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Course Criteria
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3.00 Credits
Prerequisites: grades of C or greater in ECET 2303, MATH 1311. Basic principles of AC power systems analysis, with emphasis on three-phase systems. Load and fault analysis and economic operation. Major equipment items, including motors, generators, transformers, and switching and control equipment. Two hours lecture, two hours lab and recitation. Three credit hours.
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3.00 Credits
Prerequisite: a grade of C or greater in CPSC 2382 or ECET 2150. Survey of addressing modes and instructions. Some hardware is introduced and electronic signals are related to software statements. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: grades of C or greater in ECET 2300, 2352, and 3406; or consent of instructor. A practice-oriented course emphasizes the use of sensors in instrumentation and control and provides an understanding of the techniques of acquisition and manipulation of experimental and sensory data using computer hardware and software to build a coordinated and optimal automated system. Principles of process control using personal computers to provide an inexpensive solution for isolated or small-scale industrial process control are also discussed. Two hours lecture, three hours lab. Three credit hours.
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4.00 Credits
Requisites: grades of C or greater in ECET 2305 and 2105. A study of the characteristics and applications of electronic elements including diodes, BJTs, and op-amps. Includes load lines, biasing techniques, single and multistage signal amplifiers, power amplifiers, and transistor switching characteristics. Laboratory exercise also includes computer simulation. Three hours lecture, three hours lab. Four credit hours.
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3.00 Credits
Prerequisite: a grade of C or greater in ECET 3405. A detailed study of the operational amplifier, including gain considerations and frequency response. Selected applications of the op-amp to instrumentation, control, and active filters; computer-aided analysis is fully integrated into all topics. Other topics include oscillators and timing circuits. Three hours lecture, three hours lab. Four credit hours.
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3.00 Credits
Prerequisites: grades of C or greater in ECET 3406 and MATH 1312. Laplace transform method applied to network analysis, filters, and feedback systems. Fourier series and Fourier transform techniques with application to communication signals. Introduction to Z transform for digital signal processing. The laboratory projects include computer simulation using Matlab. Three hours lecture, three hours lab. Four credit hours.
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3.00 Credits
Prerequisite: consent of instructor based on relevance of subject matter to student career goals. Designed to meet special needs of students or industry to cover application of technology to specific industrial problems. Meets equivalent of one hour. One credit hour.
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3.00 Credits
Prerequisites: a grade of C or greater in ECET 4407. A detailed study of industrial controls based around microcontrollers. Practical applications are emphasized. Topics include interface devices, such as opto-isolators and solid state relays. Two hours lecture, three hours lab. Three credit hours.
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3.00 Credits
Prerequisite: a grade of C or greater in ECET 3409. Discusses principles and practices in data communications with emphasis on the hardware aspects of data communication. Topics include transmission, encoding, decoding, data interfacing, error detection and correction, link control, networking and protocols. Internetworking over the internet. Three hours of lecture. Three credit hours.
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3.00 Credits
Prerequisite: grade of C or greater in ECET 3409. A hands-on experience to digital signal processing through laboratory exercises in a computer environment. Sampling theorem, discrete-time signals and systems, DFT, FFT, and digital filters. Two hours of lecture and two hours lab. Three credit hours.
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