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Course Criteria
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3.00 Credits
Introduces programming skills and MATLAB to solve problems in various electrical engineering focus areas, including circuit analysis, signal analysis and communication.
Prerequisite:
CSE A205 UA C AND MATH A251 UA C
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3.00 Credits
Modeling of mechanical, electrical, fluid and thermal elements and systems. Study of free and forced response by the Laplace transform, transfer function and state space models. Time domain and frequency domain responses. Coupled systems, system analogy, sensing and actuation principles. Crosslisted with: ME A306
Prerequisite:
(EE A203 UA C OR ES A309 UA C ) AND ES A210 UA C AND MATH A302 UA C
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3.00 Credits
An analysis of electric power systems, including topologies, ideal power transformers, balanced three-phase systems, symmetrical components, transmission line parameter calculation and power flow.
Prerequisite:
EE A353 UA C
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3.00 Credits
Principles of measurement, instrumentation, Laplace transform, Fourier series, transfer function, steady-state response, calibration, and errors. Signal filtering and amplification, data acquisition, recording, and processing. Methods and devices for measuring strain, force, torque, displacement, velocity, acceleration, pressure, fluid flow properties, and temperature. Crosslisted with ME A308.
Prerequisite:
MATH A302 UA C (AND EE A306 UA C OR ME A306 UA C OR EE A353 UA C )
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3.00 Credits
Electromagnetic theory and applications. Static electric fields in free space and material media; steady current systems and associated magnetic effects. Includes electrostatics, magnetostatics, Maxwell's equations, electromagnetic wave propagation and transmission lines. Application of Maxwell's equations to engineering systems. Crosslisted with PHYS A314.
Prerequisite:
PHYS A212 UA C AND PHYS A212L UA C AND MATH A302 UA C
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3.00 Credits
Use of Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation. Crosslisted with PHYS A324.
Prerequisite:
EE A314 UA C OR PHYS A314 UA C
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1.00 Credits
Laboratory experiments using Maxwell's equations in analysis of plane wave propagation, wave reflection, radiation and antennas, waveguides, cavity resonators, transmission lines, and radio propagation.
Corequisite:
EE A324
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4.00 Credits
An introduction to the properties of semiconductors and the analysis of electronics and electrical devices including diodes, field effect transistors (FETs) and bipolar junction transistors (BJTs). Covers large signal and small signal analysis techniques and common electrical circuit topologies.
Prerequisite:
EE A353 UA C Concurrent
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0.00 Credits
No course description available.
Corequisite:
EE A333
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3.00 Credits
Analysis of transfer functions, passive and active filters, Laplace transforms and applications. Introduction to Fourier series and transforms and two port networks.
Prerequisite:
EE A203 UA C AND MATH A302 UA C Concurrent
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