研究生: |
謝孟軒 Meng-Hsuan Hsieh |
---|---|
論文名稱: |
交錯式降壓型功率因數修正器電磁干擾研究 Study on Electromagnetic Interference of Interleaved Buck Power Factor Correctors |
指導教授: |
羅有綱
Yu-Kang Lo 邱煌仁 Huang-Jen Chiu |
口試委員: |
林景源
none 林忠義 none |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電子工程系 Department of Electronic and Computer Engineering |
論文出版年: | 2013 |
畢業學年度: | 101 |
語文別: | 中文 |
論文頁數: | 115 |
中文關鍵詞: | 交錯式降壓型轉換器 、差模雜訊 、共模雜訊 、電磁干擾 |
外文關鍵詞: | interleaved buck converter, electromagnetic interference, common-mode noise, differential-mode noise |
相關次數: | 點閱:594 下載:9 |
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本論文主要研究目的係針對一寬範圍輸入之交錯式降壓型功率因數修正器,進行電磁干擾之研究。藉由建立差模雜訊與共模雜訊之等效電路,分析與討論差模電流與共模電流動作模式。一般型交錯式降壓型功率因數修正器與反向交錯式降壓型功率因數修正器之EMI雜訊差異,在實作結果與模擬軟體SIMPLIS上得到比較與驗證,最終設計交錯式降壓型功率因數修正器,可以符合EN55022 Class B之規範。
The main purpose of this thesis is to study the EMI issue of an universal input-voltage interleaved buck power factor corrector (IBPFC). The equivalent circuits of differential-mode (DM) noise and common-mode (CM) noise of an IBPFC are analyzed and discussed. The EMI noises of an IBPFC and an inverse IBPFC are verified and compared by SIMPLIS simulation and experimental measurement. Finally, an IBPFC is designed to meet the EMI specification EN55022 Class B.
[1] 梁適安,「交換式電源供給器之理論與實務設計(修訂版)」,台北:全華科技圖書股份有限公司,2008。
[2] Texas Instruments Inc., “Power Factor Correction Using the Buck Topology-Efficiency Benefits and Practical Design Considerations,” Application Note SLUP264, June 2010.
[3] Texas Instruments Inc., “UCC29910 Buck PFC Controller,” Data Sheet, June 2010.
[4] L. Huber, L. Gang, and M. M. Jovanovic, “Design-Oriented Analysis and Performance Evaluation of Buck PFC Front-End,” IEEE Transactions on Industrial Electronics, Vol. 25, No. 1, pp. 85-94, May 2010.
[5] 陳育文,「交錯式降壓型功率因數修正器之研製」,國立台灣科技大學電子工程系研究所碩士論文,民國102年。
[6] ST Microelectronics Inc., “Constant Current Inverse Buck LED Driver Using L6562A,” AN2983 Application note, Dec. 2009.
[7] A. I. Pressman, “Switching Power Supply Design,” McGraw-Hill, Inc., 2009.
[8] C. A. Canesin and I. Barbi, “Analysis and Design of Constant- Frequency Peak-Current-Controlled High-Power-Factor Boost Rectifier with Slope Compensation,” APEC '96., Vol. 2, pp. 807-813, March 1996.
[9] C. Zhou, “Active Boost Power Factor Analysis and Design,” IBM Corporation, April 20, 1989.
[10] M. F. Schlecht and B. A. Miwa, “Active Power Factor Correction for Switching Power Supplies,” IEEE Transactions on Power Electronics, Vol 1. PE-2, No. 4. Oct. 1987.
[11] 曾軍皓,「高效能功率因數修正器研製」,國立台灣科技大學電子工程系研究所碩士論文,民國95年。
[12] L. Huber, L. Gang, and M. M. Jovanovic, “Design-Oriented Analysis and Performance Evaluation of Buck PFC Front-End,” IEEE Transactions on Industrial Electronics, Vol. 25, No. 1, pp. 85-94, May 2010.
[13] G. Young, G. Tomlins, and A. Keogh, “An AC/DC Converter,” World Intellectual Property Organization, International Publication Number WO 2006/046220 A1, May 4, 2006.
[14] L. Huber and M. M. Jovanović, “Design-oriented Analysis and Performance Evaluation of Clamped-Current-Boost Input-Current Shaper for Universal-Input-Voltage Range,” IEEE Transactions on Power Electronics, Vol. 13, No.3, pp. 528-537, May 1998.
[15] ON Semiconductor, “Ramp Compensation for the NCP1200,” AND8029/D – Rev. 1, March 2001.
[16] ST Microelectronics Inc., “UC3842 Current Mode PWM Controller,” Datasheet, June 1999.
[17] M. Dadafshar and J. Choi, Fairchild Semiconductor, “Eliminate the Guesswork in Controlling,” Jan. 2008.
[18] L. Yang, “Modeling and Characterization of a PFC Converter in the Medium and High Frequency Ranges for Predicting the Conducted EMI,” Virginia Polytechnic Institute. Sept. 8, 2003.
[19] J. C. Crebier, J. Roudet, and J. L. Schanen, “A New Method for EMI Study in PFC Rectifiers,” in Conf. Rec. of IEEE Power Electron. Specialist Conf., 1999, pp. 855-860.
[20] S. Wang, “Characterization and Cancellation of High-Frequency Parasitics for EMI Filters and Noise Separators in Power Electronics Applications,” Virginia Polytechnic Institute, May 11, 2005.
[21] M. O’Hara, Newport Components, “Modeling Non-Ideal Inductors in SPICE,” U.K. November 8, 1993
[22] 史富元,「切換式電源供應器之雜訊分析與其EMI濾波器之設計」,國立台灣大學電機工程學研究所博士論文,民國八十四年。
[23] 林慶仁、宋自恆,「切換式電源供應器的EMI濾波器設計方法」,新電子科技雜誌第187期 10月號 2001年。
[24] J. S. Lai and D. Chen, “Design Consideration for Power Factor Correction Boost Converter Operating at the Boundary of Continuous Conduction Mode and Discontinuous Conduction Mode,” Proc. of IEEE Applied Power Electronics Conference and Exposition, pp. 267-273, 1993.
[25] TDK Ferrite Cores for Power Supply and EMI/RFI Filter, 2007.
[26] N. Mohan, T. M. Undeland, and W. P. Robbins, “Power Electronics Converters, Applications and Design,” John Wiley & Sons, 3rd Edition, 2003.
[27] R. W. Erickson and D. Maksimovic, “Fundamentals of Power Electronics,” Second Edition, Kluwer academic Publishers, 2001.
[28] ST Microelectronics Inc., “L4981A Power Factor Corrector,” ST Microelectronics Data Manual, Sept. 2000.
[29] ST Microelectronics Inc., “L4981A/B Power Factor Corrector,” ST Microelectronics Data Manual, Sept. 1998.
[30] 宋自恆、閻松駿,「主動式功率因數修正器之電感設計方式及雜訊對策徹底剖析」,新電子科技雜誌第240期 3月號 2006年。