ECE3030 (432): Theory of Semicondutor Devices (Teaching: Fall 2022)
Semiconductor materials and devices. Crystals; bandstructure; charge carrier statistics; excess carriers, transport; PN junction; Schottky barrier; bipolar and field-effect transistors; optoelectronic devices; nanoscale devices.
ECE5017 (710): Microwave Circuits (course+lab)
Transmission line theory; multiconductor; S-parameters; transformers, couplers, filters, resonators, circulators; electromagnetic interference and compatibility; computer-aided design; microstrip realization and testing with a network analyzer.
ECE5027 (723): Microwave Transistor Amplifiers and Oscillators (course+lab) (Teaching: Spring 2023)
Design principles of microwave transistor amplifiers and oscillators; low-noise, power and broadband amplifiers; linearization; computer-aided design; microstrip realizations and testing in the laboratory.
ECE7831 (832) High-Speed and Microwave Semiconductor Devices
Principles of microwave semiconductor devices, scattering and high-field transport;
Gunn effects, FET wave equation, HEMT, HBT, large signal RF modeling and
measurements; noise; traps; self-heating.