Characterization in ZVS Mode of SiC MOSFET Modules for MVDC Applications

2019 International Conference on Clean Electrical Power (ICCEP) Pub Date : 2019-07-02 DOI:10.1109/ICCEP.2019.8890157

J. Fabre, J. Blaquière, A. Verdicchio, P. Ladoux, S. Sanchez

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引用次数: 5

Abstract

In order to improve the energy efficiency of the railway traction power supply, a DC voltage of 9 kV has recently been proposed. Beyond train power supply, this new power system will allow to connect several sources and/or loads (AC power grid, energy storage, wind farm, solar panels, etc.). This new railway “smart grid” will require insulated DC-DC converters operating in a medium frequency range (from 10 to 20 kHz) to reduce the size of the passive components (mainly the transformer). In the voltage and power ranges targeted, this is now possible thanks to the arrival on the market of power modules based on SiC MOSFETs. Therefore, this paper focuses on the operation in ZVS mode of two power modules (1.7 kV / 1100 A and 3.3 kV / 750 A). The first part of the paper is devoted to the design of a driver for Zero Voltage Switching. In a second part, a test bench is presented. It allows to measure the switching energies in this operating mode. Finally, from these results, it is then possible to determine the efficiency of resonant DC/DC converters, which can be used in the MVDC power system.

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用于MVDC应用的SiC MOSFET模块的ZVS模式特性

为了提高铁路牵引电源的能源效率，最近提出了9kv直流电压。除了火车供电，这种新的电力系统将允许连接多个源和/或负载(交流电网，储能，风力发电场，太阳能电池板等)。这种新的铁路“智能电网”将需要绝缘DC-DC转换器在中频范围内工作(从10到20 kHz)，以减少无源元件(主要是变压器)的尺寸。在目标电压和功率范围内，由于基于SiC mosfet的功率模块市场的到来，这现在是可能的。因此，本文主要研究两个功率模块(1.7 kV / 1100 A和3.3 kV / 750 A)在ZVS模式下的工作。论文的第一部分是零电压开关驱动器的设计。第二部分给出了一个试验台。它允许在这种工作模式下测量开关能量。最后，根据这些结果，可以确定谐振DC/DC变换器的效率，该变换器可用于MVDC电力系统。

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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2019 International Conference on Clean Electrical Power (ICCEP)

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