论文信息 - Switching behavior and current handling performance of MCT:IGBT cell ensembles

Switching behavior and current handling performance of MCT:IGBT cell ensembles

The dynamic characteristics of large MCT (MOS controlled thyristor) ensembles have been improved by integrating IGBT (insulated-gated bipolar transistor) cells for turn-on and different schemes of cathode and anode shorting for turn-off. Such MCT-IGBT ensembles with integrated shorts are able to turn off 4 A (240 A-cm/sup -2/) at 1000 V in typically 1.5 mu s in the inductive clamped mode. The authors report on the effectiveness of these different approaches and their parasitic influence on the turn-on characteristic and the maximum turn-off current capability. The implementation of permanent cathode shorts has lead to an increase of the maximum turn-off current of large MCT ensembles, whereas anode shorting leads to faster turn-off and lower tail currents. A careful design of the IGBT turn-on cell and placement is required for proper MOS turn-on even at low anode voltages.<<ETX>>

[1] B. J. Baliga,et al. Evolution of MOS-bipolar power semiconductor technology , 1988, Proc. IEEE.

[2] G. Wachutka,et al. Turn-off behaviour of GTOs with small emitter elements , 1989 .

[3] Wolfgang Fichtner,et al. Design aspects of MOS-controlled thyristor elements: technology, simulation, and experimental results , 1991 .

[4] V.A.K. Temple,et al. MOS-Controlled thyristors—A new class of power devices , 1986, IEEE Transactions on Electron Devices.

[5] W. Fichtner,et al. Current-handling and switching performance of MOS-controlled thyristor (MCT) structures , 1991, IEEE Electron Device Letters.