具有漂移区掺杂补偿的合并PiN-Schottky二极管的建模与表征

Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting. Pub Date : 2004-11-01 DOI:10.1109/IAS.2004.1348572

S. Musumeci, R. Pagano, A. Raciti, F. Frisina, M. Melito, M. Saggio

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引用次数: 5

摘要

本文通过二维有限元网格进行了广泛的器件和混合模式模拟，分析了采用超级结技术实现的标准单元肖特基整流器以及硅基合并PiN肖特基(MPS)和PiN二极管。通过强调MPS整流器相对于PiN二极管所表现出的优越性能，讨论了这些器件所关注的主要问题，如正向压降、泄漏特性和反向恢复。本文还介绍了该技术的基础知识，重点介绍了在导通过程中可获得的高电压能力和低正向压降。通过对MPS二极管内部等离子体动力学的模拟，分析了MPS二极管的反向恢复行为。

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Modeling and characterization of a merged PiN-Schottky diode with doping compensation of the drift region

In this paper standard-cell Schottky rectifiers along with silicon-based merged PiN Schottky (MPS) and PiN diodes, which are realized using a super junction technology, have been analyzed by conducting extensive device and mixed-mode simulations through two-dimensional finite-element grid. The main issues of concern with these devices such as the forward voltage-drop, the leakage characteristic and the reverse recovery are dealt with, by highlighting the superior performances exhibited by the MPS rectifier in respect to the PiN diodes. Basics on the used technology are also reported, by focusing on the high voltage capability obtainable along with the low forward voltage-drop during the on-state conduction. The reverse recovery behavior pertaining to the MPS diode has been analyzed by resorting to several simulations of the internal plasma dynamics.

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Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting.

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