Physical model for GaN HEMT design optimization in high frequency switching applications

2014 44th European Solid State Device Research Conference (ESSDERC) Pub Date : 2014-11-06 DOI:10.1109/ESSDERC.2014.6948843

D. Cucak, M. Vasić, Ó. García, Y. Bouvier, J. Oliver, P. Alou, J. Cobos, A. Wang, S. Martin-Horcajo, F. Romero, F. Calle

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引用次数: 2

Abstract

In this paper, physical modeling of a GaN HEMT is proposed, with the objective of device design optimization for application in a high frequency DC/DC converter. From the point of view of a switching application, physical model for input, output and reverse capacitance as well as for channel resistance is very important, since the aforementioned parameters determine power losses in the circuit. The obtained physical model of the switching device can be used for simulation models such as PSpice or hybrid behavioral power loss models for high frequency DC/DC converters. In this work, extrinsic model for Id (Vds, Vgs) output characteristics of a depletion mode GaN HEMT with a field plate structure was obtained, as well as physical model for input, output and reverse capacitance in the subthreshold regime. The model was implemented in Simplorer simulation model and verified by the measured efficiency curves of the buck converter prototype, using the GaN HEMT that was analyzed. With the increase of the switching frequency, precision of the model increases, especially in the low power area, which is the area of interest in our application.

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高频开关应用中GaN HEMT设计优化的物理模型

本文提出了GaN HEMT的物理建模，目的是优化器件设计，以应用于高频DC/DC变换器。从开关应用的角度来看，输入、输出和反向电容以及通道电阻的物理模型非常重要，因为上述参数决定了电路中的功率损耗。所获得的开关器件物理模型可用于PSpice等仿真模型或高频DC/DC变换器的混合行为功率损耗模型。在这项工作中，获得了具有场极板结构的耗尽模式GaN HEMT的Id (Vds, Vgs)输出特性的外在模型，以及亚阈值状态下输入、输出和反向电容的物理模型。在simplover仿真模型中实现了该模型，并利用分析的GaN HEMT对降压变换器样机的效率曲线进行了验证。随着开关频率的增加，模型的精度提高，特别是在低功耗区域，这是我们感兴趣的应用领域。

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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2014 44th European Solid State Device Research Conference (ESSDERC)

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