基于新型可调谐晶体管的低功耗CMOS可变增益放大器

IET Circuits Devices Syst. Pub Date : 2015-04-09 DOI:10.1049/iet-cds.2014.0130

T. Sánchez-Rodríguez, J. Galán, M. Pedro, A. López-Martín, R. Carvajal, J. Ramírez-Angulo

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引用次数: 21

摘要

提出了一种基于新型线性可调三极管的CMOS可变增益放大器(VGA)。所提出的晶体管采用局部负反馈进行线性化，控制三极管区域偏置输入晶体管的漏极电压。新设计能够在低电源电压下工作，保证了稳定性。该晶体管具有47.75 dB直流增益和4.23 MHz单位增益频率，功耗仅为91µa。为了证明所提出的晶体管的可行性，我们制作了一个VGA。对0.13µm CMOS设计的测量结果显示，在整个增益范围内，2.8 MHz以上的带宽为−3 dB, 500 kHz的三阶谐波失真低于−46 dB。VGA单路1.2 V电源的最大功耗仅为395µW。

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Low-power CMOS variable gain amplifier based on a novel tunable transconductor

A CMOS variable gain amplifier (VGA) based on a novel linear and tunable triode transconductor is presented. The proposed transconductor employs local negative feedback for linearisation controlling the drain voltage of the input transistors biased in the triode region. The new design is able to operate at low supply voltage and the stability is guaranteed. The transconductor features a 47.75 dB dc gain and a 4.23 MHz unity gain frequency with a power consumption of only 91 µA. To show the feasibility of the proposed transconductor, a VGA has been fabricated. Measurement results for a 0.13 µm CMOS design show a −3 dB bandwidth above 2.8 MHz and a third-order harmonic distortion at 500 kHz below −46 dB over the whole gain range. The VGA exhibits a maximum power consumption of only 395 µW from a single 1.2 V supply.

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IET Circuits Devices Syst.

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