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Course Criteria
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2.00 Credits
1 cl hr, 2 rec hrs, 2 cr A capstone course dealing with design and programming concepts of particular importance for computercontrolled systems. In the lab, students may choose to utilize their concept designs from EM 711, or to design a new device from scratch. Students apply their knowledge of component design, systems design, control theory and computer programming to carry out detailed design of their device or system, build a working model and program a computer to perform the desired measurement and/or control functions. Prerequisite: CET 3640/EM 640, CET 4711/EM 711; pre- or corequisites: CET 4773/EM 773, CET 4805/EM 805, CET 4864/EM 864
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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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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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