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Course Criteria
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3.00 Credits
3, 2/3 Prerequisite: ENT 331. Essential industrial machines and automation topics such as discrete and analog process control, switches and sensors, control systems, industrial controls, LabView, PLCs, and data acquisition. Laboratory exercises provide practical applications of the industrial electronics that engineering technology graduates are likely to encounter.
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3.00 Credits
3, 2/3 Prerequisite: ENT 331. Study of electromechanical energy conversion, magnetic fields and circuits, magnetic materials, single and polyphase circuits, AC and DC machines and electrical power distribution.
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3.00 Credits
3, 2/3 Prerequisite: ENT 331. Essential industrial machines and automation topics, such as discrete and analog process control, switches and sensors, control systems, industrial controls, LabView, programmable logic controllers, and data acquisition. Laboratory exercises provide practical applications of the industrial electronics that engineering technology graduates are likely to encounter.
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3.00 Credits
3, 2/3 Prerequisite: ENT 331. Introductory analysis of electronic circuits, with emphasis on semiconductor devices.
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3.00 Credits
3, 3/0 Prerequisites: ENT 300 and ENT 331. Signal analysis, circuit parameter, time domain circuit, steady state and transient solution, Laplace transforms and applications, topics in frequency domain, network functions, theorems, sinusoidal steady state analysis from pole-zero plots. Introduction to network synthesis.
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3.00 Credits
3, 2/3 Prerequisites: ENT 341. Analysis and design of electronic circuits (discrete and integrated) with emphasis on linear analog applications and use of computer simulation software.
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3.00 Credits
3, 2/3 Prerequisite: ENT 351. Analysis and design of electronic circuits, discrete and integrated, with emphasis on pulse and digital applications.
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3.00 Credits
3, 2/3 Prerequisite: ENT 331 or TEC 314 or equivalent. A comprehensive treatment of programmable logic controllers (PLCs). Prior knowledge of PLCs is not required. Familiarity with the DOS or MS Windows operating systems is helpful. The standard PLC programming languages are examined: ladder logic, sequential function charts, function block diagrams, instruction lists, structured text, and highlevel languages such as Basic, Pascal and C. Numerous laboratory exercises with four PLC brands give students broad exposure to programming, troubleshooting, networking, and PLC system design and startup.
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3.00 Credits
3, 3/0 Prerequisite: ENT 321. Introduction of product development; production control; requirements and selection of machines/labor; material handling equipment selection; storage and warehousing; computer-aided plant layout; site selection and location; facility location analysis and its impact on manufacturing.
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3.00 Credits
3, 2/3 Prerequisite: ENT 331. DC and AC machines and transformers are studied as an integral part of electric power systems. Single and three-phase induction and synchronous machines, DC motors and fractional horsepower motors, including stepper motors. Solid-state motor control; computer tools for study of motor performance. Laboratory experiments illustrate motor performance and measurement techniques.
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