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EE 141: Engineering Electromagnetics

Lumped versus distributed circuits. Transient response of transmission lines with resistive and reactive loads. Reflection, transmission, attenuation and dispersion. Steady-state waves on transmission lines. Standing wave ratio, impedance matching, and power flow. Coulomb's law, electrostatic field, potential and gradient, electric flux and Gauss's Law and divergence. Metallic conductors, Poisson's and Laplace's equations, capacitance, dielectric materials. Electrostatic energy and forces. Steady electric currents, Ohm's Law, Kirchoff's Laws, charge conservation and the continuity equation, Joule's Law. Biot-Savart's law and the static magnetic field. Ampere's Law and curl. Vector magnetic potential and magnetic dipole. Magnetic materials, forces and torques. Faraday's Law, magnetic energy, displacement current and Maxwell's equations. Uniform plane waves. Prerequisites: 102A, MATH 52.
Terms: Win | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-FR, WAY-SMA
Instructors: Vuckovic, J. (PI)

EE 152: Green Electronics

Many green technologies including hybrid cars, photovoltaic energy systems, efficient power supplies, and energy-conserving control systems have at their heart intelligent, high-power electronics. This course examines this technology and uses green-tech examples to teach the engineering principles of modeling, optimization, analysis, simulation, and design. Topics include power converter topologies, periodic steady-state analysis, control, motors and drives, photovol-taic systems, and design of magnetic components. The course involves a hands-on laboratory and a substantial final project. Required: EE101B, EE102A, EE108A. Recommended: ENGR40 or EE122A.
Terms: Aut | Units: 4
Instructors: Dally, B. (PI)

EE 153: Power Electronics (EE 253)

Addressing the energy challenges of today and the environmental challenges of the future will require efficient energy conversion techniques. This course will discuss the circuits used to efficiently convert ac power to dc power, dc power from one voltage level to another, and dc power to ac power. The components used in these circuits (e.g., diodes, transistors, capacitors, inductors) will also be covered in detail to highlight their behavior in a practical implementation. A lab will be held with the class where students will obtain hands on experience with power electronic circuits.

EE 168: Introduction to Digital Image Processing

Computer processing of digital 2-D and 3-D data, combining theoretical material with implementation of computer algorithms. Topics: properties of digital images, design of display systems and algorithms, time and frequency representations, filters, image formation and enhancement, imaging systems, perspective, morphing, and animation applications. Instructional computer lab exercises implement practical algorithms. Final project consists of computer animations incorporating techniques learned in class. Prerequisite: Matlab programming.
Terms: Win | Units: 3-4
Instructors: Zebker, H. (PI)

EE 178: Probabilistic Systems Analysis (EE 278A)

Introduction to probability and statistics and their role in modeling and analyzing real world phenomena. Events, sample space, and probability. Discrete random variables, probability mass functions, independence and conditional probability, expectation and conditional expectation. Continuous random variables, probability density functions, independence and expectation, derived densities. Transforms, moments, sums of independent random variables. Simple random processes. Limit theorems. Introduction to statistics: significance, estimation and detection. Prerequisites: basic calculus and linear algebra.
Terms: Aut, Spr | Units: 3-4 | UG Reqs: GER:DB-EngrAppSci
Instructors: Montanari, A. (PI) ; Tse, D. (PI)

EE 179: Analog and Digital Communication Systems

This course covers the fundamental principles underlying the analysis, design and optimization of analog and digital communication systems. Design examples will be taken from the most prevalent communication systems today: cell phones, Wifi, radio and TV broadcasting, satellites, and computer networks. Analysis techniques based on Fourier transforms and energy/power spectral density will be developed. Mathematical models for random variables and random (noise) signals will be presented, which are used to characterize filtering and modulation of random noise. These techniques will then be used to design analog (AM and FM) and digital (PSK and FSK) communication systems and determine their performance over channels with noise and interference. Prerequisite: 102A.
Terms: Spr | Units: 3
Instructors: Gill, J. (PI)

EE 190: Special Studies or Projects in Electrical Engineering

Independent work under the direction of a faculty member. Individual or team activities involve lab experimentation, design of devices or systems, or directed reading. Course may be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-15 | Repeatable for credit
Instructors: Aghajan, H. (PI) ; Allison, D. (PI) ; Apostolopoulos, J. (PI) ; Arbabian, A. (PI) ; Bahai, A. (PI) ; Bambos, N. (PI) ; Boahen, K. (PI) ; Boneh, D. (PI) ; Bosi, M. (PI) ; Bowden, A. (PI) ; Boyd, S. (PI) ; Bravman, J. (PI) ; Bube, R. (PI) ; Cheriton, D. (PI) ; Cioffi, J. (PI) ; Cover, T. (PI) ; Cox, D. (PI) ; DaRosa, A. (PI) ; Dally, B. (PI) ; Dasher, R. (PI) ; De-Micheli, G. (PI) ; Dill, D. (PI) ; Dutton, R. (PI) ; El Gamal, A. (PI) ; Emami-Naeini, A. (PI) ; Enge, P. (PI) ; Engler, D. (PI) ; Fan, S. (PI) ; Franklin, G. (PI) ; Fraser-Smith, A. (PI) ; Garcia-Molina, H. (PI) ; Gibbons, F. (PI) ; Gibbons, J. (PI) ; Gill, J. (PI) ; Giovangrandi, L. (PI) ; Girod, B. (PI) ; Glover, G. (PI) ; Goldsmith, A. (PI) ; Goodman, J. (PI) ; Gorinevsky, D. (PI) ; Gray, R. (PI) ; Guibas, L. (PI) ; Hanrahan, P. (PI) ; Harris, J. (PI) ; Harris, S. (PI) ; Hashemi, H. (PI) ; Hellman, M. (PI) ; Hennessy, J. (PI) ; Hesselink, L. (PI) ; Horowitz, M. (PI) ; Howe, R. (PI) ; Inan, U. (PI) ; Kahn, J. (PI) ; Kazovsky, L. (PI) ; Khuri-Yakub, B. (PI) ; Kino, G. (PI) ; Kovacs, G. (PI) ; Koza, J. (PI) ; Kozyrakis, C. (PI) ; Lall, S. (PI) ; Lam, M. (PI) ; Lee, T. (PI) ; Leeson, D. (PI) ; Levin, C. (PI) ; Levis, P. (PI) ; Levoy, M. (PI) ; Linscott, I. (PI) ; Long, E. (PI) ; Manoharan, H. (PI) ; McCluskey, E. (PI) ; McKeown, N. (PI) ; Melen, R. (PI) ; Meng, T. (PI) ; Miller, D. (PI) ; Mitchell, J. (PI) ; Mitra, S. (PI) ; Montanari, A. (PI) ; Murmann, B. (PI) ; Napel, S. (PI) ; Narasimha, M. (PI) ; Ng, A. (PI) ; Nishi, Y. (PI) ; Nishimura, D. (PI) ; Olukotun, O. (PI) ; Osgood, B. (PI) ; Paulraj, A. (PI) ; Pauly, J. (PI) ; Pease, R. (PI) ; Pelc, N. (PI) ; Pianetta, P. (PI) ; Plummer, J. (PI) ; Poon, A. (PI) ; Pop, E. (PI) ; Prabhakar, B. (PI) ; Pratt, V. (PI) ; Reis, R. (PI) ; Rosenblum, M. (PI) ; Saraswat, K. (PI) ; Saxena, N. (PI) ; Shahidi, R. (PI) ; Shen, Z. (PI) ; Shenoy, K. (PI) ; Siegel, M. (PI) ; Smith, J. (PI) ; Solgaard, O. (PI) ; Solomon, G. (PI) ; Spielman, D. (PI) ; Stinson, J. (PI) ; Thompson, N. (PI) ; Thrun, S. (PI) ; Tobagi, F. (PI) ; Tomlin, C. (PI) ; Tyler, G. (PI) ; Ullman, J. (PI) ; Van Roy, B. (PI) ; Vishnu, M. (PI) ; Vuckovic, J. (PI) ; Walt, M. (PI) ; Wandell, B. (PI) ; Wang, S. (PI) ; Weissman, T. (PI) ; Wenstrand, J. (PI) ; Widom, J. (PI) ; Widrow, B. (PI) ; Wong, H. (PI) ; Wong, S. (PI) ; Wooley, B. (PI) ; Yamamoto, Y. (PI) ; Zebker, H. (PI)

EE 191: Special Studies and Reports in Electrical Engineering

Independent work under the direction of a faculty member given for a letter grade only. If a letter grade given on the basis of required written report or examination is not appropriate, enroll in 190. Course may be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-15 | Repeatable for credit
Instructors: Aghajan, H. (PI) ; Allison, D. (PI) ; Apostolopoulos, J. (PI) ; Arbabian, A. (PI) ; Bahai, A. (PI) ; Bambos, N. (PI) ; Boneh, D. (PI) ; Bosi, M. (PI) ; Bowden, A. (PI) ; Boyd, S. (PI) ; Bravman, J. (PI) ; Bube, R. (PI) ; Carpenter, D. (PI) ; Cheriton, D. (PI) ; Cioffi, J. (PI) ; Cover, T. (PI) ; Cox, D. (PI) ; DaRosa, A. (PI) ; Dally, B. (PI) ; Dasher, R. (PI) ; De-Micheli, G. (PI) ; Dill, D. (PI) ; Dutton, R. (PI) ; El Gamal, A. (PI) ; Emami-Naeini, A. (PI) ; Enge, P. (PI) ; Engler, D. (PI) ; Fan, S. (PI) ; Franklin, G. (PI) ; Fraser-Smith, A. (PI) ; Garcia-Molina, H. (PI) ; Gibbons, F. (PI) ; Gibbons, J. (PI) ; Gill, J. (PI) ; Giovangrandi, L. (PI) ; Girod, B. (PI) ; Glover, G. (PI) ; Goldsmith, A. (PI) ; Goodman, J. (PI) ; Gorinevsky, D. (PI) ; Gray, R. (PI) ; Guibas, L. (PI) ; Hanrahan, P. (PI) ; Harris, J. (PI) ; Harris, S. (PI) ; Hashemi, H. (PI) ; Hellman, M. (PI) ; Hennessy, J. (PI) ; Hesselink, L. (PI) ; Horowitz, M. (PI) ; Howe, R. (PI) ; Huang, K. (PI) ; Inan, U. (PI) ; Kahn, J. (PI) ; Katti, S. (PI) ; Kazovsky, L. (PI) ; Khuri-Yakub, B. (PI) ; Kino, G. (PI) ; Kovacs, G. (PI) ; Koza, J. (PI) ; Kozyrakis, C. (PI) ; Lall, S. (PI) ; Lam, M. (PI) ; Lauben, D. (PI) ; Lee, T. (PI) ; Leeson, D. (PI) ; Levin, C. (PI) ; Levis, P. (PI) ; Levoy, M. (PI) ; Linscott, I. (PI) ; Long, E. (PI) ; Manoharan, H. (PI) ; McCluskey, E. (PI) ; McKeown, N. (PI) ; Melen, R. (PI) ; Meng, T. (PI) ; Miller, D. (PI) ; Mitchell, J. (PI) ; Mitra, S. (PI) ; Montanari, A. (PI) ; Moslehi, M. (PI) ; Murmann, B. (PI) ; Napel, S. (PI) ; Narasimha, M. (PI) ; Ng, A. (PI) ; Nishi, Y. (PI) ; Nishimura, D. (PI) ; Olukotun, O. (PI) ; Osgood, B. (PI) ; Paulraj, A. (PI) ; Pauly, J. (PI) ; Pease, R. (PI) ; Pelc, N. (PI) ; Pianetta, P. (PI) ; Plummer, J. (PI) ; Poon, A. (PI) ; Pop, E. (PI) ; Prabhakar, B. (PI) ; Pratt, V. (PI) ; Reis, R. (PI) ; Rosenblum, M. (PI) ; Saraswat, K. (PI) ; Saxena, N. (PI) ; Shahidi, R. (PI) ; Shen, Z. (PI) ; Shenoy, K. (PI) ; Siegel, M. (PI) ; Smith, J. (PI) ; Solgaard, O. (PI) ; Solomon, G. (PI) ; Spielman, D. (PI) ; Stinson, J. (PI) ; Thompson, N. (PI) ; Thrun, S. (PI) ; Tobagi, F. (PI) ; Tomlin, C. (PI) ; Tyler, G. (PI) ; Ullman, J. (PI) ; Van Roy, B. (PI) ; Vishnu, M. (PI) ; Vuckovic, J. (PI) ; Walt, M. (PI) ; Wandell, B. (PI) ; Wang, S. (PI) ; Weissman, T. (PI) ; Wenstrand, J. (PI) ; Widom, J. (PI) ; Widrow, B. (PI) ; Wong, H. (PI) ; Wong, S. (PI) ; Wooley, B. (PI) ; Yamamoto, Y. (PI) ; Zebker, H. (PI)

EE 191A: Special Studies and Reports in Electrical Engineering

EE191A is part of the Accelerated Calculus for Engineers program. Independent work under the direction of a faculty member given for a letter grade only. EE 191A counts as a Math one unit seminar course: it is this unit that constitutes the ACE program.
Terms: Aut, Win, Spr | Units: 1
Instructors: Osgood, B. (PI) ; Wong, S. (PI)

EE 191W: Special Studies and Reports in Electrical Engineering (WIM)

WIM-version of EE 191. For EE students using special studiesnn(e.g., honors project, independent research project) to satisfy thennwriting-in-major requirement. A written report that has gone through revision with an advisor is required. An advisor from the Writing Center is recommended.
Terms: Aut, Win, Spr, Sum | Units: 3-10
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