使用氧化鋁及低溫共燒陶瓷製程之基版合成波導設計具傳輸零點之V-band濾波器

Chih-Kai Hsu; 許智凱

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28139

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	盧信嘉(Hsin-Chia Lu)
dc.contributor.author	Chih-Kai Hsu	en
dc.contributor.author	許智凱	zh_TW
dc.date.accessioned	2021-06-13T00:01:34Z	-
dc.date.available	2008-07-31
dc.date.copyright	2007-07-31
dc.date.issued	2007
dc.date.submitted	2007-07-30
dc.identifier.citation	[1] D. Deslandeds and K. Wu, “Integrated transition of coplanar to rectangular waveguide,” IEEE MTT-S Int. Microwave Symp. Dig., vol. 2, pp. 619-622, May. 2001. [2] Chris Koh, “The benefit of 60 GHz unlicensed wireless communication,” FCC 2004 Wireless Broadband Forum, May, 2004. [3] P. Smulders, ”Exploiting the 60 GHz band for local wireless multimedia access: prospects and future directions,” IEEE Communications Magazine, Vol. 40 , Issue: 1 , Jan. 2002 Pages:140 – 147. [4] http://codeidol.com/telecommunications/telecommunications-essentials/WMAN s,-WLANs,-and-WPANs/WMANs/ [5] R. Kulke, M. Rittweger, P. Uhlig, and C. Günner, “LTCC – Multilayer Ceramic for Sensor and Wireless Applications,“ Produktion von Leiterplatten und Systemen (PLUS), Eugen G. Leuze Verlag, pp. 2131-2136, Dec., 2001. http://www.ltcc.de/ [6] M. Ito, K. Maruhashi, K. Ikuina, T. Hashiguchi, S. Iwanaga, and K. Ohata, “A 60-GHz-band planar dielectric waveguide filter for flip-chip modules,” IEEE Trans. Microwave Theory Tech., vol. 49, no. 12, pp. 2431-2436, Dec. 2001. [7] D. Deslandeds and K. Wu, “Single-substrate integration technique of planar circuits and waveguide filters,” IEEE Trans. Microwave Theory Tech., vol. 51, no. 2, pp. 593-596, Feb. 2003. [8] J. H. Lee, S. Pinel, J. papapolymerou, J. Laskar, M. M. Tentzeries, “Low-Loss LTCC Cavity Filters Using System-on-Package Technology at 60 GHz,” IEEE Trans. Microwave Theory Tech., vol. 53, no. 12, pp. 3817-3824, Dec. 2005. [9] Z. C. Hao, W. Hong, J. X. Chen, X. P. Chen, and K. Wu, “Compact Super-Wide Bandpass SubstrateIntegrated Waveguide (SIW) Filters,” IEEE Trans. Microwave Theory Tech., vol. 53, no. 9, pp. 2968-2977, Sep. 2005. [10] Z. C. Hao, W. Hong, X. P. Chen, J. X. Chen, and K. Wu, “A single-layer folded substrate integrated waveguide (SIW) filter,” APMC 2005, vol. 1, 4-7 Dec. 2005. [11] N. Grigoropoulos, B. Sanz-Izquierdo, and P. R. Young, “Substrate Integrated Folded Waveguides (SIFW) and Filters,” IEEE Microwave and Wireless Component Letters, vol. 15, no. 12, pp. 829-831, Dec. 2005. [12] D. Deslandeds and K. Wu, “Integrated microstrip and rectangular waveguide in planar form,” IEEE Microwave and Wireless Component Letters, vol. 11, no. 2, pp. 68-70, Feb. 2001. [13] E. Yablonovith, “Photonic band-gap structure,” J. Optical Soc. America B, vol. 10, pp. 283-295, Feb. 1993. [14] H. Uchimura, T. Takenoshita, and M. Fujii, “Development of a “laminated waveguide”,” IEEE Trans. Microwave Theory Tech., vol. 46, no.12, pp. 2438-2442, Dec. 1998. [15] Y. Cassivi, L. Perregrini, P. Arcioni, M. Bressan, K. Wu and G Conciauro, “Dispersion characteristic of substrate integrated rectangular waveguide, “ IEEE Microwave and Wireless Component Letters, vol. 12, no. 9, pp. 333-335, Sep. 2002. [16] Robert S. Elliott, Antenna theory and design, section 3.5 and 3.6, John Wiley & Sons, Inc., revised edition, 2003. [17] David K. Cheng, Field and wave electromagnetics, second edition, Figure 10-3, Addison-Wesley Publishing Company, Inc., 1989. [18] H. Li, W. Hong, T.-J. Cui, K. Wu, Y.-L. Zhang and L. Yan, “Propagation characteristics of substrate integrated waveguide based on LTCC,” 2003 IEEE MTT-S Int. Microwave Symp. Dig., vol. 3, pp. 2045-2048, Jun. 2003. [19] David M. Pozar, Microwave Engineering, New-York, John Wiley & Sons, Inc., 3rd edition, 2003. [20] K. Chang, Microwave Ring Circuits and Antennas, Chap. 6, New-York, John Wiley & Sons, Inc., 1996. [21] J. S. Hong and M. J. Lancaster, Microstrip Filters for RF/Microwave Applications, John Wiley & Sons, Inc., 2001. [22] D. Deslandeds and K. Wu, “Single-Substrate Integration Technique of PlanarCircuits and Waveguide Filters,” IEEE Trans. Microwave Theory Tech., vol. 51, no.2, pp. 593-596, Feb. 2003. [23] K. S. Yang, S. Pinel, I. K. Kim, and J. Laskar, “Low-Loss Integrated -Waveguide Passive CircuitsUsing Liquid-Crystal Polymer System-on-Package (SOP) Technology for Millimeter-Wave Applications,” IEEE Trans. Microwave Theory Tech., vol. 54, no.12, pp. 4572-4579, Dec. 2006.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28139	-
dc.description.abstract	在毫米波頻段有許多頻段可提供5GHz以上的頻寬來實現2~4Gbps的高速通訊。本論文即針對60GHz以及70GHz頻段，設計帶通濾波器。論文中使用基板合成波導共振腔結構，在低溫共燒陶瓷以及氧化鋁基版上製作了數種分別操作在58~62GHz、71~76GHz兩個頻段的耦合共振帶通濾波器。並在共振腔中加入並聯的共平面波導傳輸線，使之產生了傳輸零點。濾波器最低的輸入損耗都能小於2.8 dB，最大的反射損耗除了加入零點的濾波器外，其他都能高於15 dB。由於共振腔的高階模，以基板合成波導來製作濾波器會有第二通帶出現。	zh_TW
dc.description.abstract	There are many allocated frequency band can provide a bandwidth of more than 5 GHz to realize high speed communication up to 2Ghps to 4Ghps. This thesis presents the design of bandpass filters on 60GHz-band and 70GHz-band. In this thesis, we design several coupling resonant bandpass filters for 60GHz-band and 70GHz-band by the substrate integrated waveguide (SIW) cavity structure on the LTCC and alumina substrate. And then we add shunt CPW lines to introduce a transmission zero. The lowest insertion loss of these filters is less than 2.8 dB, and the return loss is higher than 15 dB except the filter with transmission zero. There will be a second passband due to the high order mode of the cavity if we design filters by the substrate integrated waveguide cavity structure.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T00:01:34Z (GMT). No. of bitstreams: 1 ntu-96-R94942064-1.pdf: 4492443 bytes, checksum: b853592bffc224f5db8e8b823a84d85b (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	誌謝 …………………………………………………………………...……….……. i 中文摘要 ………………………………………………………………...……....…. ii Abstract ………………………………………………………………..………….…iii Table of Contents ………………………………………………………….………... iv List of Figures …………………………………………………………………....... vi List of Tables …………………………………….……………………………...…. ix Chapter 1 Introduction 1 1.1 Motivation 1 1.2 Applications for 60GHz and 70GHz bands 3 1.3 The introduction of LTCC technology 6 1.4 Literature review 8 1.5 Thesis organization 11 Chapter 2 Substrate integrated waveguide and coupling resonators 13 2.1 Introduction 13 2.2 Substrate integrated waveguide 14 2.3 Substrate integrated waveguide cavity 19 2.3.1 Rectangular waveguide cavity 19 2.3.2 Substrate integrated waveguide cavity 24 2.4 Coupling resonator circuit 24 2.4.1 General theory of couplings 25 2.4.2 Electric couplings 27 2.4.3 Magnetic couplings 30 2.4.4 Coupling coefficient K 33 2.5 External quality factor 35 Chapter 3 Filter design procedures 40 3.1 Chebyshev Filters 40 3.1.1 Chebyshev response 40 3.1.2 Evaluation of the coupling coefficient 41 3.2 Bandpass filters design by LTCC technology 44 3.2.1 60GHz-band bandpass filter 45 3.2.2 70GHz-band bandpass filter 55 3.3 Bandpass filters design by alumina technology 60 3.3.1 60GHz-band bandpass filter 61 3.3.2 70GHz-band bandpass filte 64 3.3.3 60GHz-band bandpass filter with transmission zeros 68 Chapter 4 Measurement procedures and results 72 4.1 Measurement setup 72 Chapter 5 Conclusion 74 Reference …............... 76
dc.language.iso	en
dc.subject	共振腔	zh_TW
dc.subject	耦合	zh_TW
dc.subject	濾波器	zh_TW
dc.subject	基版合成波導	zh_TW
dc.subject	cavity	en
dc.subject	SIW	en
dc.subject	coupling	en
dc.subject	filter	en
dc.title	使用氧化鋁及低溫共燒陶瓷製程之基版合成波導設計具傳輸零點之V-band濾波器	zh_TW
dc.title	The design of V-band band-pass filter with transmission zero using substrate integrated waveguide by alumina and LTCC process	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	黃天偉(Tian-Wei v),陳怡然(Yi-Jan Chen),曾昭雄(Chao-Hsiung Tseng)
dc.subject.keyword	基版合成波導,共振腔,濾波器,耦合,	zh_TW
dc.subject.keyword	SIW,cavity,filter,coupling,	en
dc.relation.page	78
dc.rights.note	有償授權
dc.date.accepted	2007-07-31
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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