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ELECTRICAL ENGINEERING 440: Distribution Power System Design
3.00 Credits
University of Bridgeport
A comprehensive study of modeling of the distribution of power system components and planning, including load characteristics, application of power transformers, design of transmission lines, distribution sub-stations, primary systems and secondary systems, voltage drop and power loss calculations, application of capacitors, harmonics on distribution systems, voltage regulation, fault calculation and protection.
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ELECTRICAL ENGINEERING 440 - Distribution Power System Design
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ELECTRICAL ENGINEERING 441: Analog Communications
3.00 Credits
University of Bridgeport
Spectral analysis; modulation and demodulation system analysis, including AM, FM, pulse modulation and transmission of digital information. Signal design and system considerations. Pre-requisite: Electrical Engineering 234. 3 semester hours
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ELECTRICAL ENGINEERING 441 - Analog Communications
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ELECTRICAL ENGINEERING 442: Digital Communications
3.00 Credits
University of Bridgeport
Detection of noise in thermal noise. Digital sequences. Optimal filtering and statistical decision theory. Optimum receiver design criteria. Performance, configuration and trade -offs. Pre-requisite: Electrical Engineering 441. 3 lecture hours, 3 semester hours
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ELECTRICAL ENGINEERING 442 - Digital Communications
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ELECTRICAL ENGINEERING 443: Digital Signal Processing
3.00 Credits
University of Bridgeport
The FFT Spectral Analysis, Filtering in the presence of noise. Correlation. Introduction to stochastic signal processing. Computer projects. Pre-requisite: Electrical Engineering 234 or equivalent. 3 lecture hours, 3 semester hours
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ELECTRICAL ENGINEERING 443 - Digital Signal Processing
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ELECTRICAL ENGINEERING 444: Power Electronics
3.00 Credits
University of Bridgeport
Application of power diodes and power transistors in rectifier arrangements and voltage regulators. Properties and application in power converters, inverters and motor drives. Pre-requisite: Electrical Engineering 348. 3 lecture hours, 3 semester hours
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ELECTRICAL ENGINEERING 444 - Power Electronics
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ELECTRICAL ENGINEERING 445: DC Motor Drives
3.00 Credits
University of Bridgeport
Application to control speed and efficiency of motors using conventional thyristors control as well as modern variable frequency drives.
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ELECTRICAL ENGINEERING 445 - DC Motor Drives
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ELECTRICAL ENGINEERING 447: Semiconductors
3.00 Credits
University of Bridgeport
Crystal fabrication: MBE, MOCVD, LEC, Bridgemann. Study material and electronic properties of single crystal Si, poly, a-Si, GaAs, GaN, SiC, Ge and II-VI compounds. Transport properties: Hall, Peltier, resistivity, mobility. Analysis of capacitance and I/V data for pn, pin, schottky and hetero-junction devices. Pre-requisite: Mathematics 110. 3 lecture hours, 3 semester hours
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ELECTRICAL ENGINEERING 447 - Semiconductors
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ELECTRICAL ENGINEERING 448: Microelectronic Fabrication
3.00 Credits
University of Bridgeport
This class covers basic microfabrication processes for semiconductor and VLSI fabrication, including photolithography, plasma and reactive ion etching, ion implantation, diffusion, oxidation, evaporation, vapor phase epitaxial growth, sputtering, and CVD. Advanced processing topics such as next generation lithography, MBE, and metal organic CVD are also introduced. The physics and chemistry of each process are introduced along with descriptions of the equipment used for the manufacture of integrated circuits. The integration of microfabrication process into CMOS, bipolar, and MEMS technologies are also discussed. The purpose of this course is to provide students with technical background and knowledge in silicon microelectronic fabrication process. Upon finishing this course, students will be familiar with the basic semiconductor and VLSI microfabrication processes. 3 lecture hours, 3 semester hours
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ELECTRICAL ENGINEERING 448 - Microelectronic Fabrication
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ELECTRICAL ENGINEERING 449: Introduction to Wireless Sensor Networks
3.00 Credits
University of Bridgeport
In recent years, tiny computing devices equipped with low-power radios and sensors- made possible due to advances in micro-electronics and radio technologies- have obliterated the wall between the physical world and the cyber world, spawning a virtually unlimited number of new applications- some of them beyond our wildest imaginations. Successful design of these massively distributed wireless sensor networks requires a synergistic combination of multiple aspects: from the physical layer to decision algorithms and more. This course will introduce the students to the application areas, various challenges commonly faced in this application, state-of-the-art solution techniques and fundamental those have emerged in the recent years. 3 lecture hours; 3 semester hours
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ELECTRICAL ENGINEERING 449 - Introduction to Wireless Sensor Networks
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ELECTRICAL ENGINEERING 451X: Introduction to Nanotechnology
3.00 Credits
University of Bridgeport
Nanotechnology is the science and engineering involved in the design, synthesis, characterization and application of materials and devices with the size in nanometer (10-9m) scale. As a newly emerged exciting high-technology, it has attracted intensive interest and heavy investments around the world. Nanotechnology is a general-purpose technology which will have significant impact on almost all industries and all areas of society. It can offer better built, longer lasting, cleanser, safer and smarter products for home, communications, medicine, transportation, agriculture and many other fields. This course will cover basic concepts in nanoscience and nanotechnology. 3 lecture hours; 3 semester hours
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ELECTRICAL ENGINEERING 451X - Introduction to Nanotechnology
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