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首页> 外文期刊>Circuits and Systems II: Express Briefs, IEEE Transactions on >A 5-V 290- $muhbox{W}$ Low-Noise Chopper-Stabilized Capacitive-Sensor Readout Circuit in 0.8- $muhbox{m}$ CMOS Using a Correlated-Level-Shifting Technique
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A 5-V 290- $muhbox{W}$ Low-Noise Chopper-Stabilized Capacitive-Sensor Readout Circuit in 0.8- $muhbox{m}$ CMOS Using a Correlated-Level-Shifting Technique

机译:使用相关电平转换技术在0.8- $ muhbox {m} $ CMOS中的5V 290- muhbox {W} $低噪声斩波稳定的电容传感器读出电路

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摘要

In this brief, a low-power high-resolution readout front end intended for capacitive sensors is presented, in which the circuit uses correlated-level-shifting (CLS) and chopper-stabilization (CS) techniques. CLS is a relatively new switched-capacitor (SC) technique that is used to reduce errors from finite operational amplifier (op-amp) gain, whereas CS is a classic technique that is used to reduce the adverse effects of dc offset and low-frequency noise associated with the op-amp. In this brief, the capacitive sensor is physically emulated by a pair of on-chip differential variable capacitors that are in the femtofarad range. The proposed front end is designed in a 0.8- $muhbox{m}$ CMOS technology and consumes 290 $muhbox{W}$ from a single 5-V supply. The readout circuit achieves a capacitance noise floor of 0.018 aF/ $sqrt{hbox{Hz}}$ at 400 Hz with a sensitivity of 50 mV/fF.
机译:在本简介中,介绍了一种用于电容传感器的低功耗高分辨率读数前端,其中电路使用了相关电平转换(CLS)和斩波稳定(CS)技术。 CLS是一种相对较新的开关电容器(SC)技术,用于减少来自有限运算放大器(op-amp)增益的误差,而CS是一种经典技术,用于减少dc偏移和低频的不利影响与运算放大器相关的噪声。在本简介中,电容传感器由一对在Femtofarad范围内的片上差分可变电容器进行物理仿真。拟议的前端采用0.8-muhbox {m} $ CMOS技术设计,并且通过5V单电源消耗290 $ muhbox {W} $。读出电路在400 Hz时达到0.018 aF / sqrt {hbox {Hz}} $的电容本底噪声,灵敏度为50 mV / fF。

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