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EE 3311: Electronics I

3.00 Credits

University of Wyoming

Physical characteristics and models of semiconductor devices with application to electronic circuit design. Diode circuits, single transistor amplifiers, biasing, and load lines. Prerequisites: (PHYS 1220 or PHYS 1320 or EE 3150), and EE 2220 or concurrent enrollment. (Offered fall semester only)

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EE 3312: Electronics I Laboratory

1.00 - 4.00 Credits

University of Wyoming

Hands on interactive laboratory investigation of the physical characteristics of semiconductor devices and applications in electronic circuit design. Study of diode and transistor characteristics as well as diode circuits and single transistor amplifier circuit design, construction and testing. Prerequisites: EE3311 must be taken either concurrently or as a prerequisite. (Offered fall semester only)

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EE 3331: Electronics II

3.00 Credits

University of Wyoming

Current sources, differential and multistage amplifiers; circuits with ideal and non-ideal operational amplifiers; low and high band frequency response, feedback, stability, gain and phase margin of amplifiers; output stages, class A and push-pull; monolithic operational amplifier; oscillators; transistors as switches and introduction to digital electronic circuits. Concurrent with EE 3332 (Laboratory). Prerequisites: (EE 3310 or EE 3311) and EE 2220. (Offered spring semester only)

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EE 3332: Electronics II Laboratory

1.00 Credits

University of Wyoming

Hands on interactive laboratory investigation of transistor switching circuits, differential amplifiers, current sources, amplifier frequency response, feedback, output stages, and oscillators. Prerequisites: EE 3312 and EE 3331 concurrently (offered spring semester only).

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EE 3510: Electromechanics

4.00 Credits

University of Wyoming

Polyphase circuits; ferromagnetic circuits and devices; single phase and polyphase transformers; basic electromechanical energy conversion; steady state characteristics and application of DC machines, AC synchronous and induction machines; fractional-horsepower AC motors. Includes laboratory. Prerequisite: EE 2220.

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EE 3890: EN Honors Research Methods

3.00 Credits

University of Wyoming

A general approach to scientific research and graduate school preparation. Topics will include: finding a research mentor, literature search skills, using the scientific method for approaching a research problem and developing a research methodology, writing a research funding proposal, delivering a research presentation and selecting and applying for graduate school. Restricted to College of Engineering Honors Program students. Cross listed with ARE/ATSC/CE/CHE/COSC/ES/PETE 3890. Prerequisite: sophomore standing.

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EE 4075: C++ Num Method

4.00 Credits

University of Wyoming

Introduction to the fundamentals of practical engineering programming, using specific applications of numerical methods to demonstrate these principles. The use of an object oriented approach using C++ in an efficient manner is emphasized. Other solution approaches, including C and Matlab will be discussed as appropriate. Credit will not be allowed in both EE 4075 and ES 3070. Prerequisites: MATH 2205 and (COSC 1010 or ES 1060) and (MATH 2250 or MATH 2310).

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EE 4220: Problstc Sig & Sys

3.00 Credits

University of Wyoming

Fundamentals of probability and statistics for engineers; reliability in engineering systems; random processes, statistical estimation, auto/cross correlation and power spectral density functions and linear filtering of random signals. Prerequisite: EE 3220.

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EE 4245: Digital Signal Processing

3.00 Credits

University of Wyoming

Sampling and oversampling A/Ds; FIR and IIR digital filter design, effects of quantization, practical realizations; applications of the discrete and fast Fourier Transform (DFT and FFT); correlation, periodograms, window effects, multi-rate techniques, multi-dimensional signal processing, and other topics in digital signal processing. Prerequisites: EE 3220.

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EE 4250: Network Synthesis

3.00 Credits

University of Wyoming

Characterization and design specification of analog filters. First and second order passive and active filters. Butterworth and Chebyshev filter responses. Audio frequency active filter synthesis using operational amplifiers. Introduction to frequency transformations and sensitivity. Prerequisites: EE 2220 and 3330 or concurrent enrollment.

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Course Search Results

EE 3311: Electronics I

EE 3312: Electronics I Laboratory

EE 3331: Electronics II

EE 3332: Electronics II Laboratory

EE 3510: Electromechanics

EE 3890: EN Honors Research Methods

EE 4075: C++ Num Method

EE 4220: Problstc Sig & Sys

EE 4245: Digital Signal Processing

EE 4250: Network Synthesis

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