跳到主要內容

臺灣博碩士論文加值系統

(44.211.117.197) 您好!臺灣時間:2024/05/27 05:57
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

: 
twitterline
研究生:廖偉程
研究生(外文):Liao, Wei-Cheng
論文名稱:主動帶通濾波器及其應用於2.4/60 GHz雙模態雙降頻接收機
論文名稱(外文):Active Bandpass Filter and Its Application to 2.4/60 GHz Dual-Mode Dual-Conversion Receiver
指導教授:孟慶宗
指導教授(外文):Meng, Chinchun
學位類別:碩士
校院名稱:國立交通大學
系所名稱:電信工程研究所
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:2012
畢業學年度:101
語文別:中文
論文頁數:114
中文關鍵詞:帶通濾波器雙模態雙降頻接收機
外文關鍵詞:Bandpass FilterDual-ModeDual-ConversionReceiver
相關次數:
  • 被引用被引用:0
  • 點閱點閱:296
  • 評分評分:
  • 下載下載:35
  • 收藏至我的研究室書目清單書目收藏:0
  本篇論文設計並實現適用於無線本地區域網路與毫米波高速影像傳輸的射頻積體電路。主要分成兩大部份:第一部份為主動帶通濾波器設計與分析。第二部份則是實現2.4 /60 GHz雙模態雙降頻接收機。
  論文第二章首先會對濾波器的架構和其Q值增強技術作研究,並探討使用退化電阻來改善濾波器的線性度,以及說明負電阻的可調範圍和交錯耦合電晶體的雜訊特性。
  有前章濾波器的設計方法後,在第三章將會先使用TSMC CMOS 0.18-μm和TSMC SiGe 0.18-μm製程來實作2.4 GHz主動帶通濾波器及其前端低雜訊放大器,其主要目的為壓抑濾波器的雜訊。然後進一步延伸到應用於通道選擇之2.4 GHz直接降頻接收機,並將此電路結合偶次諧波混頻器,整合其降頻後的低頻電路。最後使用TSMC SiGe 0.18-μm製程來實現2.4/60 GHz雙模態雙降頻接收機。

  In this thesis, the radio frequency circuits which are suitable for Wireless Local Area Network (WLAN) and millimeter wave high speed transmission of images applications are designed and implemented. The thesis consists of two parts. The first part focuses on designing and analyzing the active bandpass filter. The second part implements the 2.4/60 GHz dual-mode dual-conversion receiver.
  First, we study the architecture of filter and Q-enhancement techniques in the chapter 2. And then, we discuss to use the degeneration resistor which can improve the linearity of filter and illustrate the tuning range of negative resistance and the noise performance of cross couple pair.
  With the results in the former chapter, we will implement the 2.4 GHz active bandpass filter with its front LNA in TSMC CMOS 0.18-μm and TSMC SiGe 0.18-μm technology that its purpose is to suppress the noise of filter. Afterwards we can use it to extend to the 2.4 GHz direct-conversion receiver for channel-selected application. Combining the circuit with a sub-harmonic mixer will integrate with the low frequency circuit after down conversion. Finally, we implement the 2.4/60 GHz dual-mode dual-conversion receiver in TSMC SiGe 0.18-μm technology.

第一章 導論 1
1.1 研究動機 2
1.2 論文組織架構 3
第二章 主動帶通濾波器設計與分析 4
2.1 集總式帶通濾波器原型分析 6
2.1.1 集總式帶通濾波器元件選定 6
2.1.2 模擬比較 10
2.2 設計考量 13
2.2.1 使用交錯耦合電晶體改善on chip電感Q值 13
2.2.2 交錯耦合對的線性度比較 14
2.2.3 負電阻的可調範圍 16
2.2.4 交錯耦合對的雜訊特性比較 18
第三章 2.4/60 GHz雙模態雙降頻接收機 20
3.1 系統架構選擇 22
3.2 電路設計考量 29
3.2.1 窄頻帶通濾波器 29
3.2.2 九十度相位移器 33
3.2.3 疊接式低雜訊放大器 35
3.2.4 可切換式主動混頻器 38
3.2.5使用反對稱二極體之偶次諧波混頻器 39
3.2.6 寬頻平衡-不平衡之低雜訊放大器 47
3.3 2.4 GHz主動帶通濾波器及其前端低雜訊放大器 51
(CMOS 0.18-μm) 51
3.3.1 電路設計 51
3.3.2 模擬與量測結果 53
3.3.3 結果與討論 60
3.4 2.45 GHz主動帶通濾波器及其前端低雜訊放大器 62
(SiGe 0.18-μm) 62
3.4.1 電路設計 62
3.4.2 模擬與量測結果 64
3.4.3 結果與討論 71
3.5 2.4/60GHz雙模態雙降頻接收機 (SiGe 0.18-μm) 73
3.5.1 電路設計 73
3.5.2 模擬與量測結果 76
3.5.3 結果與討論 90
第四章 結論 93
參考文獻 96
附錄一 應用於通道選擇之2.4 GHz直接降頻接收機 99
A1.1 電路設計 100
A1.2 模擬與量測結果 104
Vita 114
第一章:
[1] 廖建興,“無線個人區域網路(WPAN)技術發展與應用概論,”中華民國電
子零件認證委員會.

第二章:
[1] Microwave Engineering, by David M. Pozar, 3rd Edition, John Wiley & Sons,2004.
[2] S. Cohn, “Direct-Coupled-Resonator Filters,” Proceedings of the IRE, vol. 45, pp. 187-196, Feb. 1957.
[3] Belevitch, V.“Tchebyscheff Filters and Amplifier Networks,” Wireless Engineer, vol. 29 , pp.106-110, April 1952.
[4] Orchard, H. J. ,“Formulas for Ladder Filters,” Wireless Engineer, vol. 30 , pp. 3-5, Jan. 1953.
[5] Thanachayanont A. ,“A 1.5-V CMOS fully differential inductorless RF bandpass amplifier,” IEEE Int. Symp. Circuits Systems (ISCAS), vol.4,pp. 49-52, 2001.
[6] Y. Wu, X. Ding, M. Ismail, and H. Olsson, “A novel CMOS fully differential inductorless RF bandpass filter,” IEEE Int. Symp. Circuits Systems (ISCAS), vol. 4, pp. 149-152, 2000.
[7] Holly Pekau; Jim Kulyk; James W. Haslett; Leonid Belostotski; , “Linearization Techniques for Cross-Coupled Transconductor Circuits Used in Integrated Q-Enhanced LC Filters,” Electrical and Computer Engineering, pp.541-546, May 2006.
[8] B. Georgescu ,I. G. Finvers and F. Ghannouchi, “ 2 GHz Q-Ebhanced Active Filter With Low Passband Distortion and High Dynamic Range,” IEEE J. Solid-State Circuits, vol.41, no. 9, Sep. 2006.

第三章:
[1] 游勝文, “雙頻帶雙轉換鏡像消除複數降頻器與寬頻吉伯特混頻器設計,” 國立交通大學碩士論文,2010.
[2] Microwave Engineering, by David M. Pozar, 3rd Edition, John Wiley & Sons,2004.
[3] S. Cohn,“Direct-Coupled-Resonator Filters,” Proceedings of the IRE, vol. 45, pp.187-196, Feb. 1957.
[4] Belevitch, V. “Tchebyscheff Filters and Amplifier Networks,” Wireless Engineer, vol. 29 , pp. 106-110, April 1952.
[5] Orchard, H. J. “Formulas for Ladder Filters,” Wireless Engineer, vol. 30 , pp. 3-5, Jan. 1953.
[6] Risto Kaunisto, “Monolithic Active Resonator Filters for High Frequencies,” Helsinki University of Technology, Department of Electrical and Communications Engineering, Electronic Circuit Design Laboratory.
[7] C. Y. Wu, and C. Y. Chou, “A 5-GHz CMOS double-quadrature receiver front-end with single-stage quadrature generator,” IEEE J. Solid-State Circuits, vol. 39, no. 3, pp. 519-521, Mar. 2004.
[8] T. K. Nguyen, C. H. Kim, G. J. Ihm, M. S. Yang, and S. G. Lee, “CMOS low-noise amplifier design optimization techniques”, IEEE Trans. Microw. Theory Tech., vol. 52, no. 5, May 2004.
[9] 張智凱, “2.4/5.8-GHz 低功率低雜訊CMOS直接降頻接收機,” 國立交 通大學碩士論文,2010.
[10] B. Gilbert, “A precise four-quadrant multiplier with subnanosecond response,” IEEE J. Solid-State Circuits, 1968.
[11] Semiconductor Devices:Physics and Technology, by S. M. Sze, 2nd Edition, John Wiley & Sons,2001.
[12] M.-J. Chiang, H.-S. Wu, C.-K. C. Tzuang, “Artificial-synthesized edge-coupled transmission line for compact CMOS directional coupler designs, ” IEEE Trans. Microw. Theory Tech., vol. 57, no. 12, pp.3410-3417, Dec. 2009.
[13] C.-C. Kuo, H.-C. Lu, H. Wang; ,“A new doubly balanced sub-harmonically miniature mixer using dual Marchand balun in CMOS 0.18-µm technology, ” IEEE Trans. Microw. Theory Tech., pp.1-3,17-22 ,June 2012.
[14] S. C. Blaakmeer , E. A. M. Klumperink , D. M. W. Leenaerts and B. Nauta, “Wideband balun-LNA with simultaneous output balancing, noise-canceling and distortion-canceling,” IEEE J. Solid-State Circuits, vol. 43, pp.1341,June 2008 .
[15] Sivasankari Krishnanji, “Design of A Variable Gain Amplifier for An Ultra Wideband Receiver,” Birla Institute of Technology and Science, India.

連結至畢業學校之論文網頁點我開啟連結
註: 此連結為研究生畢業學校所提供,不一定有電子全文可供下載,若連結有誤,請點選上方之〝勘誤回報〞功能,我們會盡快修正,謝謝!
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
無相關期刊