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：45

、訪客IP：3.139.87.104

姓名	杜易和(Yi-He Tu)  查詢紙本館藏	畢業系所	電機工程學系
論文名稱	雙通帶之自耦合微帶線濾波器 (Microstrip Dual-Band Bandpass Filters Based on Self-Coupled Resonator)
相關論文	★ 應用於微波之多頻帶通濾波器之設計 ★ 使用可開關式帶通濾波器之低相位雜訊雙頻振盪器研製 ★ 共平面波導饋入槽孔偶極天線之寬頻與多頻應用 ★ 可具任意通帶之可調式多工器 ★ 利用非對稱步階式阻抗設計寬通帶寬止帶雙工器 ★ 基於散佈式耦合饋入架構之可開關式帶通濾波器 ★ 共平面波導饋入之寬頻雙圓極化天線 ★ 基於多共振路徑所設計之印刷式多頻帶天線 ★ 四通道可切換式帶通濾波器之研究 ★ 雙模態寬阻帶之基板合成波導濾波器 ★ 微小化倍頻壓抑直交分合波器之研製 ★ 可繞式小型偶極天線之研製 ★ 使用多重模態共振器實現多功能帶通濾波器 ★ 應用於Radio-over-Fiber系統之超高速微波光子發射器 ★ 使用長饋入線架構研製小型且具有高隔絕度的多工器 ★ 具有寬截止頻帶的帶通濾波器之研製
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]   [檢視]  [下載] 本電子論文使用權限為同意立即開放。 已達開放權限電子全文僅授權使用者為學術研究之目的，進行個人非營利性質之檢索、閱讀、列印。 請遵守中華民國著作權法之相關規定，切勿任意重製、散佈、改作、轉貼、播送，以免觸法。
摘要(中)	本論文介紹了四種雙頻帶帶通濾波器，在步階式阻抗共振器的基礎上，具有可控制的頻率比。為了改善步階式阻抗帶通濾波器的選擇度及頻率比，在共振器兩端開路端彼此耦合。而耦合線間耦合結構可化為等效電路，可使用奇偶模分析計算出與物理結構上不同的電氣長度。除此之外，在兩通帶間產生新增的兩個零點，比起典型的步階式阻抗濾波器有較好的止帶表現。 第一個電路是典型的二階步階式阻抗帶通濾波器，兩通帶的中心頻率為1GHz 及3.6GHz。第二個電路是具有自耦合結構的二階步階式阻抗帶通濾波器，兩通帶的中心頻率為 1GHz 及 4GHz，可以很明顯的理解到自耦合線的結構能增加其兩通帶間的頻率比。第三個電路是在第二個電路上增加源載間的弱耦合結構，可以看出耦合部分對於兩通帶中心零點位置的影響。為了增強自耦合線的影響，這裡介紹了第四個電路結構，將原本的自耦合部分取代指叉式電容以滿足更高的耦合係數需求，兩通帶的中心頻率為 1.1GHz 及 4.8GHz，以上的四種電路結構皆採用相同的阻抗比。
摘要(英)	In this thesis, four structures of dual-band bandpass filter(BPF) are introduced. Base on the step impedance resonator(SIR), the dual-band BPF has a controllable frequency ratio. To improve selectivity and the range of frequency ratio, two open-ended arms are coupled by each other. Because of the equivalent circuit in coupled-lines, different electric lengths can be calculated by even and odd mode analysis. In addition, two addition transmission zeros(TZ) that appear between two bands make rejection in stopband better than the typical SIR filter. The first circuit is a typical two-order SIR bandpass filter. The center frequency of the two pass-band are 1GHz and 3.6GHz.The second circuit is a two-order SIR bandpass filter within the self-coupled structure. The center frequency of the two pass-band are 1GHz and 4GHz. There is obviously realized self-coupled lines can increase the frequency ratio between two pass-band. The third circuit is the second circuit adding weak coupling between source and load. There can be found that the coupled-line section is closely related to the position of central TZ. In order to enhance the effect of self-coupled lines, the fourth circuit is introduced in this thesis. Replace the self-coupled section with interdigital capacitors to satisfy higher coupling coefficient. The center frequency of the two pass-band are 1.1GHz and 4.8GHz. These four structures are all using the same impedance ratio.
關鍵字(中)	★ 步階式阻抗共振器 ★ 雙通帶帶通濾波器 ★ 自耦合共振器	關鍵字(英)	★ stepped-impedance resonator ★ dual-band bandpass Filter ★ self-coupled resonator
論文目次	國 立 中 央 大 學..................................................................................................................1 摘要.............................................................................................................................................i Abstract .....................................................................................................................................ii 致謝...........................................................................................................................................iii 目錄...........................................................................................................................................iv 圖目錄.......................................................................................................................................vi 表目錄.....................................................................................................................................viii 第一章 緒論..............................................................................................................................1 1-1 研究動機.............................................................................................................................1 1-2 文獻回顧.............................................................................................................................1 1-3 章節介紹.............................................................................................................................4 第二章 濾波器的基本設計原理..............................................................................................5 2-1 集總式濾波器.....................................................................................................................5 2-2 分散式濾波器................................................................................................................... 11 2-3 外部品質因數...................................................................................................................14 2-4 耦合係數...........................................................................................................................16 第三章 運用自耦合之雙通帶濾波器....................................................................................21 3-1 步階式阻抗雙通帶帶通濾波器.......................................................................................21 3-1-1 步階式阻抗共振器之基本特性 ...................................................................................21 3-1-2 運用步階式阻抗共振器設計之二階雙通帶帶通濾波器 ...........................................24 3-2 運用自耦合設計雙通帶濾波器.......................................................................................26 3-2-1 自耦合共振器基本原理 ...............................................................................................26 3-2-2 運用所提出之自耦合共振器設計雙通帶帶通濾波器 ...............................................29 v 3-2-3 雙通帶自耦合濾波器模擬結果 ...................................................................................30 3-3 源載弱耦合對雙通帶自耦合濾波器的影響及分析.......................................................35 3-4 運用指叉式電容自耦合設計雙通帶濾波器...................................................................38 3-4-1 指叉式電容 ...................................................................................................................38 3-4-2 指叉式電容自耦合雙通帶濾波器模擬結果 ...............................................................39 第四章 結論............................................................................................................................42 參考文獻..................................................................................................................................43
參考文獻	[1] J.T. Kuo, T.H. Yeh, C.C. Yeh, “Design of Microstrip Bandpass Filters With a DualPassband Response,” IEEE Trans. Micro. Theory Tech, vol. 53, no. 4, pp.1331-1337, Apr. 2005. [2] S. B. Zhang and L. Zhu, “Synthesis design of dual-band bandpass filters with λ/4 stepped-impedance resonators,” IEEE Trans. Microw. Theory Tech., vol. 61, no. 12, pp. 1812– 1819, May 2013. [3] C.F. Chen, T.Y. Huang, and R.B. Wu, “Design of Dual- and Triple-Passband Filters Using Alternately Cascaded Multiband Resonators,” IEEE Trans. Micro. Theory Tech., vol. 54, no 9, pp. 3550-3558, Sep. 2006. [4] C.H. Kim, K. Chang, “Independently Controllable Dual-Band Bandpass Filters Using Asymmetric Stepped-Impedance Resonators,” IEEE Trans. Micro. Theory Tech., vol. 59, no 12, pp. 3037-3047, Sep. 2011. [5] K.W. Hsu and W.H. Tu ,“Compact Wide-Stopband Quad-Band Bandpass Filter with Tunable Transmission Zeros,” 2012 IEEE MTT-S International Microwave Symposium Digest, Montreal, QC, pp.1-3, Jun. 2012. [6] K.W. Hsu, J.H. Lin, W.C. Hung, and W.H. Tu, “Design of compact quad-band bandpass filter using semi-lumped resonators,” in IEEE MTT-S Int. Microw. Symp. Dig., Seattle, WA, USA, Jun. 2013, pp. 1–4. [7] S. Fu, B. Wu, J. Chen, S.J. Sun, C.H. Liang, "Novel Second-Order Dual-Mode DualBand Filters Using Capacitance Loaded Square Loop Resonator," IEEE Trans. Micro. Theory Tech., vol.60, no.3, pp.477-483, Mar. 2012. [8] D. M. Pozar, Microwave Engineering, 4th Edition: Wiley, 2011. [9] M. Makimoto and S. Yamashita, “Bandpass filters using parallel coupled stripline stepped impedance resonators,” IEEE Trans. Microw. Theory Tech, vol. 28, no. 12, pp. 1413– 44 1417, Dec. 1980. [10] J. S. Hong and M. J. Lancaster, Microstrip filters for RF/microwave applications, 2nd ed. New York: Wiley, 2001. [11] X. Wang , J. Wang , L. Zhu , W.-W. Choi , W. Wu,“Compact Stripline Dual-Band Bandpass Filters With Controllable Frequency Ratio and High Selectivity Based on SelfCoupled Resonator, ” IEEE Trans. Microw. Theory Tech., vol. 68, no. 1, pp. 102–110, Jan. 2020. [12] C.H. Wang, Y.S. Lin, and C.H. Chen, “Novel inductance-incorporated microstrip coupled-line bandpass filters with two attenuation poles,” in IEEE MTT-S Int. Microwave Symp. Dig., 2004, pp. 1979–1982. [13] W. Tu and K. Chang, “Microstrip elliptic-function low-pass filters using distributed elements or slotted ground structure,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 10, pp. 3786–3792, Oct. 2006. [14] W.-H. Tu and K. Chang, “Compact microstrip low-pass filter with sharp rejection,” IEEE Microw. Wireless Compon. Lett., vol. 15, no. 6, pp. 404–406, Jun. 2005.
指導教授	凃文化(Wen-Hua Tu)	審核日期	2022-1-14
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