Title :
GaAs and InP punchthrough diodes as oscillators in the millimetre-wave range
Author :
Vanoverschelde, A. ; Salmer, G.
Author_Institution :
Université de Lille I, Centre Hyperfréquences et Semiconducteurs, L.A. au CNRS no 287, Villeneuve d´´Ascq, France
fDate :
7/1/1979 12:00:00 AM
Abstract :
Microwave properties of GaAs and InP punchthrough diodes in the millimeter-wave range are investigated in this paper. By means of an exact large-signal computer simulation, taking into account the carrier velocity-field dependence, diffusion phenomena and a realistic doping profile, the influence of the negative differential mobility on oscillation performance is studied. Large negative resistances can then be obtained with well-designed n+¿p¿n¿n+structures. At a frequency of 40 GHz, optimum output powers of 20mW and 120mW have been calculated for GaAs and InP materials, respectively. The corresponding non-linear resistances are ¿7¿ and ¿7.5 ¿. An interesting use can then be expected as a self-oscillating mixer or as Doppler radar in the millimetre-wave range.
Keywords :
BARITT diodes; III-V semiconductors; digital simulation; microwave oscillators; semiconductor device models; solid-state microwave devices; 120 mW output; 40 GHz operation; GaAs punchthrough diodes; InP punchthrough diodes; Q-band; diffusion phenomena; doping profile; exact large signal computer simulation; microwave oscillators; mm-wave range; n+p-n-n+ structures; negative differential mobility; negative resistances; oscillation performance;
Journal_Title :
Solid-State and Electron Devices, IEE Journal on
DOI :
10.1049/ij-ssed:19790020
