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MESFET Lab
This tool gives insight into the basic operation of MESFET devices
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Abstract
MESFET stands for Metal Epitaxial Semiconductor Field Effect Transistor. It is quite similar to a JFET in construction and terminology. The difference is that instead of using a p-n junction for a gate, a Schottky (metal-semiconductor) junction is used. MESFETs are usually constructed in compound semiconductor technologies lacking high quality surface passivation such as GaAs, InP, or SiC, and are faster but more expensive than silicon-based JFETs or MOSFETs. Production MESFETs are operated up to approximately 30 GHz, and are commonly used for microwave frequency communications and radar. From a digital circuit design perspective, it is increasingly difficult to use MESFETs as the basis for digital integrated circuits as the scale of integration goes up, compared to CMOS silicon based fabrication. The MESFET differs from the common insulated gate FET in that there is no insulator under the gate over the active switching region. This implies that the MESFET gate should, in transistor mode, be biased such that one does not have a forward conducting metal semiconductor diode instead of a reversed biased depletion zone controlling the underlying channel. While this restriction inhibits certain circuit possibilities, MESFET analog and digital devices work reasonably well if kept within the confines of design limits. The most critical aspect of the design is the gate metal extent over the switching region. Generally the narrower the gate modulated carrier channel the better the frequency handling abilities, overall. Spacing of the source and drain with respect to the gate, and the lateral extent of the gate are important though somewhat less critical design parameters. MESFET current handling ability improves as the gate is elongated laterally, keeping the active region constant, however is limited by phase shift along the gate due to the transmission line effect. As a result most production MESFETs use a built up top layer of low resistance metal on the gate, often producing a mushroom-like profile in cross section.
- Improvements / modifications in subsequent version releases:
- Improved convergence by increasing mesh density
- 2.0 - Substrate doping made same as MESFET type. Improved convergence for GaAs material selection.
- 1.1 - Improved mesh density and added output plots in sequuence.
- 1.0.3 - Fixed minor bug regarding final display of 2D plot.
- 1.0.2 - Fixed minor bug for file deletion.
- 1.0.1 - Added 2D plots for electron density and potential profile.
Mesfet Exercises:
Sponsored by
NSF
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Researchers should cite this work as follows:
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www.eas.asu.edu/~vasilesk