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研究生:張文賓
研究生(外文):Wen-Pin Chang
論文名稱:基於CC型鐵芯的無線電力傳送系統之分析
論文名稱(外文):Study of Wireless Power Transfer System Based on CC-type Ferrite Cores
指導教授:侯中權
指導教授(外文):Chung-Chuan Hou
學位類別:碩士
校院名稱:中華大學
系所名稱:電機工程學系碩士班
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:2015
畢業學年度:103
語文別:中文
論文頁數:59
中文關鍵詞:無線電力傳送鐵芯並聯電容
外文關鍵詞:Wireless power transferferrite coreparallel resonant
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近年來,因為電力電子的技術越來越進步,所以無線電力傳送系統變得更受歡迎和引人關注。相關的研究已經被討論,例如生物醫學、家用電器、電動車輛、道路供電和感應加熱。本文提出一個基於CC型鐵芯的無線電力傳送系統,利用推挽式轉換器去傳輸功率到二次側負載,選用二次側並聯諧振電路提高功率傳輸的能力,無線電力傳送系統的磁阻電路分析和等效電路轉移方程式在本文中被提出。
Recently, wireless power transfer (WPT) systems become more popular and attract attention, because power electronics technology is more and more progressive. Related research such as biomedical, household appliances, electric vehicle, roadway-powered, and induction heating are already discussed. This study presents a wireless power transfer system based on CC-type ferrite cores. The push-pull converter is utilized to transfer the power to secondary side load. Select a secondary parallel resonant circuit to improve the power transfer ability. The reluctance circuit analysis and equivalent circuit transfer function of WPT system is presented in this paper. The issues of the WPT system such as frequency, efficiency and air gap are discussed. The simulation results and experimental results are used to validate the performance of the WPT system.
摘要 I
Abstract II
致謝 III
目錄 IV
表目錄 VI
圖目錄 VII
第一章 緒論 1
1.1 前言 1
1.2 論文架構 2
第二章 文獻回顧 3
2.1 無線電力傳送 (Wireless power transfer)簡介 3
2.2 無線電力傳送基本原理 4
2.3 無線電力傳送技術 6
2.4 無線電力傳送應用 8
第三章 操作原理 9
3.1 前言 9
3.2 CC型鐵芯的結構 9
3.3 系統架構 12
3.4 等效磁路 15
3.5 等效電路與轉移方程式 17
3.6 結論 20
第四章 實驗與模擬結果 21
4.1 簡介 21
4.2 等效電路模擬 23
4.3 無線電力傳送系統於線性負載下掃頻實驗結果 26
4.3.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下掃頻實驗結果 26
4.3.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下掃頻實驗結果 28
4.4 無線電力傳送系統於線性負載下變動氣隙測量結果 30
4.5 無線電力傳送系統於線性負載下變動負載測量結果 32
4.5.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下實驗結果 32
4.5.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下實驗結果 34
4.6 無線電力傳送系統於線性負載下模擬結果 36
4.6.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下模擬結果 36
4.6.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下模擬結果 38
4.7 無線電力傳送系統於線性負載下實驗結果 40
4.7.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下實驗結果 40
4.7.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下實驗結果 42
4.8 無線電力傳送系統於MP3下模擬結果 44
4.8.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下模擬結果 44
4.8.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下模擬結果 46
4.9 無線電力傳送系統於MP3下實驗結果 48
4.9.1 諧振頻率50kHz於氣隙1mm,2mm,3mm下實驗結果 48
4.9.2 諧振頻率55kHz於氣隙1mm,2mm,3mm下實驗結果 50
第五章 結論 52
參考文獻 53
附錄 55

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