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Course Criteria
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3.00 Credits
This course provides students with the principles of data communication and networking. It extends the concepts of communication systemtheory, applying themto data communications situations. Topics covered include data coding, error detecting and correcting techniques, flow control, data link protocols, data formatting, spectral analysis of baseband andmodulated signals,modems, interface standards,multiplexing, and computer communication network concepts. (prereq: EE-303)
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3.00 Credits
The objective of this course is to develop an understanding of fundamental radio frequency (RF) design techniques and the difficulties encountered in RF design. After an overview of RF systems,microstrip transmissionmedia is covered. This is followed by the design of filters, amplifiers and oscillators in the RF region. Computer-aided engineering software is utilized in the laboratory to help realize actual RF circuit designs. (prereq: EE-3210 or EE-3212)
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3.00 Credits
This course is a natural continuation of the electromagnetic field and transmission line courses (EE-3203/3210 or EE-3202/3212) and is useful preparation for advanced and/or graduate study. Illustrative solutions of Poisson's and Laplace's equations are obtained. Time varying fields arediscussed and expressed withMaxwell's equations. Propagation and reflection of the uniform plane wave in variousmedia are analyzed starting with the wave equation. Several special topics, such as scalar and vector potential functions, guided-wave propagation, anisotropicmedia, antennas, and electromagnetic field simulation are considered. (prereq: EE-3210 or EE-3212)
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3.00 Credits
This course emphasizesmicrowave transmission lines, especiallymicrostrip, coax and rectangular waveguides. The theory is developed for each line in order to gain insight into transmission characteristics and operation. This is followed by a study ofmicrowave resonant circuits, nonreciprocal ferrite devices and othermicrowave components. Fundamental and modern high-frequencymeasurement techniques and components are covered in the laboratory. (prereq: EE-3210 or EE-3212)
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3.00 Credits
In this course students are given background in device selection and power conditioning circuits that have application at high power levels. Topics covered emphasize the use of various active devices in inverters, converters,motor drives and power conditioning circuits. (prereq: EE-3111, EE-2070)
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3.00 Credits
This course provides an introduction to the classicalmethods andmodern techniques in power systemanalysis with the aid of a personal computer. Topics covered include the concepts of complex power, balanced three-phase circuits, transmission line parameters, transmission line performance and compensation, systemmodeling and per-unit analysis, circuit theory as applied to power systems and load flow analysis. (prereq: EE-3401)
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3.00 Credits
This course is a continuation of EE-447, which provides students with a working knowledge of power systemproblems and computer techniques used to solve some of these problems. Topics covered include optimal dispatch of generation, symmetrical three-phase faults, symmetrical components, unsymmetrical faults, technical treatment of the general problemof power system stability and its relevance. (prereq: EE-447)
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3.00 Credits
Critical to all engineers is an understanding of themeaning of quality and the impact that understanding has on how tasks, engineering and otherwise, are performed. Through the entire gamut of activities resulting in industrial products, the engineer is a key factor of every process and has the responsibility of assuring that quality is implemented in an intentional, deliberate manner. This course seeks to instill the required understanding of quality via experiential activities, demonstrate its impact, and develop the needed statistical and organizational tools and techniques for quality analysis. (prereq:MA-262 orMA-3620, senior standing in EE or consent of instructor)
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3.00 Credits
The concepts common to high-frequency communication systems are covered initially in this course. The actual signal transmission performance is emphasized over signal processing aspects. This includes the study of scattering parameters, noise, typical systemcomponents, antennas, radio wave propagation and high-frequency transmission line performance. The theory behind link performance is then developed and is illustrated in a satellite communications systemand other RF communication systems to consolidate the concepts in this course. (prereq: EE-401, EE-420)
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3.00 Credits
This course is designed for introducing fiber optics and their applications. It covers the structure and characteristics of optic fibers, and the operational and physical properties of various optical components. Optical communications systems and the application of optic sensor systems are also covered. (prereq: EE-310, EE-320)
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