电磁干扰功率MOSFET设计中的散射参数方法

2012 24th International Symposium on Power Semiconductor Devices and ICs Pub Date : 2012-06-03 DOI:10.1109/ISPSD.2012.6229053

M. Tsukuda, Keiichiro Kawakami, Ichiro Omura

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引用次数: 2

摘要

雪崩振荡产生的电磁干扰噪声是影响功率器件性能的主要障碍。特别是从器件与外部电路的相互关系来看，三端器件的振荡比两端器件更为复杂。得到雪崩条件下的散射参数(s参数)，建立具有稳定因子(k因子)的稳定-不稳定判据。稳定-不稳定判据清楚地指出了MOSFET设计中每次变化时的不稳定频率范围。此外，用结电容对功率MOSFET的振荡机理进行了建模，与二极管的振荡机理相同。为了抑制电磁干扰，外电路的谐振频率必须与mosfet的不稳定频率不同。

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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Scattering parameter approach to power MOSFET design for EMI

Electromagnetic interference (EMI) noise by avalanche oscillations is the major barrier to improve power device performance. Especially the oscillations of three-terminal devices are more complex than two-terminal devices in point of the mutual relationship between devices and external circuit. Scattering parameter (S-parameter) under avalanche condition is obtained to establish stable-unstable criterion with stability factor (K-factor). The stable-unstable criterion clearly indicates the unstable frequency range with each change in MOSFET design. In addition the oscillation mechanism on power MOSFET is modeled with junction capacitance, which is the same as that of diode. For EMI suppression, resonant frequency of external circuit has to be different from unstable frequency of MOSFETs.

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2012 24th International Symposium on Power Semiconductor Devices and ICs

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