Title :
Fundamental limitations of InP MISFET due to Gunn oscillations
Author :
Mouatakif, I. ; Lefebvre, M. ; Crosnier, Y. ; Salmer, G.
Author_Institution :
Centre Hyperfrequences et Semicond., CNRS, Villeneuve D´´Ascq, France
Abstract :
The strong bulk negative differential resistivity (NDR) exhibited by InP, causing instabilities and limiting performance, is investigated using a 2-D hydrodynamic energy model. A study of drain current instability shows that it occurs more easily in MISFETs than in GaAs MESFETs, and that the maximum usable doping level decreases when the ratio L/sub g//a decreases. This can be related to the fact that in a MISFET the gate control is less effective than in a MESFET, as previously show, and the NDR in InP is more important than in GaAs. For a planar uniformly doped structure, oscillations occur for very low N/sub d/a product and give low current values. For power amplification, a nonuniform doping profile with overdoping between gate and drain contact has been used to obtain stable operation. Such a solution may involve other limitations due to the breakdown mechanism and parasitic capacitances.<>
Keywords :
Gunn effect; III-V semiconductors; indium compounds; insulated gate field effect transistors; negative resistance effects; power transistors; semiconductor device models; 2D hydrodynamic energy model; Gunn oscillations; InP; breakdown mechanism; bulk negative differential resistivity; drain current instability; gate control; instabilities; maximum usable doping level; nonuniform doping profile; parasitic capacitances; planar uniformly doped structure; power MISFET; power amplification; Conductivity; Doping profiles; Electric breakdown; Gallium arsenide; Gunn devices; Hydrodynamics; Indium phosphide; MESFETs; MISFETs; Semiconductor process modeling;
Conference_Titel :
Indium Phosphide and Related Materials, 1990. Second International Conference.
Conference_Location :
Denver, CO, USA
DOI :
10.1109/ICIPRM.1990.202991
