Low Reverse-Recovery Stress in High-Power Converters Achieved by Self-Resetting Saturable Cores

Author

Gruening, Horst ; Koyanagi, Kimiyuki ; Mukunoki, Makoto

Author_Institution

Adv. Technol. R&D Center, Mitsubishi Electr. Corp., Amagasaki

Volume

45

Issue

1

fYear

2009

Firstpage

232

Lastpage

238

Abstract

A clamp circuit using nonlinear reactors is proposed for use with high-power inverters. For stable inverter operation under all typical operation conditions, the cores have self-resetting characteristics by the introduction of an air gap. The circuit configurations are investigated using a 6-kA/6-kV gate commutated thyristor (GCT) chopper. The results are compared to those of a traditional GCT clamp-snubber circuit using a linear anode reactor. New simulation models developed for the cores and diodes are tuned by the experimental results and applied to investigate two- and three-level circuits. Using self-resetting saturable reactors, low freewheel-diode reverse-recovery stress is achieved with a very high value of di/dt . The benefits of the new circuit also are demonstrated by mixed-mode device simulation.

Keywords

choppers (circuits); invertors; saturable core reactors; stress analysis; thyristor convertors; GCT chopper; clamp circuit; current 6 kA; freewheel-diode; gate commutated thyristor chopper; high-power converter; high-power inverter; low reverse-recovery stress analysis; mixed-mode device simulation; nonlinear reactor; self-resetting saturable core reactor; three-level circuit; voltage 6 kV; Anodes; Choppers; Circuit simulation; Clamps; Diodes; Inductors; Inverters; Stress; Thyristors; Tuned circuits; DESSIS; diode model for circuit simulation; high-power inverter; mixed-mode device simulation; saturable core; soft recovery;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2008.2009567

Filename

4757394