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Course Criteria
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2.00 Credits
(1-3-2) A continuation of EET 358 with emphasis on manufacturer and vendor contact resulting in verification and implementation of proposal trade offs in support of prototype design and construction. Prototype construction of project solution begins. Report produced on design calculations and functional analysis of hardware and/or software needed for project solution. Prerequisite: EET 358. Corequisite: WRI 322.
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3.00 Credits
(3-0-3) Analysis and synthesis of digital signal processing systems including the following topics: nonrecursive and recursive filters; hardware accelerators; digital speech processing. Most of the homework will be done using special applications software running on PC based work stations. DSP project proposal. Prerequisite: EET 471.
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3.00 Credits
(3-0-3) A course to investigate the physics associated with a variety of commonly used optical devices. Solid-state physics required to understand function of optical devices such as detectors, solidstate lasers, and optical modulators. Quantum aspects of optics leading to the understanding of photo-emissive devices, optical radiation and laser dynamics. Prerequisites: PHY 223, MATH 254N.
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4.00 Credits
(3-3-4) Laser radiation properties, laser cavities, coherence, atomic spectra, Boltzmann statistics, pumping rate, power gain, threshold conditions, resonator stability, beam shape, mode structure, beam modification with intracavity elements. Prerequisite: EET 461.
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3.00 Credits
(3-0-3) Inspection and testing for quality control of electronic circuits and systems. Statistical evaluation of mean-time-between-failure. Sampling plans, analysis of variance, evaluation of reliability. Device and system test objectives and schemes. Case studies in quality control. Prerequisites: Senior standing, MATH 254N.
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3.00 Credits
(2-3-3) A continuation of EET 454. Topics include: measurement techniques and error in digital circuits, IEEE-488 and VXI bus structures, design for test and test error analysis. Course includes a group term project. Prerequisite: EET 454.
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4.00 Credits
(3-3-4) A course designed to further the knowledge and capabilities of the optoelectronics student in fields of interest. Possible areas of study include: Optical Testing, Fourier Optics, Holography, Crystal Optics, Laser Systems and Fiber Optic Systems. Prerequisites: EET 462, EET 436, EET 437.
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3.00 Credits
(3-0-3) Analysis and application of modern control system theory in selected areas of electronics, industrial process control, and other systems. The phase-lock-loop is analyzed as the introductory example of a control system application. S and Z transforms are developed in control system contexts. Prerequisites: EET 373, MATH 321.
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5.00 Credits
(1-12-5) A project laboratory (continuation of EET 458). Project proposed in EET 358 and designed in EET 458 will be constructed, tested, evaluated and packaged. Complete documentation with performance specifications, functional description, design calculations, test results, schematics, performance graphs, flowcharts, parts lists, wiring diagrams, and photographs become part of the complete senior project final report. The student will defend his/her project before a review panel that will consist of the senior project adviser, another technically qualified panelist and a third person of the student's choice. Prerequisite: EET 458. Corequisite: WRI 323.
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3.00 Credits
(0-9-3) Digital Signal Processing senior projects defined in EET 459 will be designed and implemented. The projects will generally include both hardware and software. A final paper will be written and an oral presentation given. Prerequisite: EET 459.
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