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Course Criteria
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4.00 Credits
Prerequisites: ECE 90, MATH 81, ECE 71 or CSCI 40. Analysis of discrete and continuous linear circuits, systems, and signals. Fourier transforms, Fourier series. Difference and differential equations, frequency response, system analysis via Laplace- and Ztransforms. Idealized sampling and aliasing. Stability analysis. Engineering applications, modeling, and simulation using Matlab.
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3.00 Credits
Prerequisites: ECE 124. Probability theory and statistical principles, random variables and their characterization, transformations of random variables, random processes, correlations and power spectral densities, noise characterization and noise figure, systems' response to stochastic inputs, matched filters, applications to communication and control systems.
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3.00 Credits
Prerequisite: MATH 81 or concurrently, ECE 90. Electrostatics; boundary value problems; magnetostatics; time-varying fields; Maxwell's equations. Transmission of electromagnetic energy.
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3.00 Credits
Prerequisite: ECE 90. Characteristics and properties of solid state devices; theory and analysis of electronic circuits; power supply design; device and circuit models; single- and multi-stage amplifier analysis and design; analysis of digital circuits; circuit simulation using Spice or other contemporary software tools.
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1.00 Credits
Prerequisite: ECE 90L and 128 or concurrently. Experiments on static and dynamic characteristics of solid state devices in analog and digital electronic circuits; computer solutions as appropriate. (3 lab hours)
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3.00 Credits
Prerequisites: ECE 118. Design of Digital Systems utilizing microprocessors; application of assembly programming language to input/output programming, interrupts and traps, DMA and memory management.
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3.00 Credits
Prerequisite: ECE 124. Mathematical modeling of signals and systems, linear and nonlinear modulation theory, demodulators, link analysis and design, phase-lock loops, sampling theory and signal reconstruction, digitization techniques, basic digital transmission methodologies, computer simulations.
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3.00 Credits
Prerequisite: ECE 125, 134. Principles of digital signal transmission and reception; binary, Mary, and hybrid digital modulation techniques; channel and receiver front-end noise effects; statistical performance receiver analysis; source coding; block and convolutional channel coding; block decoding; VDA, channel fading, and multipath; equalization; cellular systems; Spread Spectrum and CDMA; computer simulations.
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3.00 Credits
Prerequisite: ECE 126. Plane wave propagation and reflection; waveguides; strip-lines and microstrip impedance matching, microwave circuits and S-parameters; amplifier power gain and stability, amplifier design, antenna analysis and design; methods for computer solution.
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1.00 Credits
Prerequisite: ECE 136 or concurrently. Experiments on the transmission of electromagnetic energy through wires, waveguides, and space; filters and antennas; impedance matching; cross-over networks; location of faults on lines. (3 lab hours)
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