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研究生:林聖傑
研究生(外文):Sheng-Chieh Lin
論文名稱:應用於無線網路之射頻發射機電路
論文名稱(外文):Transmitter Circuit Design for Wireless Communication Applications
指導教授:黃建彰黃建彰引用關係
學位類別:碩士
校院名稱:元智大學
系所名稱:通訊工程學系
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:2009
畢業學年度:97
語文別:中文
論文頁數:62
中文關鍵詞:功率放大器微混頻器發射機
外文關鍵詞:power amplifiermicromixertransmitter
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本論文使用台積電所提供的3P3M 0.35um SiGe製程實現射頻前端發射機電路,包含功率放大器與微混頻器,可應用於WLAN 802.11a/g系統與WiMAM 802.16d系統。
為實現高功率、高線性度與雙頻帶的要求,在功率放大器中加入了線性器的裝置,以及寬頻帶的匹配;混頻器部分本論文使用Gilbert Cell為基本架構,主動巴倫的設計使LO、RF與IF埠皆為單端的輸入輸出,並且利用電晶體來產生寬頻匹配,使之可應用於多種系統與頻帶。最後探討量測結果與模擬誤差原因與改進方式。
This thesis utilizes the TSMC 3P3M 0.35um SiGe technologies to design the front-end chip including Power Amplifier(PA)、Micromixer and transmitter for WLAN 802.11g and Wimax 802.16d System.
The linearizer is added for PAs to satisfy high power and high linearity demands and the wideband matching have been designed to approach dual-band PA. A Gilbert micromixer is demonstrated in this paper ,the RF, LO, and IF ports of the micromixer are all single-ended using the on-chip active LO balun,we use transistor to get wideband matching.
Finally,the differences between simulations and measurement results are addressed with some possible improvement directions.
中文摘要 ..............................................iii
英文摘要 ..............................................iv
誌謝 ..............................................v
目錄 ..............................................vi
圖目錄 ..............................................viii
表目錄 ..............................................xi
第一章 緒論 .....................................1
1.1研究動機 .....................................1
1.2論文研究架構 .....................................2
第二章 射頻發射機架構 ............................3
2.1簡介 ..............................................3
2.2發射機架構 .....................................3
2.2.1 直接轉換模式發設計 ...................3
2.2.2 超外差式發射機 ............................4
2.3多工存取技術(Multiple-access technique) ..........5
2.3.1 Frequency-Division Multiple Access(FDMA) .5
2.3.2 Time-Division Multiple Access (TDMA) ..........6
2.3.3 Code-Division Multiple Access (CDMA) ..........7
2.4系統性能考量 ......................................8
第三章 雙頻帶功率放大器 ............................10
3.1簡介 ..............................................10
3.2功率放大器理論 .....................................12
3.2.1 功率放大器種類 ............................12
3.2.2 功率匹配與共軛匹配 ...................14
3.2.3 Cripps負載線理論 ............................15
3.3雙頻功率放大器設計 ............................19
3.3.1 設計原理與方法 ............................19
3.3.2 電路架構 .....................................20
3.4雙頻功率放大器模擬與量測 ............................20
3.5功率放大器之討論 ............................23

第四章 升頻微混頻器 ............................25
4.1 簡介 ..............................................25
4.2混頻器理論 .....................................25
4.2.1 混頻器參數 .....................................25
4.2.2 混頻器種類 .....................................29
4.3升頻微混頻器設計 ............................35
4.4升頻微混頻器量測 ............................40
4.5升頻微混頻器之討論 ............................48
第五章 射頻前端發射機 ............................49
5.1電路架構 .....................................49
5.2設計原理與流程 .....................................50
5.3 佈局與量測考量 .....................................51
5.4模擬結果 .....................................52
第六章 結論 .....................................58
參考文獻 ..............................................59
[1]黃秋皇,應用於IEEE 802.11b/g無線區域網路之2.4GHz CMOS射頻接收機,成功大學碩士論文,民國92年6月
[2]高凱聲,無線網路上課講義,元智大學通訊系,96年9月
[3]陳韋廷,應用於無線區域網路射頻發射機電路之研製,元智大學碩士論文,93年6月
[4]Ulrich L. Rohde, David P. Newkirk,RF/MICROWAVE CIRCUIT DESIGN FOR WIRELESS APPLICATIONS,2000, JOHNWILEY & SONS, INC.
[5]An Introduction to Orthogonal Frequency Division Multiplex Technology,Copyright 2000 KEITHLEY Instrum ,INC
[6]李威廷,2.4GHz CMOS 單混頻器射頻收發機與5GHz 功率放大器RFIC 及高Q 值螺旋電感之設計研究,成功大學碩士論文,民國93年6月
[7]林武杰,2.4GHz射頻前端積體電路設計與實現,元智大學碩士論文,97年6月
[8]Toshihiko Yoshimasu, Member, IEEE, Masanori Akagi, Noriyuki Tanba, and Shinji Hara, Member, IEEE” An HBT MMIC Power Amplifier with an Integrated Diode Linearizer for Low-Voltage Portable Phone Applications” IEEE JOURNAL OF SOLID-STATE CIRCUITS, VOL. 33, NO. 9, SEPTEMBER 1998
[9]TohruOka,,Masatomo Hasegawa, Michitoshi Hirata, Yoshihisa Amano,Yoshiteru Ishimaru,HiroshiKawamura,and Keiichi Sakuno,”A High-Power Low-Distortion GaAs HBT Power Amplifier for Mobile Terminals Used in Broadband Wireless Applications” IEEE JOURNAL OF SOLID-STATE CIRCUITS, VOL. 42, NO. 10, OCTOBER 2007
[10]Ping-Chun Yeh, Kuei-Cheng Lin, C.Y.LEE*, Hwann-Kaeo Chiou.,A 1.8-V MONOLITHIC SIGE HBT POWER AMPLIFIER WITH A NOVEL PROPOSED LINEARIZING BIAS CIRCUIT , A 1.8-V Mnolithic SiGe HBT Power Amplifier With A Novel Proposed Linearizing Bias Circuit Power amplifier with an integrated diode linearizer,” IEEE Microwave Wireless ompon. Lett., vol. 13, pp. 45–47, Feb. 2003.
[11]J.H Kim, K.Y Kim , Y.H. Park , Y.K Chung and C.S. Park ,A 2.4GHz Bipolar Power Amplifier with Integrated Diode Linearizer for WLAN IEEE 802.11b/g Application ,2006 IEEE
[12]Jeng-Han Tsai, and Tian-Wei Huang, A Novel SiGe BiCMOS Variable-Gain Active Predistorter Using Current Steering Topologies, 2004 IEEE Radio Frequency Integrated Circuits Symposium
[13]KojiUchida,YoichiroTakayama,Takayuki Fujita, Kazusuke Maenaka Department of Electrical Engineering and Computer Sciences, University of Hyogo 2167 Shosha,Himeji,Hyogo, 671-2201 Japan” Dual-Band GaAs FET Power Amplifier With Two-Frequency Matching Circuits” APMC2005 Proceedings
[14]Guillermo Gonzalez,Microwave Transistor Amplifier Analysis and Design second edition, Prentice Hall, Upper Saddle River, New Jersey 1984
[15]Reinhold Ludwig, Pavel Bretchko ,RF Circuit Design Theory and Applications
[16]S. C. Cripps, RF Power Amplifiers for wireless communications,Artech House, INC., 1999
[17]吳怡珊,2.5Gbps 雷射二極體驅動電路及2.4/5.2GHz雙頻帶射頻接收器之研究,中央大學碩士論文,93年6月
[18]B. Gilbert, “The MICROMIXER: A highly linear variant of the Gilbert mixer using a bisymmetric Class-AB input stage.”IEEE J. Soiid-State Circrritr, 1997, Vol32, pp.1412-1423, Sept. 1997.
[19]Jeff Durec, Eric Main, “A linear class AB single-ended to differential transconverter suitable for RF circuits.” IEEE MTT-S International Microwave Symposium Digest, 1996, pp. 1071-1074.
[20]Jin-Siang Syu, Chinchun Meng, Chih-Kai Wu and Guo-Wei Huang “A Wideband SiGe HBT Gilbert Micromixer With Differential-to-Single CE-CC Output Stage” Proceedings of Asia-Pacific Microwave Conference 2007
[21]Tzung-Han Wu, Yi-Chen Lin, Chinchun Meng, Tse-Hung Wu, Hung-Ju Wei, and Guo-Wei Huang “Compact GaInP/GaAs HBT Gilbert Mixers With On-Chip Active LO Balun” Proceedings of Asia-Pacific Microwave Conference 2007
[22]Chinchun Meng, Tzung-Han Wu, Tse-Hung Wu and Guo-Wei Huang” A 5.2 GHz 16 dB Gain CMFB Gilbert Downconversion Mixer Using 0.35 pm Deep Trench Isolation SiGe BiCMOS Technology” 2004 IEEE MTTS Diges
[23]C. C. Meng, S. K. Xu*, T. H. Wu*, M. H. Chao** and G. W. Huang “A High Isolation CMFB Downconversion Micromixer Using 0.18-pm Deep N-well CMOS Technology”2003 IEEE MTTS Digest
[24]Shui-Yang Linlrl, Xiao-Wei Sunril, Li-Wu Yang“A High Linearity CMOS Micromixer for UWB Systems”Proceedings of Asia-Pacific Microwave Conference 2007
[25]H. Darabi and S. Khorram, ” A 2.4-GHz CMOS transceiver for Bluetooth”, IEEE Journal of Solid-State Circuits, vo. 36, no. 12, pp. 2016-2024, Dec. 2001.
[26]S. Kim and I. Nam, ” A single-chip 2.4GHz low-power CMOS receiver and transmitter for WPAN applications”, IEEE Radio and Wireless Conference , pp. 163-166, Aug. 2003.
[27]H. Komurasaki and T. Sano, ” A 1.8-V operation RF CMOS transceiver for 2.4-GHz-band GFSK applications”, IEEE Journal of Solid-State Circuit, vol. 38, no. 5, pp. 817-825, May 2003.
[28]P. Zeijl and J. Eikenbroek, ” A Bluetooth radio in 0.18 μm CMOS”, IEEE Journal of Solid-State Circuit, vol. 37, no. 12, pp. 1679-1687, Dec. 2002.
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