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Course Criteria
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1.00 Credits
No course description available.
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0.00 Credits
No course description available.
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0.00 - 4.00 Credits
Three-phase power, PF measurement by two wattmeters. Magnetic circuits. Iron losses, DC machine constrution and types. Generator and motor performance analysis. Transformer network models, regulation, and efficiency. Three-phase induction motors and alternators. Synchronous motor construction and performance analysis. Ratings and application of electric machinery.
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3.00 Credits
(ELCE-321, ELCE-401, and math elective) Three-phase balanced and unbalanced loads and power calcula- tions. Power system network modeling, steady-state analysis by the per unit method. Network calculations by matrices, node equations, mode elimination, bus admittance, impedance matrices, and fault calculations. Transmission line induct- ance, capacitance, network models, and power circle diagrams Symmetrical components and application to unsymmetrical fault analysis of power systems.
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3.00 Credits
Advanced topics in power distribution including: sequence impedances; symmetric and asymmetric fault analysis, network matrices-static load flow equations, Zbus, Ybus, load flow analysis optimum operating strategies, control problems, and sensitivity analysis.
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3.00 Credits
General philosophy of protective relaying - relay systems, circuit breakers, classification of relays, back-up protection. Protection basics - relay characteristics, amplitude and phase comparators. Protective relaying for generators, transformers, busses, and transmission lines. Relay coordination.
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0.00 - 6.00 Credits
(Senior Status and Departmental Approval) The study of current topics in electrical engineering.
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3.00 Credits
The design or analysis of an electrical engineering device, system, or concept. Requirements include a detailed proposal a written report, and an oral presentation.
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1.00 - 3.00 Credits
(Consent of department) The design and fabrication of an electrical or electronic system or device. A formal report is required.
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3.00 Credits
Analysis, design, and implementation of discrete time systems. Specific topics include FIR filters, filter realization (software and hardware), fast Fourier transforms (faster FFT algorithms), quantization and noise, power spectrum estimation, and adaptive filtering. Extensive computer usage plus some hardware design for laboratory work required.
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