IGBT控制硅引脚二极管的关断瞬态能量建模

S. Jahdi, O. Alatise, P. Mawby
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引用次数: 4

摘要

硅引脚二极管是工业上应用最广泛的整流技术,特别是在电压源变换器中。PiN二极管通常用作跨硅igbt的反并联二极管,当电流在变换器的相位之间换流时,它们以相反的方向传导电流。由于反向恢复特性,它们往往在关断瞬态期间产生相当数量的能量损失。二极管的开关速率将决定开关能量,并将影响电磁干扰、电热应力和可靠性。因此,在给定开关条件下,预测二极管在关断瞬态时的开关能量是至关重要的,这样才能有一个现实的方法来预测工作温度。PiN二极管的开关能量由反向恢复电流峰值、二极管电压超调峰值、它们之间的时间位移以及这些峰值的温度依赖性决定。在本文中,提出了一个模型,并在-75°C至175°C的温度范围内进行了验证,开关速度(dI/dt)由低侧IGBT的栅极电阻从10©到1000©调制。模型预测结果与实测结果相吻合。该模型是一种利用单个开关率在不同温度下的测量,准确预测PiN二极管在不同开关率和温度下开关能量的新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of turn-OFF transient energy in IGBT controlled silicon PiN diodes
Silicon PiN diodes are the most widely used rectifying technology in industry especially in voltage source converters. The PiN diodes are usually used as anti-parallel diodes across silicon IGBTs where they conduct current in the reverse direction as the current commutates between the phases of the converter. They tend to generate a considerable amount of energy losses during the turn-OFF transient due to the reverse recovery characteristics. The rate at which the diode is switched will determine the switching energy and will affect EMI, electrothermal stresses and reliability. Hence, it is vital to be able to predict the switching energy of the diode during its turn-OFF transient given the switching conditions so as to have a realistic approach towards predicting the operating temperature. The switching energy of PiN diodes is determined by the peak reverse recovery current, the peak diode voltage overshoot, the time displacement between them as well as the temperature dependency of these peaks. In this paper, a model is presented and validated over a temperature range of -75 °C to 175 °C and with switching speeds (dI/dt) modulated by the gate resistance on the low side IGBT ranging from 10 © to 1000 ©. Comparisons show consistency between model prediction and measurements result. The model is a novel method of accurately predicting the switching energy of PiN diodes at different switching rates and temperatures using the measurements of a single switching rate at different temperatures.
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