Hardware-in-the-loop Real-time Simulation of High-power Inverter Based on Electro-thermal Coupling Effect

机译：基于电热耦合效应的高功率逆变器的硬件 - 环路实时仿真

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Hardware-in-the-loop (HIL) real-time simulation is a powerful tool for fast verification of high-power inverter performance. On the FPGA-based HIL platform, the real-time model of the inverter was established by Verilog hardware description language (HDL), and the power loss and temperature rise of the inverter were monitored in real time. The loss model uses bilinear interpolation and the temperature rise model uses the equivalent thermal network method. Compared with the 80kW physical inverter, the experimental results show that the HIL real-time model can meet the real-time requirements. The delay for the entire HIL real-time model is 0.44μs. The maximum error of temperature rise calculation is 4.9%, and the average error is 3.4%.

机译：硬件循环（HIL）实时仿真是一种强大的工具，可快速验证高功率逆变器性能。在基于FPGA的HIL平台上，通过Verilog硬件描述语言（HDL）建立了逆变器的实时模型，并且实时监测变频器的功率损耗和温度升高。损耗模型使用Bilinear插值，并且温度上升模型使用等效的热网络方法。与80kW物理逆变器相比，实验结果表明，HIL实时模型可以满足实时要求。整个HIL实时模型的延迟为0.44μs。温度升高计算的最大误差为4.9％，平均误差为3.4％。

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《IEEE International Power Electronics and Motion Control Conference》|2020年|3531-3535|共5页
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Jin Gao; Pengfei Zhan; Siyu Wang; Ning Wang; Jing Wang; Yonghui Liu;
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Couplings; Temperature sensors; Tools; Real-time systems; Inverters; Mathematical model; Hardware design languages;

机译：联轴器;温度传感器;工具;实时系统;逆变器;数学模型;硬件设计语言;

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Hardware-in-the-loop Real-time Simulation of High-power Inverter Based on Electro-thermal Coupling Effect

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