A power efficient programmable gain boosting current mirror for biomedical electronics

2010 Biomedical Circuits and Systems Conference (BioCAS) Pub Date : 2010-11-01 DOI:10.1109/BIOCAS.2010.5709612
Hosung Chun, T. Lehmann
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引用次数: 1

Abstract

In this paper, a power efficient gain boosting current mirror with fast stand-by recovery (4.5μs) and a maximum gain of 80dB is proposed in a 0.35μm CMOS process with 3V power supply. The gain is achieved from the aspect ratios in transistors and deployed closed loop amplifier. In active mode, it can deliver upto 1mA from 0.1μA input current with approximately 1.2μA in biasing circuits. It consumes only 0.8μW during stand-by mode. A digital calibration circuit is employed to overcome device mismatch and process variation. This generates accurate output currents within a range of ±8%, whereas without calibration, the variation of ±33% at output currents is observed. This technique can be used in biomedical devices, which seek high power efficiency.
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一种用于生物医学电子学的高能效可编程增益增强电流反射镜
本文提出了一种采用0.35μm CMOS工艺、3V电源、待机恢复速度快(4.5μs)、最大增益80dB的高增益电流反射镜。增益是通过晶体管的宽高比和部署的闭环放大器来实现的。在有源模式下,它可以从0.1μA的输入电流和大约1.2μA的偏置电路中提供高达1mA的输出。待机时功耗仅为0.8μW。采用数字校准电路克服器件失配和工艺变化。这样可以产生±8%范围内的精确输出电流,而在没有校准的情况下,可以观察到输出电流的±33%变化。该技术可用于寻求高功率效率的生物医学设备。
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2010 Biomedical Circuits and Systems Conference (BioCAS)
2010 Biomedical Circuits and Systems Conference (BioCAS)
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