , "FPGA-based gain-scheduled controller for resonant converters applied to induction cooktops," IEEE Transactions on Power Electronics , Vol. 29, no. 4, pp. 2143-2152,April 2014.
  4. I. Yilmaz, M. Ermis, and I. Cadirci, "Medium-frequency induction melting furnace as a load on the power system," IEEE Trans. Ind. Appl. , vol. 48, no. 4, pp. 1203–1214, Jul. /Aug. 2012.
  5. H. Sarnago, A. Mediano, and O. Luc´?a, "High efficiency AC–AC power electronic converter applied to domestic induction heating," IEEE Trans. Power Electron. , vol. 27, no. 8, pp. 3676–3684, Aug. 2012.
  6. J. Egalon, S. Caux, P. Maussion, M. Souley, and O. Pateau, "Multiphase system for metal disc induction heating: modeling and RMS current control,"IEEE Trans. Ind. Appl. , vol. 48, no. 5, pp. 1692–1699, Sep. /Oct. 2012.
  7. Wang Linbing, Zhang Chao, "Study of single-phase three level power factor correcting converter," Power Electronics, 2006,40(2):15-19. (in Chinese)
  8. Zhang Xianjin, Fan Caihong , et al. ," Research on 3-Phase 4-Wire VIENNA Rectifier Based on One Cycle Control,"2012 Fifth International Conference on Intelligent Computation Technology and Automation". 2012, pp. 280- 282.
  9. S. Llorente, F. Monterde, J. M. Burdío , and J. Acero, "A Comparative Study of Resonant Inverter Topologies Used in Induction Cookers. ," IEEE, pp. 1168–1174, 2002.
  10. F. P. Dawson and Praveen Jain, "System for Induction Heating and Melting Applications, a comparison of Load Commuted Inverter" in IEEE Power Electronics Specialist Conf. Rec 1990, pp. 281-290.
  11. O. Luc´?a, J. M. Burd´?o, I. Mill´an, J. Acero, and L. A. Barrag´an, "Efficiency oriented design of ZVS half-bridge series resonant inverter with variable frequency duty cycle control," IEEE Trans. Power Electron. , vol. 25, no. 7, pp. 1671–1674, Jul. 2010.
  12. A. Fujita, H. Sadakata, I. Hirota, H. Omori, and M. Nakaoka, "Latest developments of high-frequency series load resonant inverter type builtin cooktops for induction heated all metallic appliances," in Proc. IEEE Power Electron. Motion Control Conf. , 2009, pp. 2537–2544.
  13. H. Sarnago, O. Luc´?a, A. Mediano, and J. M. Burd´?o, "Class-D/DE dualmode- operation resonant converter for improved-efficiency domestic induction heating system," IEEE Trans. Power Electron. , vol. 28, no. 3, pp. 1274–1285, 2013.
  14. H. Sarnago, O. Luc´?a, A. Mediano, and J. M. Burd´?o, "Modulation scheme for improved operation of a RB-IGBT based resonant inverter applied to domestic induction heating," IEEE Trans. Ind. l Electron. , vol. 60, no. 5,pp. 2066–2073, May 2013.
  15. Co, Tomas; Michigan Technological University (February 13, 2004). "Ziegler-Nichols Closed Loop Tuning". Retrieved 2007-06-24
Index Terms

Computer Science
Information Sciences

Keywords

PWM PID dsPIC MPLAB IDE MATLAB/SIMULINK