A New Pillar Geometry for Heterostructure Barrier Varactor Diodes
Paper in proceeding, 2001
We report on a novel diode geometry, with reduced thermal resistance, for Heterostructure Barrier Varactor, HBV, diodes. The pillar geometry presented here involves the complete removal of the substrate, electrical contacted is made by the forward and reverse side processing of metallic pillars.
We propose that there is a limit to the maximum number of barriers that can be used to increase the power capability of a HBV. An analytical model has been developed to study these effects. In considering the case of a perfect thermal heat sink the limit is found to be fourteen, in applying this model to the new pillar structure this is reduced to six.
self-heating
HBV
thermal limitations
Author
Byron Alderman
Jan Stake
Department of Microelectronics
Lars Dillner
Department of Microelectronics
D.P. Steenson
Mattias Ingvarson
Department of Microelectronics
Erik Kollberg
Department of Microelectronics
Chris M. Mann
J.M Chamberlain
12th International Symposium on Space Terahertz Technology
330-339
Subject Categories
Other Electrical Engineering, Electronic Engineering, Information Engineering