Significance of critical components placement to control EMI in power supplies. A case study

Proceedings of the International Conference on Electromagnetic Interference and Compatibility Pub Date : 1900-01-01 DOI:10.1109/ICEMIC.1999.871624

K. Sakthivel, S.K. Das, R. Ganesan

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引用次数: 4

Abstract

According to the power rating of a system, larger circulating current (I), high frequency (F) switching and also larger loop area (A) due to thicker cables, are involved in power supplies. Since EMI is directly proportional to I/spl times/A/spl times/F, the noise level would be larger in higher power rating systems than lower ones. Now, the reduction of conducted emissions (EMI) by use of any power line filter ("brute force method") is only capable of reducing EMI to certain degree, because of its size, weight and cost restrictions. Hence the cost effective technique for reducing EMI (conducted and radiated emissions) is to suppress them at their source while retaining the desired functional performance of the system. This paper describes various methodologies adapted such as identifying the major culprits, victims and coupling, to reduce the EMI level to prescribed limits in a 1 kVA/48 V DC inverter. Attention is paid to the importance of location of critical components and routing of wires (i.e. packaging of the system) within a system for achieving EMC.

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关键元件放置对电源中电磁干扰控制的意义。案例研究

根据系统的额定功率，电源涉及更大的循环电流(I)，高频率(F)开关和更大的环路面积(a)，因为电缆较粗。由于EMI与I/spl倍/A/spl倍/F成正比，因此在高功率额定值的系统中，噪声水平会比低功率额定值的系统大。现在，由于其尺寸、重量和成本的限制，使用任何电力线滤波器(“蛮力法”)来减少传导辐射(EMI)只能在一定程度上减少EMI。因此，降低电磁干扰(传导和辐射发射)的成本效益技术是在其源头抑制它们，同时保持系统所需的功能性能。本文描述了各种方法，如识别主要的罪魁祸首，受害者和耦合，以降低EMI水平到规定的限制在1 kVA/48 V直流逆变器。注意关键部件的位置和布线(即系统的封装)在系统内实现EMC的重要性。

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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Proceedings of the International Conference on Electromagnetic Interference and Compatibility

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