EE 1210 2 credits
Circuit Modeling I
Voltage, current, and resistance. Ohm's law, Kirchhoff's laws, superposition, and Thevenin's and Norton's theorems applied to the modeling of zero-order networks. C: MATH 2640. F S
EE 2210 4 credits
Circuit Modeling II
Modeling of transient response of linear networks. Phasor analysis of AC circuits. AC steady state power. Resonant circuits. Mutual inductance. Ideal opamps. Two-port networks. Introduction to network topology and CAD. P: EE 1210 and MATH 2640. C: MATH 2740. OR, for transfer students only, P: MATH 2740 and PHYS 2640. C: EE 1210. F S
EE 2220 4 credits
Signals and Systems
Linear system modeling with differential equations, Laplace transforms, and convolution. Transfer functions, frequency response, and Bode plots. Discrete time systems and z-transforms. Fourier analysis of signals. P: EE 2210. C: MATH 2840. F S
EE 2950 & 2960 2 credits
Electrical Engineering Cooperative Education
Work experience in industry under the direction and jurisdiction of the College. P: Sophomore standing and consent of cooperative education director.
EE 2970 1 credit
Electrical Engineering Internship
Work experience in industry under the direction of the Cooperative Education Office of the College of Engineering, Mathematics and Science. Note: This program is separate and distinct from the Cooperative Education Program and is principally designed to cover the summer vacation period.
EE 3020 4 credits
Analog Electronics
Diode circuits. Biasing of semiconductor devices. Analysis and design of linear amplifiers. Use of opamps. P: EE 2220. F S
EE 3130 3 credits
Solid State Electronic Devices
Physics of semiconductor devices. Energy band diagrams, Fermi levels, and Fermi-Dirac statistics. Metal-semiconductor and p-n junctions. Functioning of diodes, BJT's, FET's, and thyristors. Small signal equivalent circuits. Nonlinear modeling using computers. P: EE 2210, PHYS 3140, and MATH 3630. F S
EE 3140 3 credits
Electric and Magnetic Fields
(Cross offered under Engineering Physics 3640)
Electrostatics, magnetostatics, Maxwell's equations and transmission lines. P: EE 2220, MATH 3630, and PHYS 2640. F S
EE 3310 3 credits
Automatic Controls
(Cross offered under Mechanical Engineering 4330)
Stability of analog control systems. Design of compensation networks. P: EE 2220. F S
EE 3410 3 credits
Electric Power Engineering
Introduction to electromechanics, generators, transformers, transmission lines, motors, and network analysis. P: EE 2220. F S
EE 3610 3 credits
Communication Systems
Analysis and design of amplitude, angle, and pulse code modulation systems. P: EE 3020 and EE 3710 or EE 3750. F S
EE 3750 3 credits
Microprocessor Logic Design and Assembly Programming
(Cross offered under Computer Science 3750)
An introduction to digital logic and assembly language programming for microprocessor-based systems. Fundamentals of microprocessor architecture, data representation, arithmetic, debugging systems, procedures, interrupts, timing and interfacing with hardware. P: EE 2210, COSC 1430 and (EE 2210 or COSC 2430). F S
EE 3760 3 credits
Microprocessor Systems: Interface and Design
Design of combinational and sequential logic circuits design of microprocessor-based systems. P: EE 2210 and EE 3750. F S
EE 3950 & 3960 2 credits
Electrical Engineering Cooperative Education
Work experience in industry under the direction and jurisdiction of the College. P: Junior standing and consent of cooperative education director. F S
EE 3970 1 credit
Electrical Engineering Internship
Work experience in industry under the direction of the Cooperative Education Office of the College. Note: This program is separate and distinct from the Cooperative Education Program and is principally designed to cover the summer vacation period.
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EE 4010 1 credit
UHF Amplifier Design
Scattering parameters, the Smith Chart, lumped-element impedance matching, transistor characterization, device stability, UHF CAD techniques and transistor bias techniques. P: EE 3020.
EE 4020 1 credit
UHF Oscillator Design
Scattering parameters, the Smith Chart, transistor characterization, device destablization, lumped-element impedance matching, UFH CAD techniques, output power prediction and transistor bias techniques. P: EE 3020.
EE 4050 4 credits
Advanced Analog Electronic Circuits
Design of discrete and integrated electronic circuits used in communication systems, such as oscillators, modulators, low-noise amplifiers, and class AB, B, and C power amplifiers. P: EE 3130, EE 3610 and EE 3310. S
EE 4310 4 credits
Modern Control Systems
State space modeling of systems, solution of state equations, controllability and observability, Lyapunov stability, minimum realization, and state feedback design. P: EE 3310 or ME 4330. F
EE 4320 4 credits
Digital Signal Processing
Discrete time systems, frequency response of linear time invariant systems, discrete Fourier transform, FFT. Design of FIR and IIR digital filters. P: EE 2220. S
EE 4350 4 credits
Discrete Time Control Systems
Z-transforms, sampling theory, analysis and design of digital control systems. P: EE 3310. F S
EE 4430 4 credits
Electrical Machines and Power Electronics
DC machines and DC machine control; power electronic switches, converter systems: AC-to-AC, AC-to-DC, DC-to-DC, and DC-to-AC; harmonics, real and complex power in power electronic systems. P: EE 3020 and EE 3410. F
EE 4450 4 credits
Power Systems Analysis and Design
Power systems modeling, load flow, economic dispatch, stability, fault analysis, computer simulation and systems analysis. P: EE 3410. S
EE 4620 4 credits
Optical Systems
(Cross offered under Engineering Physics 4140)
Geometric and physical optics, lasers, light emitting diodes, optical detectors, optical signal processing, holography, nonlinear optics, integrated optics, optical fibers, optical communications systems. P: EE 3610, EE 3140, and PHYS 3140, or consent of instructor. S
EE 4630 4 credits
Advanced Communication Systems
Probability theory, random signals, performance and design of CW and pulse modulation systems, information and coding theory. P: EE 3610. F
EE 4720 4 credits
Microcomputer Architecture and Interfacing
Computer architecture including processor design, microprogrammed control, memory organization, interconnection structures, input/output, interfacing techniques, and parallel processing. P: EE 3720 or EE 3760. S
EE 4750 4 credits
Advanced Digital Design
Introduction to semi-custom integrated circuit design; design methodology (design entry, simulation, cell placement, and macro libraries); optimization of designs based on macro libraries; design for testability; logic simulation; placement and routing algorithms for gate arrays and standard cells; PLA-based programmable logic devices; programmable gate arrays; design projects using CAD systems. P: EE 3710 or EE 3760. C: EE 3130. F S
EE 4980 1-4 credits
Current Topics in Engineering
In-depth study of a current topic of interest to the engineering profession. The topic to be covered will be identified in the course title. P: Consent of instructor.
EE 4990 1-3 credits
Independent Study
Advanced study in area of specialization selected by student and approved by faculty member. P: Consent of department chair.
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