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dc.contributor.authorChen, Wen-Heren_US
dc.identifier.citation參考文獻 [1] G. L. Matthaei, L. Young, and E. M. T. Jone, Microwave Filter, Impedance Matching Networks, and Coupling Structure. New York: McGraw-Hill, 1964. [2] I. Bahl, Lumped Elements for RF and Microwave Circuits. Boston, MA: Artech House, 2003. [3] R. J.Wilkinson, “An N-way hybrid power divider,”IRET rans. Microw. Theory Tech., vol. MTT-8, no. 1, pp. 116–118, Jan. 1960. [4] D. M. Pozar, Microwave Engineering. New York: Wiley, 1990. [5] D. M. Pozar, Microwave Engineering,3rd ed. John Wiley&sons,2005. [6] J. H. Sung et al., “Design method of a dual band balun and divider,” in IEEE MTT-S Int. Microwave Symp. Dig., Jun. 2002, pp. 1177–1180. [7] R. E. Collin, Foundations for Microwave Engineering, 2nd ed. New York: Wiley, 2001. [8] H. J. Riblet, “A general theorem on an optimum stepped impedance transformer,” IRE Trans. Microw. Theory Tech., vol. MTT-8, no. 3, pp. 169–170, Mar. 1960. [9] D. K. Misra, Radio Frequency and Microwave Communication Circuits.New York: Wiley, 2001. [10] W. Webb, The Complete Wireless Communications Professional: A Guide for Engineers and Managers. Boston, MA: Artech House, 2003. [11] Y. L. Chow and K. L. Wan, “A transformer of one-third wavelength in two sections—For a frequency and its first harmonic,” IEEE Microw. Wireless Compon. Lett., vol. 12, no. 1, pp. 22–23, Jan. 2002. [12] S. Srisathit, M. Chongcheawchamnan, and A. Worapishet, “Design and realization of a dual-band 3-dB power divider based on a two-section transmission-line topology,” Electron Lett., vol. 39, pp. 723–724, May 2003. [13] D. A. McClure, “Broadband transmission-line transformer family matches a wide range of impedances,” RF Design, pp. 62–66, Feb. 1994. [14] Mitchai Chongcheawchamnan,SumongkolPatisang, Monai Krairiksh, and Ian D. Robertson, “Tri-band Wilkinson power divider using a three-section transmission-line transformer,”IEEE microwave And wireless components letters,VOL.16,NO.8,August 2006. [15] G. L. Matthaei, L. Young, E. M. T. Jones “Microwave Filters, Impedance-matching networks, and Coupling Structures” Artech House, 1980. [16] K.C. GUPTA,Ramesh GARG,Inder BAHL,Prakash BHARTIA, Microstrip Lines and Slotlines[M].Bos ton:ARTECH HOUSE,INC.,1996. REFERENCES [17] Mitchai Chongcheawchamnan, Sumongkol Patisang, Sarayut Srisathit, Ravee Phromloungsri, and Sawat Bunnjaweht "Analysis and Design of a Three-Section Transmission-Line Transformer" IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, VOL. 53, NO. 7, JULY 2005.zh_TW
dc.description.abstract摘要 本論文包括兩個部份,在第一個部份是再做三階傳輸線的阻抗轉換,由於現今寬頻無線系統已經成為焦點,而三階傳輸線阻抗轉換器可以達到寬頻的阻抗匹配,並在特定的三個頻率有更小的反射損失,在兩端阻抗相差不大時可以在本論文看到S11在想要的頻段內皆小於負 ,在S21的損失都很小,可以達到超寬頻的匹配。而在兩端阻抗相差很大時,雖然不能做到超寬頻的匹配,但我們可以在論文中看到至少會有三個特定頻率可以良好S21,也就是說此論文做的三階傳輸線的阻抗轉換,可以很有效做在三特定的頻段做匹配,甚至可以達到超寬頻的匹配,而在三階傳輸線的阻抗轉換也比一階傳輸線的阻抗轉換和二階傳輸線的阻抗轉換有更多優點。 在第二個部份是再做三階傳輸線的阻抗轉換加濾波器成為兩端阻抗不同的濾波器,由於濾波器在射頻電路的系統中佔有相當重要的角色,在發射端及接收端都需要使用到濾波器,可想而知濾波器的重要性,此論文不同於其他ㄧ般的濾波器是兩端的阻抗不同的濾波器。 此論文的產生是由於濾波器和阻抗匹配在微波電路系統中皆是相當重要而且不可或缺,因此將完成不同阻抗的濾波器,已可以達到匹配的效果還可以做濾波的功能。 所有的三階傳輸線的阻抗轉換和不同阻抗的濾波器皆有使用全波電磁模擬軟體模擬及實際製作。zh_TW
dc.description.abstractAbstract This thesis includes two parts. The first part shows how to design a Three-section Transmission-Line Transformer. Nowadays the Boardband System has become more and more popular. Three-section Transmission-Line Transformer could realize the impendence match in boardband system and the return loss would decrease at three design frequencies. When the difference of the impedance between two ports is quite small,the S11 is less than -10dB and the S21 is nearly lossless.So it could realize the impedance match in Ultra Wideband.On the other side, when the difference of the impedance between two ports is large,Although it can not realize the impedance match in Ultra Wideband, There are still at least three specific frequencies with better S21 in the thesis . That means the proposed Three-section Transmission may realize impedance match effectively at three design frequencies and may further be match in Ultra Wide Band. There are more advantages in using Three-section Transmission than using one-section Transmission or two-section Transmission . The second parts of the thesis shows how to design a filter with different impedance of port-1 and port-2 by using three-section Transmission and filters. Generally, the filter plays an important role in RF system. Filters could be found everywhere at the transmitter or receiver. In the thesis, the main characteristic adopts the filter with different impedance of port-1 and port-2. Since filters and impedances are very important components in RF system,thinking of combining both be a great idea. In the thesis, our purpose is to design a filter with different impedance of port-1 and port-2 and make the designed filter have the ability to achieve the impedance match and to filter the signal. The validity of the three-section Transmission and the designed filter with different impedance of port-1 and port-2 are demonstrated by numerous results from analysis, simulation, and experiment.en_US
dc.description.tableofcontents目錄 摘要 i Abstract ii 目錄 iii 圖目錄 iv 表目錄 vi 第一章 緒論 1 1-1 研究背景 1 1-2 研究文獻探討 1 1-3 論文內容摘要 2 第二章 三階傳輸線轉換器設計與模擬 3 2-1 簡介 3 2-2 四分之一波長阻抗轉換器理論(一階) 4 2-3 二階傳輸線轉換器設計理論 7 2-4 三階傳輸線轉換器設計理論 11 2-5 三階傳輸線轉換器實作模擬和量測結果 19 第三章 不同阻抗耦合的共振器設計帶通濾波器 27 3-1 微波共振電路的基本理論 27 3-1-1 串聯與並聯共振電路 27 3-1-2傳輸線共振電路 33 3-2 耦合的共振器設計濾波器設計理論 35 3-3 三階傳輸線轉換器作帶通濾波器的實作模擬和量測結果 39 第四章 結論 47 參考文獻 48zh_TW
dc.subjectTransmission-Line Transformeren_US
dc.subjectbandpass filteren_US
dc.subjectArbitrary frequenciesen_US
dc.subjectimpedance matchingen_US
dc.titleDesign of Transmission-Line Transformer and Bandpass Filter with Different Characteristic Impedancesen_US
dc.typeThesis and Dissertationzh_TW
item.openairetypeThesis and Dissertation-
item.fulltextno fulltext-
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