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硅射频微带电路S参数模拟研究 被引量:3

A Study on S Parameters of RF Microstrip Circuits on Si
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摘要 对不同电阻率硅片射频微带电路S参数进行了模拟研究。建立了 5层结构的微带电路物理结构模型 ,对两种电阻率硅片上不同尺寸 (2× 10 - 5m到 2 0× 10 - 5m)微带线 1~ 10GHz频率范围内的S1 1 和S2 1 参数进行模拟计算。研究结果表明 :减少低电阻率硅片 (3~ 8Ω·cm)线条宽度对减小信号反射和提高传输有益 ;高电阻率硅片 (130~ 15 0Ω·cm)上细线条尺寸微带电路信号反射和提高传输特性也更好。频率越高 ,高阻硅片微带电路的高频性能更好。 Microstrip circuits with s parameters on different resistance Si wafers are investigated and created a physics model of five-layer microstrip circuits. The s parameters of microstrip lines are analyzed on this model from 1GHz to 10GHz. Its sizes change from 2×10^(-5)m to 20×10^(-5)m. The results show that reducing the size of microstrip lines can decrease the reflection and increase the transmission of the high frequency signals on low-resistance silicons (3~ 8Ω·cm). High-resistance silicons(130~150 Ω·cm)show similar characteristics. Microstrip circuits on high-resistance silicon manifest their better performance in high frequency than those on low-resistance silicon.
作者 韩振宇 李树翀 汪锁发 赵知夷
机构地区 中国科学院微电子研究所
出处 《电子器件》 CAS 2004年第2期241-244,共4页 Chinese Journal of Electron Devices
基金 国家重点基础研究发展规划 (973 G2 0 0 2CB31190 6 )资助项目
关键词 硅片 微带电路 S参数 反射 传输 Si wafer microstrip circuits S Parameters reflection transmission
分类号 TN45 [电子电信—微电子学与固体电子学]
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参考文献7

  • 1Larson L E.Integrated circuit technology options for RFIC's-Present status and future directions[J].IEEE J.of Solid-State Circuits,1998,33:387-399.
  • 2Abidi A A.Low-power radio-frequency IC's for portable communications[J].Proc.IEEE,1995,83:544-569.
  • 3Zolfaghari A,Razavi B.A Low-Power 2.4-GHz Transmitter/Receiver CMOS IC IEEE Journal of solid-state circuits,2003:76-183.
  • 4Gray P R and Meyer R G.Future directions in silicon ICs for RF personal communication[J].IEEE circuits and Devices,Sep.1995:80-90.
  • 5Razavi B.The role of monolithic transmission lines in high-speed integrated circuits[J].In:IEEE 2002 custom integrated circuits conference,367-384.
  • 6Frank Schnieder and W.Heinrich.Model of Thin-film Microstrip Line for Circuit Design[J].IEEE Trans.Microwave Theory Tech.Jan,2001,49:104-119.
  • 7LudwigR BretchkoP.RF circuit design,theory and application[M].科学出版社,培生教育出版社,2002.143-188.

同被引文献12

  • 1杨中海,李斌,朱小芳,黄桃,廖莉,肖礼,胡权,高鹏,廖平,雷文强,姚列明,曾葆青.螺旋线行波管三维CAD技术进展[J].真空电子技术,2004,17(3):7-11. 被引量:2
  • 2M Kawachi. Recent Progress in Silica-Based Planar Lightwave Circuits on Silicon[J]. Proc. Inst. Electr. Eng. --Optoelectron, 1996,143(5) :257-262.
  • 3Shin J U, Kim D J, Park S H, et al. An Etch-Stop Technique Using Cr2O3 Thin Film and Its Application to Silica PLC Platform Fabrication[J]. ETRI J. , 2002,24 (5) : 398-400.
  • 4Han YoungTak, Park YoonJung, Park SangHo, et al. Fabrication of a TFF-Attached WDM-Type Triplex Transceiver Module Using Silica PLC Hybrid Integration Technology[J]. Journal of Lightwave Technology, 2006,24 (12) : 5031-5038.
  • 5Doi Y, Ishii M, Kamei S, et al. Flat and High Responsivity CWDM Photo-Receiver Using Silica-Based AWG with Multimode Output Waveguides[J]. Electron. Lett., 2003, 39 (22): 1603-1604.
  • 6Yanagawa H, Ochiai T, Hayakawa H, et al. Filter Embedded Design and Its Applications to Passive Components[J]. J. Lightw. Technol. , 1989,7(11) : 1646-1653.
  • 7Hashimoto T, Kurosaki T, Yanagisawa M, et at. A 1.3/1, 55-μm Wavelength-Division Multiplexing Optical Module Using a Planar Lightwave Circuit for Full Duplex Operation[J]. J. Lightw. Technol. ,2000,18(11) : 1541-1547.
  • 8杨存永,汪锁发,韩振宇等.激光器匹配电路中硅基微带线的研究[c]//第十二届全国化合物半导体材料、微波器件和光电器件学术会议,2002,12.
  • 9韩振宇,汪锁发,杨存永等.光收发模块硅基平台微带线的模拟设计[c]//第十二届全国化合物半导体材料、微波器件和光电器件学术会议,2002,12.
  • 10Razavi B. The Role of Monolithic Transmission Line in High-Speed Integrated Circuits[J].IEEE 2002 Custom Integrated Circuits Conference,2002:367-384.

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电子器件
2004年 第2期

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