This paper shows a comprehensive experimental and numerical investigation of proton-irradiated diodes for high-power snubberless applications. By means of DC and transient current–voltage measurements, OCVD extraction of lifetimes, C–V profiling, and DLTS trap characterization, a wide set of parameters was experimentally extracted and fed into a physically accurate mixed-mode simulation model. The numerical results are shown to be consistent with the available measured data, for example in showing the much better turn-off softness of proton-irradiated samples versus electron-irradiated ones. The complete physical/electrical model set-up in this work can now be used as an aid in the design and development of new proton-irradiated diodes.
Experimental and numerical study of irradiated H+ p-i-n diodes for snubberless applications / Cova, Paolo; Menozzi, Roberto; Portesine, M; Bianconi, M; Gombia, E; Mosca, R.. - In: SOLID-STATE ELECTRONICS. - ISSN 0038-1101. - 49:(2005), pp. 183-191. [10.1016/j.sse.2004.08.011]
Experimental and numerical study of irradiated H+ p-i-n diodes for snubberless applications.
COVA, Paolo;MENOZZI, Roberto;
2005-01-01
Abstract
This paper shows a comprehensive experimental and numerical investigation of proton-irradiated diodes for high-power snubberless applications. By means of DC and transient current–voltage measurements, OCVD extraction of lifetimes, C–V profiling, and DLTS trap characterization, a wide set of parameters was experimentally extracted and fed into a physically accurate mixed-mode simulation model. The numerical results are shown to be consistent with the available measured data, for example in showing the much better turn-off softness of proton-irradiated samples versus electron-irradiated ones. The complete physical/electrical model set-up in this work can now be used as an aid in the design and development of new proton-irradiated diodes.| File | Dimensione | Formato | |
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