Title :
Experimental/numerical investigation of the physical mechanisms behind high-field degradation of power HFETs and their implications on device design
Author :
Menozzi, R. ; Sozzi, G. ; Verzellesi, G. ; Borgarino, M. ; Lanzieri, C. ; Canali, C.
Author_Institution :
Dipt. di Ingegneria dell´´Informazione, Parma Univ., Italy
Abstract :
In a previous paper we showed how simple drift-diffusion simulations backed up the hypothesis of electron trapping at the device surface between gate and drain as a mechanism able to consistently explain all of the experimentally observed degradation modes following a high-field (hot carrier) stress. This paper expands on such previous findings by showing: (i) simulation results of HFETs with different recess geometries, and their implications on breakdown voltage and reliability; (ii) a detailed experimental and numerical investigation of surface trapping effects such as gate lag, transconductance frequency dispersion, and drain current kink, and their relationship with device degradation.
Keywords :
electron traps; high field effects; hot carriers; junction gate field effect transistors; power field effect transistors; semiconductor device breakdown; semiconductor device reliability; breakdown voltage; device design; drain current kink; drift-diffusion model; gate lag; high-field degradation; hot carrier stress; numerical simulation; power HFET; reliability; surface electron trapping; transconductance frequency dispersion; Degradation; Electron traps; Frequency; Geometry; HEMTs; Hot carriers; MODFETs; Solid modeling; Stress; Transconductance;
Conference_Titel :
GaAs Reliability Workshop, 2001. Proceedings
Print_ISBN :
0-7908-0066-7
DOI :
10.1109/GAASRW.2001.995735
