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Course Criteria
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3.00 Credits
Janet Pan, Peter Schultheiss. Lect. mf 1.30-2.20; labw or th 1.30-5.30 QR Meets RP (36) Introduction to design in a laboratory setting. A wide variety of practical systems are designed and implemented to exemplify the basic principles of systems theory. Systems include audio filters and equalizers, electrical and electromechanical feedback systems, radio transmitters and receivers, and circuits for sampling and reconstructing music. Prerequisites: eeng 200a and 202a.
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3.00 Credits
Kumpati Narendra, Tso-PingMa.
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3.00 Credits
Jan Willems. tth 2.30-3.45 QR (27) Concepts for the analysis of continuous and discrete-time signals including time series. Techniques for modeling continuous and discrete-time linear dynamical systems including linear recursions, difference equations, and shift sequences. Topics include continuous and discrete Fourier analysis, Laplace and Z transforms, convolution, sampling, data smoothing, and filtering. Prerequisite: math 115a or b. Recommendedpreparation: eeng 202a.
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3.00 Credits
Mark Reed. tth1-2.15; lab3htba QR, Sc (26) An introduction to the physics of semiconductors and semiconductor devices. Topics include crystal structure; energy bands in solids; charge carriers with their statistics and dynamics; junctions, p-n diodes, and leds; bipolar and field-effect transistors; and device fabrication. Prepares for eeng 325b and 401b. Prerequisites: phys 180a and 181b or permission of instructor Recommended preparation: eeng 200a.
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3.00 Credits
Hür K?ser. mw11.35-12.50; lab 3 htba QR Meets RP (34) Models for active devices; single-ended and differential amplifiers; current sources and active loads; operational amplifiers; feedback; design of analog circuits for particular functions and specifications, in actual applications wherever possible, using design-oriented methods. Includes a team-oriented design project for real-world applications, such as a high-power stereo amplifier design. Electronics Workbench is used as a tool in computer-aided design. Prerequisite: eeng 200a. eeng 348a, Digital Systems. Eugenio Culurciello. tth 2.30-3.45; lab htba QR (27) Development of engineering skills through the design and analysis of digital logic components and circuits. Introduction to gate-level circuit design, beginning with single gates and building up to complex systems. Hands-on experience with circuit design using computer-aided design tools and microcontroller programming. Recommended preparation: eeng 201b.
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3.00 Credits
James Duncan, FahmeedHyder. For description see under Biomedical Engineering. eeng 397b/enas 397b, Mathematical Methods in Engineering. J.RimasVaisnys. tth11.35-12.50 QR (24) Exploration of several areas of mathematics useful in engineering. Topics are drawn from complex analysis and differential equations: complex variables, Fourier series, Fourier transforms, Laplace transforms, Z transforms, boundary value problems, and linear partial differential equations. Application to physical problems. Prerequisites: math 222a or b, and enas 194a or b or math 246a or b, or equivalents.
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3.00 Credits
Tso-PingMa. mw9-10.15; lab1htba QR,Sc (32) Introduction to integrated circuit technology, theory of semiconductor devices, and principles of device design and fabrication. Laboratory involves the fabrication and analysis of semiconductor devices, including Ohmic contacts, Schottky diodes, p-n junctions, solar cells, mos capacitors, mosfets, and integrated circuits. Prerequisite: eeng 320a or equivalent or permission of instructor.
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3.00 Credits
Hong Tang. th 1.30-5.30 (0) Cross-disciplinary laboratory experiments covering microfabrication, silicon micromachining, mems device fabrication and characterization, scanned probe microscopy, electron microscopy, microfluidics, and lab-on-a-chip systems. Students fabricate mems, bio-mems, and microfluidic devices in a cleanroom environment. Prerequisite: eeng 320a or equivalent.
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3.00 Credits
Minjoo Lee. mw1-2.15 QR,Sc (0) Survey of photovoltaic energy devices, systems, and applications, including review of optical and electrical properties of semiconductors. Topics include solar radiation, solar cell design, performance analysis, solar cell materials, device processing, photovoltaic systems, and economic analysis. Prerequisite: eeng 320a or permission of instructor.
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3.00 Credits
Minjoo Lee. mw11.35-12.50 QRSc (34) Survey and review of fundamental issues associated with modern microelectronic and optoelectronic materials. Topics include band theory, electronic transport, surface kinetics, diffusion, materials defects, elasticity in thin films, epitaxy, and Si integrated circuits. Prerequisite: eeng 320a or permission of instructor.
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