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研究生:林佳河
研究生(外文):Chia-Ho Lin
論文名稱:適用於無線通訊的陶瓷天線之研製
論文名稱(外文):Study and Manufacture of Ceramic Antenna for Wireless Communication
指導教授:陳華明陳華明引用關係
指導教授(外文):Hua-Ming Chen
學位類別:碩士
校院名稱:國立高雄應用科技大學
系所名稱:光電與通訊研究所
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2006
畢業學年度:94
語文別:中文
論文頁數:111
中文關鍵詞:陶瓷天線高介電常數天線介質負載天線介質激發天線介質共振天線晶片型天線
外文關鍵詞:Ceramic AntennaHigh Dielectric Constant Antennadielectric loaded antennadielectric excited antennadielectric resonator antennachip antenna
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本論文的研究主要為高介電常數的陶瓷天線之設計,利用陶瓷的高介電常數、高品質因數以及共振輻射等特性,製作出介質負載天線、介質激發天線和介質共振天線三種不同類型的高介電常數天線。第二章中利用高介電常數介質負載製作出涵蓋IEEE 802.11a/b/g頻段的晶片型陶瓷天線,此天線提供了輕巧、可表面黏著與雙頻操作的優良特性。第三章介質激發天線,以陶瓷介質的共振輻射作為激發源,激發植入H型以及雙H型槽孔的平面倒L型天線,使倒L型天線具有多頻段的操作並達到縮小化的效果,具有應用在手機天線上的優勢。最後,在第四章中,製作以混合式集成電抗性槽孔激發的介質共振天線,使陶瓷介質與槽孔同時產生共振,獲得雙頻段操作的介質共振天線,並研究加入寄生槽孔後的效應。
This thesis mainly study in dielectric antennas which have high permittivity for the application of wireless communication, and the high permittivity materials made of ceramic materials. Three different types of high dielectric constant antenna, dielectric loaded antenna, dielectric excited antenna and dielectric resonator antenna, are investigated and designed. In Chapter 2, a compact and surface-mounted dual-band chip antenna (dielectric loaded antenna) is presented. This antenna provides excellent performance and covers the frequency bands for IEEE802.11a/b/g applications. Next, in Chapter 3, a parasitic copper PILA (Planar Inverted-F Antenna) with single H or two perpendicular H slot is excited by dielectric resonator antenna to achieve multi-frequency operation. Besides, hybrid resonance of a dielectric resonator antenna and slot antenna is investigated experimentally in Chapter 4.
目 錄

中文摘要 ---------------------------------------------------------------- i
英文摘要 ---------------------------------------------------------------- ii
誌謝 ---------------------------------------------------------------- iii
目錄 ---------------------------------------------------------------- iv
表目錄 ---------------------------------------------------------------- vi
圖目錄 ---------------------------------------------------------------- vii
第一章 序論---------------------------------------------------------- 1
1.1 研究背景---------------------------------------------------- 1
1.2 研究目的---------------------------------------------------- 3
1.3 高介電常數天線簡介------------------------------------- 3
1.4 研究內容---------------------------------------------------- 5
第二章 介質負載天線設計---------------------------------------- 7
2.1 前言---------------------------------------------------------- 7
2.2 設計原理---------------------------------------------------- 8
2.3 天線設計---------------------------------------------------- 9
2.4 結果與討論------------------------------------------------- 13
2.5 結論---------------------------------------------------------- 24
第三章 介質負載天線設計---------------------------------------- 25
3.1 前言---------------------------------------------------------- 25
3.2 設計原理---------------------------------------------------- 26
3.3 陶瓷介質激發植入H型槽孔的倒L型天線---------- 28
3.3.1結果與討論------------------------------------------- 33
3.4 陶瓷介質激發植入雙H型槽孔的倒L型天線------- 49
3.4.1結果與討論------------------------------------------- 53
3.5 結論---------------------------------------------------------- 62
第四章 介質共振天線設計---------------------------------------- 63
4.1 前言---------------------------------------------------------- 63
4.2 設計原理---------------------------------------------------- 64
4.3 混合式電抗性槽孔激發介質共振天線---------------- 71
4.3.1結果與討論------------------------------------------- 74
4.4 加入寄生槽孔的介質共振天線------------------------- 86
4.4.1結果與討論------------------------------------------- 89
4.5 結論---------------------------------------------------------- 103
第五章 結論---------------------------------------------------------- 104
參考文獻 ---------------------------------------------------------------- 106
參考文獻

[1]Antenova Limited, High Dielectric Antennas White Paper, Antenova Limited, January 2004.
[2]R. Chatterjee, Dielectric and Dielectric-Loaded Antennas, London, U.K.: Research Studies Press, 1985.
[3]Y. P. Zhang, T. K. C. Lo, Y. M. Hwang, “A dielectric-loaded miniature antenna for microcellular and personal communications,” Antennas and Propagation Society International Symposium, 1995. AP-S. Digest, vol. 2, pp. 1152-1155, 18-23 Jun 1995.
[4]J. George, C. K. Anandan, P. Mohan, K.G.Nair, H.Sreemoolanathan and M.T.Sebastian, “Dielectric resonator loaded microstrip antenna for enhanced impedance bandwidth and efficiency,” Microwave and Optical Tech. Lett., vol. 17, No. 3, pp. 205-207, Feb. 1998.
[5]C. T. Cheung, C. M. Liu, P. Sung, D. B. Rutledge, ”A novel dielectric loaded antenna for wireless applications,” 1999 IEEE AP-S Int. Symp. Dig., Orlando, FL, pp. 38-41, July 1999.
[6]V. GUPTA, S. SINHA, S. K. KOUL and B. BHAT, “Suspended microstrip patch antenna with dielectric resonator loading for enhanced bandwidth,” Microwave Conference, 2000 Asia-Pacific, pp. 1330-1334, 2000.
[7]Ida, I., J. Sato, T. Sekizawa, H. Yoshimura, and K. Ito, “Dependence of the efficiency-bandwidth product on electrical volume of small dielectric loaded antennas,” IEEE Transactions on Antennas and Propagation, vol. 50, No. 6, pp. 821–826, 2002.
[8]M. Lapierre, Y. M. M. Antar, A. Ittipiboon and A. Petosa, “A wideband monopole antenna using dielectric resonator loading,” 2003 IEEE Antennas and Propagation Society International Symposium, vol. 3, pp. 16-19 , 22-27 June 2003.
[9]C.C. Chiau, X. Chen and C.G. Parini, "A miniature dielectric loaded folded half loop antenna and ground plane effects", IEEE Antennas and Wireless Propagation Letters, vol. 4, pp. 459- 462, 2005.
[10]Y. S. Wang; S. J. Chung, “Design of a dielectric-loaded quadrifilar helix antenna,” Antenna Technology Small Antennas and Novel Metamaterials, 2006 IEEE International Workshop on, pp. 229 - 232, March 6-8, 2006.
[11]R. Simons, R. Lee, “Effect of parasitic dielectric resonators on CPW/aperture-coupled dielectric resonator antennas,” IEE proceedings-H, 140, pp. 336-338, 1993.
[12]Z. Fan, Y. M. M. Antar, A. Ittipiboon and A. Petosa, “Parasitic coplanar three-element dielectric resonator antenna subarray,” Electronics Letters, vol. 32, No. 9, pp. 789-790, 1996.
[13]K. Lan, S. K. Chaudhuri and S. Safavi-Naeini, “Design and analysis of a combination antenna with rectangular dielectric resonator and inverted L-plate,” IEEE Transactions on Antennas and Propagation, vol. 53, No. 1, pp. 495–501, January 2005.
[14]S. A. Long, “The resonant cylindrical dielectric cavity antenna,” IEEE Trans. Antennas Propag., AP-31, No. 3, pp. 406-412,1983.
[15]M. W. McAllister, S. A. Long and G. L. Conway, “Rectangular dielectric resonator antenna,” Electron. Lett., vol. 19, pp. 218-219, Mar. 1983.
[16]M. W. McAllister and S. A. Long, “Rectangular dielectric resonator antenna,” Electron. Lett., vol. 20, pp. 657-659, Aug. 1983.
[17]R. A. Kranenburg and S. A. Long, “Microstrip transmission line excitation of dielectric resonator antennas,” Electron. Lett., vol. 24, pp. 1156-1157, Sept. 1988.
[18]A. A. Kishk, H. A. Auda and B. C. Ahn, “Radiation characteristics of cylindrical dielectric resonator antennas with new applications,” IEEE Antennas Propagat. Soc. Newslett., vol. 31 pp. 7-16, 1989.
[19]J. T. H. St. Martin, Y. M. M. Antar, A. A. Kishk and A. Ittipiboon, “Dielectric resonator antenna using aperture coupling,” Electron. Lett., vol. 26, pp. 2015-2016, Nov. 1990.
[20]R. A. Kranenburg and S. A. Long and J. T. Williams, “Coplanar waveguide excitation of dielectric resonator antennas,” IEEE Trans. Antennas Propagat., vol. 39, pp. 119-122, 1991.
[21]R. K, Mongia, “Theoretical and experimental resonator frequencies of rectangular dielectric resonators,” IEE Proc.-H, vol. 139, pp. 98-104, Feb. 1992.
[22]K. W. Leung, K. M. Luk, K. Y. A. Lai and D. Lin, “Theory and experiment of a coaxial probe fed dielectric resonator antenna,” IEEE Trans. Antennas Propagat., vol. 41, pp. 1390-1398, Oct. 1993.
[23]G. P. Junker, A. A. Kishk and A. W. Glisson, “Input impedance of dielectric resonator antennas excied by a coaxial probe,” IEEE Trans. Antennas Propagat., vol. 42, pp. 960-966,July 1994.
[24]G. P. Junker, A. A. Kishk , A. W. Glisson and D. Kajfez, “Effect of an air gap on cylindrical dielectric resonator antenna operating in TM01 mode,” Electron. Lett., vol. 30, pp. 97-98, Jan. 1994.
[25]G. P. Junker, A. A. Kishk , A. W. Glisson and D. Kajfez, “Effect of fabrication imperfections from ground-plane-backed dielectric resonator antennas,” IEEE Antennas Propagat. magazine, vol. 37, pp. 40-47, 1995.
[26]K. W. Leung, K. M. Luk, E. K. N. Yung and S. Lai, “Characteristics of a low-profile circular disk DR antenna with very high permittivity,” Electron. Lett., vol. 31, No. 6, pp. 417-418, Mar. 1995.
[27]G. P. Junker, A. A. Kishk and A. W. Glisson, “Input impedance of aperture-coupled dielectric resonator antennas,” IEEE Trans. Antennas Propagat., vol. 44, pp. 600-607,May 1996
[28]G. Drossos, Z. Wu and L. E. Davis, “A comparative study of circular microstrip and cylindrical dielectric resonator antennas,” 10th Int. Conference on Antennas Propagat., no. 436, pp. 38-42, 1997.
[29]A. Petosa, A. Ittipiboon, Y. M. M. Antar, D. Roscoe and M. Cuhaci, “Recent advances in dielectric-resonator antenna technology,” IEEE Antennas Propagat. magazine, vol. 40, pp. 35-48, 1998.
[30]G. Drossos, Z. Wu and L. E. Davis, “The air gap effect on a microstrip-coupled cylindrical dielectric resonator antenna,” Microw. And Opt. Techn. Lett., vol. 20, pp. 36-40, Jan. 1999.
[31]J. Moon, “Dielectric resonator antenna for dual-band PC/IMT-2000,” Electron. Lett., vol. 36, pp.1002-1003, 2000.
[32]A. A. Kishk and A. W. Glisson, “Bamdwidth enhancement for split cylindrical resonator antennas,” PIER 33, 97-118, 2001.
[33]K. M. Luk and K. W. Leung, Editors, “Dielectric Resonator Antennas,” Research Studies Press Ltd., Hertfordshire, England, UK, 2002.
[34]C. Nannini, J. M. Ribero, J. Y. Dauvignac, and Ch. Pichot, “A dual-frequency dielectric resonator antenna,” Microwave and Optical Technology Letters, vol. 38, No. 1, pp. 9-10, 2003
[35]K. M. Luk and H. K. Ng, “Theory and experiment of circularly polarized dielectric resonator antenna with a parasitic patch,” IEEE Trans. Antennas Propagat., vol. 51, no. 3, pp. 405-412, Mar. 2003.
[36]T. A. Denidni, Q. Rao, ”Hybrid dielectric resonator antennas with radiating slot for dual-frequency operation,” IEEE Antennas and Wireless Propagation Letters, vol. 3, pp. 321-323, 2004
[37]R. Chair, A. A. Kishk and K. F. Lee, “Wideband simple cylindrical dielectric resonator antennas,” IEEE Microwave and Wireless Component Letters, Vol. 15, no. 4, 2005
[38]A. G. Walsh, C. S.; DeYoung and S. A. Long, “An Investigation of Stacked and Embedded Cylindrical Dielectric Resonator Antennas,” IEEE Antennas and Wireless Propagation Letters, vol. 5, pp. 130-133, 2006.
[39]H. Matsushima, E. Hirose, Y. Shinohara, H. Arai and N. Goto, “Electromagneticall coupled dielectric chip antennas,” IEEE AP-S Int. Symp. Dig., Atlanta, GA, pp. 1954-1957, June 1998.
[40]Y. Dakaye, T. Suesada and K. Asakura, N. Nakajima and H. Mandai, “Chip multilayer antenna for 2.45GHz-band application using LTCC technology,“ 2000 IEEE MTT-S Int. Symp. Dig., pp. 1693-1696, 2000.
[41]W. Choi, S. Kwon and B. Lee, “Ceramic chip antenna using meander conductor lines,” Electronics Letters, vol. 37, pp. 933-934, 2001.
[42]J. Lee C. Jeon and B. Lee, “Design of ceramic chip antenna for Bluetooth applications using meander lines,” IEEE Antennas and Propagation Society International Symposium, vol. 4, pp.68-71, June 2002.
[43]T. W. Chiu, C. Wang, C. M. Su and K. L. Wong, “Surface-mountable dual side-feed circularly polarized ceramic chip antenna,” Electronic Materials and Packaging, pp. 434-437, Dec. 2002.
[44]S. H. Sim, C. Y. Kang, S. J. Yoon, Y. J. Yoon and H. J. Kim, “Broadband multilayer ceramic chip antenna for handsets,” Electronics Letters, vol. 38, Issue 5, pp.205-207, 28 Feb. 2002.
[45]K. L. Wong, “Planar antennas for wireless communications” John Wiley & Sons, New York, 2003.
[46]W. L. Stutzman and G. A. Thiele, Antenna Theory and Design, 2nd ed., John Wiley & Sons, New York, 1998.
[47]H. M. Chen, Y. F. Lin, C. C. Kuo and K. C. Huang, “A compact dual-band microstrip-fed monopole antenna,” 2001 IEEE AP-S Int. Symp., Boston, U.S.A., vol. 2, pp. 124-127, July 8-13, 2001.
[48]A. U. Bhobe, C. L. Holloway and M. Piket-May, “CPW fed wide-band hybrid slot antenna,” IEEE Antennas and Propagation Society International Symposium, vol. 2, pp. 636-639, 2000.
[49]A. U. Bhobe, C. L. Holloway and M. Piket-May, “Wide-band slot antennas with CPW feed lines: hybrid and log-periodic designs,” IEEE Trans. Antennas Propagat., vol. 52, no. 10, pp. 2545-2554, Oct. 2004.
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