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Course Criteria
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4.00 Credits
A study of the fundamentals of developing and implementing ladder logic diagrams for machine controls using industrial programmable logic controllers. The applications of hydraulic and pneumatic systems are also studied. Preparation for Course P: ECET157 or 204 or 211. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
A study of instrumentation and automatic measurement. Individual instruments include DMM, counters, oscilloscopes, spectrum analyzers, and signal generators. The signals and operation of the general purpose interface bus are examined and applied to a measurements system. Preparation for Course P: ECET 152 or 207 and 205. Cr. 4. Hours Class 3, Lab. 2.
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4.00 Credits
This course is a study of the applications of IC analog integrated circuits. Topics include linear amplifiers, IC specifications, linear regulators, waveform generation, linear and switched capacitor active filers, operational transconductance amplifiers, and nonlinear circuit applications.?Computer aided analysis of may of these circuits is also presented. Preparation for Course P: ECET 152 or 207. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
A study of the elements of signal conditioning and data acquisition systems for monitoring and control. Closed loop analog and digital controllers, characteristics of processes, tuning and performance specifications. Control strategies including distributed control, feed forward, cascade, and ratio control. Power interfacing including power op amps, SCRs, MOSFETs. Preparation for Course P: ECET 307. Cr. 4. Hours Class 3, Lab. 2.
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3.00 - 4.00 Credits
A study of computer-controlled systems using microcontrollers, computer numerical control (CNC), and programmable logic controller (PLC). Topics include microcontroller-based control systems, pneumatic and hydraulic controlled systems, data acquisition, D/A and A/D conversions, ladder diagrams, sampling and reconstruction, Z transform, stability analysis techniques, continuous and discrete time-controlled systems, openloop and closed-loop controlled systems, CNC machines, and mechanical hardware. Preparation for Course P: ECET 114, ECET 111. Cr. 3-4. Hours Class 3, Lab. 0-3.
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4.00 Credits
An introductory course in fiber optics for junior- or senior-level students. Topics include optical characteristics, optical fibers, cables, modulation techniques, optical receivers and transmitters, and measurements on optical systems. A lab is also included in the course resulting in a complete optical transmitter/receiver system modulated with various methods. Preparation for Course P: ECET 303, 403; MA 228. Cr. 4.
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4.00 Credits
This course provides a comprehensive introduction to C++ for students to apply object-oriented programming in industrial applications. A background in C or another high-level language is a must, because all applications in this course involve C and C++. The course introduces the methodology of object identification and behavior, the syntax of C++, and industrial applications. Preparation for Course P: ECET 264. Cr. 4. Hours Class 3, Lab. 2.
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1.00 - 5.00 Credits
Practice in industry, with written reports of this practice by the co-op student. Preparation for Course P: ECET 292. Cr. 1-5.
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1.00 - 5.00 Credits
Practice in industry, with written reports of this practice by the co-op student. Preparation for Course P: ECET 393. Cr. 1-5.
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1.00 - 5.00 Credits
Practice in industry, with written reports of this practice by the co-op student. Preparation for Course P: ECET 394. Cr. 1-5.
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