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射频电路中混频器的设计 被引量:3

Design of mixer in RF circuit
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摘要 目前实现小型化以及低功耗射频电路的一种可行性方法是实现收发机射频电路的集成。在射频电路的前端,混频器是实现频谱搬移的重要器件,是十分重要的模块。设计了一种微带平衡混频器,其主要由3dB定向耦合器、匹配电路、晶体管和低通滤波器组成,滤波器用来滤除输出信号中高次谐波频率成分,从而得到需要的中频成分。然后用ADS软件进行各部分电路设计、仿真,从功能仿真图中看到输出信号的频谱中有需要的中频频率成分,这就验证了混频器频谱搬移的功能。 A feasible method to achieve miniaturization and low power consumption RF circuit is integration of transceiver RF circuit.The mixer at the front-end of RF circuit is an important device to implement the spectrum shift.It is a very important module.A micro-strip balanced mixer composed of 3 dB directional coupler,matching circuit,transistors and low-pass filter is designed.The filter is used to filter out high-order harmonic frequency components in the output signal,thereby to obtain the required intermediate frequency components.The circuit design and simulation of each circuit were performed with the ADS software.There are the needed intermediate frequency components in the output signal frequency spectrum,which can be seen in the functional simulation diagram.It verified the spectrum shift function of the mixer.
作者 黄军 高晓蓉 王敏锡 罗林
机构地区 西南交通大学光电工程研究所
出处 《现代电子技术》 2012年第13期88-90,共3页 Modern Electronics Technique
关键词 滤波器 频率变换 混频器 ADS仿真 filter frequency conversion mixer ADS simulation
分类号 TN773.34 [电子电信—电路与系统]
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  • 1朱相磊,冯晶.脉冲式混频器概述[J].现代电子技术,2004,27(13):82-83. 被引量:3
  • 2汤汉屏.频率合成器中混频器杂散的影响分析[J].电讯技术,2006,46(3):100-105. 被引量:1
  • 3Crols J. A 1.5 GHz Highly Linear CMOS Downconversion Mixer[J]. IEEE. Solid - State Circuits, 1995,30 : 760 -765.
  • 4Barrie Gilbert. The Multi- tanh Principle: A Tutorial Overview[J]. IEEE. Solid - State Circuits, 1998,33 : 2 - 17.
  • 5Darabi H, Asad A Abidi. Noise in RF CMOS Mixer[J]. IEEE. Solid - State Circuits, 2000,35 : 15 - 25.
  • 6Crols J, Steyeart M. A Single Chip 900 MHz CMOS Rcceivcr with a High Performance Low - IF Topology[J].IEEE. Solid State Circuits,1995,30:1 483-1 492.
  • 7Razavi B. A 1.5 V 900 MHz Down - conversion Mixer[A]. in 1996 IEEE Int. Solid State Circuit Conf. Dig. Tech Papers [C]. 1996:48- 49.
  • 8Sullivan P J, Xavier B A, Ku W H. Low Voltage Performance of a Microwave CMOS Gilbelt Cell Mixer[J]. IEEE Journal of SolidState Circuits, 1997,32(7) :1 151 - 1 155.
  • 9Gilbert B. Design Considerations for Active BJT Mixers. LowPower HF Microelectronics : A Unifed Approach, London :IEE Circuits and Systems, 1996 : 837 - 927.
  • 10Karanicolas A N. A 2.7 V 900 MHz LNA and Mixer[J].Proc. IEEE Int. Solid - State Circuits Conf. , 1996.

共引文献14

同被引文献27

  • 1南敬昌,冯永生,刘元安.基于ADS线性射频放大器设计与仿真[J].计算机仿真,2007,24(5):302-305. 被引量:5
  • 2王国波,张流强,夏华灿,等.平面螺旋电感的计算和影响Q值的因素探讨[C].第五届中国(国际)纳米科技西安研讨会(西安),2006:111-116.
  • 3BERYL R, VAITHIANATHAN V, KIRUBAVENI S. Comparative analysis of various on-chip spiral induc- tors[ C]//2013 International Conference on Communi- cations and Signal Processing ( ICCSP ), 2013 : 437- 441.
  • 4ARVAS S.Spiral inductor model extraction:A survey of the field [ C]//2012 IEEE 13th Annum Wireless and Microwave Technology Conference ( WAMICON), 2012: 1-7.
  • 5GRAY P R, MEYER R G. Future directions in silicon ICs for RF personal communications[ C ]//Custom Inte- grated Circuits Conference, 1995:83-90.
  • 6ASHBY K B, KOULLIAS I, FINLEY W C, et al.High Q inductors for wireless applications in a complementary silicon bipolar process [ J ]. IEEE Journal of S01id- State Circuits, 1996,31 ( 1 ) :4-9.
  • 7YUE C P ,WONG S S.Physical modeling of spiral induc-tors on silicon [ J ]. IEEE Transactions on Electron De- vices, 2000,47 (3) : 560-568.
  • 8CHEN H H,ZHANG H W,CHUNG S J,et al.Accurate systematic model-parameter extraction for on-chip spi- ral inductors [ J ]. IEEE Transactions on Electron De- vices, 2008,55 ( 11 ) : 3 267-3 273.
  • 9WEI J, WANG Z.Frequency-independent T equivalent circuit for on-chip spiral inductors [ J ]. IEEE Electron Device Letters, 2010,31 (9) : 933-935.
  • 10YANG G, WANG Z, WANG K.Modified T-Model With an Improved Parameter Extraction Method for Silicon- Based Spiral Inductors[ J] .IEEE Microwave and Wire- less Components Letters, 2014,24 ( 11 ) : 817-819.

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现代电子技术
2012年 第13期

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