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Course Criteria
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3.00 Credits
Introduction to bipolar and MOS analog integrated circuit (IC) analysis and design. DC biasing for ICs, current sources, sinks and active loads, bandgap references, input and output stages, OpAmp architectures, nonlinear analog ICs. Computer simulation of Analog ICs. Au Qtr. 3 cl.
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4.00 Credits
Design principles of microwave transistor amplifiers and oscillators; low-noise, power, and broadband amplifiers; and computer-aided design, microstrip realizations, and testing in the laboratory. Wi Qtr. 3 cl, 1 3-hr lab.
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3.00 Credits
General model, operational principles, and application of high-frequency switching power converters. Wi Qtr. 3 cl.
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3.00 Credits
Crystal structure, semiconductor energy band structure, electron transport and carrier recombination, heterostructures, optical and dielectric properties, optical semiconductor devices. Au Qtr. 3 cl.
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3.00 Credits
Waveguiding in optical fibers, fiber losses, coupling and power launching, detectors, sources, noise, receiver and transmitter design, link analysis, introduction to fiber sensors. Sp Qtr. 3 cl.
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3.00 Credits
Atomic interaction with radiation, cavities with gain, pumping techniques, semiconductor lasers. * Au Qtr. 3 cl.
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3.00 Credits
Discrete and integrated circuit device design and silicon technologies, VLSI processing procedures, and device measurements for process development. * Sp Qtr. 3 cl.
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3.00 Credits
III-V compound semiconductor device fabrication technology; epitaxy, doping, bandgap engineering; GaAs and InP high speed devices and IC design approaches; testing and failure mechanisms. * Wi Qtr. 3 cl.
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3.00 Credits
Physical principles governing electronic, chemical, and structural properties of semiconductor interfaces and the techniques available to characterize them. * Wi Qtr. 3 cl.
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4.00 Credits
Experiments in photonics from among: fiber optics, liquid crystals, quantum devices, optical sensing, acousto-optics, lasers, solar cells, holography, and optical computing. Supplemental lecture. * Wi Qtr. 2 cl, 1 4-hr lab.
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