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IF 5.2 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of the Industrial Electronics Society Pub Date : 2025-03-03 DOI:10.1109/OJIES.2025.3546820

Tomasz Święchowicz;Sebastian Styński;Krzysztof Kulikowski

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引用次数: 0

摘要

Σ-Δ测量（SDM）因其高精度而在电力电子设备中越来越受欢迎，但其带来的显著测量延迟却阻碍了它的发展。如果 SDM 的数字滤波器不仅要衰减量化噪声，还要衰减与脉宽调制 (PWM) 相关的谐波，则会进一步增加延迟。本文的主要目的是通过添加和验证一种名为 TSS 滤波器的新型数字滤波器来改进 SDM 方法，这种滤波器既能减少测量延迟，又能抵御 PWM 纹波。鉴于有关 PWM 电压源转换器 (VSC) 中 SDM 精度的公开信息数量有限，本文的次要目标是在专用平台上将其与常规采样测量 (RSM) 进行实验比较。为了证明 RSM 所产生的误差是固有的，而不是由于转换器设计不当造成的，本文对 PWM 电压源转换器中的测量误差源进行了分析。

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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Reduced-Delay Sigma-Delta Filter for Accurate Current Measurement in PWM VSCs

The popularity of sigma-delta measurement (SDM) in power electronics is increasing due to its high accuracy but is hampered by the significant measurement delay it introduces. This delay is further increased if the SDM's digital filter is designed to attenuate not only the quantization noise but also the pulsewidth modulation (PWM)-related harmonics. The main objective of this article is to improve the SDM methodology by adding and verifying a new digital filter, named the TSS filter, which reduces measurement delay while remaining robust against the presence of PWM ripple. Given the limited amount of published information on SDM accuracy in PWM voltage-source converters (VSCs), the secondary objective of this article is to experimentally compare it against regular sampled measurement (RSM) on a dedicated platform. To show that the resulting inaccuracies are inherent to RSM rather than stemming from poor converter design, an analysis of measurement error sources in PWM VSCs is conducted.

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来源期刊

IEEE Open Journal of the Industrial Electronics Society ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

10.80

自引率

2.40%

发文量

审稿时长

12 weeks

期刊介绍： The IEEE Open Journal of the Industrial Electronics Society is dedicated to advancing information-intensive, knowledge-based automation, and digitalization, aiming to enhance various industrial and infrastructural ecosystems including energy, mobility, health, and home/building infrastructure. Encompassing a range of techniques leveraging data and information acquisition, analysis, manipulation, and distribution, the journal strives to achieve greater flexibility, efficiency, effectiveness, reliability, and security within digitalized and networked environments. Our scope provides a platform for discourse and dissemination of the latest developments in numerous research and innovation areas. These include electrical components and systems, smart grids, industrial cyber-physical systems, motion control, robotics and mechatronics, sensors and actuators, factory and building communication and automation, industrial digitalization, flexible and reconfigurable manufacturing, assistant systems, industrial applications of artificial intelligence and data science, as well as the implementation of machine learning, artificial neural networks, and fuzzy logic. Additionally, we explore human factors in digitalized and networked ecosystems. Join us in exploring and shaping the future of industrial electronics and digitalization.