基于改进Jacobi多项式逼近的δ σ调制器噪声传递函数设计

2023 International Conference on Wireless Communications Signal Processing and Networking (WiSPNET) Pub Date : 2023-03-29 DOI:10.1109/WiSPNET57748.2023.10134293

J. Twinkle, P. Chandramani, R. Srinivasan

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引用次数: 0

摘要

提出了一种基于改进雅可比多项式近似的连续时间高通滤波器的δ σ调制器噪声传递函数的设计方法。$\boldsymbol{\upalpha}， \boldsymbol{\upbeta}$是雅可比多项式的阶数。$\boldsymbol{\upalpha}， \boldsymbol{\upbeta}$的不同组合会产生不同的NTFs。本工作的目的是确定在满足DSM可实现条件的同时在NTF阻带中实现最佳衰减特性的$\upalpha， \upbeta$值。对于$\boldsymbol{5}^{\mathbf{th}}$阶DSM，过采样比(OSR)为32，$\gamma$为1.5，实现了69.9 dB的SQNR，与Delta Sigma Toolbox (DST)方法相比提高了5.15 dB。

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Design of Noise Transfer Function for Delta Sigma Modulator based on Modified Jacobi Polynomial Approximations

This paper presents the design of Noise Transfer Function (NTF) for Delta Sigma Modulator (DSM) based on continuous time high pass filter approximated by modified Jacobi polynomial. $\boldsymbol{\upalpha}, \boldsymbol{\upbeta}$ are the orders of the Jacobian polynomial. Different combination of $\boldsymbol{\upalpha}, \boldsymbol{\upbeta}$ results in different NTFs. The objective of this work is to determine the $\upalpha, \upbeta$ values for which the optimum attenuation characteristic is achieved in the stopband of the NTF while satisfying the realizability condition of the DSM. For the $\boldsymbol{5}^{\mathbf{th}}$ order DSM with an Oversampling Ratio (OSR) of 32 and $\gamma$ of 1.5 an SQNR of 69.9 dB is achieved which is an improvement of 5.15 dB compared to the Delta Sigma Toolbox (DST) method.

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2023 International Conference on Wireless Communications Signal Processing and Networking (WiSPNET)

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