Oklahoma State University

303

ECEN 4313 Linear Electronics Circuit Design Prerequisites: ECEN 3314; degree program requires admission to Professional School prior to enrollment. Description: Class A and B small-signal, push-pull power, complementary symmetry, differential and operational amplifiers, utilizing field-effect transistors, bipolar transistors, tunnel diodes and integrated circuits. Emphasis on amplification in electronic devices, design and analysis of wide-band amplifier circuitry. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4353 Communication Electronics Prerequisites: ECEN 3314; degree program requires admission to Professional School prior to enrollment. Description: Design of tuned voltage and power amplifiers, oscillators and mixers, modulation and detection, and parametric amplifiers. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4413 Automatic Control Systems Prerequisites: ECEN 3723 or MAE 3723; degree program requires admission to Professional School prior to enrollment. Description: Properties of feedback control systems, mathematical models of basic components, state-variable models of feedback systems, time-domain analysis, stability, transform analysis, frequency domain techniques, root-locus design of single input single output systems and simple compensation techniques. Same course as MAE 4053. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4503 Random Signals and Noise Prerequisites: ECEN 3513, ECEN 3714; degree program requires admission to Professional School prior to enrollment. Description: Analysis of electrical systems using elementary concepts of probability, random variables and random processes. Frequency and time domain response of linear systems driven by random inputs. Statistical properties of electrical noise. Analysis and design of optimum linear systems. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4523 Communication Theory Prerequisites: ECEN 3513 and ECEN 4503. Degree program requires admission to Professional School prior to enrollment. Description: Noise in modulation systems. Digital data transmission. Design of optimal receivers. Introduction to information theory. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr

ECEN 4533 Data Communications Prerequisites: ECEN 4503 as co-requisite. Description: Degree program requires admission to Professional School prior to enrollment. Signal detection in noise. Tradeoffs between bandwidth signal-to-noise ratio and rate of information transfer. Transmission multiplexing and error handling. Elements of computer network design. Data link protocols. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4613 Microwave Engineering Prerequisites: ECEN 3613; degree program requires admission to Professional School prior to enrollment. Description: Aspects of propagation, transmission, and radiation of microwave energy. Plane wave propagation; lossless and lossy media, reflection, refraction, and polarization. Transmission line theory; lumped element model, characteristic impedance, impedance matching, and transient response. Theory of waveguides and cavity resonators. Microwave network theory and S-parameters. Introduction to radiating systems. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4703 Active Filter Design Prerequisites: ECEN 3613; degree program requires admission to Professional School prior to enrollment. Description: Introduction to passive filters; operational amplifiers as network elements; filter specifications; design of active filters. Laboratory design projects and computer simulations. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4743 Introduction to Biomedical Engineering Modeling and Systems Prerequisites: ECEN 3714, ECEN 4763; degree program requires admission to Professional School prior to enrollment. Description: An overview of the field of biomedical engineering and an introduction of the modeling approaches implemented in biomedical engineering. Topics include bio-electronics, biomechanics, compartmental modeling, bio-signal processing, biomedical optics, etc. The course will demonstrate a few of major fields of activity in which biomedical engineers are engaged and modeling approaches are

implemented. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr