[1] 蔡慶龍,“低功率複金屬燈與周邊裝置,"工研院能資所,2003。
[2] 林卓賢,“汽車氙燈之電子安定器設計,"交通大學電機與控制工 程學系碩士論文,2002。
[3] M. Shvartsas, and S. Ben-Yaakov, “A SPICE Compatible Model of High Intensity Discharge Lamps,” IEEE Power Electronics Specialists
Conference, vol. 2, pp. 1037 – 1042, June. 1999.
[4] J. Olsen, and W.P. Moskowitz, “Time Resolved Measurements of HID Lamp Acoustic Frequency Spectra,” IEEE Industry Applications Conference, vol. 3, pp. 2111 – 2116, Oct. 1998.
[5] P. van Tichelen, D. Weyen, and G. Meynen, “Test Results from High Intensity Discharge Lamps with Current Supplied at 50 Hz, 400 Hz and Modulated Between 15 and 35 kHz,” IEEE Industry Applications Conference, vol. 4, pp. 2225 – 2230, Oct. 1996.
[6] 宋明俊,林再福,謝憲坤,莫清賢,“複金屬燈點特性研究,"第 二十一屆電力工程研討會,2000。
[7] J. Zhou, L. Ma, and Z. Qian, “A Novel Method for Testing Acoustic Resonance of HID Lamps,” Proc, IEEE Applied Power Electronics Conference and Exposition, vol. 1, pp. 480 – 485, March. 1999.
[8] Y.C. Hsieh, C. S. Moo, H. W. Chen, and M. J. Soong, “Detection of Acoustic Resonance in Metal Halide Lamps,” Proc, IEEE International Symposium on Industrial Electronics, vol. 2, pp. 881 – 885, June. 2001.
[9] 謝耀慶,宋俊明,陳憲玟,莫清賢,“複金屬燈音頻共振特性研究,"
第二十一屆電力工程研討會,2000。
[10] W. Yan, Y.K.E. Ho, and S.Y.R. Hui, “Investigation on Methods of Eliminating Acoustic Resonance in Small Wattage
High-Intensity-Discharge (HID) Lamps,” IEEE Industry Applications Conference, vol. 5, pp. 3399 – 3406, Oct. 2000.
[11] S. Wada, A. Okada, and S. Morii, “Study of HID Lamps with Reduce Acoustic Resonance,” Journal of the Illuminating Engineering Society, pp. 162 – 175, 1987.
[12] L. Laskai, P. Enjeti, and I. J. Pitel, “White-Noise Modulation of High-Frequency High-Intensity Discharge Lamp Ballasts,” IEEE Transactions on Industry Applications, vol. 34, Issue. 3, pp. 597 – 605, May. 1998.
[13] M.Gulko and S. Ben-Yaakov, “A MHz Electronic Ballast for
Automotive-Type HID Lamps,” IEEE Power Electronics Specialists Conference, vol. 1, pp. 39 – 45, June. 1997.
[14] M. H. Ohsato, S. Inarida, G. Kimura, M. Shioya, and Kawaguchi, “New Type of Ballast for HID Lamps Using Series Resonant Circuit,” IEEE International Conference on Industrial Electronics, Control,
Instrumentation, and Automation, vol. 1, pp. 191 – 195, Nov. 1992.
[15] C. S. Moo, S. Y. Chan, and C. R. Lee, “A Single-Stage High Power Factor Electronic Ballast with Duty-Ratio Controlled Series Resonant Inverter,” IEEE Transactions on Industrial Electronics, vol. 46, Issue. 4, pp. 830 – 832, Aug. 1999.
[16] J. M. Alonso, C. Blanco, A. J. Calleia, E. Lopez, and M. Rico,
“Current-Clamped Resonant Inverter: Analysis and Design as a High Pressure Sodium Lamp Ballast,” IEEE Power Electronics Specialists Conference, vol. 2, pp. 999 – 1005, June. 1996.
[17] H. Kakehashi, M. Habu, T. Ninomiya, H. Ogasawara, and Y. Ohta,
“HID-Lamp Igniter Using a Two-Stage Magnetic-Pulse-Compression Circuit,” IEEE Applied Power Electronics Conference and Exposition, vol. 2, pp. 1174 – 1178, Feb. 1998.
[18] H. Kakehashi, M. Habu, T. Ninomiya, M. Shoyama, H. Ogasawara, and Y. Ohta, “Analysis of an HID-Lamp Igniter Using a Two-Stage
Magnetic-Pulse-Compression Circuit,” IEEE Power Electronics Specialists Conference, vol. 2, pp. 1768 – 1773, May. 1998.
[19] 復旦大學電光源實驗室,“電光源原理,"上海人民出版社,1976。
[20] 梁從主,“經濟部工業局九十年度工業技術人才培訓計畫講義,"
專案計畫名稱:電機工業人才培訓計畫,課程名稱:HID 電子燈電 子式安定器設計與研製,八月,2001。
[21] 莫清賢,林再福,林憲男,“最像日光的燈:氙燈,"電力電子技 術雙月刊 1999 年 4 月,pp. 19-25,1999。
[22] W. W. Byszewski, Y. M. Li, A. B. Budinger and P. D. Gergor, “Starting Of Metal Halide Lamps,” IEEE International Conference on Plasma Science, pp 87 – 87, June. 1992.
[23] Chin S. Moo, Chunk K. Huang, and Ying N. Hsiao, “High-Frequency Electronic Ballast with Auto-Tracking Control for Metal Halide Lamps,”
IEEE Industry Applications Conference, vol. 2, pp. 1025 – 1029, Oct.
2003.
[24] T. J. Liang, K. H. Su, and W. H. Fu, “High Frequency Electrical Circuit Model of Metal-Halide Lamp,” IEEE Applied Power Electronics
Conference and Exposition, vol. 2, pp. 1163 – 1167, Feb. 1998.
[25] J. Ribas, J.M. Alonso, A.J. Calleja, E. Lopez, J. Cardesin, J. Garcia, M.
Ballast for Metal Halide Lamps,” IEEE Applied Power Electronics Conference and Exposition, vol. 2, pp.1179 – 1184, Feb. 2003.
[26] 宋明俊,“複金屬燈特性研究,"中山大學電機工程學系碩士論文,
2000。
[27] H. Peng, S. Ratanapanachote, P. Enjeti, L. Laskai, and I. Pitel,
“Evaluation of Acoustic Resonance in Metal Halide Lamps and an Approach to Detect its Occurrence,” IEEE Industry Applications Conference, pp. 2276-2283, 1997.
[28] J. H. Campbell, “Initial Characteristics of High Intensity Discharge Lamps on High Frequency Power,” Illuminating Engineering Society, vol. 64, no. 12, pp. 713, 1969.
[29] H. H. Dahm, “New Reflection-Type Headlamps Using HID
Technology,” Automotive Design Advancements in Human Factors.
Warrendale, PA: Society Automotive Engineers, Inc. vol. SP 96/1166, pp.
153-156, 1996.
[30] A. Reatti, “Low-Cost High Power-Density Electronic Ballast for
Automotive HID Lamp,” IEEE Transactions on Power Electronics, vol.
15, Issue. 2, pp. 361 – 368, March. 2000.
[31] H. Nishimura, H. Nagase, K. Uchihashi, T. Shiomi and M. Fukuhara, “A New Electronic Ballasts for HID Lamps,” Journal of the Illuminating Engineering Society, pp. 70-76, 1988.
[32] J. Olsen, and W. P. Moskowitz, “Time Resolved Measurements of HID Lamp Acoustic Frequency Spectra,” IEEE Industry Applications
Conference, vol. 3, pp. 2111 – 2116, Oct. 1998.
[33] H. Peng, S. Ratanapanachote, P. Enjeti, L. Laskai, I. Pitel, “Evaluation of Acoustic Resonance in Metal Halide (MH) Lamps and an Approach to
Detect its Occurrence,” IEEE Industry Applications Conference, vol. 3, pp. 2276 – 2283, Oct. 1997.
[34] M. Ponce, A. Lopez, J. Correa, J. Arau, and J. M. Alonoso, “Electronic Ballast for HID Lamps with High Frequency Square Waveform to Avoid Acoustic Resonances,” IEEE Applied Power Electronics Conference and Exposition, vol. 2, pp. 658 – 663, March. 2001.
[35] Huai Wei, and Issa Batarseh, “Comparison of Basic Converter Topologies for Power Factor Correction,” IEEE Proceedings of Southeastcon, pp. 348 – 353, April. 1998.
[36] Yan Jiang, Jinghai Zhou, and Zhaoming Qian, “A Novel Single Stage Single Switch PFC Converter with Constant Power Control for Ballast for Medium HID Lamps,” IEEE Industry Applications Conference, vol.
5, pp. 3415 – 3418, Oct. 2000.
[37] V. S. Murali, and C. K. Tse, “Comparison of Small-Signal Dynamics of BIFRED and Single-Stage Cascaded Boost-and-Flyback PFC
Converters, ” IEEE Power Electronics Specialists Conference, vol. 2, pp.
1111 – 1117, May. 1998.
[38] G. Spiazzi, S. Buso, and D. Tagliavia, “A Low-Loss High-Power-Factor Flyback Rectifier Suitable for Smart Power Integration, ” IEEE Power Electronics Specialists Conference, vol. 2, pp. 805 – 810, June. 2000.
[39] 陳丹江,張仲超,“單級功率因數校正電路的直流母線電壓分析和 實驗研究,"浙江大學電力電子研究所。
[40] Jinrong Qian, Qun Zhao, and Fred C. Lee, “Single-Stage Single-Switch Power-Factor-Correction AC/DC Converters with DC-Bus Voltage Feedback for Universal Line Applications, ” IEEE Transactions on
[41] Jun-Young Lee, and Myung-Joong Youn, “A Single-Stage Power-Factor-Correction Converter with Simple Link Voltage Suppressing Circuit (LVSC),” IEEE Transactions on Industrial Electronics, vol. 48, Issue. 3, pp. 572 – 584, June. 2001.