研究生: |
黃健智 |
---|---|
論文名稱: |
釔鋇銅氧超導微波濾波器設計及製作 Design and Fabrication of YBa2Cu3O7-δMicrowave Filter |
指導教授: | 張秋男 |
學位類別: |
碩士 Master |
系所名稱: |
光電工程研究所 Graduate Institute of Electro-Optical Engineering |
論文出版年: | 2008 |
畢業學年度: | 96 |
語文別: | 中文 |
論文頁數: | 79 |
中文關鍵詞: | 超導濾波器 、交錯耦合 |
英文關鍵詞: | filter, cross coupling |
論文種類: | 學術論文 |
相關次數: | 點閱:185 下載:8 |
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摘要
本論文是利用髮夾式共振電路之交錯耦合型微帶線帶通濾波器的架構以及零度饋入的方式來設計高溫超導濾波器。我們以RF濺鍍技術已成功地將中心頻率為2.205GHz的釔鋇銅氧帶通濾波器製造在面積為2×2cm2的氧化鎂 (MgO)基板上。顯示此元件的插入損耗為0.1dB,頻寬為9.6MHz,反射損失為15 dB。量測的結果與我們預期相符合,濾波器具有兩對的傳輸零點較好。
Abstract
We report the measurement result of a cross-coupled high-temperature superconducting microstrip bandpass filters made by using hairpin resonators and 0° feed-in transmission dots. This microwave filter was made of YBCO superconducting thin film and designed for a center frequency of 2.205 GHz. It was fabricated on a 2×2 cm2 MgO substrate by a RF sputtering technique. The measurements show that the insertion loss, return loss, and bandwidth are respectively, about 0.1dB, 15dB and 9.6MHz. Our results demonstrate that the filter with two pair transmission zeroes will have better performance.
[1] S. Wuensch, E. Crocoll, M. Neuhaus, T. A. Scherer, A. Stassen, H.-J, Wermund, W. Jutzi, and O. Lochner, “A 9 Pole Bandpass Filter at 2.7 GHz With YBCO Coplanar Wave Guides on a Sapphire Substrate,” IEEE Transactions on Applied Superconductivity, Vol. 13, No. 2, JUNE 2003.
[2] Zhewang Ma, Hideyuki Suzuki, and Yoshio Kobayashi, “A Low-Loss 5GHz Bandpass Filter Using HTS Coplanar Waveguide Quarter-Wavelength Resonators,” IEEE Trans. Microwave Theory Tech, Digest 2002.
[3] Atsushi Sanada, Takahiro Hamamura, Ikuo Awai, “Design of A High-TC Superconducting Bandpass filter using CPW Meaner-Line Parallel-Circuited Resonators,” Proceedings of APMC2001, Taipei, Taiwan, R.O.C.
[4] K. Yoshida, K. Sashiyama, S. Nishioka, H. Shimakage and Z. Wang, “Design and Performance of Miniaturized Superconducting Coplanar Waveguide Filters,” IEEE Transactions on AppliedSuperconductivity, Vol. 9, No. 2, June 1999.
[5] Zhi-Yuan Shen ,High-Temperature Superconduting Microwave Circuits.
[6] Balan A. Willemsen, “HTS Filter Subsystems for wireless Telecommunication, “IEEE Transaction on Applied
Superconductivity ,”Vol.11,pp.60-67,Mar.2001.
[7] New Cross-Coupled Filter Design Using Impored Hairpin
Ressonators IEEE Trans. On microwave theory and Tech. ,Vol 48,No12,December 2000.
[8] Kouji Wada and Ikuo Awai,”A λ/2 resonator BPF with multiple Attenuation poles and its miniaturization, “IEEE Trans. Microwave on Theory Tesh. , Digest 1999.
[9] Kenneth S. K. Yeo,Michael J. Lancaster, Member,“ The Design of Microstrip Six-Pole Quasi-Elliptic Filter with Liner Phase Response Using Extracted-Pole Technique, “IEEE Trans. Microwave on Theory Tesh., Vol.49 No 2,February 2001.
[10] M.Matsuo,and H. Yabuki,and M.Makimoto,”The design of a half-waveguide resonators BPF with attenuation poles at desired fieqencics, “IEEE Trans. Microwave Theory Tesh. , Digest 2000.
[11] 楊啟榮博士,“微機電系統原理與應用”,台師大機電所.
[12] Nathan Newman and W.Gregory Lyons,”High-Temperature
Superconducting Microwave Devices: Fundamental Issues in
Materials, Physics,and Engineering,” Joural of Superconductivity,Vol.6,No.3, 1993.
[13] 李君豪,“不同膜厚之釔鋇銅氧高溫超導薄膜的微波表面損耗”,交通大學電子物理所八十五學年度碩士班畢業論文.
[14] David M. Pozar, Microwave Engineering, second edition, 1998.
[15] RALPHLEVY, “Filters with Single Transmission Zeros at Real or Imaginary Freruencies ,” IEEE Trans. Microwave Theory Tesh.,Vol. MTT-24, No. 4 Apr. 1976
[16] T.Kinpara,M.Kusunoki, M.Mukaaida, and S.Ohsima,”Physica C vol. 357-360 pp. 1503-1506 ,2001.
[17] R. Levy, “Filter with single transmission zeros at real and imaginary frequencies,” IEEE Trans. Microwave Theory Tesh., Vol 24,pp 172-181,Apr.1976.
[18] Jia-Sheng Hong, and Michael J. Lancaster,”Dessign of Highly Selective Microstrip Bandpass Filter with a Single Pair of Attenuation Pole at Filter Freuencies,” IEEE Trans. Microwave Theory Tesh.,Vol 48 ,pp. 1098-1107,July 2000.
[19] G. L. Matthaei, L. Young, and E. M. Jones, “Microwave Filter, Impedance-Matching Networks, and Coupling Structures,” 1980.
[20] Jia-Sheng Hong,and M.J.Lancaster,”Couplings of Microstrip Squre Open-Loop Resonators for Cross-Coupled Planar microwave filter.” IEEE Trans. Microwave Theory Tesh.,MTT-44 ,pp.2099-210g, Vol.1996.
[21] 陳錡楓,“微小型高溫超導微波濾器之設計與製作”,國立交通大學電子物理系九十學年度碩士班畢業論文.
[22]李勝源,“具有額外傳輸零點之小型化微波平面式濾波器設計”,國立成功大學電機研究所九十學年度博士班畢業論文.
[23] Edward G. Cristal, and Sidney Frankel,”Hairpin –Line and Hybird Hairpin-Line /Half-wave Parallel-Coupled-Line Filter,” IEEE Trans. Microwave Theory Tesh.,Vol MTT-20,PP.719-728,Nov .1972.’
[24] Seymour B. Cohn,”Parallel-Coupled Transmission-Line-Resonator Filter,”IEEE Trans. on Microwave Theory and Techniques pp.223-231,1958.
[25] Morikazu Sagawa, Kenichi Takahashi, and Mitsuo
Makimoto,”Miniaturazed Hairpin Resonators Filter and Their
Application Receiver Front-End MIS’s “IEEE Trans. Microwave Theory Tesh.,Vol 37,pp.1991-1997,Dec. 1989.
[26] C. G. Montgomery, R.H. Dick,and E. M. Purcell, Principles of Microwave Circuits. New York: McGraw-Hill, 1948,ch.4.
[27] T. Edwards. Foundation for Microstrip circuit Design, 2nd New York: Wiley,1992,ch5.
[28] C. M. Tsai , S. Y. Lee, C. C. Tasi , “ Performance of panar filter using 0° feed structure ,” IEEE Trans. Microwave Theory Tesh., Vol. MTT-50,No 10,pp2362-2367,Oct 2002.
[29] 張振元, “共面波導帶通濾波器之設計”,國立台灣大學電信工程研究所碩士論文, 2001.
[30] 李勝源, “交錯耦合平面微波率波器之研製”,國立成功大學電機工程研究所八十六學年碩士畢業論文.
[31] Jia-Sheng Hong, and Michael J. Lancaster,”Cross-Coupled Microstrip Hairpin Resonater Filters,” IEEE Trans. Microwave Theory Tesh., Vol.46,pp.118-122,Jan 1998.
[32] Sonnet User’s Manuals Release -Version 9.52.
[33] 陳智城,“釔鋇銅氧多層膜之樣品製備與性質量測”,台灣大學物理所九十學年度碩士班畢業論文.
[34] “In-fixture Microstrip Device Measurements Using TRL
Calibration,”Product Note PN 8720-2, Agilent
Technologies,Inc.,2000.