Development of sources of secondary power supply implemented using zero voltage switch technologies. Part 2. Circuits power supply solutions analysis

The aim of this research is to develop sources of secondary power supply 2000 volt using Zero Voltage Switch (ZVS). The paper consists of two parts describing various aspects of power supplies designing. The analysis of information materials and evaluation of critical parameters of some foreign power supplies are given in the first part of the paper. The second part describes technical realization of power supply options and possible uses of Zero Voltage Switch technology.

AC/DC источники электропитания, «мягкая» коммутация, Zero Voltage Switch, ZVS, AC/DC power supplies, Zero Voltage Switch, ZVS, electromagnetic interferences

1. Васильев В.Ю., Козляев Ю.Д., Пичугин И.В., Семенов Ю.Е., Гордиенко С.М., Антонов А.А. Разработка источников вторичного электропитания, реализованных с использованием технологии «мягкой» коммутации ключей. Часть 1. Анализ информационных материалов и образцов источников питания // Вестник СибГУТИ, 2012, №3, с.86-97.

2. Сайт компании Ecova Plug Load Solutions [Электронный ресурс]. URL: http://www.plugloadsolutions.com/80PlusPowerSupplies.aspx (дата обращения: 01.10.2012).

3. Jovanović M.M., Jang Y. State-of-the-art, single-phase, active power-factor-correction techniques for high-power applications – An overview // IEEE transactions on industrial electronics, june 2005, №3, vol.52, P.701-708.

4. Фролов А., Лузанов С., Рыбак А., Снетков Н. Однокаскадный корректор коэффициента мощности // Схемотехника, 2001, №10, с.12-14.

5. Braga H., Barbi I. A 3-kW unity-power-factor rectifier based on a two-cell boost converter using a new parallel-connection technique // IEEE transactions on industrial electronics, june 1999, №1, vol.14, P.209-217. Jovanović M.M., Jang Y., Liao P., Huang J.S., Tsai V., Pen H., Chang C., Sharifipour B. High performance power-factor-correction topologies for server applications // Delta Electronics Inc. Sixth Annual Hewlett-Packard Power Systems Technology Symposium, Sept.15, 1999.

6. Jang Y., Jovanović M.M. and Juan M. Ruiz A new three-phase two-switch ZVS PFC DCM boost rectifier // IEEE APEC, 2012, P.807-814.

7. Biela J., Hassler D., Miniböck J. and Kolar J.W. Optimal design of a 5kW/dm3/ 98.3% efficient TCM resonant transition single phase PFC rectifier // IEEE IPEC, 2010, P.1709-1716.

8. Designing High-Efficiency ATX Solutions. Practical design considerations & results from a 255 W reference design // Сайт компании ON Semiconductor [Электронный ресурс]. URL: http://www.onsemi.ru.com/pub/Collateral/TND356-D.PDF (дата обращения 15.09.2012).

9. Sri Jandhyala, Solley D. Meeting emerging power conversion efficiency needs // Electronic products, 2007, №12, vol.49, P.95-96.

10. DC-DC Converters: a primer // Сайт компании Jaycar Electronics [Электронный ресурс]. URL: http://www.jaycar.com.au/images_uploaded/dcdcconv.pdf (дата обращения 15.09.2012).

11. Wuidart L. Topologies for switched mode power supplies – Application note AN513/0393 // Сайт компании STMicroelectronics [Электронный ресурс]. URL:www.st.com/internet/com/TECHNICAL_RESOURCES/TECHNICAL_LITERATURE/APPLICATION_NOTE/CD00003910.pdf (дата обращения 15.09.2012).

12. Liu K.H. Resonant switches topologies and characteristics // Proc. IEEE PESC’85, 1985, P.106-116.

13. Yang J.J. and Lee F.C. Computer aided design and analysis of series resonant converters // Proc. IEEE IAS’87, 1987.

14. Oruganti R., Yang J. and Lee F.C. State plane analysis of parallel resonant converters // Proc. IEEE PESC’85, 1985.

15. Liu R., Batarseh I., Lee C.Q. Comparison of capacitively and inductively coupled parallel resonant converters // IEEE transactions on power electronics, 1993, vol.8, P.445-454.

16. Yang B., Lee F.C., Zhang A.J. and Huang G. LLC resonant converter for front end DC-DC conversion // IEEE APEC, 2002, vol. 2, P.1108-1112.

17. Zhong Ye Dual half-bridge DC/DC converter with wide-range ZVS and zero circulating current // IEEE ECCE, 2009, P.1353-1361.

18. Hong Huang FHA-based voltage gain function with harmonic compensation for LLC resonant converter // IEEE APEC, 2010, P.1770-1777.

19. Byeong Cheol Hyeon, Bo Hyung Cho Multiple output of dual half bridge LLC resonant converter using PFM-PD control // IEEE ECCE, 2009, P1133-1140.

20. Green Phase-Shifted Full-Bridge Controller with Synchronous Rectification. UCC28950 Data Sheet, TI Literature № SLUSA16B // Сайт компании TI [Электронный ресурс]. URL: www.ti.com/lit/ds/symlink/ucc28950.pdf (дата обращения 15.09.2012).