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Course Criteria
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1.00 Credits
Selected experiments pertaining to biomedical instrumentation. 1 threehour laboratory. Corequisite: ECE 435.
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4.00 Credits
Introduction to optical fibers. Coupling and cabling. Optical sources and detectors and their application to optical communications. Modulation methods. Noise in detectors. Design and evaluation of optical transmitters, receivers, repeaters. Design specifications, options, tradeoffs and cost. Integrated optics. Laser technology applied to optical communications. New developments. 4 lectures/problemsolving. Prerequisites: ECE 302, ECE 330, ECE 405.
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4.00 Credits
The nature of light. Simple geometric optics. Thermal and atomicline light sources, modulation of lights. Nonlinear optics and parametric oscillations. Luminescence. Display devices. Laser and laser light. Photodetectors, optical waveguides. ECE 202 prerequisite, ECE 330 prerequisite, or corequisite.
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3.00 Credits
Principles of R.F. design of transmitters and receivers utilizing solid state electronics devices and integrated circuits. Design of oscillator, power amplifiers, mixers and detectors. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ECE 320 and ECE 402. Corequisites: ECE 448L.
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1.00 Credits
Principles of R.F. Design of transmitters and receivers utilizing solid state electronics devices and integrated circuits. Design of oscillator, power amplifiers, mixers and detectors. 3 lectures/problemsolving and 1 threehour laboratory. ECE 448 and ECE 448L are to be taken concurrently. Prerequisites: ECE 320 and ECE 402. Corequisite: ECE 448.
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1.00 Credits
The course consists of developments, policies, practices, procedures and ethics in the areas of Electrical and Computer Engineering. 1 hour lecture/problemsolving. Prerequisites: GWT, all 100 and 200 level courses. All but 12 units of the 300 level courses. 50 units or less to graduate.
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2.00 Credits
Completion of a capstone senior design team project under faculty supervision. Project results are presented in a formal report. Minimum 120 hours required. Prerequisites for ECE 465: Senior Standing. Prerequisites for ECE 466: ECE 465. Prerequisites for ECE 467: ECE 465/466 or EGR 481/482 taken within the department or with the department preapproval.
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3.00 Credits
Power electronics applications for industry and power utilities. The emphasis is on the analysis and design of power system components, including single and threephase DC rectifiers, controlled rectifiers, and DC to AC converters. Selected applications include HVDC transmission, resonant converters, AC and DC motor drives, static var control, and power quality issues. 3 lectures/problemsolving. Prerequisite: ECE 220.
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1.00 Credits
Selected experiments in Power Electronics covering single and threephase DC rectifiers using power diodes and thyristors and utility applications including static var correction, thyristor controlled inductors, etc. 1 threehour laboratory. Prerequisite or corequisite: ECE 468.
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3.00 Credits
Basic principles of power electronics with an emphasis on the analysis and design of DC switchmode power supplies and DC to AC inverters using pulsewidth modulation (pwm). Basic circuit topologies, control modes (voltage/current, etc), control stability, high power factor design, pwm amplifiers, design of magnetic components and output filters. 3 lectures/problemsolving. Prerequisites: ECE 220.
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