博碩士論文 101521051 詳細資訊




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姓名 王登胤(Deng-Yin Wang)  查詢紙本館藏   畢業系所 電機工程學系
論文名稱 可獨立開關之四頻天線
(Independently Switchable Quad-band Antennas)
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摘要(中) 本論文中,利用在步階式阻抗共振器(Stepped-impedance resonator, SIR)末端加上二極體負載製作成可開關式的帶通濾波器,並在濾波器輸出端接上寬頻天線(Broadband Antenna),形成可開關之四頻天線。負載的二極體可改變步階式阻抗共振器共振條件。由於散佈式耦合的饋入技術的低負載效應,因此不需要複雜的匹配網路來設計多頻帶的電路。

四頻帶通濾波器電路架構包含二分之一波長步階式阻抗共振器、四分之一波長步階式阻抗共振器。每個通帶皆由一對共振器控制可增加設計自由度,並且使用散佈式耦合技術減少頻帶間的負載效應,即可將四個帶通濾波器整合在一起,並將二極體負載接在共振器末端以設計可獨立開關四個頻帶的可調式裝置。

寬頻天線為微帶線結構,包含單極輻射體,其架構為一半波長步階式阻抗共振器,以拉近倍頻之方式形成超寬頻通帶,並具有線性極化特性。將濾波器輸出端連接於寬頻天線之饋入端,作為通帶選擇器,即可實現多頻天線之架構。

本論文中以兩種不同介電常數跟介質損耗之電路板材進行實驗,並將可開關之天線與純被動天線加以比較,且輔以模擬結果,與設計理論,實測結果相互驗證。
摘要(英) In this thesis, we made switchable bandpass filters by adding diodes to the end of Stepped-impedance resonator (SIR). Then we combined broadband antennas to the output port of bandpass filters to form switchable quad-band antennas. As we switching the loading diodes, the resonance condition of SIRs would be changed. By low loading effect of distributed fed-in technique, there is no need to design complex matching network for multiband circuits.

Quad-band bandpass filters include quarter-wavelength and half-wavelength SIRs. Each passband is controlled by one pair of resonators and it will increase the degree of freedom to design. By the low loading effect of distributed coupling between passbands,four bandpass filters could be combine together, and the diodes at the end of resonators could perfume the switchable independently device.

Broadband antennas were built on microstrip line structure. The monopole radiator is a half-wavelength SIR. It performs a wide passband by pull down the harmonic frequencies, and it has linear polarization characteristics. We can implement multiband antennas by adding bandpass filters on the input port of antennas to make the passband selection.

We will perform experience on two kinds of substrates which have different relative dielectric constants and loss tangent values in this thesis. We will also compare the switchable antennas with passive ones. Finally we will identify our research by performing full-wave EM simulation and implement measurement.
關鍵字(中) ★ 可開關
★ 多頻天線
★ 寬頻天線
★ 四頻天線
關鍵字(英) ★ switchable
★ multiband antenna
★ broadband antenna
★ quadband antenna
論文目次 論文提要 I
Abstract II
致謝 III
目錄 IV
圖目錄 VI
表目錄 X
第一章 緒論 1
1-1 研究動機 1
1-2 文獻回顧 2
1-3 章節介紹 7
第二章 寬頻天線 8
2-1 簡介 8
2-2 步階式阻抗共振器之基本原理 8
2-2 寬頻天線的基本原理 10
2-3 天線設計參數分析 10
2-4 寬頻天線之輻射場型 16
2-5 電流分布與模態分析 20
2-6 結論 21
第三章 可獨立開關之四頻帶通濾波器 23
3-1 簡介 23
3-2 特徵阻抗比Rz < 1之步階式阻抗共振器 23
3-3 四頻帶通濾波器的設計理論 28
3-4 結論 34
第四章 可獨立開關之四頻天線 37
4-1 簡介 37
4-2 阻抗分析 37
4-3 純被動之四頻天線模擬與量測結果 39



4-3.1 S參數之模擬與量測結果 41
4-3.2 輻射場型之模擬與量測結果 43
4-4 可開關之四頻天線 53
4-4.1 可開關四頻天線之設計 53
4-4.2 可開關四頻天線之模擬 54
4-4.3 S參數之模擬與量測結果 56
4-4.4 輻射場型之模擬與量測結果 68
4-5 天線效率 93
4-5.1 純被動四頻天線之效率與能量傳遞 93
4-5.2 可開關四頻天線之效率與能量傳遞 93
4-6 結論 94
第五章 總結 96
參考文獻 103
參考文獻 [1]C. F. Tseng and C.-L. Huang, ” A wideband cross monopole antenna,” IEEE Trans. Antennas & propag., vol. 57, no. 8, pp. 2464–2468, Aug. 2009.

[2]Sz-Chi Weng, Ko-Wen Hsu, and Wen-Hua Tu, “Microstrip bandpass single-pole quadruple-throw switch and independently switchable quadruplexer,” IET Microw. Antenna Propag., vol. 8, no. 4, pp. 244–254, Apr. 2014.

[3]Chi-Feng Chen, Ting-Yi Huang, and Ruey-Beei Wu, “Design of Dual- and Triple-Passband Filters Using Alternately Cascaded Multiband Resonators,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 9, pp. 3550−3558 Sep. 2006.

[4]J. S. Hong and M. J. Lancaster, Microstrip Filters for RF/Microwave Application, New York: Wiley, 2001.

[5]Shih-Wei Chen, Deng-Yin Wang, and Wen-Hua Tu, “Dual-Band/Tri-Band/Broadband CPW-Fed Stepped-Impedance Slot Dipole Antennas,” IEEE Trans. Antennas Propag., vol. 62, no. 1, Jan. 2014.

[6]Shih-Yuan Chen, You-Chieh Chen, and Powen Hsu, “CPW-Fed Aperture-Coupled Slot Dipole Antenna for Tri-Band Operation,” IEEE Antennas And Wireless Propag. Lett., vol. 7, 2008.

[7]You-Chieh Chen, Shih-Yuan Chen, and Powen Hsu, “A Compact Triband Bow-Tie Slot Antenna Fed by a Coplanar Waveguide,” IEEE Antennas And Wireless Propag. Lett., vol. 9, 2010.

[8]Xin Sun, Gang Zeng, Hong-Chun Yang, and Yang Li, “A Compact Quadband CPW-Fed Slot Antenna for M-WiMAX/WLAN Applications,” IEEE Antennas And Wireless Propag. Lett., vol. 11, 2012.

[9]Jui-Han Lu and Bing-Jhang Huang, “Planar Compact Slot Antenna With Multi-Band Operation for IEEE 802.16m Applications,” IEEE Trans. Antennas Propag., vol. 61, no. 3, Mar. 2013.

[10]Wing Chi Mok, Sai Hoi Wong, Kwai Man Luk, and Kai Fong Lee,“Single-Patch Dual-Band and Triple-Band Patch Antennas,” IEEE Trans. Antennas Propag.,vol. 61, no. 8, Mar. 2013.

[11]Lev Pazin and Yehuda Leviatan,” Reconfigurable Slot Antenna for Switchable Multiband Operation in a Wide Frequency Range,” IEEE Antennas And
Wireless Propag. Lett., vol. 12, pp. 329–332, 2013.

[12]Huda A. Majid, M. Kamal A. Rahim, M. Rijal Hamid, and M. F. Ismail,” A Compact Frequency-Reconfigurable Narrowband Microstrip Slot Antenna,” IEEE Antennas and Wireless Propag. Lett., vol. 11, pp. 616–619, 2012.

[13]Ding-Bing Lin, Pang-Chun Tsai, I-Tseng Tang, and Peng-Su Chen,”Spiral and Multimode Antenna Miniaturization for DTV Signal Receptions,” IEEE Antennas And Wireless Propag. Lett., Vol. 9, pp. 902–905, 2010.

[14]Hattan F. Abutarboush, R. Nilavalan, S. W. Cheung, and Karim M. Nasr,” Compact Printed Multiband Antenna With Independent Setting Suitable for Fixed and Reconfigurable Wireless Communication Systems,” IEEE Trans. Antenna propag., vol. 60, no.8, pp. 3867– 3874, Aug. 2012.

[15]Y. L. Ban, S. C. Sun, P. P. Li, J. L. W. Li, and K. Kang, ”Compact Eight-Band Frequency Reconfigurable Antenna for LTE/WWAN Tablet Computer Applications,” IEEE Trans. Antennas propag., vol. 62, no. 1, pp. 471–475, Jan. 2014.

[16]L. Hinsz, and B. D. Braaten, ”A Frequency Reconfigurable Transmitter Antenna With Autonomous Switching Capabilities,” IEEE Trans. Antennas propag., vol. 62, no. 7, pp. 3809–3813, Jul. 2014.

[17]L. Pazin, and Y. Leviatan, ” Reconfigurable Rotated-T Slot Antenna for Cognitive Radio Systems,” IEEE Trans. Antennas propag., vol. 62, no. 5, pp. 2382–2387, May. 2014.

[18]H. F. Abutarboush, R. Nilavalan, S. W. Cheung, K. M. Nasr, T. Peter, D. Budimir, and H. A. Raweshidy, ” A Reconfigurable Wideband and Multiband Antenna Using Dual-Patch Elements for Compact Wireless Devices,” IEEE Trans. Antennas propag., vol. 60, no. 1, pp. 36–43, Jan. 2012.

[19]P. Bahramzy, O. Jagielski, S. Svendsen, and G. F. Pedersen, ” Compact Agile Antenna Concept Utilizing Reconfigurable Front End for Wireless Communications,” IEEE Trans. Antennas propag., Vol. 62, No. 9, pp. 4554–4563, Sep. 2014.
指導教授 凃文化(Wen-Hua Tu) 審核日期 2015-7-27
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