本論文提出一具無損失緩振電路之泛用輸入電壓單級功因修正返馳式發光二極體驅動器。為提供高功率因數與低總諧波失真率，單級功因修正返馳式轉換器被運用。此外，為降低功率開關之電壓應力、提昇功率轉換之效率、調節輸出電壓，無損失緩振網路與隔離式輸出電壓感測網路的觀念被採用。無損失緩振網路與隔離式輸出電壓感測網路的兩個繞組被整合成一共同繞組以降低元件數。
最後，實做一24W具無損失緩振電路之泛用輸入電壓單級功因修正返馳式發光二極體驅動器以驗證其功能，如功率開關之電壓應力、功率轉換之效率、功率因數、總諧波失真率、輸入電流諧波。

This thesis presents a proposed universal-input single-stage PFC flyback LED driver with the lossless snubber circuit. In order to provide high power factor and low total harmonic distortion, the single-stage PFC flyback converter is employed. Moreover, in order to reduce the voltage stress on the power switch, increase the power-conversion efficiency, regulate the output voltage, the concepts of the lossless-snubber network and the isolated output-voltage-sensing network are adopted. The two windings of the lossless-snubber network and the output-voltage-sensing network are integrated as one common winding to reduce the component count
Finally, a prototype circuit of the 24W universal-input single-stage PFC flyback LED driver with the lossless snubber circuit is built to verify the performances, such as voltage stress on the power switch, power conversion efficiency, power factor, total harmonic distortion, and input current harmonics.

[1] Limits for Harmonic Current Emissions (Equipment Input Current ≦16 A Per Phase), IEC 61000-3-2, Nov. 2005.
[2] Garcia, J. A. Cobos, R. Prieto, P. Alou, and J. Uceda, 「Power Factor Correction: A Survey,」 in Proc. IEEE Power Electron. Spec. Conf., 2001, vol. 1, pp. 8-13.
[3] R. Erickson and M. Madigan, 「Design of a simple high-power-factor rectifier based on the flyback converter,」 in Proc. IEEE Appl. Power Electron. Conf., Mar. 1990, pp. 792-801.
[4] T. Wolpert, 「AC/DC converter with sinusoidal input current and a single converter stage,」 in Proc. IEEE Telecommunications Energy Conf. INTELEC』92, Aug. 1992, pp. 271-278.
[5] R. Redl, L. Balogh, and N. O. Sokal, 「A new family of single-stage isolated power factor correctors with fast regulation of the output voltage,」 in Proc. IEEE Power Electron. Spec. Conf., 1994, vol. 2, pp. 1137-1144.
[6] H. Wei and I. Bartarseh, 「A single-switch ac/dc converter with power factor correction,」 IEEE Trans. Power Electron., vol. 15, pp. 421-430, May 2000.
[7] N. Backman and T.Wolpert, 「Simplified single stage PFC including peak current mode control in a flyback converter,」 in Proc. IEEE INTLEC, 2000, pp. 317-324.
[8] D. G. Lamar, A. Fernandez, M. Arias, M. Rodriguez, J. Sebastian, and M. M. Hernando, 「Limitations of the flyback power factor corrector as a one-stage power supply,」 in Proc. IEEE Power Electron. Spec. Conf., June 2007, pp. 1343-1348.
[9] T. F. Pan, H. J. Chiu , S. J. Cheng, S. Y. Chyng, 「An improved single-stage flyback PFC converter for high-luminance lighting LED lamps,」 in Proc. IEEE Electronic Measurement and instruments Conf., 2007, vol. 4, pp. 212-215.
[10] T. L. Chern, L. H. Liu, P. L. Pan, and Y. J. Lee, 「Single-stage flyback converter for constant current output LED driver with power factor correction,」 in Proc. IEEE Ind. Electron. and Appl. Conf., May 2009, pp. 2891-2896.
[11] J. E. Yeon, D. S. Kim, K. M. Cho, and H. J. Kim, 「A single stage flyback power supply unit for LED lighting applications,」 in Proc. Electrical and Electron. Engineering Conf., Nov. 2009, vol. 1, pp. 288-292.
[12] J. R. Qian and D. F. Weng, 「Leakage energy recovering system and method for flyback converter,」 U.S. Patent 6473318B1, 2002.
[13] Tsu-Hua Ai, Integrated AC/DC Converters with Power Factor Correction and Nondissipative Snubber, Ph.D. Dissertation, National Cheng Kung University, 2002.
[14] C. M. F. Odulio, L. G. Sison, and M. T. Escoto, 「Regenerative clamp as reset winding in flyback converters for EDM applications,」 in Proc. IEEE Int. Conf. Ind. Technol., Dec. 2004, vol. 1, pp. 510-513.
[15] T. H. Ai, 「A novel integrated nondissipative snubber for flyback converter, 」 in Proc. IEEE-ICSS』05 Conf., 2005, pp. 66-71.
[16] C. S. Liao and K. M. Smedley, 「Design of high efficiency flyback converter with energy regenerative snubber,」 in Proc. IEEE Appl. Power Electron. Conf., Feb. 2008, pp. 796-800.
[17] C. E. Harm, G. Knoedl, and W. A. Nitz, 「Output voltage estimating circuit for a power converter having galvanic isolation between input and output circuits,」 U.S. Patent 5138543, Aug. 11, 1992.
[18] A. Ball and K. Valdez, 「Circuit and method for a switching power supply with primary side transformer sensing,」 US Patent 6,333,624, Dec. 25, 2001.
[19] C. W. Chang, Y. Y. Tzou, 「Primary-side sensing error analysis for flyback converters,」 in Proc. IEEE Power Electron. and Motion Control Conf., 2009, pp. 524-528.
[20] Claudio Adragna, 「Design equations of high-power-factor flyback converters based on the l6561,」 Appl. Note 1059, Sep. 2003.
[21] B. B. Wang, X. B. Ruan, K. Yao, and M. Xu, 「A single-switch ac/dc converter with power factor correction,」 IEEE Trans. Power Electron., vol. 25, pp. 592-601, March 2010.
[22] V. Vlatkovic, D.Borojevic, and F. C. Lee, 「Input filter design for power factor correction circuits,」 IEEE Trans. Power Electron., vol. 11, no. 1, pp. 199-205, Jan. 1996.
[23] R. L. Lin, H. Y. Liu, and H. M. Shih, 「AC-side CCM CS-CP-PFC electronic ballast,」 IEEE Trans. Power Electron., vol. 22, no. 3, pp. 789-796, May 2007.
[24] TM Technology, 「T6316A: Low-Dropout, Constant-Current White LED Bias Supply,」 Datasheet, Jun. 2006.
[25] A. Hren, J. Korelic, and M. Milanovic, 「RC-RCD clamp circuit for ringing losses reduction in a flyback converter,」 IEEE Trans. Analog and Digital Signal Processing, vol. 53, no. 5, pp. 369-373, May. 2006.
[26] H. K. Patel, 「Voltage transient spikes suppression in flyback converter using dissipative voltage snubbers,」 in Proc. IEEE Ind. Electron. and Appl. Conf., June 2008, pp. 897-901.