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Course Criteria
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1.00 - 3.00 Credits
Planned, career-related work experience in industry. Students must register with USU Co-op Office and have program approved by the ECE co-op advisor. Written report required. Prerequisite/Restriction: Professional standing. Repeatable for credit. Pass/Fail only. Semester(s) Traditionally Offered: Fall, Spring, Summer
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3.00 Credits
Students learn the mathematics of wave motion, electromagnetic theory of light, light propagation, geometrical optics, and superposition of waves. Additional coursework is required for those enrolled in the graduate-level course. Prerequisite/Restriction: PHYS 2710, MATH 2210, MATH 2250; or ECE 3870. Cross-listed as: PHYS 4650 Dual-listed as: ECE 6650
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1.00 Credits
Students work on individual or team engineering project proposal development. Interdisciplinary projects are strongly encouraged. A written project proposal is required. Prerequisite: ECE 3410 ECE 3710 ECE 3810 Admission to the Professional Engineering Program Co-requisite: ECE 4830
Corequisite:
ECE 4830
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1.00 Credits
Students learn professional engineering project proposal writing methods, including budget development and project scheduling (Gantt) charts. Students also learn how to write project progress reports. Prerequisite: ECE 3410 ECE 3710 ECE 3810 Admission to the Professional Engineering Program Co-requisite: ECE 4820 or capstone course.
Corequisite:
ECE 4820
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2.00 Credits
Design, development, and testing of the engineering project proposed in ECE 4820. Interdisciplinary projects strongly encouraged. Design and test plans required. Prerequisite/Restriction: ECE 4820 or capstone course, Professional Program status. Corequisite: ECE 4850
Corequisite:
ECE 4850
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1.00 Credits
Includes professional engineering project reports, oral design reviews, presentation graphics, and project presentation. Prerequisite: ECE 4830, Professional Program status. Co-requisite: ECE 4840
Corequisite:
ECE 4840
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3.00 Credits
Students learn the structure of electric power systems, including power system components, three-phase circuits and power flow analysis, analysis of magnetic circuits, single- and three- phase transformers, transmission line modeling, principles of energy and power conversion, and modeling and analysis of dc and ac synchronous motors and generators. Prerequisite: ECE 2250 or graduate standing
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3.00 Credits
Students study power electronics including steady-state modeling, conduction and switching losses, semiconductor power switches, converter transfer functions, topologies and dynamics, negative feedback, closed-loop transfer functions, controller stability and phase margin, regulator design, and basic magnetics theory and inductor design procedures. Cross list: ECE 6120 Prerequisites: ECE 3410 and ECE 3620 or graduate standing
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3.00 Credits
This course introduces the design and control of power converters in electric drive vehicles. It covers detailed analysis, modeling, and design of major system components. Additional coursework is required for those enrolled in the graduate-level course. Prerequisite: ECE 3410, ECE 3620, ECE 3870 or graduate standing. Semester(s) Traditionally Offered: Fall
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4.00 Credits
Students receive practical, hands-on experience working with a 500W electric bike powertrain. Labs cover modeling, characterization, design, and fabrication, and culminate in e-bike system integration and demonstration. Additional coursework is required for those enrolled in the graduate-level course. Prerequisite: ECE 3710 or graduate standing,ECE 5150/6150, or instructor permission Semester(s) Traditionally Offered: Spring
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