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Course Criteria
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Introduction to feedback concepts (positive and negative). Transient and steady-state analysis using Laplace transforms. Bode plots and stability criteria. Lab work includes the use of mathematical analysis and simulation. Prerequisites: MAT 2680/MA 680, CET 4762/EM 762; corequisites: CET 3625/EM 625, CET 4805/EM 805
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3.00 Credits
2 cl hrs bi-wkly, 120 field hrs, 3 cr Assignment to field work/study situations of approximately eight hours per week at one of the following: small, medium, or large companies or governmental institutions. Students may work in design, manufacturing, installation, programming, troubleshooting, or other appropriate activities related to computer-controlled electromechanical devices or systems, computer hardware, or computer-based instrumentation and control systems. Students keep a log or journal to be shared in the group seminar. Supervision provided by faculty and by the job supervisor. Prerequisites: CET 3510/EM 510, CET 4705/EM 705, CET 4711/EM 711, CST 2403/CS 403
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3.00 Credits
3 hrs, 3 cr Review of principles of statics. Stress and strain, normal stresses, shear, torsion. Stresses on beams and columns. Characteristics of engineering materials: yield and ultimate strength, ductility. Application to selected components of electromechanical systems. Prerequisites: PHYS 1433/SC 433, MAT 1475/MA 475 with a grade of C or better
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr The practical application of the principles of statics and dynamics. Topics include force systems, resultant forces, beams and trusses. Also work, power energy and motion (rectilinear and curvilinear). Prerequisites: PHYS 1433/SC 433, MAT 1575/MA 575 with grade of "C" or better
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3.00 Credits
3 cl hrs, 3 cr The concepts of the interrelationship between time and money. Factors that go into cost analysis: material, labor, overhead, depreciation, present and future worth. Prerequisite: MAT 1575/MA 575 with grade of "C" or better
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3.00 Credits
3 cl hrs, 3 cr Applicable concepts in heat transfer, fluid mechanics and thermodynamics. Heating and cooling load characteristics. Energy conservation parameters for contemporary design. Prerequisites: MAT 2680/MA 680 and CET 3625/EM 625 with grades of "C" or better
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Geometric configurations and classifications of robots, work envelope, drive components (electric, hydraulic, pneumatic), computer controls and interfacing, sensors and data acquisition/ handling and conversion. Lab projects using a robot/computer system. Prerequisites: CET 3510/EM 510; preor corequisite: MAT 2580/MA 580
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr An introduction to the use of the digital computer for measurements of real-world signals and control of realworld devices. Students program data acquisition and control hardware in a high-level language such as C. Prerequisites: CST 2403/CS 403, MAT 1575/MA 575 with grade of "C" or better
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4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Development of hardware-oriented programming skills. Students write programs to access external devices via the serial port or other interfaces. Prerequisites: CST 2403/CS 403, MAT 1575/MA 575 with grade of "C" or better
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3.00 Credits
3 cl hrs, 3 cr Introduction to digital communication via RF and microware as well as optical communication over fiber optic links. Noise theory, s/n ratio, AM and FM. Prerequisites: MAT 2680/MA 680 and CET 3625/EM 625 with grades of "C"or better
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