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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 吳瑞北(Ruey-Beei Wu) | |
dc.contributor.author | Ming-Hsuan Kuo | en |
dc.contributor.author | 郭明軒 | zh_TW |
dc.date.accessioned | 2021-06-15T16:18:50Z | - |
dc.date.available | 2015-08-20 | |
dc.date.copyright | 2015-08-20 | |
dc.date.issued | 2015 | |
dc.date.submitted | 2015-08-17 | |
dc.identifier.citation | [1] D. M. Pozar, Microwave Engineering, 3rd ed., New York: Welly, 2005.
[2] J. S. Hong and M. J. Lancaster, Microstrip Filters for RF/Microwave Applications, John Welly & Sons, Inc., 2001. [3] R. Levy, 'Theory of direct-coupled-cavity filters,' IEEE Trans. Microwave Theory Tech., vol. 15, no. 6, pp. 340-348, June 1967. [4] H. Uchimura, T. Takenoshita, and M. Fujii, 'Development of the ‘lamiated waveguide’,' IEEE Trans. Microwave Wireless Comp. Lett., vol. 46, no. 12, pp. 2438-2443, Dec. 1998. [5] D. Deslandes, and K. Wu, 'Integrated microstrip and rectangular waveguide in planar form,' IEEE Trans. Microwave Wireless Comp. Lett., vol. 11, no. 2, pp. 68-70, Feb. 2001. [6] T.-M. Shen, C.-F. Chen, T.-Y. Huang, and R.-B. Wu, 'Design of vertically stacked waveguide filters in LTCC ,' IEEE Trans. Microwave Theory Tech, vol. 55, no. 8, pp. 1771-1779, Aug 2007. [7] T.-M. Shen, T.-Y. Lin, T.-Y. Huang, and R.-B. Wu, ' A vertically stacked quasi elliptic waveguide filters with crossly coupling vias,' Proc. Asia Pacific Microw. Conf., pp. 667-670, Dec 2007. [8] 曾宇,應用於毫米波頻段之基板合成波導濾波器與三工器設計,國立台灣大學碩士論文,2014年6月 [9] G. Jonathan, B. Potelon, R. Eric, J.-F. Favennec, C. Quendo, C.-C. Caille, L. Herve, J.-C. Azzara, and L. Raynaud, 'Ultra-compact X-band SIW filter in LTCC technology using high permittivity substrate for a space application,' 2012 IEEE MTT-S International Microwave Symposium (IMS2012)Digest , June 2012 [10] B.-J. Chen , T.-M. Shen and R.-B. Wu 'Dual-band vertically stacked laminated waveguide filter design in LTCC technology,' IEEE Trans. Microw. Theory Techn., vol. 57, no. 6, pp.1554 -1562, June 2009 [11] W. Shen, W.-Y. Yin and X.-W Sun 'Miniaturized dual-band substrate integrated waveguide filter with controllable bandwidths,' IEEE Microw.Wireless Compon. Lett., pp. 418-420, vol. 21, no. 8, Aug. 2011 [12] J. Chen, J. X. Chen; H. Chu and Z. H. Bao, 'A novel X-band differential bandpass filter based on oversized substrate integrated waveguide cavity,' Cross Strait Quad-Regional Radio Science and Wireless Technology Conf., pp. 62-65, July 2013. [13] B. Zheng, Z. Zhao, and Y. Lv, 'Design of k-band oversized folded half mode substrate integrated waveguide (OFHMSIW) filter with high selectivity,' in Electronics, Communications and Control, pp. 2000-2002, Sep. 2011. [14] H.-Y. Chien, T.-M. Shen,T.-Y. Huang, and R.-B. Wu, 'Design of a vertically stacked substrate integrated folded-waveguide resonator filter in LTCC,' Proc. Asia Pacific Microw. Conf., pp. 675-678, Dec. 2007. [15] H.-Y. Chien, T.-M. Shen, T.-Y. Huang, W.-H. Wang, and R.-B. Wu, 'Miniaturized bandpass filter with double folded substrate integrated waveguide resonators in LTCC,' IEEE Trans. Microwave Theory Tech., vol. 57, no. 7, pp. 1774-1782, July 2009. [16] T.-Y. Huang, T.-M. Shen, B.-J. Chen, H.-Y. Chien, and R.-B. Wu,”Design of miniaturized vertically stacked SIW filters in LTCC,” Proc. European Microw. Conf., pp. 413-416, Sep. 2009. [17] T.-Y. Huang, T.-M. Shen, and R.-B. Wu 'A miniaturized bandpass filter using quadruple folded laminated waveguide cavity resonators in LTCC,' Proc. Asia Pacific Microw. Conf., pp. 667-670, Dec 2007. [18] J.-A. Curitis and S. J. Fiedziuszko, 'Miniature dual mode microstrip filters,' IEEE Trans. Microw. Theory Tech., pp.443-446, Jan 1991 [19] W.-P. Wen 'Miniaturized dual mode microwave filter', Microwave Conference Proceedings (APMC), 2010 Asia-Pacific, vol. 33, no. 4, pp. 7-10, Dec. 2010 [20] J-H. Lee, S. Pinel, J. Laskar and M.-M. Tentzeris, 'Design and Development of Advanced Cavity-Based Dual-Mode Filters Using Low-Temperature Co-Fired Ceramic Technology for V-Band Gigabit Wireless Systems', IEEE Trans. Microw. Theory Techn., pp. 1869-1879, Sep. 2007 [21] 璟德電子低溫共燒陶瓷(LTCC)製程誤差表(http://www.acxc.com.tw/ltcc.php) | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/52567 | - |
dc.description.abstract | 本論文探討疊層波導過模共振腔的特性及其應用。首先使用低溫共燒陶瓷(LTCC)技術分別實作毫米波頻段之過模與基模濾波器,模擬製程誤差對其效能造成的影響,分析其結果並以實驗驗證,進而提出以折疊過模共振腔實作之雙模濾波器,完成微小化設計。
欲分析製程誤差對濾波器效能造成的影響,本論文使用三組以不同模態實作但相同規格的濾波器,分別加入各項製程誤差參數並分析,包含層間錯動、金屬印製與金屬厚度誤差。分析結果顯示,使用過模共振腔的濾波器,在各項誤差中都有較好的抑制表現,其中以層間錯動誤差抑制效果尤佳,此誤差造成基模濾波器在中心頻率之反射損耗僅能維持在5dB而過模濾波器仍能保有15dB以上。 本論文同時提出過模共振腔在毫米波頻段的進階應用,以雙折過模共振腔之雙模濾波器架構為基礎,藉由改變共振腔四周邊界條件,調整不同模態的共振頻率比,同時堆疊共振腔時適當選取槽線位置,獨立控制不同模態下的耦合係數與外部品質因子,完成微小型過模共振腔濾波器設計。此法使用了鄰近模態為其共振模態,因此通帶外輸入損耗可降至25dB以上,且在電路面積的微小化上,相較於傳統未折疊四階濾波器,體積可縮小至原始大小的72.7%與54%。 | zh_TW |
dc.description.abstract | The characteristics and applications of overmoded laminated waveguide cavities are investigated in this thesis. Laminated waveguide filters using either fundamental mode or overmoded cavities are firstly designed at millimeter frequencies in low temperature co-fired ceramic (LTCC) substrates. The performance variations of different filter designs due to manufacturing error are then examined by simulation. Finally, folded overmoded cavities are proposed to accomplish a miniaturized design of a dual-mode 4th order filter.
In order to analyze the performance variation due to manufacturing error, two different filter groups with the same specification but different cavity modes are designed in this thesis. The performance of these filters are then examined with respect to different kinds of manufacturing error, inclusive of layer to layer alignment error, metal printing error, and metal thickness error. The analysis showed that the performance variation due to manufacturing error can be more effectively suppressed for filter designs using overmoded cavities, compared to those using fundamental mode cavities. Especially for the layer to layer alignment error, filters using TE101 suffer great distortion with return loss at center frequency is 5dB while TE301 remains above 15dB. Advanced applications of overmoded cavities at millimeter-wave frequency bands are also proposed in this thesis. A miniaturized design is accomplished by double- folded overmoded cavities in dual-mode filter configuration. By changing the boundary condition of double-folded overmoded cavities to adjust the ratio of resonant frequencies, vertically stacking the proposed novel cavities with proper slot positions to realize the external quality factors and coupling coefficients with respect to different modes, a miniaturized overmoded cavity filter can be accomplished. Due to the absence of neighboring modes, the proposed filter has excellent out-band performance with insertion loss less than 30dB and the circuit size reduced to 72.7% of double folded filter using fundamental mode and 54% of original 4th order filter with unfolded cavities. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T16:18:50Z (GMT). No. of bitstreams: 1 ntu-104-R02942081-1.pdf: 5303522 bytes, checksum: 65f9d8e229d07a5e47f03d173387b557 (MD5) Previous issue date: 2015 | en |
dc.description.tableofcontents | 摘要 i
Abstract ii 第一章 緒論 1 1.1. 研究動機 1 1.2. 文獻回顧 2 1.3. 論文貢獻 5 1.4. 章節內容概述 7 第二章 理論 8 2.1. 耦合共振器電路理論 8 2.1.1. 柴比雪夫響應 8 2.1.2. 廣義耦合理論 9 2.1.3. 磁耦合 10 2.1.4. 外部品質因子 12 2.2. 疊層波導共振腔 15 2.2.1. 共振腔的結構 16 2.2.2. 共振腔之共振頻率 16 2.2.3. 疊層波導共振腔之饋入結構 18 2.2.4. 疊層波導共振腔之耦合結構 20 2.3. 疊層波導摺疊共振腔 22 2.3.1. 原理與結構 22 2.3.2. 雙摺疊層波導共振腔的模態頻譜與特性分析 25 2.3.3. 使用雙模態共振器之濾波器耦合矩陣 27 第三章 使用過模共振腔之疊層帶通濾波器對製程誤差的效應抑制分析 29 3.1. 製程誤差效應介紹 29 3.1.1. 層間錯動 30 3.1.2. 金屬印製 30 3.1.3. 金屬厚度 31 3.1.4. 基板厚度 31 3.2. 使用過模共振腔之帶通濾波器設計概念與規格 32 3.2.1. 設計概念 32 3.2.2. 〖TE〗_301與〖TE〗_101之場型分析與設計規格 32 3.2.3. 設計參數分析與計算 34 3.3. 使用過模共振腔之帶通濾波器設計 36 3.3.1. 共振腔結構 36 3.3.2. 耦合結構與饋入電路 36 3.3.3. 電路結構與尺寸 40 3.3.4. 模擬結果 46 3.4. 製程誤差之分析與抑制 48 3.4.1. 層間錯動誤差 48 3.4.2. 金屬印製誤差 52 3.4.3. 金屬板厚誤差 54 3.4.4. 基板厚度誤差 56 3.5. 量測結果 59 第四章 使用雙摺疊雙模態共振腔之疊層波導帶通濾波器 62 4.1. 雙摺疊疊層波導共振腔設計概念與規格 62 4.1.1. 設計概念與參數規格 62 4.1.2. 雙模態共振腔設計 65 4.2. 耦合結構與饋入電路 68 4.2.1. 共振模態場型分析 68 4.2.2. 耦合結構與饋入電路設計 69 4.3. 電路結構與模擬結果 72 4.3.1. 電路結構 72 4.3.2. 模擬結果 76 4.4. 誤差抑制分析 76 4.4.1. 層間錯動誤差 77 4.4.2. 金屬印製誤差 79 4.4.3. 金屬板厚誤差 79 第五章 結論 80 參考文獻 83 | |
dc.language.iso | zh-TW | |
dc.title | 過模共振腔波導濾波器之微小化設計及製程誤差之抑制 | zh_TW |
dc.title | Manufacturing Error Effect Suppression of Laminated Waveguide Filters Using Overmoded Cavities with Miniaturized Design | en |
dc.type | Thesis | |
dc.date.schoolyear | 103-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 洪子聖,郭仁財,陳錡楓,鍾世中 | |
dc.subject.keyword | 疊層波導,低溫共燒陶瓷,多模態,濾波器,製程誤差,雙折共振腔, | zh_TW |
dc.subject.keyword | laminated waveguide,low-temperature co-fired ceramic,multi-mode,filter,manufacturing error,double-folded cavity, | en |
dc.relation.page | 85 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2015-08-17 | |
dc.contributor.author-college | 電機資訊學院 | zh_TW |
dc.contributor.author-dept | 電信工程學研究所 | zh_TW |
顯示於系所單位: | 電信工程學研究所 |
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