April 11, 2016
EE-486
Processing physics, chemistry, and technology, including evaporation, sputtering, epitaxial growth, diffusion, ion implantation, laser annealing, oxidation, chemical vapor deposition, photoresists. Design considerations for bipolar and MOS devices, materials and process characterization. Future trends.
EE-488
Design of optical and optoelectronic devices using fundamental principles of photonics. Recent advances in contemporary research. Construction of microscopes or spectrometers. Involves a major design experience.
EE-490
Reading and research in the field under supervision of an E E faculty member. Credit/no-credit only.
EE-491
Weekly seminars on current topics in electrical engineering. Credit/no-credit only.
EE-497
Completion of an industry-motivated and mentored engineering project to develop design skills. Overseen by UW Faculty and guided by practicing engineers sponsored by industry. Emphasizes cross-disciplinary teamwork. Offered: W.
EE-498
Completion of an industry-motivated and mentored engineering project to develop design skills. Overseen by UW Faculty and guided by practicing engineers sponsored by industry. Emphasizes cross-disciplinary teamwork.
EE-442
Methods and techniques for digital signal processing. Review of sampling theorems, A/D and D/A converters. Demodulation by quadrature sampling. Z-transform methods, system functions, linear shift-invariant systems, difference equations. Signal flow graphs for digital networks, canonical forms. Design of digital filters, practical considerations, IIR and FIR filters. Digital Fourier transforms and FFT techniques.
EE-440
Image representation and standards, visual perception and color spaces, spatial domain image filtering and enhancement, image restoration, image transforms, image and video coding, image geometrical transformation and camera modeling.
EE-438
Team-based design for developing an electronic instrumentation system and constructing and validating a prototype using modern printed circuit board technology. Teams develop design requirements; investigate tradeoffs for miniaturization, integration, performance, and cost; and consider use cases, failure modes, manufacturability, and testability. Includes extensive laboratory.
EE-436
Introductory course in the application of instrumentation to medicine. Topics include transducers, signal-conditioning amplifiers, electrodes and electrochemistry, ultrasound systems, electrical safety, and the design of clinical electronics. Laboratory included. For upper-division and first-year graduate students preparing for careers in bioengineering – both research and industrial.
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