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News on 2023 IEEE International Symposium on EMC+SIPI in Grand Rapids, Michigan 在密歇根州大急流城举行的2023 IEEE EMC+SIPI国际研讨会的新闻
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9982558
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引用次数: 0
Scenes from the 2022 IEEE International Symposium on Electromagnetic Compatibility (EMC), Signal and Power Integrity (SIPI) in Spokane, Washington, August 1-5 8月1日至5日,2022年IEEE电磁兼容性、信号与电源完整性国际研讨会在美国华盛顿州斯波坎举行
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9982562
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引用次数: 0
STANDARDS WEEK 2022: Standards Activities at the EMC+SIPI Symposium in Spokane, Washington 2022年标准周:EMC+SIPI研讨会上的标准活动
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9982568
E. Hare, R. Carlton
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引用次数: 0
Announcing the “Ask The Experts” Panels at the 2022 IEEE International Symposium on EMC+SIPI in Spokane, Washington 在华盛顿斯波坎举行的2022年IEEE EMC+SIPI国际研讨会上宣布“询问专家”小组
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9780299
F. Leferink
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引用次数: 0
The John Howard Memorial EMC Education Grant Call for Proposals 约翰·霍华德纪念EMC教育基金征集提案
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.10058854
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引用次数: 0
Computational Intelligence Based Selection and Placement of Decoupling Capacitors: A Comparative Study 基于计算智能的去耦电容选择与放置的比较研究
Pub Date : 2022-01-01 DOI: 10.1109/MEMC.2022.9873812
Surendra Hemaram, J. N. Tripathi
In high-speed VLSI systems, decoupling capacitors are the key components to minimize power supply noise in power delivery networks. For efficiently maintaining power integrity in these systems, optimal selection and placement of decoupling capacitors is necessary. This paper presents a computational intelligence based generic framework to solve the industrial problem of decoupling capacitor optimization in a practical power delivery network using metaheuristic algorithms. The cumulative impedance of a power delivery network is minimized below the target impedance by optimal selection and placement of decoupling capacitors using the state-of-the-art metaheuristic algorithms. A comparative analysis of the performance of these algorithms is presented with the insights of practical implementation.
在高速VLSI系统中,去耦电容器是电力输送网络中最大限度降低电源噪声的关键部件。为了在这些系统中有效地保持功率完整性,去耦电容器的最佳选择和放置是必要的。本文提出了一种基于计算智能的通用框架,利用元启发式算法解决实际输电网络中电容解耦优化的工业问题。通过使用最先进的元启发式算法优化选择和放置去耦电容器,使输电网络的累积阻抗降至目标阻抗以下。对这些算法的性能进行了比较分析,并给出了实际实现的见解。
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引用次数: 1
2022 EMC+SIPI Symposium: Clayton R. Paul Global University Announced 2022 EMC+SIPI研讨会:克莱顿保罗全球大学宣布
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9780337
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引用次数: 0
Practical papers, articles and application notes 实用论文、文章及应用笔记
Pub Date : 2022-01-01 DOI: 10.1109/MEMC.2022.9873814
K. See
RF receivers for airborne applications are critical systems for wireless signal reception and processing. Any unwanted interfering signals received by the receiver have a direct impact on the quality of the intended signals. The first paper, “Improved Complex Receiver System Design Strategies to Overcome EMI/EMC Challenges,” describes the strategies and implementation techniques for a complex receiver system design to meet environmental stress screening (ESS) requirements, especially EMC. The proposed design methodology segregates the various modules and stacks them together tactfully without compromising EMC. By applying these techniques, an actual design with four modules is demonstrated and tested for EMC compliance over an extreme temperature range from -40°C to +71°C.
这期的特色是三篇有趣而多样的关于电磁效应和电磁兼容性的论文。第一篇论文,“900兆赫时非均匀头部模型中的能量吸收分布”,由以色列Holon理工学院的M. Haridim, B. Levin, S. Revich, S. Chulski和R. Zemach贡献;和法国雷恩大学的R. Sauleau。他们开发了一个由许多组织组成的非均匀人头模型,用于评估头部内900兆赫的电磁场(EM)。通过数值模拟整个头部和分离区域的比吸收率(SAR)来计算头部的暴露水平。与均匀模式比较,发现两种模式的总SAR大致相同,但非均匀模式在某些区域的SAR比均匀模式高10倍。这些发现表明,在同质模型的基础上评估SAR可能会导致误导性的结论。
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引用次数: 3
EMC Spotlight EMC聚光灯
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9780344
Carlos Sartori
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引用次数: 0
Reverberation Chambers at the Edge of Chaos: Discussion Forum at EMC Europe 2020 混沌边缘的混响室:EMC欧洲2020讨论论坛
Pub Date : 2022-01-01 DOI: 10.1109/memc.2022.9780346
R. Serra, G. Gradoni, G. Andrieu, V. M. Primiani, M. Magdowski, O. Legrand, M. Ahmed
Reverberation chambers (RCs) have served yet another purpose, though, this time, a not-so-technical one. At EMC Europe 2020 in Roma, Italy, an open debate has been carried out on some disputing arguments regarding RCs. This debate focused on a (apparent?) confrontation between the “traditional” RCs and the “chaotic” RCs. The fruitful debate inspired, in a novel way, intriguing and captivating comments on the nature, the uses and applications of RCs. The reader will find that there are several topics on which the debaters still disagree. Most probably, the reader him/herself would have a divergent opinion on some of the topics detailed in this paper. These divergences should not represent any major issue but, on the contrary, they should make research even more interesting by acknowledging and reflecting on the exciting complexity of the learning process. This is a rather unusual paper which briefly reports on the main topics and arguments covered during the debate. Furthermore, and perhaps more interestingly, it also reflects on the importance of scientific debates, conversations and exchange of ideas which were experienced during such discussion forum.
混响室(RCs)还有另一个目的,尽管这一次不是那么技术性的。在意大利罗马举行的EMC欧洲2020年会议上,就有关rc的一些有争议的论点进行了公开辩论。这场辩论的焦点是“传统”rc和“混乱”rc之间的(明显的?)对抗。这场富有成果的辩论以一种新颖的方式激发了人们对rc的性质、用途和应用的有趣和迷人的评论。读者会发现,辩手们在几个话题上仍有分歧。最有可能的是,读者本人对本文中详述的一些主题有不同的看法。这些分歧不应该代表任何重大问题,相反,它们应该通过承认和反思学习过程中令人兴奋的复杂性,使研究变得更加有趣。这是一篇相当不寻常的论文,简要报道了辩论期间的主要主题和论点。此外,也许更有趣的是,它还反映了在这种讨论论坛期间所经历的科学辩论、对话和思想交流的重要性。
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引用次数: 2
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IEEE electromagnetic compatibility magazine
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