Authors: Jose A. Pomilio, Olavo Bet, Mateus P. Vieira

Abstract:

The power converter that feeds high-frequency, highvoltage transformers must be carefully designed due to parasitic components, mainly the secondary winding capacitance and the leakage inductance, that introduces resonances in relatively lowfrequency range, next to the switching frequency. This paper considers applications in which the load (resistive) has an unpredictable behavior, changing from open to short-circuit condition faster than the output voltage control loop could react. In this context, to avoid overvoltage and over current situations, that could damage the converter, the transformer or the load, it is necessary to find an operation point that assure the desired output voltage in spite of the load condition. This can done adjusting the frequency response of the transformer adding an external inductance, together with selecting the switching frequency to get stable output voltage independently of the load.

Keywords: High-voltage transformer, Resonant converter, Softcommutation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1097387

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3020

References:

[1] M. K. Kazimierczuk, D. Czarkowski, Resonant Power Converters, John Wiley & Sons, 2001.
[2] C. J. Pagan, J. A. Pomilio, “Resonant High-Voltage Source Working at Resonance for Pulsed Laser”. Proc. of IEEE Power Electronics Specialists Conference, PESC ‘96, Baveno, Italy, June 24 to 27, 1996.
[3] J. Alonso, J. Garcia, A. Calleja, J. Ribas, and J. Cardesin, “Analysis, design, and experimentation of a high-voltage power supply for ozone generation based on current-fed parallel-resonant push-pull inverter”, IEEE Transactions on Industry Applications, vol. 41, no. 5, pp. 1364– 1372, Sept.-Oct. 2005.
[4] J. P. Bonaldo, J. A. Pomilio, “Control Strategies for High Frequency Voltage Source Converter for Ozone Generation”, IEEE International Symposium on Industrial Electronics, ISIE 2010, Bari, Italy, July 4 to 7.pp. 754-760, 2010.
[5] S. Lu, Z. Cheng, B. Wu, R.Sotudeh, “Modeling of Neon Tube Powered by High Frequency Converters”, IEEE IECON 2002, pp. 288-293.
[6] J. Ribas, J. Garcia, J. Cardesin, M. Dalla-Costa, A. J. Calleja, E. L. Corominas, “High Frequency Electronic Ballast for Metal Halide Lamps Based on a PLL Controlled Class E Resonant Inverter”, IEEE PESC 2005, pp. 1118-1123.
[7] S. A. González, M. I.Valla, C. H. Muravchik, “Analysis and Design of Clamped-Mode Resonant Converters with Variable Load” IEEE Trans. onIndustrial Electronics, Vol. 48, NO. 4, August 2001
[8] J. Baizan, A. Navarro-Crespin, R. Casanueva, F. J. Azcondo, C. Brafias, F. J. Diaz, “Converter with four quadrant switches for EDM applications, IEEE Industry Applications Society Annual Meeting, 2013.
[9] R. Casanueva, C. Brañas, F. J. Azcondo, S. Bracho, Resonant converters: properties and applications for variable loads, 31st Annual Conference of IEEE Industrial Electronics Society, 2005.
[10] A. Mizuno, A. Nagura, T. Miyamoto, A. Chakraberti, “A Portable Weed Control Device using High Frequency AC Voltage”, IEEE Industry Application Soc. Annual Meeting, pp. 2000-2003, 1993
[11] N. Shafiei; M. Pahlevaninezhad; H. Farzanehfard; A. Bakhshai; P. Jain, “Analysis of a Fifth-Order Resonant Converter for High-Voltage DC Power Supplies”, IEEE Transactions onPower Electronics, Vol. 28, Issue: 1, Jan. 2013, pp. 85 - 100