This course is part of the DP123 initiative: Design Project for 1st, 2nd and 3rd Year ECE Students. It enables students to design and build hardware and software systems before the senior design project (SDP). Most of the projects are team-based. The projects are guided from concept to final designs by the course instructors as well as by ECE seniors acting as project mentors (enrolled in E&C-ENG 497DP). DP123 projects are built in M5, the academic makerspace for ECE undergraduates.

This course is part of the DP123 initiative: Design Project for 1st, 2nd and 3rd Year ECE Students. It enables students to design and build hardware and software systems before the senior design project (SDP). Most of the projects are team-based. The projects are guided from concept to final designs by the course instructors as well as by ECE seniors acting as project mentors (enrolled in E&C-ENG 497DP). DP123 projects are built in M5, the academic makerspace for ECE undergraduates.

A graduate version of E&C-Eng 568. Quantitative study of pipelined processor architectures, memory, Input/Output, RISC processors and vector machines. Prerequisite: undergraduate courses in digital design and hardware organization.

This course examines the principles of Power Systems Analysis. It will begin with a review of AC circuit analysis. The course will then cover the topics of transmission line parameter calculation, symmetrical component analysis, transformer and load modeling, symmetrical and unsymmetrical fault analysis, power flow, and power systems stability.
Prerequisites: Knowledge of circuit analysis, basic calculus and differential equations, elementary matrix analysis and basic computer programming.

Not available at this time

Not available at this time

Not available at this time

Continuation of E&C-ENG 415. Design of small electronic system built, refined, tested, and demonstrated. Final prototype shown to meet initial specifications. Final design review. Prerequisite: E&C-ENG 415.

Introduction to fundamentals of radar systems. Radar range equation, critical radar components, and system performance. Detection, modulation, noise, and propagation effects. Prerequisite: E&C-ENG 584 or equivalent.

The nature of electromagnetic fields and waves. Transmission lines modeled as distributed circuits. Propagation of waves and wave reflections on transmission lines. Review of vector analysis, coordinate systems, gradient, divergence, curl; review of surface and volume integrals. Electrostatic and magnetostatic fields and boundary conditions. Fields in conductors, dielectrics and magnetic materials. Time-varying fields and electromagnetic induction. Maxwell's equations for time-varying fields.