Lumped Dynamic Electrothermal Model of IGBT Module of Inverters

Author

Batard, Christophe ; Ginot, Nicolas ; Antonios, Joe

Author_Institution

Rennes Lab., Lunam Univ., Nantes, France

Volume

5

Issue

3

fYear

2015

fDate

Mar-15

Firstpage

355

Lastpage

364

Abstract

This paper presents a lumped dynamic electrothermal model of an insulated gate bipolar transistor module of inverters. The thermal model consists of a 3-D network of RC cells constructed for time-dependent operation. The network was found to be precise for determining the temperature excursion of diodes and transistors subsequent to time-dependent power losses. Thermal resistances and capacitances accounting for heat spreading and thermal penetration depth effects were introduced. Electrothermal simulations carried out on a 1200 V-300 A module with a time-dependent average power loss were found to be in good agreement with experiments using infrared thermal imaging. This paper focuses on very-low-frequency behavior (less than 1 Hz) at a switching frequency of 10 kHz.

Keywords

insulated gate bipolar transistors; invertors; semiconductor device models; semiconductor diodes; 3-D network; IGBT module; RC cells; current 300 A; diodes; electrothermal simulations; frequency 10 kHz; heat spreading; infrared thermal imaging; insulated gate bipolar transistor; inverters; lumped dynamic electrothermal model; thermal capacitances; thermal penetration depth effects; thermal resistances; time-dependent average power loss; time-dependent power losses; voltage 1200 V; Heating; Insulated gate bipolar transistors; Inverters; Load modeling; Semiconductor diodes; Switches; Transistors; Electrical-thermal cosimulation; heat transfer; multiscale problem; semiconductor devices; thermal models; thermal models.;

fLanguage

English

Journal_Title

Components, Packaging and Manufacturing Technology, IEEE Transactions on

Publisher

ieee

ISSN

2156-3950

Type

jour

DOI

10.1109/TCPMT.2015.2392625

Filename

7036118