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Course Criteria
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3.00 Credits
Analysis methods for discrete-time signals and systems in the time and frequency-domains including signal models and Fourier techniques. Continuous-time concepts are included as introductory material. Prerequisites: Elec Eng 153 with grade of "C" or better; passing the Elec Eng Advancement Exam II. Students should enroll in Elec Eng 215 and corequisite of Elec Eng 216.
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1.00 Credits
Software tools for signal and system representation and for time and frequency-domain systems analysis. Prerequisites: Elec Eng 153 with grade of "C" or better; passing the Elec Eng Advancement Exam II. Preceded or accompanied by Elec Eng 215 and corequisite of 216.
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3.00 Credits
Analysis methods for continuous-time signals and systems in the time and frequency domains including signal models, Fourier transforms, and Lalace transforms. Examples of control and communication systems are included. Prerequisites: Elec Eng 215, Elec Eng 216, and Math 204 each with grade of "C" or better. Students should enroll in Elec Eng 217 and corequisite of Elec Eng 218 .
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1.00 Credits
Laboratory and software tools for the analysis of linear and non-linear systems. Topics include spectral analysis, transforms, and applications. Prerequisites: Elec Eng 215, Elec Eng 216, and Math 204 each with grade of "C" or better. Corequisite of Elec Eng 217.
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3.00 Credits
Semiconductor materials and devices for electronic and photonic applications. Topics include crystal physics, electron and photon behavior, pn junctions, heterojunctions, junction diodes, optoelectronic devices, and ohmic and rectifying contacts. Prerequisite: Elec Eng 121 and Elec Eng 153 each with grade of "C" or better; passing the Elec Eng Advancement Exams II and III.
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3.00 Credits
Formulation of the control problem, system equations and models, frequency, time, and state space analysis and design of linear control systems. Prerequisites: Elec Eng 153 and Math 204 each with a grade of "C" or better; passing the Elec Eng Advancement Exam II.
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3.00 Credits
Introduction to programmable automation, programmable logic controller (PLC) hardware, programming languages and techniques, closed-loop strategies using PLC's, sensors, transducers. Case studies. Laboratory experiments. Prerequisites: Elec Eng 153 and Comp Eng 111 each with a grade of "C" or better.
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3.00 Credits
Signals and their spectra; signal filtering; amplitude, angle and pulse modulation; multiplexing; noise in communications systems. Prerequisite: Elec Eng 217 with a grade of "C" or better.
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3.00 Credits
Diode and transistor circuits, small signal analysis, amplifier design, differential and operational amplifiers, flipflop circuits and waveshaping. Prerequisites: Elec Eng 153, Elec Eng 121, Elec Eng 122, and Comp Eng 111 each with a grade of "C" or better. Passing grade on Elec Eng Advancement Exam II and III. Elec Eng 255 is a corequisite.
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3.00 Credits
Continuation of Elec Eng 253. Diode and transistor circuits, small signal analysis, amplifier design, differential and operational amplifiers, flipflop circuits and waveshaping. Prerequisites: Elec Eng 253 and Elec Eng 255 each with a grade of "C" or better. Elec Eng 256 is optional, but recommended.
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