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Course Criteria
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3.00 Credits
Energy systems and ecology, load flow studies, sensitivity; optimum allocation and dispatching; optimal dynamic system control; modern stability studies. Students in the course will use MATLAB to solve problems. Prerequisite: EEE 130. Graded: Graded Student. Units: 3.0
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1.00 Credits
Simulation of three phase operations and transmission line operation including voltage regulation, efficiency of long lines, power system stability, voltage control and load-frequency control, load flow and optimal dispatch for simplified interconnected systems. Prerequisite: EEE 130, EEE 141, and (GWAR Certification before Fall 09, or WPJ score of 70+, or at least a C- in ENGL 109M/W). Graded: Graded Student. Units: 1.0
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3.00 Credits
Operation and design of utility and industrial distribution systems including distribution system planning; load characteristics; application of distribution transformers; design of subtransmission lines, distribution substations, primary systems, secondary systems; application of capacitors; voltage regulation and reliability. Prerequisite: EEE 130. Graded: Graded Student. Units: 3.0
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3.00 Credits
Principles of relay techniques (classical and solid state), current and potential transformers and their application in relaying technique, overcurrent, differential, impedance, frequency, overvoltage and undervoltage relays, relay protection of overhead and underground power lines, generators, transformers, motors, buses and computer applications in relay protection. Prerequisite: EEE 130, EEE 141. Graded: Graded Student. Units: 3.0
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3.00 Credits
Review thyristors, controlled rectifiers, DC choppers and inverters and pulse width modulation methods including space vector method. Control of DC drives and methods of control of induction synchronious motors including flux-vector methods and computer simulations will be studied. Prerequisite: EEE 108, EEE 130. Graded: Graded Student. Units: 3.0
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1.00 Credits
Solid state applications in power control. Diodes, rectifiers (single state and three phase), thrustors. Principle of phase controlled rectification, single phase and three phase converters. Power factor improvement. Three phase Pulse Width Modulation (PWM). AC voltage controllers. SPICE modeling. Strong design emphasis. EMTP modeling. LabView graphics simulation. Microprocessor control of power electronics systems. UPS systems, power supplies, power quality monitoring. Prerequisite: EEE 146; may be taken concurrently. Graded: Graded Student. Units: 1.0
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4.00 Credits
Review of vector calculus. Electrostatic fields from lines, surface and volume charges by Coulomb's law, Gauss' law, Laplace's and Poisson's equations. Capacitance. Magnetostatic field calculations using Biot-Savart's law and Ampere's law. Inductance. Forces on moving charges. Magnetic materials. Electric and magnetic energy in fields. Faraday's law. Ideal transformer. Moving conductor in time-varying magnetic field. Displacement current. Charge-current continuity relation. Transmission line analysis, characteristic impedance, reflection coefficient and standing wave concepts. Introduction to Smith Chart solutions to matching problems. Prerequisite: MATH 32, MATH 45, PHYS 11C, ENGR 17, and CSC 25. Graded: Graded Student. Units: 4.0
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3.00 Credits
Review of distributed circuit theory and the Smith chart. Impedance matching using series or shunt lumped and distributed circuits or near-quarterwave-matching sections. Noise temperature and noise figure. Scattering coefficient characterization of two-ports. Stability circles for high frequency transistors. Constant gain and noise figure circles. Basic antenna theory. Illustrated by their use for cell phones and other wireless systems. Prerequisite: EEE 117, EEE 161. Graded: Graded Student. Units: 3.0
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1.00 Credits
Selected experiments in the transmission and reflection of waves in coaxial lines and waveguides. Antenna impedance and pattern measurements. Laboratory three hours. Prerequisite: EEE 117, EEE 162 (EEE 162 may be taken concurrently), and (GWAR Certification before Fall 09, or WPJ score of 70+, or at least a C- in ENGL 109M/W). Graded: Graded Student. Units: 1.0
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3.00 Credits
Generation, propagation and detection of light. Fresnel equations, Snells law, diffraction, polarization and interference. Operating principles of LEDs, lasers, photodiodes and optical fibers. Introduction to optical communications systems, integrated optical devices, and optical instrumentation. Prerequisite: EEE 161, EEE 180, EEE 185; EEE 185 may be taken concurrently. Graded: Graded Student. Units: 3.0
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