EMC and switching loss improvement for fast switching power stages by di/dt, dv/dt optimization with 10ns variable current source gate driver

2015 10th International Workshop on the Electromagnetic Compatibility of Integrated Circuits (EMC Compo) Pub Date : 2015-12-17 DOI:10.1109/EMCCOMPO.2015.7358323

A. Schindler, Benno Koeppl, B. Wicht

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引用次数: 13

Abstract

There is a growing need for motor drives with improved EMC in various automotive and industrial applications. An often referenced approach to reduce EME is to change the shape of the switching signal to reduce the EMI caused by the voltage and current transitions. This requires very precise gate control of the power MOSFET to achieve better switching behaviour and lower EME without a major increase in switching losses. In order to find an optimal trade-off, this work utilizes a monolithic current mode gate driver with a variable output current that can be changed within 10ns. With this driver, measurements with different gate current profiles were taken. The di/dt transition was confirmed to be as important as the dv/dt transition in the power MOSFET. As a result of the improved switching behavior the emissions were reduced by up to 20dB between 7MHz and 60MHz with a switching loss that is 52% lower than with a constantly low gate current.

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采用10ns可变电流源栅极驱动器，通过di/dt、dv/dt优化提高快速开关功率级的EMC和开关损耗

在各种汽车和工业应用中，对具有改进EMC的电机驱动器的需求日益增长。一种常用的降低电磁干扰的方法是改变开关信号的形状，以降低电压和电流转换引起的电磁干扰。这需要对功率MOSFET进行非常精确的栅极控制，以实现更好的开关行为和更低的EME，而不会大幅增加开关损耗。为了找到一个最佳的权衡，这项工作利用了一个单片电流模式栅极驱动器，其输出电流可以在10ns内改变。利用该驱动器，测量了不同栅极电流分布。在功率MOSFET中，di/dt跃迁与dv/dt跃迁同样重要。由于开关性能的改善，在7MHz和60MHz之间的发射减少了20dB，开关损耗比持续低栅极电流时降低了52%。

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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2015 10th International Workshop on the Electromagnetic Compatibility of Integrated Circuits (EMC Compo)

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