Generalization of the integral function method to evaluate distortion in SOI FD MOSFET

A. Cerdeira, R. Quintero, M. Estrada, D. Flandre, A. Ortiz-Conde, F. Garcia Sanchez
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引用次数: 3

Abstract

The harmonic distortion introduced by MOS transistors is a property of major importance regarding their analog applications. In recent papers we presented a new integral function method (IFM) to calculate total harmonic distortion (THD) and the third harmonic component (HD3) of MOSFET based on the direct analysis of the non-linearity of the DC I/sub DS/-V/sub DS/ characteristic of the device for a fixed gate voltage. To evaluate this non-linearity, we defined an integral function, which will be called D hereafter, to calculate an integral equation of the I/sub DS/-V/sub DS/ characteristic, and in order to eliminate the even harmonics, a second function, which we call D3 was also defined. In this paper we generalize the IFM to analyze the case where several MOSFET pairs (balanced 2-MOSFET and double balanced 4-MOSFET structures) are used in order to eliminate the even harmonics. Real transistors always show some mismatch in their parameters that become apparent even in these balanced circuits. For the generalized IFM a new function Da is defined and used to analyze the effect of variation of transistor parameters. The efficiency of the new method is demonstrated analyzing the harmonic distortion in a balanced circuit, where typical variations of the threshold voltage if the transistors is taken into account.
积分函数法在SOI FD MOSFET失真评估中的推广
MOS晶体管的谐波失真是影响其模拟应用的重要因素。在最近的论文中,我们提出了一种新的积分函数法(IFM)来计算MOSFET的总谐波失真(THD)和三次谐波分量(HD3),该方法基于直接分析器件在固定栅极电压下的直流I/sub - DS/-V/sub - DS/特性的非线性。为了评估这种非线性,我们定义了一个积分函数,以后称为D,来计算I/sub DS/-V/sub DS/特性的积分方程,为了消除偶谐波,我们还定义了第二个函数,我们称之为D3。在本文中,我们推广IFM来分析使用几个MOSFET对(平衡2-MOSFET和双平衡4-MOSFET结构)以消除均匀谐波的情况。真正的晶体管在其参数中总是显示出一些不匹配,即使在这些平衡电路中也很明显。对于广义IFM,定义了一个新的函数Da,用于分析晶体管参数变化的影响。通过对平衡电路中谐波畸变的分析,证明了该方法的有效性。在平衡电路中,当考虑晶体管时,阈值电压的典型变化。
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