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Course Criteria
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1.00 - 4.00 Credits
Same as ECEN 5053.
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3.00 Credits
Deals with the generation, transmission, modification and detection of light. Applications include fiber optics communications, data storage, sensing, and imaging. Leads to understanding of fundamental physical principles used in the analysis and design of modern photonic systems. Prereqs., ECEN 3300 and PHYS 2130. Restricted to seniors.
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3.00 Credits
Understand how very large digital circuits are implemented at the IC level. Techniques for implementing large digital systems in NMOS and CMOS technology are presented, including a discussion of tradeoffs made to achieve high performance designs. Entails layout and design projects using a set of layout and simulation tools. Prereqs., ECEN 3100, 3250.
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3.00 Credits
Given data rates, distance, reliability or bit error rates, the information required to specify the type of fiber, the source, the wave length, type of modulation, repeater or optical amplifiers, and detectors will be presented. Prereq., ECEN 3400 or equivalent. Same as TLEN 5480.
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3.00 Credits
Introduces basic (artificial) neural network architectures and learning rules. Emphasizes mathematical analysis of these networks, methods of training them, and application to practical problems such as pattern recognition, signal processing, and control systems. Shows how to construct a network of "neurons" and train them to serve a useful function. Prereqs., APPM 2360 or MATH 3130, and CSCI 1300 or equivalent. Same as ECEN 5120.
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3.00 Credits
Provides modeling of dynamic systems for electrical, chemical, hydraulic, and mechanical systems using block diagrams and signal flow graphs. Compares open and closed-loop configurations. Prereq., senior standing with background of Laplace transforms, linear algebra, and ordinary differential equations; ECEN 3300.
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3.00 Credits
Studies the derivation of the dynamic equations of motion of electromechanical systems, linear and rotary motion machines based on variational principles and basic force laws. Looks at equivalent circuits in abc and dqo coordinates for AC and DC machines. Discusses conditions under which an electromagnetic torque can be produced. Applies theory to the most important modes of steady-state and transient operation of electrical energy converters. Prereq., ECEN 3170.
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3.00 Credits
Covers modern digital and analog communication systems, Fourier analysis of signals and systems, signal transmission, amplitude modulation, angle modulation, digital communication systems, and behavior of communication systems in the presence of noise, including both analog and digital systems. Prereqs., ECEN 3300 and ECEN 3810 or equivalent.
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3.00 Credits
Covers basic crystallography, lattice vibrations, free electron theory, energy band theory, and semiconducting, dielectric, and optical and superconducting materials and devices, emphasizing properties relevant to solid state electronics and optoelectronics. Prereq., ECEN 3400.
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3.00 Credits
Focuses on analysis, modeling, design, and testing of electrical energy processing systems in a practical laboratory setting. Studies power electronics converters for efficient utilization of available energy sources, including solar panels and utility. A final design project involves design, fabrication, and testing of a solar power system. Prereq., ECEN 3170. Restricted to seniors.
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