Low-Power Architecture and Circuit Techniques for High-Boost Wide-Band Gm–C Filters

Gambhir M.; Dhanasekaran V.; Silva-Martinez J.; Sanchez-Sinencio E.

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Low-Power Architecture and Circuit Techniques for High-Boost Wide-Band Gm–C Filters

机译：高增益宽带Gm–C滤波器的低功耗架构和电路技术

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A 330-MHz fifth-order Gm-C continuous-time low-pass filter with 24-dB boost is presented. Existing solutions are found to be unsuitable for low-power, wide-band, and high-boost operation. The proposed solution realizes two symmetric real axis zeros by efficiently combining transfer functions associated with all nodes of cascaded biquad cells. Application of Gilbert cell as a variable transconductor, for achieving constant parasitic capacitance across wide programmability range, is illustrated. A new common-mode feedback error amplifier that improves common-mode accuracy without compromising on bandwidth or circuit complexity is introduced. A prototype is fabricated in a standard 0.35-mum CMOS process. Experimental results show -41 dB of IM3 for 250-mV peak-peak swing with 43 mW of power dissipation

机译：提出了具有24dB升压的330MHz五阶Gm-C连续时间低通滤波器。发现现有解决方案不适合低功率，宽带和高升压操作。所提出的解决方案通过有效地组合与级联双二元单元的所有节点关联的传递函数来实现两个对称的实轴零点。说明了吉尔伯特单元（Gilbert cell）作为可变跨导的应用，以在广泛的可编程范围内实现恒定的寄生电容。推出了一种新的共模反馈误差放大器，该放大器在不影响带宽或电路复杂性的情况下提高了共模精度。采用标准的0.35微米CMOS工艺制造原型。实验结果表明，对于250mV的峰峰值摆幅，IM3为-41 dB，功耗为43mW

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《IEEE transactions on circuits and systems . I , Regular papers》 |2007年第3期|p.458-468|共11页
作者
Gambhir M.; Dhanasekaran V.; Silva-Martinez J.; Sanchez-Sinencio E.;
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正文语种 eng
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CMOS integrated circuits; UHF filters; continuous time filters; feedback amplifiers; low-pass filters; low-power electronics; poles and zeros; transfer functions; 0.35 micron; 250 mV; 330 MHz; 43 mW; CMOS process; Gm-C filters; Gilbert cell; cascaded biquad;

机译：CMOS集成电路;UHF滤波器;连续时间滤波器;反馈放大器;低通滤波器;低功率电子器件;极点和零点;传递函数;0.35微米;250 mV;330 MHz;43 mW;CMOS工艺;Gm-C滤波器;吉尔伯特单元格;级联二元;

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1. Low-Power Architecture and Circuit Techniques for High-Boost Wide-Band $G_m$–$C$ Filters [J] . Manisha Gambhir, Vijay Dhanasekaran, Jose Silva-Martinez, IEEE Transactions on Circuits and Systems. I, Regular Papers . 2007,第期

机译：高增益宽带$ G_m $ – $ C $滤波器的低功耗架构和电路技术
2. Low-Power Circuit Techniques for Low-Voltage Pipelined ADCs Based on Switched-Opamp Architecture [J] . Hsin-Hung OU, Soon-Jyh CHANG, Bin-Da LIU IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences . 2008,第2期

机译：基于开关运算架构的低压流水线ADC的低功耗电路技术
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4. Low-power design of a 64-tap, 4-bit digital matched filter using systolic array architecture and CVSL circuit techniques in CMOS [C] . Yalcin, T., Ismailoglu, . 1998

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5. Delay/power modeling and optimization techniques for low-power FinFET logic circuits and architectures. [D] . Tang, Aoxiang. 2015

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7. Low power architecture and circuit techniques for high boost wideband Gm-C filters [O] . Gambhir Manisha 2007

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8. Synthesis of Distributed Wide-Band Transistor Amplifiers by Computer Techniques for Application to Microwave Integrated Circuits [R] . Chase, I. L., Gelnovatch, V. G. 1968

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Low-Power Architecture and Circuit Techniques for High-Boost Wide-Band Gm–C Filters

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