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首页> 外文期刊>Japanese journal of applied physics >A simple gate driver design for GaN-based switching devices with improved surge voltage and switching loss at 1 MHz operation
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A simple gate driver design for GaN-based switching devices with improved surge voltage and switching loss at 1 MHz operation

机译:一种简单的基于GaN的开关装置的简单门驱动器设计,具有提高的浪涌电压和1 MHz操作的开关损耗

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摘要

In power electronics, the impedance of reactance components increases proportionally with frequency; therefore, the sizes of reactance components can be reduced by increasing the switching frequency. Gallium nitride (GaN)-based devices have received significant attention in high-frequency applications because the figure-of-merit of GaN is superior to that of silicon (Si). However, for high-frequency operation, a trade-off relationship between the surge voltage induced by parasitic inductances, and the switching loss becomes significant. Therefore, in this study, we propose a gate driver that improves the trade-off relationship. This gate driver was obtained via the addition of simple logic circuits and capacitors to a conventional gate driver. The effectiveness of our proposed circuit was verified via SPICE simulations with Cadence Spectre using 180 nm CMOS technology. The simulation results show that by operating at 1 MHz, this circuit can help reduce the surge voltage by 12.2% and the switching loss by 14.3%.
机译:在电力电子器件中,电抗组分的阻抗与频率成比例地增加;因此,可以通过增加开关频率来降低​​电抗组件的尺寸。基于氮化镓(GaN)的装置在高频应用中受到了显着的关注,因为GaN的优点优于硅(Si)。然而,对于高频操作,寄生电感引起的浪涌电压与开关损耗之间的折衷关系变得显着。因此,在本研究中,我们提出了一种改善权衡关系的栅极驱动器。通过向传统的栅极驱动器添加简单的逻辑电路和电容器来获得该栅极驱动器。通过使用180nm CMOS技术的Cadence Specter通过Spice Simulation验证了我们所提出的电路的有效性。仿真结果表明,通过在1 MHz工作,该电路可以帮助将浪涌电压降低12.2%,开关损耗14.3%。

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