0.6-V, μW-Power Four-Stage OTA With Minimal Components, and 100× Load Range

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Marco Privitera;Alfio Dario Grasso;Andrea Ballo;Massimo Alioto
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引用次数: 0

Abstract

A four-stage operational transconductance amplifier (OTA) for ultralow-power applications is introduced in this letter. The proposed circuit inclusive of frequency compensation requires minimal transistor count and passives, overcoming the traditionally difficult compensation of four-stage OTAs and bringing it back to the simplicity of three-stage OTAs. At the same time, the proposed circuit achieves high power efficiency, as evidenced by the > $3.7\times $ (> $11.3\times $ ) improvement in the large-signal (small-signal) power efficiency figure of merit ${\mathrm { FOM}}_{L}~({\mathrm { FOM}}_{S})$ , compared to prior four-stage OTAs (sub-1 V multistage OTAs). Thanks to the lower sensitivity of the phase margin to the load capacitance, the proposed OTA remains stable under a wide range of loads (double-sided as in any three- and four-stage OTA), achieving a max/min ratio of the load capacitance of > $100\times $ .
0.6 V、μW 功率四级 OTA,元件最少,负载范围达 100 倍
本信介绍了一种用于超低功耗应用的四级运算跨导放大器(OTA)。所提出的电路包括频率补偿,只需最少的晶体管数量和无源器件,克服了四级 OTA 传统上难以补偿的问题,使其回归到三级 OTA 的简单性。同时,与之前的四级 OTA(1 V 以下的多级 OTA)相比,所提出的电路实现了较高的功率效率,其大信号(小信号)功率效率优值 ${\mathrm { FOM}}_{L}~({\mathrm { FOM}}_{S})$ 提高了 > 3.7 (> $11.3)倍。由于相位裕度对负载电容的敏感性较低,因此所提出的 OTA 在各种负载(与任何三级和四级 OTA 一样为双面负载)下都能保持稳定,负载电容的最大/最小比> $100\times $。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IEEE Solid-State Circuits Letters
IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering
CiteScore
4.30
自引率
3.70%
发文量
52
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