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Course Criteria
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3.00 Credits
Fundamentals of electrical and electronic components. Basic network laws. Mathematical and computer tools for network analysis. Prerequisite or corequisite: MATH 141
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3.00 Credits
Laboratory procedures, instrumentation and measurements, report writing, computer use in system design, testing, and troubleshooting. Integrative project-based learning environment including passive, active, electronic and electromechanical systems. Prerequisite: C or better in ENGL 102 and C or better in CSCE 211. Prerequisite or Corequisite: ELCT 222. FS: 11/07/2018. CL: 2020.
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3.00 Credits
Fundamentals of electrical engineering for mechanical, chemical, or other engineering disciplines, including electric circuits, measurements, data acquisition, sensors, motors, and controllers. Prerequisite: MATH 142. CL: 2020.
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3.00 Credits
Analysis of linear ac circuits using complex variables. Nodal and mesh analysis, Thevenin and Norton transformations, linearity, superposition, use of math solvers, circuit simulators, and computer-interfaced instrumentation. Prerequisite: C or better in MATH 142; C or better in either ELCT 102 or AESP 265 or D or better in ELCT 220. FS: 10/03/2018.
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3.00 Credits
Analysis of continuous-time signals and systems in time and frequency domains, Fourier series and transforms, Laplace transforms; introduction to discrete-time signals. Prerequisite: C or better in ELCT 221 and in MATH 242. FS: 10/03/2018. CL: 2020.
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3.00 Credits
Design and implementation of analog and digital electronic circuits, with emphasis on developing deep individual understanding of curriculum-spanning concepts. Prerequisite: D or better in ELCT 201. Prerequisite or Corequisite: D or better in ELCT 371. FS: 10/03/2018. CL: 2020.
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3.00 Credits
Team-oriented application of sensing, measurement, and real time embedded digital control for autonomous vehicular systems. Requirements analysis, system modeling, software/hardware integration, report writing, development of teaming skills. Prerequisite: D or better in ELCT 301. Prerequisite or Corequisite: D or better in ELCT 331. FS: 12/02/2020. CL: 2020.
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3.00 Credits
An introduction to analysis, design and applications of discrete time systems; z- and discrete Fourier transforms; frequency and impulse responses, FIR and IIR filters. Prerequisite: C or better in ELCT 222. FS: 11/07/2018. CL: 2020.
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3.00 Credits
Fundamentals of control systems. Analysis and design of control systems using physical system models. State variables, steady-state error, time- and frequency-responses, control system stability. Root locus analysis and controller design - PI, PD, PID, lead-lag compensator. Nyquist stability criterion. Prerequisite: C or better in ELCT 222. FS: 11/07/2018. CL: 2020.
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3.00 Credits
Formulation of physics-based dynamic models of electrical or electromechanical systems. Solving dynamic equations of electrical systems in discrete time. Use of object oriented programming language (e.g., C++) and computer tools (e.g, MATLAB, virtual test bed) for solving dynamic equations of electrical systems. Prerequisite: C or better in ELCT 222, C or better in CSCE 145. FS: 10/03/2018. CL: 2020.
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