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研究生: 陳松智
Sung-chih Chen
論文名稱: 具低電流諧波失真及優異動態響應特性功率因數修正器之研製
Study and Implementation of a Power Factor Corrector with Low Current Harmonic Distortion and Superior Dynamic Response Features
指導教授: 羅有綱
Yu-kang Lo
邱煌仁
Huang-jen Chiu
口試委員: 歐勝源
Sheng-yuan Ou
劉益華
Yi-hua Liu
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: 2011
畢業學年度: 99
語文別: 中文
論文頁數: 87
中文關鍵詞: 連續電流導通模式功率因數修正器取樣與保持零檢測電路
外文關鍵詞: Sample and Hold, Zero Detection Circuit.
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    • 本論文主要目的係研製一具有外部取樣及保持(S/ H)電路設計之300 W連續電流導通模式(CCM)功率因數修正器。零點檢測(ZCD)電路之設計,能不受雜訊之干擾而達成正確的取樣。所研究功率因數修正器具有低輸入電流總諧波失真和優越動態響應特性的優點。
    本論文詳細分析及討論所研究功率因數修正器之操作原理與設計考量,一部雛型電路之實測結果驗證了所提出架構與控制方法的可行性,此電路可滿足能源之星規範要求。

    The main purpose of this thesis is to study and implement a 300 W continuous current conduction mode (CCM) power factor corrector (PFC) with an external sample and hold (S/H) circuit design. A zero crossing detection (ZCD) circuit is designed to avoid wrong sampling due to electromagnetic interference (EMI) issue. The proposed PFC converter has the advantages of low input current total harmonic distortion (THD) and superior dynamic response features.
    Operation principles and design considerations of the proposed PFC converter are analyzed and discussed in details. Experimental results of a laboratory prototype are shown to verify the feasibility of the proposed topology and control schemes. The prototype can substantially satisfy the requirements of the ENERGY STAR computer program.

    摘 要 I Abstract II 誌 謝 III 目 錄 IV 圖索引 VI 表索引 XII 第一章 緒論 1 1.1研究動機與目的 1 1.2 研究內容 2 1.3論文內容大綱 3 第二章 主動式功率因數修正電路原理簡介 4 2.1 功率因數的定義 4 2.2 升壓型功率因數修正之電路架構 10 2.3 功率因數修正技術的控制模式 12 2.4 取樣與保持電路原理分析設計 14 2.4.1取樣保持電路基本原理 14 2.4.2取樣保持電路的架構與比較 15 2.4.3功率因數修正器整合取樣保持電路之操作原理 16 第三章 電路設計 22 3. 1主動式功率因數修正器電路設計 22 3.1.1 CM6502的簡介 22 3.1.2電路規格 24 3.1.3 功率因數修正器功率級元件設計 24 3.2取樣與保持電路設計 28 3.3零點偵測電路設計 29 第四章 實驗數據及波形 30 4. 1一般功率修正器之波形與數據 30 4.2改良型功率修正器之波形與數據(500μs) 47 4.3改良型功率修正器之波形與數據(220μs) 64 第五章 總結與未來展望 83 5.1總結 83 5.2未來展望 83 參考文獻 85

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