Oklahoma State University

300

Electrical & Computer Engineering (ECEN)

Electrical & Computer Engineering (ECEN) ECEN 2011 Experimental Methods I Prerequisites: PHYS 2114; Co-requisite(s): ENSC 2613 Description: Basic electrical measurements and instrumentation techniques and devices. Use of voltmeters, ammeters, oscilloscopes, impedance bridges to study resistive, inductive, and capacitive circuit elements in steady state and transient operation. Reinforces ENSC 2613 and introduces design of instrumentation networks. Serves as introduction for non-majors. Previously offered as ECEN 3013. Credit hours: 1

ECEN 3233 Digital Logic Design Description: Boolean algebra, optimization of logic networks. Design using SSI, and MSI, LSI components. ROM and PLA applications. Analysis and design of clock sequential logic networks. Flip-flops, counters, registers. Asynchronous circuit design and analysis. Laboratory experience in implementing combinational and sequential logic devices. Credit hours: 3 Contact hours: Lecture: 2 Lab: 2 Levels: Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Elec & Computer Engr ECEN 3314 Electronic Devices and Applications Prerequisites: ECEN 3714, degree program requires admission to Professional School prior to enrollment. Description: Semiconductor electronic components including MOSFETs, BJTs, JFETs, and OpAmps. Emphasis on device models and use of solid state electronic devices to analyze, synthesize and design amplifiers and switching circuits. SPICE simulations are extensively utilized. Basic building blocks for analog and digital applications. Theoretical concepts and methods are demonstrated and reinforced through laboratory exercises. Course previously offered as ECEN 3313. Credit hours: 4 Contact hours: Lecture: 3 Lab: 2 Levels: Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Elec & Computer Engr

Contact hours: Lab: 2 Levels: Undergraduate Schedule types: Lab

Department/School: Elec & Computer Engr ECEN 2714 Fundamentals of Electric Circuits Prerequisites: MATH 2153 and PHYS 2114.

Description: Circuit analysis techniques including equivalent networks and mesh/node formulation of network equations; operational amplifiers; RL, RC and RLC transient and steady-state circuit analysis; energy and power; electrical measurements and instrumentation. Credit hours: 4 Contact hours: Lecture: 3 Lab: 2 Levels: Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab

ECEN 3513 Signal Analysis Prerequisites: ECEN 3714.

Department/School: Elec & Computer Engr ECEN 3020 Supervised Research Project

Description: Degree program requires admission to Professional School prior to enrollment. Deterministic signals. Fourier series and Fourier transforms. Impulse response, convolution and correlation. Sampling theorem. Analog modulation techniques. Credit hours: 3 Contact hours: Lecture: 3 Levels: Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 3613 Electromagnetic Fields Prerequisites: ENSC 2714 with a minimum grade of “C” or better, MATH 2163 and MATH 2233. Description: Time-harmonic and transient response of transmission lines. Maxwells equations and their applications to engineering problems in electrostatics, magnetostatics, time-harmonic fields and plane wave propagation. Credit hours: 3 Contact hours: Lecture: 3

Prerequisites: Consent of instructor and ECEN department head. Description: Supervised research project for qualified students. May be repeated no more than three times for a total of three credit hours. Offered for variable credit, 1-3 credit hours, maximum of 3 credit hours. Credit hours: 1 Contact hours: Other: 1 Levels: Undergraduate Schedule types: Independent Study Department/School: Elec & Computer Engr ECEN 3113 Energy, Environment and Economics Prerequisites: ECEN 3714, degree program requires admission to Professional School prior to enrollment. Description: Topics relevant to understanding the close relationship between energy use, its impact on the environment, and overall economic implications. Green energy technologies (wind, solar, hydro) will be considered along with conventional techniques. Both conventional and non-conventional energy technologies will be discussed. Credit hours: 3 Contact hours: Lecture: 3

Levels: Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr