A gallium phosphide high-temperature bipolar junction transistor
Abstract
Preliminary results are reported on the development of a high temperature (350 C) gallium phosphide bipolar junction transistor (BJT) for geothermal and other energy applications. This four-layer p(+)n(-)pp(+) structure was formed by liquid phase epitaxy using a supercooling technique to insure uniform nucleation of the thin layers. Magnesium was used as the p-type dopant to avoid excessive out-diffusion into the lightly doped base. By appropriate choice of electrodes, the device may also be driven as an n-channel junction field-effect transistor. The initial design suffers from a series resistance problem which limits the transistor's usefulness at high temperatures.
- Publication:
-
High-Temperature Electronics
- Pub Date:
- 1981
- Bibcode:
- 1981hte..conf...59Z
- Keywords:
-
- Bipolar Transistors;
- Fabrication;
- Gallium Phosphides;
- High Temperature Environments;
- Junction Transistors;
- Field Effect Transistors;
- Graphite;
- Liquid Phase Epitaxy;
- Magnesium;
- Nucleation;
- P-N Junctions;
- Supercooling;
- Thermionic Emitters;
- Electronics and Electrical Engineering