Discuss scaling rules and size limitations. List all possible non-ideal effects and how you expect them to vary with scaling.

Propose solutions where you think they possible. Based on this discussion and literature search choose

AIM-Spice parameters for 1 µm, 0.5 µm, and 0.1 µm technology and design, simulate, and compare ring

oscillators based on these devices.

Analyze factors limiting high temperature performance. Estimate the highest operating temperature.

Compare with silicon. Analyze effects of temperature on ohmic and Schottky contacts. Compare with data in literature.

Develop reasonable MOSFET Spice model for the military range of temperature and simulate inverter

characteristics representative for this temperature range of operation.

Analyze factors limiting cryogenic performance. How does it compare with other semiconductor materials?

Compare with data in literature. Develop reasonable MOSFET Spice model for 77 K

and simulate inverter characteristics representative for this temperature range of operation.

Discuss factors limiting maximum power in diode switches. Analyze self-heating effects. Consider contacts and packaging.

Suggest system applications for different power levels.

Give a brief review of technical literature on this topic. Discuss basic limitations of SiC which may limit SiC FET performance.

Estimate acceptable contact resistances. Propose FET design and simulate the device characteristics using either

ATLAS-II or AIM-Spice.