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研究生:蔡振泓
研究生(外文):Zhen-hong Tsai
論文名稱:臨界導通模式控制之交錯式昇壓型它]修正器研製
論文名稱(外文):Design and Implementation of Interleaved Boost PFC Converter with Critical-Conduction Mode Control
指導教授:吳財福陳耀銘
指導教授(外文):Tsai-fu WuYaow-ming Chen
學位類別:碩士
校院名稱:國立中正大學
系所名稱:電機工程所
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2006
畢業學年度:95
語文別:中文
論文頁數:97
中文關鍵詞:零電壓切換交錯式控制臨界導通模式
外文關鍵詞:Critical-conduction modeZVSInterleaved control
相關次數:
  • 被引用被引用:3
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  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
本論文提出新型它]修正控制晶片用以實現臨界導通模式控制之交錯式昇壓型它]修正器。交錯式昇壓型它]修正器採用臨界導通模式,可解決連續導通模式所產生的問題:較高的二極體逆向回復損失和傳導損失所造成的低轉換效率。此外,本論文所提之新型它]修正控制晶片為採用交錯式臨界導通模式,整合傳統兩組它]修正器控制晶片的弁鄔馧璊@晶片,根據其主要級閘極驅動訊號,觸發次要級閘極驅動訊號以產生正確的分相點,做為相對應的交錯式控制,可提升因臨界導通模式而受限的最大轉換必v,同時還兼具有簡化整體昇壓型它]修正電路設計的優點。本論文使用PSpice軟體來對所提的新型它]修正控制晶片進行模擬分析,以驗證本論文所提設計之正確性。
This thesis proposes a novel power factor correction (PFC) control IC used to implement the interleaved boost PFC converter with critical-conduction mode control. The proposed system adopts critical-conduction mode control and can solve problems arose from continuous-conduction mode control: large reverse recovery loss of diode, large conduction loss, and low transfer efficiency. Additionally, the proposed system integrates the functions of two individual PFC controllers into one single control IC. According to gate-driver signal of master stage, phase-shifted gate-driver signal of slave stage can be triggered. With interleaved control, the proposed system can increase the maximum transfer power and simplify overall boost PFC converter design. Finally, by applying the proposed novel PFC control IC in the interleaved boost converter, simulated results are presented to verify the proposed design.
中文摘要 i
英文摘要 ii
目錄 iii
圖目錄 vi
表目錄 xii
第一章 緒論 1
1-1 研究動機與目的 1
1-2 先前研究背景 1
1-3 研究方法與系統描述 2
1-4 論文內容概述 3
第二章 它]修正技術 5
2-1 它]的定義 5
2-2 它]修正器類型 6
2-2-1 被動型 6
2-2-1-1 LC濾波它]修正器 7
2-2-1-2 π型濾波它]修正器 7
2-2-1-3 填谷式部分濾波它]修正器 8
2-2-2 主動型 8
2-2-2-1 非隔離型 9
2-2-2-2 隔離型 10
2-2-3 它]修正器類型之比較 11
2-3 它]修正器操作模式 12
2-3-1 連續導通模式 13
2-3-1-1 磁滯電流控制法 13
2-3-1-2 峰値電流控制法 14
2-3-1-3 平均電流控制法 14
2-3-2 不連續導通模式 15
2-3-2-1 定頻控制法 15
2-3-2-2 邊界導通控制法 16
2-4 控制模式比較 16
第三章 交錯式昇壓型它]修正器 19
3-1 基本昇壓型轉換器 19
3-2 交錯式昇壓型轉換器 21
3-2-1 D³50%之電路動作模式 22
3-2-2 D 50%之電路動作模式 24
3-3 交錯式昇壓型它]修正器之設計 27
3-3-1 電氣規格 27
3-3-2 主要元件的設計與分析 27
第四章 新型它]修正控制電路 34
4-1 主要級控制電路 35
4-1-1 主要級零電壓偵測電路 35
4-1-2 固定導通時間控制電路 36
4-1-3 全輸入電壓控制電路 39
4-1-4 非受控時脈控制電路 40
4-1-5 電壓模式控制電路 42
4-1-6 負載範圍延伸控制電路 43
4-1-7 保護電路 44
4-2 次要級控制電路 47
4-2-1 次要級零電壓偵測電路 47
4-2-2 分相電路 48
4-3 低頻模組補償器設計 52
4-3-1 單台昇壓型它]修正器之模組電路推導 52
4-3-2 補償器設計 54
第五章 模擬分析結果 57
5-1 新型它]修正控制電路 57
5-1-1 主要級控制電路 57
5-1-2 次要級控制電路 60
5-2 臨界導通模式控制之昇壓型它]修正器 63
5-2-1 臨界導通模式控制之單台昇壓型它]修正器 63
5-2-2 臨界導通模式控制之交錯式昇壓型它]修正器 69
5-3 低頻模組電路之模擬與分析 73
第六章 結論與未來研究方向 77
6-1 結論 77
6-2 未來研究方向 77
參考文獻 79
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