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Course Criteria
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4.00 Credits
Introduction to state-space analysis methods for continuous dynamic systems and processes; design of control systems including development of performance criteria, pole-placement design, and linear state observers. Classical analysis by means of frequency-domain methods such as root-locus diagrams and Bode plots. An HP-48 calculator or equivalent is required. Prerequisite: ENGR 351.
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3.00 Credits
Introduction to the theory and application of digital logic circuits, logic functions, logic gates, flip-flops, counters, state machines, and modern integrated logic families. Laboratory work required. (Course fees apply.)
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3.00 Credits
Design of embedded microprocessor systems; system organization, CPU structures, address decoding and memory design, interrupts, real-time operating systems, input/output; hardware/software codesign. Laboratory work required. Prerequisites: CPTR 215, ENGR 228, 354. (Course fees apply.)
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4.00 Credits
Study of characteristics and applications of discrete and integrated solid-state electronic devices and circuits; large-signal analysis, biasing; small-signal analysis, low and high frequency models, classical amplifier circuits, feedback amplifiers, operational-amplifier circuits; integrated-circuit electronics and superheterodyne receiver circuits. ENGR 356 is a prerequisite for ENGR 357. Laboratory work required. Corequisite for ENGR 356: ENGR 351. Corequisite for ENGR 357: ENGR 352.
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1.00 Credits
Laboratory instruction in fluid mechanics. Incompressible and elementary compressible fluid flow with special application of steady state and conservation principles of mass, momentum, and energy; fluid flow measurements and real fluid phenomena in pipelines; theoretical and experimental analysis of open channel flow. Prerequisite: ENGR 331.
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1.00 Credits
Study of the design process. Laboratory instruction in machine element design, form, and function. Machine elements studied include gears, shafts, bearings, links, fasteners, and hydraulic components. Prerequisites: ENGR 321, 322. ENGR 374 strongly recommended.
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3.00 Credits
Study of periodic motion; free and forced vibrations of single and multi-degree-of-freedom systems, nonsinusoidal forcing functions, and normal modes. Prerequisites: ENGR 223; ENGR 351, 352; MATH 289, 312.
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2.00 Credits
Fundamental and advanced concepts of Computer Aided Design (CAD) and Mechanical Computer Aided Engineering (MCAE) with emphasis on design applications. Includes parts and assembly creation, drawing layout, geometric dimensioning, toleranceing, design definition, software prototypes, design visualization, animation and interfacing to analysis codes. Prerequisite: Junior standing in engineering or permission of instructor.
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0.00 Credits
Presentation and discussion of senior project reports of those students who are completing the seminar sequence. Prerequisite: Junior standing in engineering. Graded S or NC.
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4.00 Credits
Study of electromechanical energy conversion principles and their application to electrical machines. Topics include three-phase circuits, magnetic circuits, force and torque, transformers, AC and CD motors and generators; performance characteristics and applications. Laboratory work required. Prerequisite: ENGR 228.
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