基于内反馈的ADC三阶级联多位σ δ调制器设计

Q4 Business, Management and Accounting

International Journal of Mobile Network Design and Innovation Pub Date : 2017-03-14 DOI:10.1504/IJMNDI.2017.10003740

Sonika, D. Neema, R. N. Patel

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引用次数: 1

摘要

本文提出了一种用于模数转换器的三阶级联多位σ δ调制器的新设计。该调制器基于传统的多级级联σ δ调制器，具有级间反馈拓扑结构。Sigma delta系统支持级联多比特架构，以获得更高的分辨率和更宽的带宽，并额外致力于抑制模拟非线性。在多位级联σ δ调制器中，主要的模拟非理想性之一是DAC的非线性误差，其缺点之一是由多位DAC的非线性误差引入的未抵消噪声将限制其性能。所提出的架构的思想是在调制器周围创建额外的反馈路径，以减少DAC误差。本文提出了一种改进的级联多位σ δ调制器来克服这些问题。此外，还提出了一种三阶级联低失真ADC结构。仿真结果验证了两种调制器的优越性。

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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Design of 3rd order cascaded multi-bit sigma delta modulator for ADC using internal feedback

This paper presents a new design of third order cascaded multi-bit sigma delta modulator for analogue to digital converter. The proposed modulator is based on the conventional multibit cascaded sigma delta modulator with interstage feedback topology. Sigma delta systems favours a cascaded multi-bit architecture for higher resolution and wider bandwidth with extra effort focusing on suppressing the analogue nonlinearity. One of the major analogue non-idealities in a multi-bit cascaded sigma delta modulator is the DAC nonlinearity errors and one of the drawbacks is that performance will be limited by un-cancelled noise introducing from the nonlinear errors of multi-bit DAC. The idea of proposed architecture is to create extra feedback paths around the modulator to reduce the DAC error. In this paper, an improved version of cascaded multi-bit sigma delta modulator is proposed to overcome these problems. In addition, a third order cascaded low distortion ADC architecture is also proposed. Simulation results verify the superiority of both the proposed modulators.

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来源期刊

International Journal of Mobile Network Design and Innovation Business, Management and Accounting-Management Information Systems

CiteScore

0.30

自引率

0.00%

发文量

期刊介绍： The IJMNDI addresses the state-of-the-art in computerisation for the deployment and operation of current and future wireless networks. Following the trend in many other engineering disciplines, intelligent and automatic computer software has become the critical factor for obtaining high performance network solutions that meet the objectives of both the network subscriber and operator. Characteristically, high performance and innovative techniques are required to address computationally intensive radio engineering planning problems while providing optimised solutions and knowledge which will enhance the deployment and operation of expensive wireless resources.