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Ku波段宽带高增益单片中功率放大器 被引量:3

Ku-Band High-Gain Broadband Medium Power Amplifier MMIC
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摘要 介绍了一款采用四级级联结构的高增益宽带Ku波段中功率放大器单片集成电路,依据电路原理和放大器性能指标设计了电路原理图,利用ADS软件对电路图进行了电学参数优化、电磁场仿真和版图绘制。针对放大器工作频带宽和增益高,容易产生自激振荡等问题,设计过程中特别考虑了放大器的稳定性和增益平坦度。采用0.25μm栅长的GaAs PHEMT工艺完成了芯片制造,微波性能测试结果表明,在12~18 GHz内,该放大器输出功率大于27 dBm,功率增益大于27 dB,输入回波损耗大于12 dB。 A high-gain, broadband Ku-band medium power amplifier monolithic integrated circuit with a four cascade structure was introduced. The circuit schematic was designed based on the circuit theory and amplifier performance indicators. The electrical parameters of the amplifier were optimized, the electromagnetic simulation was carried out and the circuit layout was drawn with ADS software. Due to the broadband frequency and high gain of amplifier prone to self-excited oscillation, the stability of the amplifier and the gain flatness problem were specially considered when the circuit was designed. The power amplifier was fabricated using GaAs PHEMT 0.25 ~m gate length technology. The test results of microwave characteristics show that the output power is more than 27 dBm, the power gain is more than 27 dB, and the input return loss is more than 12 dB with operation frequency from 12 GHz to 18 GHz.
作者 蒋永红
机构地区 中国电子科技集团公司第十三研究所
出处 《半导体技术》 CAS CSCD 北大核心 2013年第8期585-588,共4页 Semiconductor Technology
关键词 GAAS 单片 KU波段 高增益 功率放大器 GaAs monolithic Ku-band high-gain power-amplifier
分类号 TN304.23 [电子电信—物理电子学] TN722.75 [电子电信—电路与系统]
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参考文献9

  • 1SCHELLEN B J. 1 and 2 Watt MMIC power amplifiers for commercial K/Ka-band applications [C] // Proceedings of Microwave Symposium. Washinton, USA, 2002:445 -448.
  • 2BARNES A R, MOORE M T, ALLENSON M B. A 6- 18 GHz broadband high power MMIC for EW Application [ C ] /// Proceedings of Microwave Symposium. Vancouer. CA, USA, 1977:1429-1432.
  • 3RADMANESH M M. Radio frequency and microwave electronics illustrated [ M ]. USA: Science Press, 2006: 427 - 456.
  • 4REINHOLD L, PAVEL B. RF circuit design: theory and applications [ M ]. USA: House of Electronics Industry, 2002 : 309 - 355.
  • 5IAN R, STEPAN L. RFIC and MMIC design and technology [ M ]. USA: House of Electronics Industry, 2006: 137 - 179.
  • 6DAVID M P. Microwave engineering [ M ]. Third edition. USA: House of Electronics Industry, 2010, 190 -315.
  • 7刘如青,高学邦,崔玉兴,张斌.基于GaAs PHEMT的Ku波段宽带单片中功率放大器[J].微纳电子技术,2011,48(4):230-232. 被引量:5
  • 8高葆新.微波集成电路[M].北京:国防工业出版社,1995.120-169.
  • 9喻梦霞,李桂萍.微波固态电路[M].成都:电子科技大学出版社,2008.

二级参考文献7

  • 1中国集成电路大全编委会.微波集成电路[M].北京:国防工业出版社,2000.
  • 2LIU H Z, WANG C C, WANG Y H, et al. A four-stage Ku-band I Watt PHEMT MMIC power amplifier[C] //Pro ceedings of the 24th Gallium Arsenide Intergrated Circuit. Ca- liformia, USA, 2002: 33-36.
  • 3SCHELLENBERG J M. 1 and 2 Watt MMIC power amplifiers for commercial K/Ka band applications [C] //Proceedings of Microwave Symposium. Washington, USA, 2002:445-448.
  • 4KOMIAK J J, WENDELL K, NICHOLS K. High efficiency wide band 6 to 18 GHz PHEMT power amplifier MMIC [C] // Proceedings of Microwave Symposium Digest. Washington, USA,2002:905 - 907.
  • 5BARNES A R, MOORE M T, ALLENSON M B. A 6 - 18 GHz broadband high power MMIC for EW Applications [C] // Proceedings of Microwave Symposium. Vancouver, CA, USA, 1997: 1429-1432.
  • 6ROBERTSON I D, LIUSYSZYN S. RFIC and MMIC design and technology [M]. London:The Institution of Electrical Engineers, 2001.
  • 7南敬昌,梁立明,刘影.基于ADS微波功率放大器设计与仿真[J].计算机仿真,2010,27(5):327-330. 被引量:5

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半导体技术
2013年 第8期

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