Modeling of the CoolMOSTM transistor - Part I: device physics

机译：CoolMOSTM晶体管的建模-第一部分：器件物理

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CoolMOSTM is a novel power MOSFET with a "superjunction" for its drift region, which results in a vastly improved relationship between the on resistance and breakdown voltage. The presence of the superjunction makes the device physics very interesting and complicated. In this paper, we present simulation results aimed at understanding the device operation both in the on state and in the off state. Quasi saturation of the drain current is analyzed, and it is shown that it can be prevented by increasing the doping density of the drift region. An analytic model of the JFET-like drift region is presented. A CoolMOSTM transistor model based on the simulation results described here will be presented in an accompanying paper.

机译：CoolMOSTM是一种新颖的功率MOSFET，其漂移区具有“超结”，从而大大改善了导通电阻与击穿电压之间的关系。超结的存在使器件物理变得非常有趣和复杂。在本文中，我们给出了旨在理解器件在开启状态和关闭状态下的操作的仿真结果。分析了漏极电流的准饱和，并且表明可以通过增加漂移区的掺杂密度来防止这种情况。提出了类JFET漂移区的解析模型。随附论文中将介绍基于此处描述的仿真结果的CoolMOSTM晶体管模型。

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PATIL MB; DANIEL BJ; PARIKH CD;
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年度 2002
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机译：CoolMOSTM晶体管的建模-第二部分：直流模型和参数提取

Modeling of the CoolMOSTM transistor - Part I: device physics

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