ELEN 4230 / EECE 5230 Renewable and Legacy Electric Energy Systems Analysis
3 Credits
Elements of renewable and legacy electric power systems; fundamental concepts and techniques for design and analysis; per unit system; load flow; economic dispatch; smart grids and load management; steady state and transient power system stability.
ELEN 4220 / EECE 5220 Power Electronics for Renewable Energy Systems
3 Credits
This course is an introduction to switch-mode power conversion. This course covers analysis and control of dc-dc converters, buck converters, boost converters, buck-boost converters, forward converters, flyback converters, dc-ac inverters for motor drives, interfacing renewable energy sources with utility, ac-dc rectifiers, power semiconductor devices, and magnetic components.
ELEN 4290 / EECE 5290 Power Electronics Lab
1 Credit
This lab is an introduction to switch-mode power conversion. This lab introduces students to buck converters, boost converters, buck-boost converters, forward converters, flyback converters, control of dc-dc converters, and switching waveforms of mosfets and diodes.
EECE 2010 Electric Circuits I
3 Credits
Ohm's law and Kirchhoff's laws. Mesh and loop analysis of resistive circuits with DC sources. Source transformations. Thevenin's and Norton's theorems. Natural and step response of first- and second-order circuits. Circuits with ideal op amps.
COEN 2020 / ELEN 2020 Electric Circuits II
3 Credits
Sinusoidal steady-state analysis. Power in AC circuits. Linear and ideal transformers. Laplace transform methods and circuit analysis applications. Passive and active frequency-selective circuits. Fourier methods. Overview of discrete-time analysis.