Title :
Deep energy levels in power diodes introduced by iridium diffusion
Author :
Cernik, B.V. ; Stepkova, M.D.
Author_Institution :
Dept. of Electrotechnol., Czech Tech. Univ., Prague
Abstract :
In our experiments we focused on the origin of deep levels due to Ir diffusion and the influence of Ir diffusion on carrier lifetime and on the electrical characteristics of power diodes. Energy levels associated with iridium diffusion into N-type silicon at energies, Ec-0.16 eV, Ec-0.28 eV and Ec-0.54 eV, were found. The dominant recombination centre is the energy level Ec-0.28 eV. Carrier lifetime is influenced by iridium centres at high current densities (high injection conditions). The iridium centre capture cross-section rapidly decreases with increasing temperature, which can result in a limit of efficiency of iridium centres around 120 °C. The iridium diffusion can be used for fabrication of fast diodes with relatively soft reverse recovery characteristics
Keywords :
carrier lifetime; deep levels; diffusion; elemental semiconductors; iridium; power semiconductor diodes; power semiconductor switches; silicon; -60 to 150 C; 77 to 300 K; Ir centre capture cross-section; Ir diffusion; Si:Ir; Si:Ir power diodes; carrier lifetime; deep levels; electrical characteristics; energy levels; fast diodes; high current densities; high injection conditions; high power fast switching; recombination centre; soft reverse recovery characteristics; Charge carrier lifetime; Circuits; Diodes; Electrostatic precipitators; Energy states; Low voltage; Neural networks; Power dissipation; Silicon; Temperature;
Conference_Titel :
Microelectronics, 1997. Proceedings., 1997 21st International Conference on
Conference_Location :
Nis
Print_ISBN :
0-7803-3664-X
DOI :
10.1109/ICMEL.1997.625276
