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Course Criteria
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3.00 Credits
Capacitance and voltage, Hall mobility and carrier concentration, oxidation and etching silicon dioxide processing of silicon. Prerequisite: EE 450. 1 credit.
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3.00 Credits
Semiconductors, dielectrics, ferroelectrics, antiferromagnetics, ferromagnetics, ferrimagnetics, crystal structure, structureproperty relations, device applications. Prerequisites: EE 320. 3 credits.
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3.00 Credits
Topics include: modulation of light, display devices, lasers, photodetectors, fiber optics, engineering applications, and systems. Prerequisites: EE 330. 3 credits.
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3.00 Credits
Overview of Nanotechnology, Physics of the Solid State, Properties of Individual Nanostructures, Bulk Nanostructured materials, magnetic nanoparticles, Quantum Wells, Wires and Dots, Self-Assembly and Catalysis, nanoscale Biological materials. Prerequisite: EE 320. 3 credits.
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3.00 Credits
Review of Fourier theory, linear system theory, probability and random processes. Modulation and detection. Noise in modulation systems. Introduction to digital data transmission. Prerequisite: EE 361. 3 credits.
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3.00 Credits
Information theory and fundamental limits on performance, digital coding of waveforms, pulse shaping for baseband transmission, digital bandpass modulations, channel coding. Prerequisite: EE 460. 3 credits.
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3.00 Credits
Introduction to discrete time of control. State space representation of linear systems; stability; the concepts of controllability and observability. Sample data control system design techniques, including pole placement, observer design. Prerequisite: EE 370. 3 credits.
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3.00 Credits
Review of discrete linear system theory including the ztransformers, the Fourier transform, discrete and fast Fourier transform. Sampling, reconstruction multirate systems and quantization noise. IIR and FIR digital filter design including digital filter structures and finite word length effects. Prerequisite: EE 361. 3 credits.
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3.00 Credits
Laboratory projects and exercises in digital signal processing including the design and implementation of FIR, IIR, and multirate systems. Corequisite: EE 480. 1 credit.
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3.00 Credits
Introduction to biomedical signals, transduction devices, bioelectric potentials and sensors. Application of electrical signal and system principles to biosignals, such as cardiovascular electrical signals, neural electrical communication, and diagnostic ultrasound. Includes current biomedical engineering topics. Prerequisites: EE 360. 3 credits.
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