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微波工程期末報告-論文研讀報告
Micro-Electro-Mechanical Deflectable Cantilever-Type
Rings: Application to Tunable Stop band Filters
授課老師:陳文山教授
學生:
蘇育慶
學號:m99s0204
作者:David Bouyge、David Mardivirin、 Jordi Bonache 、
Pierre Blondy、Aurelian Crunteanu 、Arnaud Pothier、
Miguel Durán-Sindreu。
發行日期 :2011/05
引用文獻篇數:13
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split
Ring Resonators (SRRs) Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to
Tunable Stopband Filters," Microwave and Wireless Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
綱
 前言
 主題設計和實驗結果
 結論
 參考文獻
目
 前言
前 言

此文章是應用於隙環共振器的微電機系統下的環形懸臂式可調阻抗式共
振微帶線

隙環共振器在週期性排列的狀態下受外來電磁波影響,會在其共振頻率
附近產生負值的等效磁導率,。在適當的安排下與週期性的細金屬線陣
列作結合,能在某特定頻段產生負折射的現象,而此形式的複合材料又
稱超穎材料。
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
 SRRs天線拓樸設計和實驗結果
Case1
模擬設計圖
(a)黑色的部分為此圖實驗時的部分
(b)截面離地狀態
(c)截面平放在地面
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
拓樸架構
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
Return loss 返回損失
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
Case2
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
量測圖
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
 結論
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
 自從讀了研究所之後自從踏入通訊這塊領域,發現
通訊知識非常廣泛,其中印刷式天線這塊領域是以
前大學所沒有碰過的一科,必須花時間去努力及研
究,而系上開了一門微波電路,藉由這次機會讓自
己在印刷式天線這方面知識有所獲得
Bouyge, D.; Mardivirin, D.; Bonache, J.; Crunteanu, A.; Pothier, A.; Duran-Sindreu, M.; Blondy, P.; Martin, F.; , "Split Ring Resonators (SRRs)
Based on Micro-Electro-Mechanical Deflectable Cantilever-Type Rings: Application to Tunable Stopband Filters," Microwave and Wireless
Components Letters, IEEE , vol.21, no.5, pp.243-245, May 2011
綱
 參考文獻
目
參考文獻







[1] J. B. Pendry, A. J. Holden, D. J. Robbins, and W. J. Stewart, “Magnetism from
conductors and enhanced nonlinear phenomena,” IEEE Trans. Microw. Theory Tech., vol.
47, no. 11, pp. 2075–2081, Nov. 1999.
[2] I. Gil, J. Bonache, J. García, and F. Martín, “Tunable metamaterial transmission lines
based on varactor loaded split rings resonators,” IEEE Trans. Microw. Theory Tech., vol.
54, no. 6, pp. 2665–2674, Jun. 2006.
[3] T. H. Hand and S. A. Cummer, “Frequency tunable electromagnetic metamaterial
using ferroelectric loaded split rings,” J. Appl. Phys., vol. 103, Mar. 2008, Paper 066105.
[4] I. Gil, F. Martín, X. Rottenberg, and W. De Raedt, “Tunable stop-band filter at Qband based on RF-MEMS metamaterials,” Electron. Lett., vol. 43, p. 1153, Oct. 2007.
[5] T. Hand and S. Cummer, “Characterization of tunable metamaterial elements using
MEMS switches,” IEEE AntennasWireless Propag. Lett., vol. 6, no. 11, pp. 401–404, Oct.
2007.
[6] Q. Zhao, L. Kang, B. Du, B. Li, J. Zhou, H. Tang, X. Liang, and B. Zhang,
“Electrically tunable negative permeability metamaterials based on nematic liquid
crystals,” Appl. Phys. Lett., vol. 90, Jan. 2007, paper 011112.
[7] M. Gil, C. Damm, A. Giere, M. Sazegar, J. Bonache, R. Jakoby, and F. Martín,
“Electrically tunable split-ring resonators at microwave frequencies based on BariumStrontium Titanate thick-film,” Electron. Lett., vol. 45, no. 8, pp. 417–419, Apr. 2009.
E.N.D