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Course Criteria
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1.00 Credits
Prerequisites: MAC2312; PHY2049; PHY 2049L; Corequisite: EEL 3003. Laboratory in support of EEL 3003. Must be taken concurrently with the first enrollment in EEL 3003. Must be dropped if EEL 3003 is dropped.
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3.00 Credits
Prerequisite: MAC2312; Corequisite: PHY 2049; PHY 2049L; MAC 3313. Current, voltage, and power; resistors, inductors, and capacitors; network theorems and laws; pharoses; impedance's; sinusoidal steady-state analysis.
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3.00 Credits
Prerequisite: EEL3111; Corequisite: MAP3305. Sinusoidal steady-state power analysis; three-phase circuits; operational amplifier; transient and forced response; frequency response; two-port networks; circuit analysis with computers.
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1.00 Credits
Prerequisite: EEL3111; Corequisite: MAP3305; EEL3112. Instrumentation and measuring techniques; current, voltage, and power measurements; response of passive circuits; AC and DC design; computer applications.
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3.00 Credits
Prerequisite: EEL3112; MAP 3305. Classification and representation of signals and systems; Laplace transform; Z-transform; convolution; state variable techniques; stability and feedback.
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3.00 Credits
Prerequisite: EEL3112. Introduction to the fundamentals of energy conversion; structure of power systems; and power system components: transformers, rotating machines, and transmission lines. The operation and analysis of power systems are presented.
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3.00 Credits
Prerequisites: EEL 3112; MAP 3306; PHY2049; PHY 2049L. Corequisite: COP2221. Vector analysis - orthogonal coordinate system, vector operators (gradient, divergence, curl, Laplacian); electrostatics electric charge and current, Coulomb's law, Gauss' law, electric potential and field gradient, Poisson's equations, resistance, permittivity, capacitance, electrostatic energy, magnetostatics - magnetic force and torque, Biot-Stavart law, Ampere's law, vector potential, magnetic moment, permeability, hysteresis, inductance, magnetostatic energy; time-varying fields: induction. Faraday's law, displacement current, Maxwell's equations, boundary conditions; transmission lines - propagation equations, characteristic impedance, reflections, input impedance, lossless lines, power flow, losses, the Smith chart, impedance mat
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3.00 Credits
Prerequisite: EEL3472. Maxwell's equations, plane waves - time-harmonic fields and Maxwell's equation propagation in free space and in lossy media current flow in conductors. Power density, polarization; wave reflection and transmission - Snell's law, reflection and transmission guided waves; radiation and antennas - basic antenna properties and parameters (radiation pattern, beam width, directivity, effective aperture), short dipoles, antenna arrays, large-aperture antennas; applications in satellite communication, wireless systems, and remote sens
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3.00 Credits
Prerequisites: EEL3112; MAP3306. Signal analysis, Fourier series/Fourier transform, sampling theorem, distortions in signal transmission, and analog modulation - AM, FM, pulse modulation, pulse-code modulation and pulse shaping.
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3.00 Credits
Prerequisite: COP2221. Fundamental topics in digital logic design, algorithms, computer organization, assembly-language programming, and computer engineering technology.
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