一种无电阻温度不敏感电子可调单vga电压模式仪表放大器

M. Siripruchyanun, Burin Theppota, W. Saksiri
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摘要

本文介绍了一种新型的全电子可控、温度不敏感的电压型仪表放大器。它的电路描述非常简单,只有一个有源模块即电压差增益放大器(VDGA),没有任何无源元件,以实现高差模增益和共模抑制比(CMRR)。它的增益可以通过输入偏置电流通过电子方法广泛调节,然后可以很容易地修改为自动或基于微控制器的控制系统。以0.25μm CMOS工艺为模型参数,通过PSpice仿真揭示了所提出的仪表放大器的若干性能。温度变化引起的输出偏差约为0.00135%/℃。输出电压总谐波失真(THD)为0.89%。该电路在±1.2V电源下的总功耗为0.18mW。
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A Resistorless Temperature-insensitive Electronically-adjustable Single VDGA-based Voltage-mode Instrumentation Amplifier
This article describes a novel voltage-mode instrumentation amplifier with fully electronic controllability and temperature insensitivity. Its circuit description is very simple comprising only single active building block namely voltage differencing gain amplifier (VDGA) without any passive elements to achieve high differential-mode gain and common-mode rejection ratio (CMRR). Its gain can be widely adjustable by electronic method via input bias currents, it then can be easily modified to automatic or microcontroller-based control systems. Several performances of workability of the proposed instrumentation amplifier are disclosed using PSpice simulation with the model parameter of 0.25μm CMOS process. The output deviation due to temperature variation is about 0.00135%/°C. The total harmonic distortion (THD) of output voltage is 0.89%. Total power consumption of the proposed circuit is 0.18mW at ±1.2V power supply.
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