Behavioral Modeling of Opamp Gain and Dynamic Effects for Power Optimization of Delta-Sigma Modulators and Pipelined ADCs

A. Hamoui, T. Alhajj, M. Taherzadeh‐Sani
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引用次数: 28

Abstract

This paper proposes a simple, yet accurate, analytical model for the effect of opamp gain and dynamics (slew rate and bandwidth) on the transfer function of switched-capacitor (SC) amplifiers and integrators. Furthermore, it demonstrates the detrimental effects of: a) the nonlinear variation in the opamp dc gain; and b) the feedforward transmission of the feedback capacitor, on the harmonic distortion and settling behavior of these SC stages. These effects, typically ignored in the behavioral simulations of SC stages, are analyzed and modeled. Thus, accurate behavioral simulations of DeltaSigma modulators or pipelined analog-to-digital converters (ADCs) can be performed in SIMULINK, using the proposed models for their SC building blocks (integrators or amplifiers). The proposed behavioral models are validated in HSPICE. Behavioral simulation examples are presented to illustrate the importance of such accurate modeling for low-power design
δ - sigma调制器和流水线adc功率优化的运放增益和动态影响行为建模
本文提出了一个简单而准确的分析模型,用于分析运放增益和动态(摆压率和带宽)对开关电容放大器和积分器传递函数的影响。此外,它还证明了以下因素的不利影响:a)运放直流增益的非线性变化;b)反馈电容的前馈传输,对这些SC级的谐波畸变和沉降行为的影响。这些影响在SC阶段的行为模拟中通常被忽略,本文对其进行了分析和建模。因此,可以在SIMULINK中对DeltaSigma调制器或流水线模数转换器(adc)进行精确的行为模拟,使用所提出的模型用于其SC构建块(积分器或放大器)。提出的行为模型在HSPICE中得到了验证。行为仿真实例说明了这种精确建模对低功耗设计的重要性
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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