功率放大器的毫米波GaN器件建模

2020 Device Research Conference (DRC) Pub Date : 2020-06-01 DOI:10.1109/DRC50226.2020.9135149

Y. Yamaguchi, K. Nakatani, K. Teo, S. Shinjo

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引用次数: 1

摘要

卫星通信(Sat-com)系统和第五代(5G)移动通信系统等毫米波(mm-wave)应用引起了极大的关注。在毫米波应用中，可以在毫米波波段获得高功率的GaN器件被认为是功率放大器(PA)的有前途的器件之一，如图1[1]所示。为了实现具有吸引力的GaN放大器，GaN放大器的设计需要在毫米波波段具有高精度的GaN器件模型。然而，要在毫米波波段获得高精度的大信号模型还存在一些问题。其中一个问题是在大信号操作下的捕获效应。在[2]中已经报道了对漏极电流和跨电导的捕获效应的建模。本文提出了一个GaN器件模型，包括对非线性电容的捕获效应和利用该模型设计的ka波段高效GaN Doherty PA。

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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Millimeter-Wave GaN Device Modeling for Power Amplifiers

Millimeter-wave (mm-wave) applications such as the satellite communication (Sat-com) system and the fifth-generation (5G) mobile communication system have attracted a great deal of attention. In the mm-wave applications, a GaN device which can obtain high power at mm-wave band is considered as one of the promising device for power amplifiers (PA) as shown in Fig. 1 [1] . In order to realize the attractive GaN PA, a GaN device model with high accuracy at mm-wave band is required for design of GaN PA. However, there are still some problems to obtain a large-signal model with high accuracy at mm-wave band. One of the problems is trapping effects under large-signal operation. Modeling of trapping effects on drain current and trans-conductance has been already reported in [2] .This paper presents a GaN device model including trapping effects on non-linear capacitance and a Ka-band high efficiency GaN Doherty PA designed by using the proposed model.

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2020 Device Research Conference (DRC)

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