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研究生:張家銘
研究生(外文):CHANG, CHIA-MING
論文名稱:旋轉感應電力傳送應用於LED照明系統
論文名稱(外文):Rotary Inductive Power Transfer for LED lighting Systems
指導教授:侯中權
指導教授(外文):HOU, CHUNG-CHUAN
口試委員:蘇信銘廖振宏
口試委員(外文):SUE, SHINN-MINGLIAO, CHEN-HUNG
口試日期:2019-07-05
學位類別:碩士
校院名稱:中華大學
系所名稱:電機工程學系
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:2019
畢業學年度:107
語文別:中文
論文頁數:52
中文關鍵詞:非接觸式旋轉供電系統旋轉式感應耦合結構發光二極體( LED )照明
外文關鍵詞:Contactless rotating power transfer systemRotary inductive coupled structurelight-emitting diode (LED) lighting
相關次數:
  • 被引用被引用:0
  • 點閱點閱:116
  • 評分評分:
  • 下載下載:5
  • 收藏至我的研究室書目清單書目收藏:0
旋轉感應電力傳送(RIPT)系統具有無線電力傳送能力,並可用於任何角度的操作,以及靈活應用於發光二極體(LED)照明的優點。因此,本研究討論了RIPT在頻域和時域中對LED照明系統的性能。LED照明系統的RIPT特性是在不同的氣隙,負載變化等情況下測量的。模擬和實驗結果驗證了該方案的性能。
Rotary inductive power transfer (RIPT) systems have the advantages in wireless power transfer capability, unlimited angular position operation, and flexible light-emitting diode (LED) lighting application. Therefore, this study discusses the performances of RIPT for LED lighting systems in the frequency domain and time domain. The characteristics of the RIPT for LED lighting systems are measured under varied air gap, changed load, and so on. The simulation and experimental results are presented to validate the performances of the proposed scheme.
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 研究目的 2
1.3 論文架構 3
第二章 文獻回顧 4
2.1 感應電力傳送系統簡介 4
2.2 感應電力傳送技術基本原理 5
2.3 感應電力傳送技術類別 7
2.4 感應電力傳送系統架構分類 10
2.5發光二極體(LED)原理 11
第三章 操作原理 12
3.1 前言 12
3.2 變壓器的結構 12
3.3 系統的結構 13
3.4 系統架構 14
3.5 SPR等效電路與轉移函數 16
3.6 非共振NR等效電路與轉移函數 19
3.7 結論 21
第四章 實驗與模擬結果 22
4.1 簡介 22
4.2 等效電路模擬 23
4.3 感應電力傳送系統於線性負載下掃頻實驗結果 27
4.3.1 SPR諧振拓樸負載100Ω之掃頻實驗 27
4.3.2 非共振NR負載100Ω之掃頻實驗 30
4.3.3 SPR諧振拓樸之變動負載實驗 33
4.3.3 非共振NR之變動負載實驗 36
4.4 旋轉感應電力傳送應用於發光二極體照明系統 39
4.4.1 SPR旋轉感應電力傳送應用於LED照明系統 39
4.4.2 非共振NR旋轉感應電力傳送應用於LED照明系統 41
4.4.3 旋轉感應電力傳送應用於LED照明系統並提高機械頻率 43
第五章 結論 47
參考文獻 48
附錄 50

[1] Konstantinos D. Papastergiou and D. Ewen Macpherson, “An airborne radar power supply with contactless transfer of energy—Part I: rotating transformers,” IEEE Trans. on Industrial Electronics, vol.54, no.5, pp.2874-2884, Oct. 2007.
[2] M. Ruviaro, F. Runcos, N. Sadowski, and I. M. Borges, “Analysis and test results of a brushless doubly fed inductive machine with rotary transformer,” IEEE Trans. on Industrial Electronics, vol.59, no.6, pp.2670-2677, June 2012.
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[4] Ali Abdolkhani, Aiguo Patrick Hu, and Nirmal-Kumar C. Nair, “A double stator through-hole type contactless slipring for rotary wireless power transfer applications,” IEEE Trans. on Energy Conversion, vol.29, no.2, pp.426434, June 2014.
[5] Xiaohui Qu, Wei Zhang, Siu-Chung Wong, and Chi K. Tse, “Design of a current-source-output inductive power transfer LED lighting system,” IEEE Journal of Emerging and Selected Topics in Power Electronics, vol.3, no.1, pp.306-314, March 2015.
[6] Cong Zheng, Hongbo Ma, Jih-Sheng Lai, and Lanhua Zhang, “Design considerations to reduce gap variation and misalignment effects for the inductive power transfer system,” IEEE Trans. on Power Electronics, vol.30, no.11, pp.6108-6119, Nov. 2015.
[7] John M. Miller, Omer C. Onar, and Madhu Chinthavali, “Primary-side power flow control of wireless power transfer for electric vehicle charging,” IEEE Journal of Emerging and Selected Topics in Power Electronics, vol.3, no.1, pp.147-162, March 2015.
[8] Chung-Chuan Hou, Bo-Yen Chen, Kuo-Jui Lee, HengYuan Ku, Po-Chun Chang, and Tang-Jung Chen, “Resonant and non-resonant inductive power transfer systems based on planar spiral coils,” in Proc. IEEE IFEEC Conf., 2017, pp.428-433.
[9] 陳信銘。「旋轉式感應耦合結構於可旋型非接觸式電能傳輸系統之研究」。碩士論文,國立成功大學電機工程學系,2014。

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