EE 1303. Introductory Electrical Engineering Practicum: Introduction to engineering and electrical engineering by branch and function (including analysis, design, research, and development). Engineering professionalism and infrastructure. Introductory engineering theory, calculations, computer and information technologies, and laboratory experimentation represented by electrical circuits. Lecture two hours and laboratory two hours per week. Corequisites, MATH 1023, MATH 1033, MATH 1054, or MATH 2204. Demand.

EE 3303. Semiconductor/Optoelectronic Materials and Devices I Laboratory: Experimentation and demonstrations in semiconductor growth and deposition, material analysis and characterization, doping, and processing. Fabrication of simple devices. Metallization, etching, and other manufacturing processes. Lecture one-two hours, laboratory five-four hours per week. Prerequisite, C or better in CHEM 1011, PHYS 2034, and ENGR 3401. Corequisite, EE 3363. Spring.

EE 3313. Electric Circuits II: Transient analysis, average power, RMS values, mutual inductance; resonance, network theorems and principles, polyphase networks, complex power.Prerequisite, C or better in, MATH 2214 and ENGR 2423. Spring.

EE 3323. Computer and Graphics Applications in Electrical Engineering: Modern computer applications, graphics techniques, and software specific to electrical engineering. Circuit schematics and simulation. Data acquisition, processing, and presentation. Multidimensional graphics. Printed circuit board design. Integrated lecture and laboratory. Prerequisites, C or better in EE 3313 and EE 3403. Demand.

EE 3331. Digital Electronics I Laboratory: Experimentation and design with digital electronic and computer components and circuits including logic gates, flip-flops, counters, and registers. Practical applications in timing and control. Logic families such as TTL, ECL, and CMOS. Prerequisite, C or better in ENGR 2421. Corequisite, EE 3333. Demand.

EE 3333. Digital Electronics I: Introduction to the analysis and design of digital and computer circuits, boolean algebra, binary arithmetic, combinational logic, sequential logic, registers, counters, adders, comparators, computer organization. Prerequisite, C or better in either CS 2183 or ENGR 2423. Fall, Summer.

EE 3343. Engineering Fields and Waves I: Study of time invariant electric magnetic fields in free space and in materials, electrical current flow as a function of electric field, magnetic flux, interaction of magnetic fields with electrical current and voltage, electrical and magnetic potentials, time changing electric and magnetic fields, and introduction to Maxwell's equations. Prerequisites, C or better in MATH 3254 and EE 3313. Fall.

EE 3353. Continuous and Analog Systems: Methods of analysis of continuous and analog systems and associated synthesis, simulation, and design, system response in the time and frequency domains, Laplace transforms, Fourier series and transforms, transfer functions, and convolution. Prerequisite, C or better in EE 3313. Corequisite, MATH 4403. Fall.

EE 3363. Semiconductor Materials and Devices I: Semiconductor materials and theory of solid state electronic devices. Semiconductor growth and processing techniques. Semiconductor parameters such as bandgap, mobility, carrier densities, diffusion length, carrier lifetime, and energy level distribution. P n junctions and Schottky barriers. Constraints and limitations on practical devices. Prerequisite, C or better in CHEM 1013, PHYS 2034, and C or better in ENGR 3403 and ENGR 3443. Spring, even.

EE 3371. Computer Engineering I Laboratory : Design and experimentation in computer electronics, hardware, communication, and information coding to support knowledge gained in the partner course EE 3373, Computer Engineering I. Prerequisites, C or better in either CS 2183 or EE 3333. Corequisite, EE 3373. Demand.

EE 3373. Computer Engineering I: Introduction to computer engineering including fundamental electronic devices and circuits, architecture, operating system, intrarmachine signal communication, and fundamental coding algorithms. Prerequisite C or better in either CS 2183 or EE 3333. Demand.

EE 3383. Principles and Practices in Electrical Engineering: Principles of and good practices in electrical engineering, professional organizations, literature, intellectual property, and licensure, ethics and regulations, vendors, products, specifications, and procurement, communications and human relations, resource management, product certification and manufacturability, modern tools and issues. Prerequisites, EE 3313 and EE 3403. Demand.

EE 3401. Electronics I Laboratory: Basic laboratory experiments in electronic circuits and solid state electronic devices. Corequisite, EE 3403. Prerequisite, C or better in ENGR 2421. Fall

EE 3403. Electronics I: Theory, analysis, and introductory design of diode, bipolar junction transistor, operational amplifier, and field effect transistor devices and circuits. Prerequisite, C or better in ENGR 2423. Fall, Summer

EE 4303. Engineering Fields and Waves II: Study of electromagnetic waves in free space, dielectrics, and conductors, transmission lines, polarization, reflection, refraction, and diffraction, waveguides and resonators, antennas, and radiation. Prerequisites, MATH 4403 and C or better in EE 3343. Demand.

EE 4313. Control Systems: Analysis and design of linear feedback systems. Transfer functions, state-space analysis transient and steady-state characterization and stability determination. Closed loop analysis and design. Root locus and frequency domain methods. Prerequisites, C or better in EE 3403. Corequisite, EE 3353. Demand.

EE 4321. Electrical Machinery Laboratory: Experiments dealing with motor, generators, transformers, and associated measurements and controls. Prerequisite, C or better in ENGR 2421. Corequisite, EE 4323. Demand.

EE 4323. Electrical Machinery: Introduction to the analysis and design of electromechanical energy conversion systems, magnetic circuit theory, general transformer and machinery theory, DC and AC motors and generators. Prerequisite, C or better in EE 3313 or ENGR 3473, and ENGR 3423. Demand.

EE 4333. Communications Theory: 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 ENGR 3403. Demand.

EE 4344. Microprocessor Applications: 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. Demand.

EE 4353. Power Systems: Generation, transmission, and distribution of large scale electrical power, associated energy losses and practical design problems and complications. Transmission line analysis. Three phase power networks. Load monitoring and control. Prerequisite, C or better in EE 3313 and ENGR 3423. Corequisite, MATH 4403. Demand.

EE 4363. Optical Electronics: Review of electromagnetic waves, optics, and semiconductors. Light detectors. Sources such as LED's, laser diodes, and lasers. Optical fibers. Prequisites, C or better in EE 3343 or EE 3363. Demand.

EE 4371. Intermediate Electrical Engineering Laboratory: Advanced design-oriented experiments in analog electronic and AC electrical devices and circuits. Corequisite, EE 4373. Prerequisite, C or better in ENGR 3401. Spring, odd.

EE 4373. Electronics II: A continuation of EE 3403 with emphasis on the analysis, simulation, and design of feedback, operational amplifier systems, frequency response, integrated circuits and power and waveshaping circuits. Prerequisite, C or better in EE 3313, ENGR 3443 and EE 3403. Spring, odd.

EE 4381. Digital Electronics II Laboratory: Advanced digital electronic systems and introduction to microprocessor and mini computer architecture, programming, interfacing, and design applications. Prerequisite, C or better in EE 3331 or EE 3401. Corequisite, EE 4383. Demand.

EE 4383. Digital Electronics II: Continuation of the study of digital circuit design with emphasis on the design of larger systems and use of LSI components. Register transfer logic, computer interfacing and design, microcomputer-based system design. Prerequisite, C or better in EE 3333. Demand.

EE 4393. Discrete and Digital Systems:  Analysis and application of discrete and digital systems including finite difference based recursion equations, z-transforms, delay elements and memory devices, discrete and digital simulation of continuous and analog systems, and digital filter applications. Prerequisite, C or better in EE 3353. Demand.

EE 4703. Signal and Information Processing: Information processing theory and applications including discrete-time signals, time-domain systems, transform domain representation of discrete time signals, digital processing of continuous time signals, digital filter structure and design, propagation of signals and associated noise and distortion, and analysis of finite word length effects.  Prerequisite, C or better in EE 3353. Demand.

EE 4713. Semiconductor Materials and Devices II: 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.

EE 4723. Power Electronics and Control: Electrical and electronic circuits for switching, relaying, shaping, and amplifing large current, voltage, and power signals, including relays, transformers, MOSFET's, diacs, triacs, SCR's, unijunction transistors, optorelays, optocouplers, rectifiers, and push-pull amplifiers. High voltage circuity. Representative industrial applications and practical constraints and specifications. Prerequisites, C or better in EE 3333, EE 3403, and EE 3401. Demand.

EE 474V. Student Research in Electrical Engineering: 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 presentaion will be required and approved by the instructor and Director of Electrical Engineering. Prerequisite, 30 credit hours, and C or better in EE 3313 or EE3403. Demand.

EE 4733. Semiconductor Laboratory/Optoelectronic Materials & Devices Laboratory II: 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.

EE 479V. Special Problems in Electrical Engineering: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 director. Prerequisites are dependent on the nature of the special problem. Demand.

EE 5303. Engineering Field and Waves II: 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.

EE 5313. Control Systems: Analysis and design of linear feedback systems. Transfer functions, state-space analysis, transient and steady state characterization, and 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.

EE 5323. Electrical Machinery: 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.

EE 5333. Communications Theory: 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.

EE 5344. Microprocessor and PLC Applications: 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 progrmming languages are introduced. Prerequisite, C or better in EE 3333 and ENGR 3331. Dual listed as EE 4344.

EE 5353. Power Systems: Generation, transmission, and distribution of large scale electrical power, associcated energy losses and practical design problems and complications. Transmission line analysis. Three phase power networks. Load monitoring and control. Prerequisite, C or better in EE 3313 and ENGR 3423. Corequisite, MATH 4403. Dual listed as EE 4353.

EE 5363. Optical Electronics: Review of electromagnetic waves, optics and semiconductors. Light detectors. Sources such as LEDs, laser diodes, and lasers. Optical fibers. Prerequisite, C or better in EE 3343 or EE 3363. Dual listed as EE 4363.

EE 5373. Electronics II: A continuation of EE 3403 with emphasis on the analysis, simulation, and design of feedback, operational amplifier systems, frequency response, integrated circuits and power and waveshaping ciruits. Prerequisite, C or better in EE 3313, ENGR 3443, and EE 3403. Dual listed as EE 4373.

EE 5383. Digital Electronics II: Continuation of the study of digital circuit design with emphasis on the design of larger systems and use of LSI components. Register transfer logic, computer interfacing and design, microcomputer based system design. Prerequisite, C or better in EE 3333. Dual listed as EE 4383.

EE 5393. Discrete and Digital Systems: Analysis and application of discrete and digital systems including finite difference based recursion equations, z-transforms, delay elements and memory devices, discrete and digital simulation of continuous and analog systems, and digital filter applications. Prerequisite, C or better in EE 3353. Dual listed as EE 4393.

EE 5373. Electronics II: A continuation of EE 3403 with emphasis on the analysis, simulation, and design of feedback, operational amplifier systems, frequency response, integrated circuits and power and waveshaping ciruits. Prerequisite, C or better in EE 3313, ENGR 3443, and EE 3403. Dual listed as EE 4373.

EE 5703. Signal and Information Processing: Information processing theory and applications including discrete time signals, time domain systems, transform domain representation of discrete time signals, digital processing of continuous time signals, digital filter structure and design, propagation of signals and associated noise and distortion, and analysis of finite word length effects. Prerequisite, C or better in EE 3353. Dual listed as EE 4703.