Exponential ADE Solution Based Compact Model of Planar Injection Enhanced IGBT Dedicated to Robust Power Converter Design

Author

Igic, P.

Author_Institution

Electron. Syst. Design Centre, Swansea Univ., Swansea, UK

Volume

30

Issue

4

fYear

2015

fDate

Apr-15

Firstpage

1914

Lastpage

1924

Abstract

The compact model of an injection enhanced insulated gate bipolar transistors based on the exponential solution of the ambipolar diffusion equation is presented in this paper. To model plasma carrier distribution, an exponential shape function is used, and in steady-state forward bias operation, the plasma carrier concentration has a distribution of catenary form with just two exponential basis functions, while in transient operation, more complex profiles can be approximated using a number of exponential basis functions with a range of decay length parameters, shorter than the steady state ones. The device model developed has been implemented in Saber circuit simulator and successfully tested against complete set of high current, high voltage experimental results.

Keywords

circuit simulation; insulated gate bipolar transistors; power bipolar transistors; power convertors; IGBT; Saber circuit simulator; ambipolar diffusion equation; insulated gate bipolar transistors; plasma carrier concentration; plasma carrier distribution; power converter design; Equations; Insulated gate bipolar transistors; Integrated circuit modeling; MOSFET; Mathematical model; Plasmas; Semiconductor device modeling; Ambipolar diffusion equation (ADE); IE-IGBT; circuit design; compact model; double pulse switching; modeling;

fLanguage

English

Journal_Title

Power Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0885-8993

Type

jour

DOI

10.1109/TPEL.2014.2330655

Filename

6832580