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博碩士論文 etd-1016106-090904 詳細資訊
Title page for etd-1016106-090904
論文名稱
Title
高效能主動功因修正電路研製
Design and Implementation of High Efficient Active Power Factor Correction Circuits
系所名稱
Department
畢業學年期
Year, semester
語文別
Language
學位類別
Degree
頁數
Number of pages
117
研究生
Author
指導教授
Advisor
召集委員
Convenor
口試委員
Advisory Committee
口試日期
Date of Exam
2006-10-14
繳交日期
Date of Submission
2006-10-16
關鍵字
Keywords
功率因數修正、修正式比例積分控制、升壓型轉換器
PFC, Boost Converter, Modified PI
統計
Statistics
本論文已被瀏覽 5833 次,被下載 11500
The thesis/dissertation has been browsed 5833 times, has been downloaded 11500 times.
中文摘要
本論文主要是研究主動式功因修正電路,在功率級升壓型轉換器方面,用Matlab建立平均大訊號模型並利用小訊號模型建立轉移控制輸出函數來設計控制迴路的極點,在控制電路方面,分別設計傳統主動式功因修正控制電路與修正式比例積分控制之功因修正電路,經由模擬及硬體電路實作結果驗證修正式比例積分控制器在負載變化或輸入電壓變動下有較佳的穩壓效果及功率因數。
Abstract
The thesis aims at investigating an active power factor correction circuit. In boost power converter, we ser up average large signal model with Matlab and derive control–output function for pole assignment of control loop with ac small signal model. In controller, control circuit of conventional active power factor correction and modified PI control circuit are adopted, separately. Through simulation results and experimental responses of hardware circuit show that under variation of load or alternating input voltage, modified PI control circuit has better regulating capacity than that of conventional control circuit .
目次 Table of Contents
中文摘要 II
英文摘要 III
誌 謝 IV
目 錄 IV
圖目錄 VII
表目錄 XIII
第一章 緒論 1
1.1 研究背景 1
1.2 研究動機與研究流程 3
1.3 論文架構 6
第二章 功率因數修正 7
2.1 功率因數之定義 7
2.2 雙向電力流向與功因控制原理 11
2.3 功率因數修正控制方法 15
第三章 升壓型電力轉換器之分析及推導 20
3.1 升壓型轉換器狀態模式分析 20
3.2 Matlab平均大訊號模型建立 25
3.3 訊號擾動模型及轉移控制輸出函數建立 29
第四章 傳統主動功因修正電路設計 38
4.1 系統架構及元件值設計 38
4.2 控制電路分析設計 41
4.3 電路模擬驗證 45
4.4 硬體電路實作 54
第五章 修正式比例積分控制之功因修正電路設計 65
5.1 修正式比例積分控制電路設計 65
5.2 控制電路模擬驗證 74
5.3 硬體電路實作 83
第六章 結論及未來研究方向 96
6.1 結論 96
6.2 未來研究方向 98
參考文獻 99
參考文獻 References
[1] Sun, J. and H. Grotstollen, “Averaged Modeling of Switching Power Converters: Reformulation and Theoretical Basis,” IEEE PESC, pp.1162-1172, 1992.
[2] Liu Ping, Meng Yu, Kang Yong, Zhang Hui, Chen Jian, “Analysis of single-phase boost power factor correction (PFC) converter,” Power Electronics and Drive Systems, 1999. PEDS '99. Proceedings of the IEEE 1999 International Conference on Volume 2, 27-29 July 1999 Page(s):933-937 vol.2.
[3] Jian Sun, Bass, R.M., “A new approach to averaged modeling of PWM converters with current-mode control,” Industrial Electronics, Control and Instrumentation, 1997. IECON 97. 23rd International Conference on Volume 2, 9-14 Nov. 1997 Page(s):599 - 604 vol.2.
[4] C. Zhou, R.B. Ridley, F.C. Lee, “Design and analysis of a hysteretic boost power factor correction circuit,” Power Electronics Specialists Conference, 1990. PESC '90 Record., 21st Annual IEEE 11-14 June 1990 Page(s):800-807.
[5] Ben-Yaakov, S., Zeltser, I., “The dynamics a PWM boost converter with resistive input,” Power Electronics Specialists Conference, 1998. PESC 98 Record. 29th Annual IEEE Volume 1, 17-22 May 1998 Page(s):885 - 891 vol.1.
[6] R. B. Ridely, “A New Small-Signal Model for Current-Mode Control ,” Dissertation of Virginia Polytechnic Institute, Novermber 27, 1990.
[7] L. Dixon, “Average Current Mode Control of Switching Power Supplies,” Unitrode Application Note, U140.
[8] “Modeling, Analysis and Compensation of the Current-mode Converter,” Unitrode Applications Note, U-97.
[9] P. C. Todd,“UC3854 Controlled Power Factor Correction Circuit Design,” Unitrode Applications Note, U-134.
[10] R. J. King, “Analysis and design of an unusual untity-power factor rectifier ,” IEEE Tran. Ind. Electronics., vol. 38, no. 2, 1991.
[11] K. H. Lin and F. C. Lee, “Zero-Voltage Switching Technique in DC/DC Converters,” IEEE Trans. On Power Electronics, Vol. 5, pp. 293-304, 1990.
[12] V. F. Pires and J. F. ASilva, “Teaching Nonlinear Modeling, Simulation, and Control of Electronic Power Converters Using Matlab/Simulink,” IEEE Tran. Edu., vol. 45, no. 3, 2002.
[13] M. O Eissa, S. B. Leeb, G. C. Verghese, and A. M. Stankovic, “A fast analog controller for a unity-power factor ac/dc converter,” IEEE APEC Conf. Rec., pp. 551-555, 1994.
[14] D. Torrey and A. Al-Zamel, “Single-phase active power filters for multiple nonlinear loads,” IEEE Trans.Power Electronics, vol. 10, no. 3, 1995.
[15] H. L. Jou, J. C. Wu, and H. Y. Chu, “Simplified control method for the single-phase active power filter,” IEE Proc. Electron Power Appl., vol. 14, no. 3, 1996.
[16] D. S. Chen and J. S. Lai, “A study of power correction boost converter operating at CCM-DCM mode,” IEEE Southeastcon ’93 Proceedings, pp. 6, 1993
[17] 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,” IEEE APEC, Eighth Annual, pp. 267-273, 1993.
[18] M. Arias, G. Jayne, E. Aldabas and J. Romeral, “A New Hysteresis Band Current Controller,’’ IEEE Transactions on Power Electroncis specialists, Conf, 2002, pp. 1058-1062.
[19] C. Gatlan and L. Gatlan, “AC to DC PWM voltage source converter under hysteresis current control,” ISIE ’97 Proceedings of the IEEE International Symposium on, vol. 2, pp. 469-473, 1997.
[20] R. D. Middlebrook and S. Cuk, “ A General Unified Approach To Modeling Switching-Converter Power Stages,” IEEE PESC Conf. Rec. 1976.
[21] J. L. Lin and C. H. Hsi, “Modeling and Controller Design for Zero-Current-Zero-Voltage-Transition Soft-Switching Boost Power Converter,” NCKU Master Thesis, 2001.
[22] J. L. Lin and W. J. Yang, “Modified IVSC Stabilization and Swing up Control of an Inverted Pendulum,” R.O.C. Automatic Control Conference, pp. 150-153, 1997.
[23] V. I. Utkin, “Variable Structure Systems with Sliding Modes,” IEEE Trans. on Automatic Control, ” Vol. 22, No. 2, pp. 212-222, 1977.
[24] M. E. Aggoune, F. Boudjemaa, A. Bensenouce, A. Hellal, M. R. Elemesai and S. V. Vadari, “Design of Variable Structure Voltage Regulator Using Pole Assignment Technique,” IEEE Trans. On Automatic Control, Vol. 39, No. 10, pp. 2106-2111, 1994.
[25] T. L. Chern and Y. C. Wu, “Design of integral variable structure controller and application to electro-hydraulic velocity servo-systems,” IEE Proceeding-D, 138(5), 439-444, 1991.
[26] T. L. Chern and Y. C. Wu, “Integral variable structure control approach for robot manipulators,” IEE Proceeding-D, 139(2), 161-166, 1992.
[27] V. I. Utkin, “Variable structure systems with sliding modes,” IEEE Transactions on Automatic Control,” 22(2), 212-222, 1977.
[28] V. I. Utkin., “Sliding modes and their application in variable structure systems,” Mir Publishers, Moscow, 1978.
[29] 陳永平,”可變結構控制設計”,全華科技圖書,1999.
[30] 鄭大森, ”Pspice 視窗版Design Center 在電力電子上的應用”,全華科技圖書,1998.
[31] 林傳生, ”Matlab之使用與應用”,儒林圖書,2003.
[32] 宋自恆, 林慶仁, ”功率因數修正之原理與常用元件規格”,新電子科技雜誌第217 期.2004 年4 月號.
[33] 梁適安譯, ”高頻交換式電源供應器原理與設計”,二版,全華科技圖書,1995.
[34] 梁適安,”交換式電源供給器之理論與實務設計”,全華科技圖書,2004.
[35] 葉孝益, ”切換式電源供應系統功因控制分析與研究”,清華大學碩士論文, 2003.
[36] 劉育伶, ”非浮接開關之零電流零電壓轉移柔切式升壓型電力轉換器之分析研製及控制器設計”,成功大學碩士論文,,2002.
[37] 鄭凱方, ”主動式功因修正電路模型建立與設計”,中山大學碩士論文, 2005.
[38] 吳振嘉, ”主動式功率因數修正控制器電路之研究”,中山大學碩士論文, 2005.
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