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一种具有温度补偿的宽带CMOS可变增益放大器 被引量:1

A Wideband CMOS Variable Gain Amplifier withTemperature Compensation
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摘要 设计实现了一个具有温度补偿的宽带CMOS可变增益放大器,该可变增益放大器的核心电路由三级基于改进型Cherry-Hooper结构的可变增益单元级联而成,并通过一种温度系数增强的且可编程的偏置电路和增益控制电路对可变增益放大器的增益进行温度补偿。采用中芯国际0.13μm CMOS工艺流片,测试结果表明可变增益放大器的可变增益范围为-13~27dB,经过温度补偿后,在相同增益控制电压下其增益在0~75°C温度范围内的变化范围不超过3dB。可变增益放大器的3dB带宽为0.8~3GHz,输入1dB压缩点为-50~-21dBm,在1.2V电压下,功耗为21.6mW。 A wideband CMOS variable gain amplifier with temperature compensation is presented.The VGA core consists of three cascading variable gain cells based on modified Cherry-Hooper structure.The gain of VGA is temperature-compensated by a bias circuit and a gain control circuit with enhanced and programmable temperature coefficient.Fabricated in SMIC 0.13 μm CMOS process,the measurement results show that the VGA provides a dynamic gain range of-13~27 dB and with temperature compensation,the variation range of its gain is less than 3 dB at the temperature range of 0~75°C under the same gain control voltage.The VGA has a 3 dB bandwidth of 0.8~3 GHz,and input P1 dB of-51~21 dBm while consuming 21.6 mW from a 1.2 V supply voltage.
作者 黄杏丽 秦希 秦亚杰 黄煜梅 洪志良
机构地区 复旦大学专用集成电路与系统国家重点实验室
出处 《固体电子学研究与进展》 CAS CSCD 北大核心 2013年第3期254-259,共6页 Research & Progress of SSE
基金 国家科技重大专项资助项目(2011ZX03004-002-02)
关键词 宽带 互补金属氧化物半导体 可变增益放大器 温度补偿 wideband CMOS variable gain amplifier(VGA) temperature compensation
分类号 TN722 [电子电信—电路与系统]
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参考文献10

  • 1Cabric D, Chen M S W, Sobel D A, et al. Future wireless systems: UWB, 60 GHz, and cognitive ra- dios[C]. Proc of IEEE CICC, 2005: 793-796.
  • 2Shekhar S, Walling J S, Allstot D J. Bandwidth ex- tension techniques for CMOS amplifiers [J]. IEEE Journal of Solid-state Circuits, 2006, 41 (11) : 2424- 2439.
  • 3Razavi B. Design of Integrated Circuits for Optical Communications [M ]. New York: Mc-Grall Hill, 2003: 136-142.
  • 4Cherry E M, Hooper D E. The design of wide-band transistor feedback amplifier[J]. Proe of the Institu- tion of Electrical Engineers, 1963, 110(2): 375-389.
  • 5Galal S, Razavi B. 10 Gb/s limiting amplifier and laser/modulator driver in 0.18 tm CMOS technology [J]. IEEE Journal of Solid-state Circuits, 2003, 38 (12) : 375-389.
  • 6Mataya J A,Haines G W,Marshall S B. IF amplifier using C compensated transistors[J]. IEEE Journal of Solid-state Circuits, 1968 3(4): 401-407.
  • 7Pletcher N M, Gambini S,Rabaey J M. A 2 GHz 52 /W wake-up receiver with --72 dBm sensitivity using uneertain-IF architecture [C]. IEEE Int Solid-state Circuits Conference, 2008: 524-633.
  • 8Baker R J. CMOS Circuit Design, Layout, and Simu- lation, 2nd Edition [M]. NewYork.. John Wiley, 2005 761-770.
  • 9Li Zhiqun,Guo Feng, Chen Dongdong,et al. A wide- band CMOS variable Gain amplifier with a novel lin- ear-in-dB Gain control structure[C]. IEEE Int RFIT Workshop Di, 2007: 337-340.
  • 10Huang Y Y, Woo W,Jeon H,et al. Compact wideband linear CMOS variable gain amplifier for analog predis- tortion power amplifiers [J]. IEEE Trans on Mi- crowave Theory and Techniques, 2012, 60(1): 62- 78.

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固体电子学研究与进展
2013年 第3期

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