面向全数字频率合成应用的多步前瞻Σ-Δ类调制架构的硬件实现方面

Charis Basetas, A. Kanteres, P. Sotiriadis
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引用次数: 3

摘要

这项工作讨论了一种新型多步前瞻调制架构的硬件实现考虑因素,该架构改善了用于全数字频率合成应用的传统Σ-Δ调制器的稳定性和动态范围。分析了该体系结构的基本理论概念,并给出了所需数学运算的适当通用硬件实现。结果表明,采用方便系数的噪声整形滤波器可以降低硬件复杂度。此外,给出了特定噪声整形滤波器的FPGA和IC实现示例,并给出了功率、面积和延迟估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hardware implementation aspects of Multi-Step Look-Ahead Σ-Δ modulation-like architectures for all-digital frequency synthesis applications
This work discusses hardware implementation considerations for a novel Multi-Step Look-Ahead modulation architecture which improves on the stability and dynamic range of conventional Σ-Δ modulators for all-digital frequency synthesis applications. The basic theoretical concepts of the architecture are analyzed and an appropriate general hardware implementation of the required mathematical operations is presented. It is shown that hardware complexity reduction is possible when noise-shaping filters with convenient coefficients are utilized. Moreover, FPGA and IC implementation examples for a specific noise-shaping filter are given, accompanied by power, area and delay estimations.
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