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Course Criteria
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0.00 Credits
(Credit as arranged). Prerequisites: Junior or Senior standing, Honors standing or permission of university Honors Program, and approval of student's honors adviser. Student will be involved in an engineering research or development project under the personal supervision of a faculty member. The specific responsibilities of the student will be arranged by mutual consent of the student, the student's honors adviser, and the department's undergraduate adviser. May be repeated for credit.
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0.00 Credits
(Credit as arranged). Prerequisite: Approval of instructor and academic adviser. Independent study on a special topic under the guidance of a faculty member. May be repeated up to 8 credits.
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0.00 Credits
(Credit as arranged). Prerequisites: Senior standing, Honors standing or permission of university Honors Program, and approval of student's honors adviser. Student will be involved in an engineering research or development project under the personal supervision of a faculty member. The specific responsibilities of the student will be arranged by mutual consent of the student, the student's honors adviser, and the department's undergraduate adviser. The culmination of this course is a written thesis that is approved by a committee of departmental faculty members. The student will also present a public, oral defense of the thesis to the thesis committee. May be repeated for credit.
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3.00 Credits
No course description available.
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1.00 Credits
Prerequisites: associate-degree-level microprocessor course and digital logic course. Architecture and hardware design of microprocessor-based system, including bus structure, interrupts handling, I/O ports, control signal, and peripherals. Combinational and sequential logic circuitry implemented with Field Programmable Gate Array design methodology.
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3.00 Credits
No course description available.
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1.00 Credits
Prerequisites: EET 315, EET 316. A comprehensive understanding of the instruction set and the related programming algorithmic thought process required to design with and incorporate microprocessor-based systems in dedicated applications. Topics include serial and parallel data communication, exception processing, file transfer protocol, I/O interfacing and peripherals, and assembly language programming.
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3.00 Credits
Prerequisites: associate-degree-level DC and AC circuit courses, MTT 300. Corequisite: MTT 301. Transform methods in circuit analysis, including the detailed analysis of circuits, waveforms, time-domain techniques, Laplace transform solutions, transfer functions, frequency response and Bode diagrams.
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3.00 Credits
No course description available.
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1.00 Credits
Prerequisites: associate-degree-level DC and AC machines courses, MTT 301, EET 330. Fundamentals of mechanics, DC machines, and AC machines reviewed. Design considerations of power electronic rectification, controlled rectification, DC chopper power modulators, and DC-to-AC inverters. Fourier series analysis of inverter waveforms and power filter design are examined.
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