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Course Criteria
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3.00 Credits
Continuation of EE 3363, including configuration and operation of advanced solid state junction devices. Large scale to ultra large scale integration and miniaturization of electronics into integrated circuits. Metallization and shaping technology and manufacturing aspects. Prerequisite, C or better in EE 3363. Demand.
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3.00 Credits
Electrical and electronic circuits for switching, relaying, shaping, and amplifying large current, voltage, and power signals, including relays, transformers, MOSFETs, diacs, triacs, SCRs, unijunction transistors, optorelays, optocouplers, rectifiers, and push, pull amplifiers. High voltage circuitry. Representative industrial applications and practical constraints and specifications. Prerequisites, C or better in EE 3333, EE 3403, and EE 3401. Demand.
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3.00 Credits
Continuation of EE 3303. Advanced semiconductor characterization, processing, device fabrication, metallization, and packaging. The second half of the course will involve original experimentation culminating in a comprehensive manuscript in journal format. Prerequisite, C or better in EE 3303. Corequisite, EE 4713.
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1.00 - 3.00 Credits
Individual or small group research projects in electrical engineering as directed by an electrical engineering instructor. A project proposal, interim and final report, and a final oral presentation will be required and approved by the instructor and Director of Electrical Engineering. Prerequisites, 30 credit hours, and C or better in EE 3313 or EE 3403. Demand.
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1.00 - 3.00 Credits
Individually directed problems in electrical engineering for juniors and seniors. A course outline and project summary listing the goals and expected outcomes must be approved by the student advisor and the program director. Prerequisites are dependent on the nature of the special problem. Demand
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3.00 Credits
Study of electromagnetic waves in free space, dielectrics, and conductors, transmission lines, polarization, reflection, refraction, diffraction, waveguides, resonators, antennas, and radiation. Prerequisites, MATH 4403 and C or better in EE 3343. Dual listed as EE 4303.
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3.00 Credits
Analysis and design of linear feedback systems. Transfer functions, state space analysis, transient and steady state characterization, stability determination. Closed loop analysis and design using root locus and frequency domain methods. Prerequisites, C or better in EE 3403. Corequisite, EE 3353. Dual listed as EE 4313.
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3.00 Credits
Introduction to the analysis and design of electromechanical energy conversion systems, magnetic circuit theory, general transformer and machinery theory, and DC and AC motors and generators. Prerequisite, C or better in EE 3313 or ENGR 3473, and ENGR 3423. Dual listed as EE 4323.
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3.00 Credits
Frequency spectra of time signals. Review of Fourier series and transforms. Signal mixing, modulation, and demodulation. AM and FM broadcasting techniques and bands. Pulsed and digital communication modes. Prerequisite, C or better in EE 3353 and EE 3403. Dual listed as EE 4333.
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4.00 Credits
A microcomputer hardware interfacing course for senior level engineers. A survey of small computers and their engineering functions including control, sensing, and computation. The concept of using assembly language and other languages as control programming languages are introduced. Prerequisites, C or better in EE 3333 and EE 3331. Dual listed as EE 4344.
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