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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 陳怡然(Yi-Jan Emery Chen) | |
dc.contributor.author | Yueh-Hua Yu | en |
dc.contributor.author | 游岳華 | zh_TW |
dc.date.accessioned | 2021-06-13T06:35:14Z | - |
dc.date.available | 2009-01-26 | |
dc.date.copyright | 2006-01-26 | |
dc.date.issued | 2006 | |
dc.date.submitted | 2006-01-16 | |
dc.identifier.citation | [1] V.Kumer, “Ultra-Wide-band (UWB) Technologies,” Institute for information Research, December 24. 2003.
[2] Chris Snow, Dr. Lutz Lampe, and Dr. Robert Schober, “Ultra-Wideband Radio for High Data-Rate Communication,” Department of Electrical and Computer Engineering, University of British Columbia. [3] Jason Ziller, “Ultra-Wide,” Communications & Interconnect Technology Lab Intel Corporation, November 03. 2002. [4] A.Bevilacqua and A.Niknejad. “An Ultra-Wideband CMOS LNA for 3.1 to 10.6GHz Wireless Receivers,” ISSCC Dig. Tech. Papers, vol.1, pp. 384-385, Feb. 2004. [5] Guillermo Gonzalez. “Microwave Transistor Amplifier Analysis and Design,” 2nd ed, New Jersey :Prentice Hall,1997. [6] Lawrence Williams et al., “Ultra-Wideband Radio Design for Multi-band OFDM 480 Mb/s Wireless USB” Ansoft Corporation DesignCon ,2005. [7] D. K. Shaeffer, and T. H. Lee, “ A 1.5-V 1.5-GHz CMOS Low Noise Amplifier,” IEEE J. of Solid-State Circuits, vol.32, No. 5, pp. 745-759, May 1997. [8] T. H. Lee, “The Design of CMOS Radio-frequency Integrated Circuits,” Cambridge University Press, 1998. [9] F. Bruccoleri, et al., “ Noise cancelling in wideband CMOS LNAs.” ISSCC Dig. Tech. Papers, vol.1, pp. 406-407, Feb. 2002. [10] B. Y. Banyamin, and M. Berwick, “Analysis of the performance of four cascaded single-stage distributed amplifiers,” IEEE Trans. Microwave Theory Tech., vol. 48, pp. 2657-2663, Dec. 2000 [11] B. Y. Banyamin, and M. Berwick, “The gain advantages of four cascaded single stage distributed amplifier configurations,” 2000 MTT-S Int. Microwave Symp. Dig., pp. 1325-1328, June. 2000. [12] A.Ismail and A.Abidi, “A 3 to 10 GHz LNA using a wideband LC-ladder matching network,” ISSCC Dig. Tech. Papers, vol.1, pp. 382-383, Feb. 2004. [13] R. C. Liu, K. L. Deng, and H. Wang, “ A 0.5-14GHz 10.6dB CMOS Cascode Distributed Amplifier” 2003 Symposium on VLSI Circuits Digest of Technical Papers, pp.139-141, June. 2003. [14] R. C. Liu, K. L. Deng, and H. Wang, “A 0.6-22GHz Broadband CMOS Distributed Amplifier” IEEE RFIC Symposium, pp.103-106, June. 2003. [15] Ming-Da Tsai, Kuo-Liang Deng, Huei Wang et al,” A Miniature 25-GHz 9-dB CMOS Cascaded Single-Stage Distributed Amplifier” IEEE Microwave and Wireless Components Letters, vol.14, no.12, pp.554-556, Dec. 2004. [16] R. C. Liu et all, “Design and analysis of DC-to 14GHz and 22GHz CMOS cascode distributed amplifier,” Journal of solid state of circuit, vol.39, pp.1370-1374, Aug. 2004. [17] Kuan-Hung Chen, and C.K. Wang, “ A 3.1GHz~10.6GHz CMOS Cascaded Two-stage Distributed Amplifier for Ultra Wideband Application” 2004 IEEE Asia-Pacific conference on Advanced System Integrated Circuit(AP-ASIC2004) pp.296-299, Aug. 2004. [18] Beom Kyu Ko and Kwyro Lee.” A New Simultaneous Noise and Input Power Matching Technique for Monolithic LNA’s Using Cascode Feedback” IEEE Trans. Microwave Theory Tech., Vol. 45, NO. 9, Sep 1997. [19] Yu-Chang Chen and Shey-Shi Lu. “Analysis and Design of CMOS Broadband Amplifier with Dual Feedback Loops” 2002 IEEE Asia-Pacific conference on Advanced System Integrated Circuit(AP-ASIC2002), pp.245-248 , Aug. 2002. [20] F. Bruccoleri, et al., ”Wide-Band CMOS Low-Noise Amplifier Exploiting Thermal Noise Canceling” Journal of solid state of circuit, vol. 39, no. 2,pp.275-282, Feb. 2004. [21] S.Vishwakarma, et al.,” Ultra wideband CMOS low noise amplifier with active input matching” Ultra Wideband Systems, 2004. Joint with Conference on Ultrawideband Systems and Technologies. Joint UWBST & IWUWBS. 2004 International Workshop, pp.415-419, May. 2004. [22] Wei Meng Lim, et al., ” A Broadband CMOS LNA for WLAN applications ” 2003 IEEE Ultra Wideband Systems and Technologies Conference, pp.42-46, Nov. 2003. [23] R.E. Amaya, N.G. Tarr, and C. Plett, ”A 27GHz Fully Integrated CMOS Distributed Amplifier Using Coplanar Waveguides.” IEEE RFIC Symposium, pp.193-196, June 2004. [24] D. M. Pozar, “Microwave Engineering, ” 2nd ed. New York: Wiley, 1998. [25] Won Ko, and Youngwoo Kwon, “ Improved noise analysis of distributed preamplifier with cascode FET cells ” IEEE Trans. Microw. Theory Tech .,Vol 53, pp. 361 – 371, Jan. 2005. [26] C.S. Aitchison, “The intrinsic noise figure of the MESFET distributed amplifier,” IEEE Trans. Microw. Theory Tech., vol. 33, no. 6, pp. 460–466, Jun. 1985. [27] A. P. Freundorfer and T. L. Nguyen, “Noise in distributed MESFET preamplifiers,” Journal of solid state of circuit, vol. 31, no. 8, pp. 1100–1111, Aug. 1996. [28] A. Borjak, L. Moura, J. J. O’Reilly, and I. Darwazeh, “Input noise current spectral density estimation for a distributed based optical receiver,” 1997 IEEE MTT-S Int. Microwave Symp. Dig., vol. 3, pp. 1579–1582, Jun. 1997. [29] Chang-Wan Kim, et al., “An ultra-wideband CMOS low noise amplifier for 3-5-GHz UWB system,” Journal of solid state of circuit, vol. 40, pp. 544-547, Feb. 2005. [30] Frank Zhang and Peter Kinget “Low power programmable-gain CMOS distributed LNA for ultra-wideband applications,” VLSI Dig. Tech. Papers , pp. 78 – 81, June. 2005. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/34827 | - |
dc.description.abstract | 本論文探討以UMC 0.18um 1P6M CMOS製程來研製利用於超寬頻的超低電壓寬頻低雜訊放大器,利用分散式放大器的架構和源極電感的觀念使低雜訊放大器可以達到寬頻並且低雜訊的功能,單極共源極放大器串接於傳統的分散式放大器用來改善高頻的增益,低雜訊放大器可藉由適當地調整源極電感以及適當的選取元件的大小與偏壓以達到良好的低雜訊效能。低雜訊放大器的增益可達到10dB的增益,3dB頻寬從2.7GHz ~ 9.1GHz,輸入與輸出反射係數在3dB頻寬內皆小於-10dB,平均雜訊指數為4.65dB,在6GHz時 IIP3為0 dBm,CMOS超寬頻低雜訊放大器在0.6V的偏壓下,功率消耗為7mW。 | zh_TW |
dc.description.abstract | This thesis presents an ultra-low voltage low noise amplifier for ultra-wide band application in UMC 0.18um 1P6M CMOS technology. Using the architecture of distributed amplifier with the inductive source degeneration, the LNA is demonstrated to achieve broadband and low noise. The common-source single-stage amplifier is cascaded to the conventional distributed amplifier to improve the gain at high frequency. Excellent noise performance of LNA is obtained by applying suitable source degeneration inductance and selecting proper device geometry and bias. The measured gain of the fully-integrated LNA is 10dB with the 3dB bandwidth from 2.7 to 9.1 GHz. The input and output return-losses are more than 10dB within the 3dB-band. The average noise figure is 4.65dB. The measured IIP3 at 6GHz is 0dBm. Operated at 0.6V, the UWB CMOS LNA consumes 7mW. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T06:35:14Z (GMT). No. of bitstreams: 1 ntu-95-R92943109-1.pdf: 6740345 bytes, checksum: 3b1c2b838b7a05e4a02cba4926fdfdbb (MD5) Previous issue date: 2006 | en |
dc.description.tableofcontents | 目錄
第一章 概論 ………………………………………………………01 1.1 超寬頻簡介 ………………………………………………01 1.2 論文簡介 …………………………………………………05 第二章 低雜訊放大器 ……………………………………………07 2.1 雙埠網路之雜訊 …………………………………………07 2.2 低雜訊放大器基本原理 …………………………………10 2.2.1 架構 ……………………………………………………10 2.2.2 雜訊模型推導 …………………………………………11 第三章 寬頻放大器 ………………………………………………15 3.1 寬頻放大器的種類 ………………………………………15 3.2 分散式放大器 ……………………………………………16 3.3 平衡式放大器 ……………………………………………18 3.4 負回授式放大器 …………………………………………20 3.5 主動式匹配放大器 ………………………………………22 3.6 電阻式匹配放大器 ………………………………………23 3.7 交錯協調式放大器 ………………………………………24 3.8 電流重複式放大器 ………………………………………24 3.9 網路合成式放大器 ………………………………………25 3.10 寬頻放大器的總結 ………………………………………27 第四章 3.1-10.6GHz 寬頻低雜訊放大器 ………………………29 4.1 UMC 0.18μm 1P6M CMOS 製程元件簡介…………………29 4.1.1 NMOS電晶體 ……………………………………………29 4.1.2 MIM電容 …………………………………………………30 4.1.3 螺旋式電感 ……………………………………………31 4.1.4 多晶矽電阻 ……………………………………………31 4.1.5 PAD ………………………………………………………32 4.2 分散式超寬頻低雜訊放大器架構 ………………………33 4.2.1 分散式放大器 …………………………………………33 4.2.2 分散式超寬頻低雜訊放大器 …………………………34 4.3 分散式超寬頻低雜訊放大器設計與製作 ………………35 4.3.1 分散式超寬頻低雜訊放大器的匹配分析 ……………35 4.3.2 分散式超寬頻低雜訊放大器的增益分析 ……………44 4.3.3 分散式超寬頻低雜訊放大器的雜訊分析 ……………48 4.4 超寬頻低雜訊放大器模擬與量測結果 …………………50 第五章 結果與討論 ………………………………………………60 5.1 寬頻放大器的結果 ………………………………………60 5.2 討論 ………………………………………………………61 參考文獻 | |
dc.language.iso | zh-TW | |
dc.title | 超寬頻超低電壓低雜訊放大器 | zh_TW |
dc.title | An Ultra-Low Voltage Ultra-wideband Low Noise Amplifier | en |
dc.type | Thesis | |
dc.date.schoolyear | 94-1 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 曾英哲(Ying-Che Tseng),李朝政(Chao-Cheng Lee),呂學士(Shey-Shi Lu) | |
dc.subject.keyword | 低雜訊放大器,超低電壓,低功率,分散式放大器,超寬頻, | zh_TW |
dc.subject.keyword | CMOS,LNA,ultra-low voltage,low power,distributed amplifier,UWB, | en |
dc.relation.page | 64 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2006-01-16 | |
dc.contributor.author-college | 電機資訊學院 | zh_TW |
dc.contributor.author-dept | 電子工程學研究所 | zh_TW |
顯示於系所單位: | 電子工程學研究所 |
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