以作者查詢圖書館館藏

、以作者查詢臺灣博碩士

、以作者查詢全國書目

、勘誤回報

、線上人數：25

、訪客IP：18.116.40.177

姓名	趙嘉新(Chia-Hsin Chao)  查詢紙本館藏	畢業系所	通訊工程學系在職專班
論文名稱	被動元件阻抗量測原理及實務 (Principles and Practices of Impedance Measurement for Passive Components)
相關論文	★ WiMAX基地台信號覆蓋實地量測與分析 ★ 正交分頻多工接收機中數位降頻器之低通濾波器設計 ★ 適用於數位電視之里德所羅門編解碼硬體實作 ★ 數位電視地面廣播系統之通道估測與等化器設計與實現 ★ 數位電視地面廣播之數位基頻收發機即時軟體設計與實現 ★ 數位電視地面廣播系統通道解碼之腓特比解碼器實現 ★ 無線區域網路收發機之整合實現與測試 ★ 以DSP處理器實現數位電視地面廣播系統發射機 ★ 數位電視內接收機同步系統之設計與實現 ★ AIS實體層(GMSK/FM)與資料鏈結層軟體無線電技術實現 ★ 數位電視地面廣播系統內接收機之快速傅立葉轉換處理器研究與設計 ★ 數位電視地面廣播之數位降頻器與再取樣器設計與實現 ★ 軟體無線電任意基頻訊號接收機系統設計及實現 ★ 陣列天線互耦及接收機增益與相位對波束合成器性能影響及校正研究 ★ 適用於OFDM系統之可變長度快速傅立葉轉換處理器設計與實現 ★ DVB-T數位電視廣播接收機之數位前端與同步系統設計與實現
檔案	[Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   至系統瀏覽論文 ( 永不開放)
摘要(中)	本文設計概念是使用超外差降頻的方式得到被動元件的量測電壓與電流訊號，取代直接降頻方式避免I/Q Imbalance及DC Offset問題，且搭配低調整範圍訊號源，避免頻率合成器直接輸出1MHz to 3000MHz，使壓控振盪器調整範圍比例為1:3000讓電路設計複雜度提高。最後使用繞線鐵氧體磁芯與傳輸線阻抗概念設計感應電流電路，讓系統的量測頻寬提高。
摘要(英)	The concept of design what uses method of the superheterodyne to obtain the signal of measurement voltage and current of passive components. It substitutes to method of direct-conversion to avoid the issues of I/Q imbalance and DC offset. And, it combines low tuning range (ratio) signal source to avoid the frequency synthesizer producing 1MHz to 3000MHz with direct, that tuning range ratio of voltage controlled oscillator be 1:3000. That will increase complexity to design a circuit. Finally, to use wire wound ferrite core combines the concept impedance of transmission line to create a sensing circuit that increases measurement band width for system.
關鍵字(中)	★ 阻抗 ★ 被動元件量測 ★ I/V轉換	關鍵字(英)	★ Impedance ★ Impedance Measurement for Passive Components ★ I to V Converter
論文目次	中文摘要.............................Ⅰ Abstract............................Ⅱ 誌謝................................Ⅲ 目錄................................Ⅳ 圖目錄..............................Ⅵ 表目錄..............................Ⅷ 第一章 : 緒論........................1 第二章 : 研究背景....................3 2.1 被動元件阻抗量測儀發展現況.......3 2.2 阻抗量測的基本概念..............5 2.3 系統方塊圖.....................9 第三章 : 原理介紹...................15 3.1 訊號產生模組架構...............15 3.2 RF I/V 架構...................22 3.2.1 電流擷取元件採用Balun.........25 3.2.2 繞線鐵氧體磁芯 Balun..........27 3.2.3 傳輸線阻抗方程式..............31 3.3 訊號接收模組架構...............34 第四章 : 關鍵元件之分析與模擬........41 4.1 訊號產生模組設計...............41 4.1.1 相位雜訊.....................42 4.1.2 信號對雜訊比與相位雜訊的關係...45 4.1.3 鎖相迴路的模擬................47 4.2 RF I/V 模擬...................48 4.3 訊號接收模組模擬...............54 4.4 校正..........................57 第五章 : 實機驗證...................61 5.1 區塊模組特性...................61 5.1.1 訊號產生模組..................61 5.1.2 RF I/V.......................61 5.1.3 訊號接收模組..................63 5.2 系統量測穩定度.................63 5.3 系統量測準確度.................65 第六章 : 結論.......................68 參考文獻............................70
參考文獻	[1] 袁杰，無線電高頻電路，初版，全華科技圖書，台北市，2002 [2] M. Bartoli, A. Reatti and M.K. Kazimierczuk, “High-Frequency Models of Ferrite Core Inductors”, Proceedings of IECON′94 - 20th Annual Conference of IEEE Industrial Electronics, Bologna, Italy, 5-9 Sept. 1994 [3] Keysight Technologies, “Impedance Measurement Handbook”, 6th Edition Application Note, Page 6 [4] V. Dumbrava, L. Svilainis, “The Automated Complex Impedance Measurement System”, Electronics and Electrical Engineering, nr. 4(76), p.59-62, Kaunas University of Technology, 2007 [5] Greg Amorese, “LCR / Impedance Measurement Basics”, Back to Basics Seminar, Hewlett-Packard Company, 1997 [6] Lauri Anttila, Mikko Valkama, Markku Renfors, “Circularity-Based I/Q Imbalance Compensation in Wideband Direct-Conversion Receiver”, IEEE Transactions on Vehicular Technology, Volume: 57, Issue: 4, Page 2099 – 2113, IEEE, July 2008 [7] Su, Kuo-Cheng, “An Ultra-Wide Tuning - Range VCO”, National Chiao Tung University, Master Thesis, July 2010 [8] Shuen-Ta Wu, “RF Mixer Design and Characterization”, Nation Tsing Hua, Master Thesis, July 2005 [9] Jhe-Ching Lyu, “Broadband Balance-to-Unbalance ( Balun ) Design”, National Chiao Tung University, Master Thesis, June 2006 [10]Kazuyuki Yagi, “US6414476_ Current Detecting Device, Impedance Measuring Instrument and Power Measuring Instrument”, United States Patent, Jan. 17 2001 [11] Zoya Popović, Branko D. Popović, Introductory Electromagnetics, 1/e, Prentice Hall, New Jersey, 1999 [12]袁帝文，王岳華，高頻電路設計，初版，高立圖書，台北市，1999 [13] Daniel Fleisch, A Student′s Guide to Maxwell′s Equations, 1/e, CAMBRIDGE UNIVERSITY PRESS, Malaysia, 2008 [14] S.V. Kulkarni, S.A. Khaparde, Transformer Engineering Design, Technology, and Diagnostics, 2/e, CRC Press, 2012 [15] Adrian Z. Amanci, Francis P. Dawson, Harry E. Ruda, “High Frequency Transformer Based on a Coupled Inductor Topology with Dielectric Isolation”, 2014 International Power Electronics Conference (IPEC-Hiroshima 2014 - ECCE ASIA), Hiroshima, Japan, 8-21 May 2014 [16]David M. Pozar, Microwave Engineering , 3/e, John Wiley & Sons Inc., 2005 [17]Rui-Kang Chen, “Design of Low Noise Amplifier and Voltage Controller Oscillator at 5G Band”, Master Thesis, National Sun Yat-sen University, January 2015 [18] 劉深淵，楊清淵，鎖相迴路，初版，滄海書局, 台中市，2011 [19] 翁萬德，江松茶，翁健二，通訊系統，第五版，全華圖書, 台北市，2010 [20]遠坂俊昭，PLL電路設計及應用，宋國明譯，初版，全華圖書，台北市， 2006 [21] Walt Kester, “Converting Oscillator Phase Noise to Time Jitter”, User Tutorial, ADI [22] 翁敏航，射頻被動元件設計，初版，東華書局，台北市，2006 [23] T. Yonekura, “A new calibration method for impedance meters”, DOI: 10.1109, IEEE Instrumentation and Measurement Technology Conference, 10-12 May 1994
指導教授	陳逸民(Yih-Min Chen)	審核日期	2021-8-23
推文	facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu
網路書籤	Google bookmarks   del.icio.us   hemidemi   myshare