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E E 431: Optoelectronics and Photonics I
3.00 Credits
Ohio University-Main Campus
Prereq: E E 321. Introduction to important modern optical devices and lasers and their applications. Emphasizes basic physical theory needed to understand lasers, their construction, and their applications. Detailed discussion of various types of lasers and their characterization. May not be retaken.
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E E 431 - Optoelectronics and Photonics I
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E E 432: Optoelectronics and Photonics II
3.00 Credits
Ohio University-Main Campus
Prereq: E E 431. Continuation of 431. Additional theoretical material discussed beginning with Maxwell's equations. Examines electromagnetic issues that play major role in laser oscillations--amplification and feedback. Characterization of lasers and continuing discussion of laser types and their applications.
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E E 432 - Optoelectronics and Photonics II
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E E 433: Optoelectronic Materials and Devices
3.00 Credits
Ohio University-Main Campus
Prereq: E E 405. Introduction to modern optical materials and devices utilizing semiconductor technology; optical integration of these devices and their application in diverse fields. Fundamentals of devices and materials emphasized.
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E E 433 - Optoelectronic Materials and Devices
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E E 440: Microwave Theory and Devices
3.00 Credits
Ohio University-Main Campus
Prereq: E E 322. Wave propagation, transmission lines, Smith chart, impedance matching, waveguides, and survey of devices (microwave generators, semiconductor devices, etc.)
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E E 440 - Microwave Theory and Devices
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E E 441: Antennas
3.00 Credits
Ohio University-Main Campus
Prereq: E E 395C. Fundamental concepts and definitions, radiation integrals and potential functions, linear wire antennas, loops, arrays, and personal computer applications.
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E E 441 - Antennas
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E E 443: Electromagnetics I
3.00 Credits
Ohio University-Main Campus
Prereq: E E 322. Mathematical review of vector operations in Cartesian and curvilinear coordinates. Solution of wave equation in Cartesian coordinates and application to wave reflection from interfaces between general media. Decomposition of wave solutions into TE, TM, and TEM waves, with application to waveguides and transmission lines; solution of wave equation in cylindrical coordinates, with application to circular waveguide, radiation from line sources, and scattering from cylindrical objects.
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E E 443 - Electromagnetics I
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E E 446: Intro Radar & Navigation
3.00 Credits
Ohio University-Main Campus
Prereq: E E 322.
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E E 446 - Intro Radar & Navigation
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E E 447: Intro To Avionics
3.00 Credits
Ohio University-Main Campus
Prereq: E E 446.
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E E 447 - Intro To Avionics
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E E 454: Power Electronics
3.00 Credits
Ohio University-Main Campus
Prereq: E E 335. Introduces seniors to power electronics. Covers most uses of semiconductor devices for the conversion and control of electric power: AC to DC, AC to AC, DC to DC, DC to AC conversions, and DC and AC motor drives. Semiconductor device characteristics (particularly those characteristics not stressed in 340 and 341) and device protection conclude the offering. May be retaken one time excluding withdrawals, but only last course taken counts.
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E E 454 - Power Electronics
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E E 455: Introduction to Electric Power System Engineering and Analysis I
3.00 Credits
Ohio University-Main Campus
Prereq: E E 395B. Includes power system representation, computer methods, symmetrical components, protection methods, and stability.
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E E 455 - Introduction to Electric Power System Engineering and Analysis I
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