本論文提出一「風力發電轉換器之燒機測試系統」，其功能為模擬永磁式同步發電機之變壓變頻輸出，藉以提供風力發電轉換器進行燒機測試。此系統架構係由單相全橋式升壓型整流器與三相全橋式換流器所組成，其中整流器具有功率因數修正之功能，換流器可調整輸出的電壓振幅及頻率。控制核心為數位訊號處理器（Digital signal processor, DSP），藉由數位控制方式簡化硬體電路、加速系統的研製時程。最後，完成一輸入電壓110 Vac、輸出電壓30～120 Vac與輸出頻率40～120 Hz之燒機測試系統，以實驗結果驗證其可行性。

The “Burn-In Testing System of Wind Power Converter” is proposed in this thesis. The system function is to simulate the permanent magnet synchronous generator and provide wind power converter to proceed burn-in test. The system is composed of two stage. The front-stage is a single-phase full-bridge rectifier with voltage step-up function and power factor correction. The rear-stage is a three-phase full-bridge inverter used to regulate the output voltage and frequency. Digital signal processor is used as control kernel to simplify the practical circuit and speed up implementing process. Finally, a prototype of burn-in testing system with 110V input and 38-120V/40-120Hz output is implemented to verify the feasibility.

[1] 蔡信行，「替代燃料與再生能源」，科學發展月刊，第365期，民國92年5月。
[2] 施顏祥，中華民國九十九年度再生能源電能躉購費率及其計算公式，再生能源發展條例，第9 條第 1 項，民國99年
[3] World Wind Energy Report 2009, World Wind Energy Association, WWEA, Mar. 2010.
[4] 溫榮弘譯，「Power MOSFET應用技術」，初版，全華科技圖書，民國93年。
[5] 溫坤禮、陳德超譯，「最新交換式電源技術」，初版，全華科技圖書，民國87年。
[6] 梁適安著，「交換式電源供給器之理論與實務設計」，初版，全華科技圖書，民國86年。
[7] 梁適安譯，「高頻交換式電源供應器原理與設計」，第二版，全華科技圖書，民國84年。
[8] EPARC著，「電力電子學綜論」，初版，全華科技圖書，民國97年。
[9] F. Beaufort, “Beaufort scale,” 1805.
[10] P. R. Mukund, Wind and solar power systems : design, analysis and operation, Taylor & Francis, 2006.
[11] Z. Lubosny, Wind Turbine Operation in Electric Power systerms, Springer, 2003.
[12] S. Heier, Grid Integration of Wind Energy Conversion systerms, John Wiley& Sons, Inc., 2006.
[13] I. Paraschivoiu, Wind Turbine Design: with Emphasis on Darrieus Concept, Polytechnic, 2002.
[14] 牛山泉，「小型風車設計及製造」，復漢出版社，民國71 年。
[15] 游振和、洪寶亮、蘇育辰、簡弘奇，「風力發電的種類及控制模式概述」，台電工程月刊，第75 期，民國96 年5 月。
[16] S. J. Chapman, Electric machinery fundamentals, McGraw-Hill, inc., 2005.
[17] 子敬，「電機機械精釋」，超級科技圖書公司，民國90 年2 月。
[18] 林法正、魏榮宗，「電機控制」，東華書局股份有限公司，民國90 年。
[19] 邱天基、陳國堂，「電機機械」，全華科技圖書公司，民國83 年9 月。
[20] 劉昌煥，「交流電機控制」，東華書局股份有限公司，民國81 年。
[21] 鄭振東，「交換式電源手冊」，全華書局，民國96 年。
[22] 鄭培璿，「電力電子分析與模擬」，全華科技書局，民國91 年。
[23] J. Sebastián, A. Fernandez, P. Villegas, M. Hernando, and M. J. Prieto, “New topologies of active input current shapers to allow AC-to-DC converters to comply with the IEC-1000-3-2,” IEEE Proc. PESC 2000, vol. 2, pp. 565 –570, 2000.
[24] Electromagnetic Compatibility (EMC)—Part 3: Limits section II: Limits for harmoniccurrent emissions (Equipment input current 16A per phase), IEC 1000-3-2, 1st ed.,1995.
[25] 宋自恆、林慶仁，「功率因數修正電路原理與常用元件規格」，新電子科技雜誌，第217期，民國93年4月。
[26] J. M. Bourgeois, Circuit for Power Factor Correction with Regard to Mains Filtering, STMicroelectronics, 1999.
[27] H. Wei and I. Batarseh, “Comparison of basic converter topologies for power factor correction,” IEEE Southeastcon, pp. 348-353, 1998.
[28] D. S. L. Simonetti, J. Sebastian, and J. Uceda, “The discontinuous conduction mode sepic and cuk power factor preregulators: analysis and design,” IEEE Trans. Ind. Electron., vol. 44, no. 5, 1997.
[29] C. Zhou, R. B. Ridley, and F. C. Lee, “Design and analysis of a hysteretic boost power factor correction circuit,” IEEE Proc. PESC, pp. 800-807, 1990.
[30] 張占松、蔡宣三，「開關電源的原理與設計」，電子工業出版社，2007。
[31] C. Zhou and M. M. Jovanovic, “Design trade-offs in continuous current-mode controlled boost power-factor correction circuits,” International High-Frequency Power Conversion Conf., pp 209-220, 1992.
[32] P. B. Christophe, Switch-mode power supplies: spice simulations and practical designs, McGraw-Hill Inc., 2008.
[33] C. A. Canesin and I. Barbi, “Analysis and design of constant-frequency peak-current-controlled high-power-factor boost rectifier with slope compensation,” IEEE Proc. APEC '96, vol. 44 pp. 807-813, Mar. 1996.
[34] Power factor correction handbook, ON Semiconductor, 2007.
[35] R. W. Erickson and D. Maksimovic, Fundamental of power electronics, Second Edition, Kluwer academic publishers, 2001.
[36] M. F. Schlecht and B. A. Miwa, “Active power factor correction for switching power supplies,” IEEE Trans. Power Electron., vol. PE-22, no. 4, pp. 273-281, Oct. 1987.
[37] L6561, Enhanced transition mode power factor corrector, ST microelectronics application note, AN966, 2003.
[38] K. H. Liu and Y. L. Lin, “Current waveform distortion in power factor correction circuits employing discontinuous-mode boost converters,” IEEE PESC, pp. 825-829, 1989.
[39] 李茂順，” 單級三相高功因交流-直流轉換器之研製”，成功大學電機工程學系碩士論文，民國97年。
[40] N. Mohan, T. M. Undeland and W. P. Robbins, Power Electronics, John Wiley& Sons, Inc., 2003.
[41] 江炫樟譯，電力電子學，全華科技圖書股份有限公司，民國93年。
[42] H. W. van der Broeck, H. C. Skudelny and G. V. Stanke, “Analysis and realization of a pulsewidth modulator based on voltage space vectors,” IEEE Trans. on Power Electronics. Appl, Vol. 24, No. 1, pp. 142-150, 1988.
[43] B.K. Bose, Power Electronics and AC Drivers, Prentice-Hall Inc., 1989.
[44] TMS320LF/LC240xA DSP Controllers Reference Guide, Texas Instruments, 2002.
[45] 林容益，「TMS320F240X組合語言及C語言多功能控制應用」，全華科技圖書股份有限公司，民國94年。