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Course Criteria
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2.00 Credits
Cross-disciplinary teams work to research and develop a project with industrial partners. Implementation phase includes research, testing, fabrication, and product/process documentation. Second semester culminates in project completion and seminar presentation. Prerequisite(s): 330:112. (Offered Spring)
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2.00 Credits
Survey of the major topic areas of industrial technology and the professional issues in the field with the development of a Personal Career Development Plan (PCDP) in respect to those concepts, issues, and concerns. Prerequisite(s): consent of department or instructor. (Variable)
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3.00 Credits
Study of analysis, design, and issues integrating logistics and supply operations in technological organizations. Includes sourcing and supply systems, process/product development activities, supply chain practices and quality considerations. Prerequisite(s): admission to Industrial Technology Graduate Program or consent of instructor. (Variable)
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3.00 Credits
In-depth emphasis of engineering materials focusing on the properties influencing processing and applications of metals, ceramics, composites, and polymers. Also includes discussion on high temperature materials and innovative new materials. Prerequisite(s): admission to Industrial Technology Graduate Program and consent of instructor. (Variable)
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3.00 Credits
Material transformation topics such as solidification science, micro- and macro- segregation principles, fluid flow of Newtonian and non-Newtonian liquids, and advanced solid state transformations are covered and directly correlated to material modeling techniques. Prerequisite(s): admission to Industrial Technology Graduate Program and consent of instructor. (Variable)
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3.00 Credits
Complex digital systems design at the logic gate level. Basic structure, sub programs, packages and libraries of VHDL; combinational/sequential logic design with VHDL; VHDL simulation and synthesis, FPGA implementation. Projects and labs using Xilinx Spartan-3 FPGA development kit. Prerequisite(s): 330:156 or graduate program admission or consent of instructor. (Variable)
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3.00 Credits
Design and implementation of microcontroller-based embedded computing systems to solve real-world problems. Methodologies, hardware platforms, software design and analysis, embedded OS, real-time scheduling, mixed signal processing, hardware accelerators, low power optimization. Prerequisite(s): 330:157 or Industrial Technology Graduate Program admission or consent of instructor. (Variable)
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3.00 Credits
Advanced topics of power electronics, AC circuit modeling/simulation of power converters, transfer functions, feedback controller design, V and I mode control of DC-DC converters, inductor and transformer design, resonant converters, soft switching, inverters, HVDC transmission. Prerequisite(s): 330:167 or Industrial Technology Graduate Program admission or consent of instructor. (Variable)
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3.00 Credits
Exploration of productivity as an operational concept; analysis of productivity in industrial settings to seek improvement through technical and managerial expertise. Prerequisite(s): admission to graduate standing in industrial technology or consent of instructor. (Variable)
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