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Course Criteria
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4.00 Credits
P: 10700 and MATH 15300. Class 3, Lab 2. A study of rectification, capacitive filters, IC regulated power supplies, transistor biasing techniques, dependent sources, operational amplifiers, and IC fabrication. Circuit fundamentals such as Kirchhoff's laws are utilized in the analysis and design of circuits. Computer-aided analysis of circuits is used.
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3.00 Credits
Class 2, Lab 2. P or C: MATH 15300. Problem solving and computing with emphasis on electrical engineering technology applications. Introduction to an object programming language as applied to solving electrical technology problems.
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4.00 Credits
Class 3, Lab 2. P or C: 15700 and MATH 15400. A study of a-c circuits, including the j operator, phasors, reactance, and impedance. Circuit laws, network theorems, and the fundamental concepts of Fourier analysis are applied and used in the study of topics such as passive filters, IC filters, amplifiers, resonant circuits, single-phase and three-phase circuits, and elementary magnetic circuits.
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4.00 Credits
Class 3, Lab 2. P: 10900 and P or C: ECET 16400 or CIT 26200 or CIT 27000. An introduction to microprocessor hardware and software, focusing on embedded control applications. Assembly language programming, linking, input/output techniques, debugging, memory, timing and peripheral devices are studied. C programming of microcontrollers is introduced.
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4.00 Credits
Class 3, Lab 2. P: 10900 and 15700. An introduction to transformers, induction motors, and single-phase and three-phase power systems, motor control devices, programmable logic controllers, PLC input and output devices, and PLC communications.
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4.00 Credits
Class 3, Lab 2. P: 10700. An introductory course in data communication systems. The hardware and software issues in computer communications are studied. Emphasis is on hands-on experience in computer communications, such as cabling, use of communication devices and media, choice of networking topologies, protocols, and platforms.
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4.00 Credits
Class 3, Lab 2. P: 23100. A continuation of the study of industrial controls including on-off, open-and closed-loop control systems, and analog-based systems. Major topics include relay controls, PLC, controls, HMI and open-PC controls, and networking.
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4.00 Credits
Class 3, Lab 2. P: 20700 and MATH 22200 . The theory and techniques of transmitting information (voice, music, data, etc) with wireless systems. This includes signal analysis, AM, FM, PM modulation techniques, transmitters, receivers, networks, filters and antennas through the VHF frequency spectrum. In addition, transmission lines, wireless communication, digital communication and special topics of current interest are introduced.
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4.00 Credits
P: 20700 and MATH 22100. Class 3, Lab 2. An advanced course in network analysis that stresses network theorems and solutions of time-domain and frequency-domain problems. Software techniques to solve mathematical problems are employed.
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4.00 Credits
Class 3, Lab 2. P: 20900. A study of the advanced applications of embedded microcontrollers, including use of programmable counter/timer arrays, interrupts, multi-tasking, analog interfaces, hardware abstraction, real-time operating systems, and peripheral device drivers.
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