论文信息 - Correlation between local segment characteristics and dynamic current redistribution in GTO power thyristors

Correlation between local segment characteristics and dynamic current redistribution in GTO power thyristors

The peak controllable current of a typical GTO (gate turn-off) thyristor is limited by the redistribution of anode current, occurring during the turn-off transient. This behavior is investigated in practical large-area GTOs (600 A, 1600 V) by comparing the static and dynamic characteristics of the individual device segments with turn-off current density estimates for the complete device. Reverse gate-cathode breakdown voltage, forward on-state voltage, and storage time are mapped using an automatic probing system while the current density estimates are obtained using a magnetic field measurement technique. Good correlation is found between the current density peaks, the segment measurement, and variations in the mesa etching depth across the processed wafer. Conditions are established which relate the distribution of current density peaks and segment characteristics to the realization of a near-perfect GTO technology. The behavior of the current density distribution during the current fall and early tail period is related to the onset of of filamentation and subsequent device failure.<<ETX>>

[1] D. R. Hamilton,et al. High power gate-controlled switch , 1970 .

[2] H. Ohashi,et al. A study on GTO turn-off failure mechanism , 1981, 1981 International Electron Devices Meeting.

[3] A. Nakagawa,et al. A study on GTO turn-off failure mechanism—A time- and temperature-dependent 1-D model analysis , 1984, IEEE Transactions on Electron Devices.

[4] A. Nakagawa,et al. A time- and temperature-dependent 2-D simulation of the GTO thyristor turn-off process , 1984, IEEE Transactions on Electron Devices.

[5] A.A. Jaecklin,et al. Gate turn-off thyristors with near perfect technology , 1986, 1986 International Electron Devices Meeting.

[6] Tsutomu Yatsuo,et al. Design consideration for large current GTO , 1988, PESC '88 Record., 19th Annual IEEE Power Electronics Specialists Conference.

[7] A. A. Jaecklin,et al. Scaling laws and performance limitations of power turn-off devices , 1989, 20th Annual IEEE Power Electronics Specialists Conference.

[8] Patrick R. Palmer,et al. Characterising the turn-off performance of multi-cathode GTO thyristors using thermal imaging , 1989 .

[9] Patrick R. Palmer,et al. Measurement of the redistribution of current in GTO thyristors during turn-off , 1989 .

[10] Patrick R. Palmer,et al. Simulation of wafer-scale GTO thyristors in circuits , 1991 .

[11] Patrick R. Palmer,et al. Influence of gate drive and anode circuit conditions on the turn-off performance of GTO thyristors , 1992 .