ECE 210-3 INTRODUCTION TO ELECTRICAL CIRCUITS
DC and AC steady-state circuit analysis. Loop and nodal analysis, network theorems, phasors, complex power, single-phase and three-phase circuits.
Prerequisites: PHYS 211a, MATH250 or concurrent enrollment.
ECE 211-4 CIRCUIT ANALYSIS-II
Time-domain transient analysis, complex frequency, frequency response, two-port networks, Laplace Transform techniques, impulse response and convolution.
Three hours lecture and one 3-hour laboratory per week.
ECE 282-3 DIGITAL SYSTEMS DESIGN
Concepts and design of digital and computer circuitry; binary number systems; study of microprocessors and assembly language programming. Laboratory exercises involve circuit implementation and programming. Three lecture hours and one 3-hour lab per week.
Prerequisites: CS140 or CS145 or consent of instructor.
ECE 326-4 ELECTRONIC CIRCUITS-I
Introduction to semiconductors; diode, transistor and FET; small and large signal analysis; logic gate families and design. Three hours lecture and one 3-hour laboratory per week.
Prerequisites: 211 (or equivalent) with minimum grade of C.
ECE 340-3 ENGINEERING ELECTROMAGNET ICS
Introduction to engineering electromagnetics. Includes vector analysis, time-harmonic fields, electromagnetic wave propagation, transmission lines, waveguides, antennas. Prerequisites: PHYS 211b, PHYS 212b, ECE 211.
ECE 351-3 SIGNALS AND SYSTEMS
Basics of continuous and discrete signals and systems. Convoluton, Fourier analysis, filtering, modulation and sampling, Z-transforms.
Prerequisites: 211 (or equivalent) with grade of C or better.
ECE 365-3 CONTROL SYSTEMS
Feedback control systems analysis and applications. Signal flow graphs, state variable approach, modeling, root-locus, Bode plots and steady state errors, Nyquist plots. Prerequisite: ECE 351.