Research

A Temperature-Dependent dVCE/dt and dIC/dt Model for Field-Stop IGBT at Turn-on Transient

Abstract

In this paper, a complete expression for dVCE/dt and dIC/dt at turn-on transient of field-stop (FS) insulated gate bipolar transistor (IGBT) is proposed. With numerical simulation utilized, the critical stray elements and internal physics which have a significant impact on turn-on behaviour of FS IGBT are identified. Based on the improved understanding on the turn-on behaviour, the turn-on transient is divided into two phases and the equivalent circuits of each phase are obtained. The analytical expressions of dVCE/dt and dIC/dt during the turn-on transient are thereby derived based on the equivalent circuits. The temperature dependency on the turn-on characteristics of FS IGBT is identified by the experimental data. The temperature-dependent models of various device parameters are proposed to describe the temperature dependency. In the end, the double-pulse test is performed on a 650V FS IGBT and a 1200V FS IGBT. The good agreement between the test and analytically derived results validates that the proposed FS IGBT model can accurately predict the dVCE/dt and dIC/dt during the turn-on transient.

Info

Journal Article, 2023

UN SDG Classification
DK Main Research Area

    Science/Technology

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