(3.235.191.87) 您好!臺灣時間:2021/05/13 14:38
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果

詳目顯示:::

我願授權國圖
: 
twitterline
研究生:黃豐盛
研究生(外文):Feng-Sheng Huang
論文名稱:多頻段雙方環帶通濾波器設計
論文名稱(外文):Multi-band Dual-Square-Loop Band Pass Filter Design
指導教授:桂清平
學位類別:碩士
校院名稱:清雲科技大學
系所名稱:電子工程所
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:2013
畢業學年度:101
語文別:中文
論文頁數:75
中文關鍵詞:雙模雙方環多頻
外文關鍵詞:dual-modedouble square-loopmulti-band
相關次數:
  • 被引用被引用:0
  • 點閱點閱:88
  • 評分評分:系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
本論文設計三組濾波器,每組濾波器又分有雙模雙方環型以及折線型雙方環型兩種。這六個設計中,利用T型饋入的方式,在雙方環型諧振器可激發出雙頻、三頻、四頻等響應。應用上,由兩個方環的周長決定頻率響應,最多可獲得2.45GHz、3.5 GHz、5.2 GHz與6.9 GHz四個頻段,可應用於WLAN IEEE802.11a/b/g與WiMAX系統。
雙方環型結構具有四個帶通特性,響應特性中心頻率(2.45/3.51/5.29/6.91 GHz)、低介入損耗(-0.6/-0.64/-0.8/-1.39dB)、通帶頻寬外的高衰減特性(-53.6/-30.1/-28.1/-40.6/-11.8/-28.5 dB)、比例頻寬(15.7/8.2/12.8/6.7 %)。折線型雙方環型響應特性中心頻率(2.4/3.59/5.22/6.6 GHz)、低介入損耗(-0.72/-0.68/-1.3/-1.39dB) 、通帶頻寬外的高衰減特性(-58.8/-60.7/-47.6/-29.6/-13.2/-34.3 dB) 、比例頻寬(12/10.7/8.5/5.03 %),尺寸縮小12%。

This thesis design three sets of each set includes filter, dual-mode double square-loop filter and meander-line double square-loop filter. The six design, using T structure coupling to DMDSLR for dual-band, tri-band and quad-band. For practice, due to two square-loop perimeter determine the resonated frequencies, we can get 2.45/3.5/5.2/6.9 GHz quad-bands, it can be applied WLAN 802.11a/b/g and WiMAX system. The double square-loop structure having the four band-pass characteristics, center frequency (2.45/3.51/5.29/6.91 GHz), low insertion loss (-0.6/-0.64/-0.8/-1.39dB) higher out- of-band rejection level (-53.6/-30.1/-28.1/-40.6/-11.8/-28.5 dB), fractional bandwidth (15.7/8.2/12.8/ 6.7 %), meander-line double square-loop center frequency (2.4/3.59/5.22/6.6 GHz), low insertion loss (-0.72/-0.68/-1.3/-1.39dB), higher out-of-band rejection level (-58.8/-60.7/-47.6/-29.6/ -13.2/-34.3 dB), fractional bandwidth(12/10.7/8.5/5.03 %), size reduction with 12%

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 緒論………1
1.1 前言………1
1.2 文獻回顧………1
1.3 研究動機………3
1.4 論文架構………3
第二章 濾波器基本原理………… 4
2.1 濾波器基本型式……………… 4
2.1.1 頻率響應種類…………… 4
2.1.2 濾波器規格……………… 8
2.1.3 頻率響應性質…………… 10
2.2 濾波器類型………………… 10
2.2.1 集總式濾波器…………… 10
2.2.2 散佈式濾波器…………… 11
2.3 微帶線濾波器……………… 13
2.3.1 微帶線基本結構………… 14
2.3.2 微帶線濾波器的應用…… 14
第三章 方環濾波器基本原理……17
3.1 方環共振器……………… 17
3.1.1 基本原理………………… 17
3.2 雙模方環濾波器…………… 19
3.2.1 雙模技術………………… 19
3.2.2 頻率響應特性…………… 21
3.3 雙模雙方環濾波器………… 21
3.3.1 雙環頻率響應…………… 22
3.4 設計架構…………………… 27
第四章 多頻段雙方環帶通濾波器設計………… 28
4.1 設計一:雙頻段雙模雙方環濾波器(DMDSLR) … 28
4.1.1 頻率響應及電流分佈………………………29
4.2 設計二:折線型雙頻段雙模雙方環濾波器(Meander-shaped DMDSLR)… 30
4.2.1 頻率響應及電流分佈………………………31
4.3 設計三:三頻段雙方環濾波器(DMDSLR)……… 33
4.3.1 頻率響應及電流分佈…………………… 33
4.4 設計四:折線型三頻段雙方環濾波器(Meander- shaped DMDSLR)……… 35
4.4.1 頻率響應及電流分佈…………………… 36
4.5 設計五:四頻段雙方環濾波器(DMDSLR)………… 38
4.5.1頻率響應及電流分佈………………… 38
4.6 設計六:折線型四頻段雙方環濾波器(Meander- shaped DMDSLR)……… 40
4.6.1頻率響應及電流分佈…………………… 41
第五章 實驗與量測…………………………… 44
5.1 實驗流程…………………………………… 44
5.2 設計一:雙頻段雙模雙方環濾波器(DMDSLR)……… 46
5.2.1 參數調整………………………………… 46
5.2.2 頻率響應……………………………… 47
5.3 設計二:折線型雙頻段雙模雙方環濾波器(Meander-shaped DMDSLR)……… 49
5.3.1 參數調整………………………… 49
5.3.2 頻率響應…………………………… 50
5.4 設計三:三頻段雙方環濾波器(DMDSLR)……… 52
5.4.1 參數調整………………………… 52
5.4.2 頻率響應………………………… 53
5.5 設計四:折線型三頻段雙方環濾波器(Meander- shaped DMDSLR)………… 55
5.5.1 參數調整……………………… 55
5.5.2 頻率響應……………………… 56
5.6 設計五:四頻段雙方環濾波器(DMDSLR)… 58
5.6.1 參數調整………………………………… 58
5.6.2 頻率響應……………………………… 59
5.7 設計六:折線型四頻段雙方環濾波器(Meander- shaped DMDSLR)………… 61
5.7.1 參數調整…………………………………… 61
5.7.2 頻率響應…………………………………… 62
5.8 柴比雪夫濾波器……………………………… 64
5.8.1 柴比雪夫帶通濾波器設計………………… 64
5.8.2 結果分析…………………………… 65
第六章 結論…………………… 66
參考文獻…………… 70
簡歷……………………………… 75

(1) P. Troughton, “Measurement Techniques in Microstrip,” Electronics Letters, Volume 5, no. 2, pp. 25-26, Jan. 1969.
(2) I. Wolff, “Microstrip BandPass Filter Using Degenerate Modes of A Microstrip Ring Resonator,” Electronics Letters, Volume 8, no. 12, pp. 302-303, Jun. 1972.
(3) Y. S. Wu and F. J. Rosenbaum, “Mode Chart For Microstrip Ring Resonators,” IEEE Trans. Microwave Theory and Techniques, Volume 21, no. 7, pp. 487-489, Jul. 1973.
(4) J. A. Curtis and S. J. Fiedziuszko, “Miniature Dual Mode Microstrip Filter,” Microwave Symposium Digest IEEE MTT-S International, Volume 2, pp. 443-446, Jul. 1991.
(5) J. S. Hong and M. J. Lancastre, “Bandpass Characteristics of New Dual-mode Microstrip Square Loop Resonators, ” Electronics Letters, Volume 31, no. 11, pp. 891-892, May 1995.
(6) C. Peixeiro, “Microstrip Rectangular Ring Bandpass Filter Elements for GSM,” Microwave Conference Asia-Pacific, pp. 1273-1276, 2000
(7) A. Griol, J. Marti and L. Sempere, “Microstrip Multistage Coupled Ring BandPass Filters Using Spur-Line Filters for Harmonic Suppression, ”Electronics Letters, Volume 37, no. 9, pp. 572-573, Apr. 2001.
(8) L. H. Hsieh and K. Chang, “Dual-mode Quasi-Elliptic-Function BandPass Filters Using Ring Resonators with Enhanced-Coupling Tuning Stubs, ” IEEE Trans. Microwave Theory and Techniques, Volume 50, no. 5, pp. 1340-1345, May 2002.
(9) A. Görür, “Realization of a Dual-Mode BandPass Filter Exhibiting Either a Chebyshev or an Elliptic Characteristic by Changing Perturbation’s Size, ” IEEE Microwave and Wireless Components Letters, Volume 14, no. 3, pp. 118-120, Mar 2004.
(10) C. H. Hsu, H. T. Soong, C. L. Huang, and M. T. Kao, “Microstrip Rectangular Ring
BandPass Filter Design Using High Permittivity Substrate,” Microwave Conference
Proceedings, APMC Asia-Pacific Conference Proceedings, Volume 5, pp. 3, Dec. 2005.
(11) X. D. Huang and C. H. Cheng,“A Novel Coplanar-Waveguide BandPass Filter Using A
Dual-Mode Square-Ring Resonator,” IEEE Microwave and Wireless Components
Letters, Volume 14, no. 16, pp. 13-15, Jan. 2006.
(12) A. F. Sheta, N. Dib and A. Mohra, “Investigation of New Nondegenerate Dual-mode
Microstrip Patch Filter,” IEE Microwave Antennas and Propagation, Volume 153, no. 1, pp. 89-95, Feb. 2006.
(13) T. H. Huang, H. J. Chen, C. S. Chang, L. S. Chen, Y. H. Wang, and M. P. Houng, “A
Novel Compact Ring Dual-Mode Filter with Adjustable Second-PassBand for Dual-Band
Applications, ”IEEE Microwave and Wireless Components Letters, Volume 16, no. 6, pp.
360–362, Jun. 2006.
(14) M. Mokhtaari, J. Bomemana, K. Rambabu and S. Amari, “Coupling Matrix Design of
71
Dual and Triple PassBand Filters,” IEEE Trans. Microwave Theory and Techniques,
Volume 54, no. 11, pp. 3940-3945, Nov. 2006.
(15) C. F. Chen, T. Y. Huang and R. B. Wu, “Design of Dual- and Triple-PassBand Filters
Using Alternately Cascaded Multiband Resonators,” IEEE Trans. Microwave Theory and
Techniques, Volume 54, no. 9, pp. 3550-3558, Sep. 2006.
(16) C. H. Lee, C. I. G. Hsu and H. K. Jhuang, “Design of a New Tri-Band Microstrip BPF
Using Combined Quarter-Wavelength SIRs,” IEEE Microwave and Wireless
Components Letters, Volume 16, no. 11, pp. 594-596, Nov. 2006.
(17) Z. X. Chen, X. W. Dai, and C. H. Liang, “Novel Dual-Mode Dual-Band BandPass Filter
Using Double Square-Loop Structure,” Progress In Electromagnetics Research, PIER 77, pp. 409–416, 2007
(18) J. C. Liu, P. C. Lu, J. M. Chang, C. H. Chien, and C. P. Kuei, “Novel Dual-Mode
Square-Loop Resonators Using Hilbert Perturbation for Simultaneous Size Reduction and Mode Splitting, ” Microwave and Optical Technology. Letters, Volume 49, no. 7, pp. 1735–1739, Jul. 2007.
(19) G. M. Banciu, A. Loachim, R. Ramer, N. Militaru, and G. Lojewski, “Couplings Control
in a Compact Microstrip Dual-Mode Resonator, ”Microwave and Optical Technology
Letters, Volume 49, no. 9, pp. 2290-2295, Sep. 2007.
(20) R. J. Mao, X. H. Tang, and F. Xiao, “Miniaturized Dual-Mode ring BandPass Filters with
Patterned Ground Plane, ”IEEE Trans. Microwave Theory and Techniques, Volume 55,
no. 7, pp. 1539-1547, Jul. 2007.
(21) J. S. Hong, H. Shaman, and Y. H. Chun, “Dual-Mode Microstrip Open-Loop Resonators
and Filters, ”IEEE Trans. Microwave Theory and Techniques, Volume 55, no. 8, pp.
1764-1770, Aug. 2007.
(22) Y. Z. Wang, and M. L. Her, “Miniaturized Dual-Mode Microstrip BandPass Filters with
Wide Upper Stopband, ”IET Microwave. Antennas Propag Letters,. Volume 1, no. 4,
pp. 904-910, Aug. 2007.
(23) H. Zhao and T. J. Cui, “Novel Triple-Mode Resonators Using Split-Ring Resonator,”
Microwave and Optical Technology Volume 49, no. 12, pp.2918-2922, May 2007.
(24) X. Y. Zhang, and Q. Xue, “Novel Dual-Mode Dual-band Filters Using
Coplanar-Waveguide-Fed Ring Resonators,” IEEE Trans. Microwave Theory and
Technology Letters, Volume 55, no. 10, pp. 2183-2190, Oct. 2007.
(25) C. H. Chen, H. M. Chen, Y. F. Lin, and C. F. Yang, “Miniaturized Dual-Mode BandPass
Filter Using Meander Square-Ring Resonator, ” Microwave and Optical Technology. Letters, Volume 50, no. 8, pp. 2117-2119, Aug. 2008.
(26) X. W. Dai, C. H. Liang, and Z. X. Chen, “Novel Dual-Mode Dual-Band BandPass Filter
Using Nested Microstrip Meander-Loop Resonators, ” Microwave and Optical Technology. Letters, Volume 50, no. 3, pp. 863-868, Mar. 2008.
72
(27) Y. K. Su, J. R. Chen, M. H. Weng, and C. Y. Hung, “Design of Miniature and Harmonic
Control Patch Dual-Mode BandpPass Filter with Transmission Zeros,” Microwave and Optical Technology. Letters, Volume 50, no. 8, pp. 2161-2613, Aug. 2008.
(28) S. Wu, M. H. Weng, S. B. Jhong, and M. S. Lee, “A Novel Crossed Slotted Patch
Dual-Mode BandPass Filter with Two Transmission Zeros,” Microwave and Optical Technology. Letters, Volume 50, no. 3, pp. 741-744, Mar. 2008.
(29) J. Lee, and K. Sarabandi, “Design of Triple-PassBand Microwave Filters Using
Frequency Transformations,” IEEE Trans. Microwave Theory and Technology, Volume
56, no. 1, pp. 187–193, Jan. 2008.
(30) Q. X. Chu, and X. M. Lin, “Advanced Triple-Band BandPass Filter Using Tri-Section
SIR,” Electronics Letters, Volume 44, no. 4, pp. 295–296, Feb. 2008.
(31) W. Kang, W. Hong, and J. Y. Zhou, “Performance Improvement and Size Reduction of
Microstrip Dual-Mode BandPass Filter, ”Electronics Letters, Volume 44, no. 6,
pp. 421–422, Mar. 2008.
(32) F. C. Chen, Q. X. Chu and Z. H. Tu, “Tri-Band BandPass Filter Using Stub Loaded
Resonators,” Electronics Letters, Volume 44, no. 12, pp. 747–749, Jun 2008.
(33) C. I. G. Hsu, C. H. Lee, and Y. H. Hsieh, “Tri-Band BandPass Filter with Sharp Passband
Skirts Designed Using Tri-Section SIRs, ”IEEE Trans. Microwave Theory and
Techniques, Volume 18, no. 1, pp. 19–21, Jan. 2008.
(34) S. Luo, and L. Zhu, “A Novel Dual-Mode Dual-Band BandPass Filter Based on a Single
Ring Resonator,” IEEE Microwave Wireless and Components Letters, Volume 19, no.
8,pp. 497–499, Aug. 2009.
(35) Q. X. Chu, F. C. Chen, Z. H. Tu, and H. Wang, “A Novel Crossed Resonator and Its
Applications to BandPass Filters,” IEEE Trans Microwave Theory and Techniques, Volume 57, no. 7, pp. 1753–1759, Jul. 2009.
(36) F. C. Chen and Q. X. Chu, “Design of Compact Tri-Band BandPass Filters Using
Assembled Resonators,” IEEE Trans. Microwave Theory and Technology, Volume 57,
no. 1, pp.165-171, Jan. 2009.
(37) Y. C. Chiou, P. S. Yang, J. T. Kuo, and C. Y. Wu, “Trandmission Zero Design Graph for
Duak-Mode Dual-Band Filter with Periodic Stepped-Impedance Ring Resonator,” Progress In Electromagnetics Research Letters, Volume 108, pp. 23-26, 2010
(38) J. C. Liu, J. W. Wang, B. H. Zeng, and D. C. Chang, “CPW-Fed Dual-Mode
Double-Square-Ring Resonators for Quad-Band Filters,” IEEE Microwave and Wireless Components Letters, Volume 20, no. 3, pp. 142–144, Mar. 2010.
(39) X. Lai, C. H. Liang, H. Di, and B. Wu, “Design of Tri-Band Filter Based on Stub Loaded
Resonator and DGS Resonator,” IEEE Microwave and Wireless Components Letters, Volume 20, no. 5, pp. 265–267, May 2010.
(40) C. M. Cheng and C. F. Yang, “Develop Quad-band (1.57/2.45/3.5/5.2 GHz) BandPass
73
Filters on the Ceramic Substrate, ”IEEE Microwave and Wireless Components Letters,
Volume 20, no. 5, pp. 268–270, May, 2010.
(41) X. Y. Zhang, Q. Xue, and B. J. Hu, “Planar Tri-Band BandPass Filter With Compact
Size,” IEEE Microwave and Wireless Components Letters, Volume 20, no. 5,
pp. 262-264, May 2010.
(42) L. Y. Ren, “Tri-Band BandPass Filters Based on Dual-Plane Microstrip/DGS Slot
Structure,” IEEE Microwave and Wireless Components Letters, Volume 20, no. 8,
pp. 429-431, Aug. 2010.
(43) H. W. Wu, and R. Y. Yang, “A New Quad-Band BandPass Filter Using Asymmetric
Stepped Impedance Resonators,” IEEE Microwave and Wireless Components Letters, Volume 21, no. 4, pp. 203–205, Apr 2011.
(44) J. Z. Chen, N. Wang, Y. He and C. H. Liang, “Fourth-Order Tri-Band BandPass Filter
Using Square Ring Loaded Resonators,” Electronics Letters, Volume 47, no. 15,
pp. 858–859, Jun. 2011.
(45) J. Y. Wu, and W. H. Tu, “Design of Quad-Band BandPass Filter with Multiple
Transmission Zeros, ”Electronics Letters, Volume 47, no. 8, pp. 502–503, Apr. 2011.
(46) S. C. Lin, “Microstrip Dual/Quad-Band Filters with Coupled Lines and Quasi-Lumped
Impedance Inverters Based on Parallel-Path Transmission, ”IEEE Trans. Microwave
Theory and Techniques, Volume 59, no. 8, pp. 1937–1946, Aug. 2011.
(47) J. Y. Wu and Tu, W. H. Tu, “Design of Quad-Band BandPass Filter with Multiple
Transmission Zeros,” Electronics Letters, Volume 47, no. 8 pp. 502–503, Apr. 2011.
(48) S. Luo, L. Zhu, and S. Sun, “Compact Dual-Mode Triple-Band BandPass Filters Using
Three pairs of Degenerate Modes in a Ring Resonator,” IEEE Trans. Microwave Theory
and Techniques, Volume 59, no. 5, pp.1222–1229, May 2011.
(49) M. T. Doan, W. Q. Che, and W. J. Feng, “Tri-Band BandPass Filter Using Square Ring
Short Stub Loaded Resonators,” Electronics Letters, Volume 48, no. 12, pp.106-107, Jan.2012.
(50) J. Xu, C. Miao, L. Cui, Y. X. Ji and W. Wu, “Compact High Isolation Quad-Band
BandPass Filter Using Quad-Mode Resonator,” Electronics Letters, Volume 48, no. 1, pp.28-30, Jan. 2012.
(51) W. Y. Chen, M. H. Weng, and S. J. Chang, “A New Tri-Band Bandpass Filter Based on
Stub-Loaded Step-Impedance Resonator,” IEEE Microwave and Wireless Components Letters, Volume 22, no. 4, pp.179-181, Apr 2012.
(52) K. W. Hsu, and W. H. Tu, “Sharp-Rejection Quad-Band BandPass Filter Using
Meandering Structure, ”Electronics Letters, Volume 48, no. 15, pp.935-937, Jul. 2012.
(53) S Sun, B Wu, S Yang, K Deng, and C Liang, “A Novel Quad-Band Filter Using Centrally
Shorted-Stub Loaded Resonator and Stepped Impedance Resonator, ” Microwave Symposium Digest (MTT), 2012 IEEE MTT-S International , pp.1-3, 2012.
(54) C. F. Chen, “Design of a Compact Microstrip Quint-Band Filter Based on the Tri-Mode
74
Stub-Loaded Stepped-Impedance Resonators, ”IEEE Microwave and Wireless Components
Letters, Volume 22, Issue. 7, pp.357-359, May. 2012.
(55) 許迪翔,「應用C型耦合與互補式不連續環型諧振器結構之高通/帶通濾波器設計與
分析」,清雲科技大學-電機工程研究所,碩士論文,民國九十七年。
(56) 李炯宏,「串接/並接微擾雙模方環帶通濾波器之設計」,清雲科技大學-電機工程研
究所,碩士論文,民國九十八年。
(57) 王志偉,「應用共平面波導於雙模雙方環型/圓環型諧振器之多頻與寬頻濾波器設
計」,清雲科技大學-電子工程研究所,碩士論文,民國九十八年。
(58) 林協志,「應用網格式耦合結構與互補式不連續環型諧振器於寬頻帶通濾波器設計
與分析」,清雲科技大學-電機工程研究所,碩士論文,民國九十九年。
(59) 劉信祥,「閔考斯基碎型貼片帶通濾波器之微型化與多頻帶設計」,清雲科技大學-
電機工程研究所,碩士論文,民國一百零一年。
(60) 嚴志奇,「雙模雙方環型帶通濾波器之雙頻微型化設計」,清雲科技大學-電機工程
研究所,碩士論文,民國一百零一年。
(61) Zeland software inc., IE3D version 10.0, Jan 2005.

QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
系統版面圖檔 系統版面圖檔