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Electrical Engineering 135: Electromagnetic Fields and Waves.W
1.25 Credits
University of California-Santa Cruz
Vector analysis. Electrostatic fields. Magnetostatic fields. Time-varying fields and Maxwell's equations. Plane waves. Students must concurrently enroll in course 135L. Prerequisite(s): course 70/L; Mathematics 23B; and Applied Mathematics and Statistics 20. Students must concurrently enroll in course 135. M. Isaacson, The Staff
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Electrical Engineering 135 - Electromagnetic Fields and Waves.W
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Electrical Engineering 135L: Electromagnetic Fields and Waves Laboratory .W
1.00 Credits
University of California-Santa Cruz
Laboratory sequence illustrating topics in course 135. One two-hour laboratory session per week. Students must concurrently enroll in course 135. Students are billed a materials fee. Prerequisite(s): course 70/L; Mathematics 23B; and Applied Mathematics and Statistics 20. Students must concurrently enroll in course 135. M. Isaacson, The Staff
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Electrical Engineering 135L - Electromagnetic Fields and Waves Laboratory .W
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Electrical Engineering 136: Engineering Electromagnetics
1.25 Credits
University of California-Santa Cruz
Course will cover electromagnetic wave propagation, transmission lines, waveguides, and antennas. Prerequisite(s): course 135 and 135L. Enrollment restricted to School of Engineering and Division of Physical and Biological Sciences majors or permission of instructor. M. Isaacson, The Staff
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Electrical Engineering 136 - Engineering Electromagnetics
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Electrical Engineering 145: Properties of Materials
1.25 Credits
University of California-Santa Cruz
The fundamental electrical, optical, and magnetic properties of materials, with emphasis on metals and semiconductors: chemical bonds, crystal structures, elementary quantum mechanics, energy bands. Electrical and thermal conduction. Optical and magnetic properties. Prerequisite(s): Physics 5A/L, 5B/M, and 5C/N or 6A/L, 6B/M, and 6C/N. Students must also concurrently enroll in course 145L. H. Schmidt, N. Kobayashi, J. Kubby, A. Shakouri
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Electrical Engineering 145 - Properties of Materials
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Electrical Engineering 145L: Properties of Materials Laboratory
1.00 Credits
University of California-Santa Cruz
Laboratory sequence illustrating topics covered in course 145. One two-hour laboratory per week. Students are billed a materials fee. Prerequisite(s): Physics 5A/L, 5B/M, and 5C/N or 6A/L, 6B/M, and 6C/N. Students must also concurrently enroll in course 145. H. Schmidt, N. Kobayashi, J. Kubby, A. Shakouri
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Electrical Engineering 145L - Properties of Materials Laboratory
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Electrical Engineering 151: Communications Systems.W
1.25 Credits
University of California-Santa Cruz
An introduction to communication systems. Analysis and design of communication systems based on radio, transmission lines, and fiber optics. Topics include fundamentals of analog and digital signal transmission in the context of baseband communications, including concepts such as modulation and demodulation techniques, multiplexing and multiple access, channel loss, distortion, bandwidth, signal-to-noise ratios and error control. Digital communication concepts include an introduction to sampling and quantization, transmission coding and error control. Prerequisite(s): courses 103, 70/L, and Computer Engineering 107 or probability theory and random variables background. Enrollment restricted to School of Engineering and Division of Physical and Biological Sciences majors or permission of instructor. P. Mantey, B. Friedlander
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Electrical Engineering 151 - Communications Systems.W
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Electrical Engineering 152: Introduction to WirelessCommunications
1.25 Credits
University of California-Santa Cruz
Introduction to the principles of wireless communications systems. Wireless propagation channels and their impact on digital communications. Modulation techniques for wireless systems and their performance. Multi-antenna systems and diversity. Multicarrier and spread spectrum. Multi-access methods: FDMA, TDMA, CDMA. The structure of cellular systems. Students cannot receive credit for this course and course 252. Prerequisite(s): Computer Engineering 107 and course 151, or by consent of instructor. Enrollment restricted to juniors and seniors. B. Friedlander
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Electrical Engineering 152 - Introduction to WirelessCommunications
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Electrical Engineering 153: Digital Signal Processing
1.25 Credits
University of California-Santa Cruz
Introduction to the principles of signal processing, including discrete-time signals and systems, the z-trans-form, sampling of continuous-time signals, transform analysis of linear time-invariant systems, structures for discrete-time systems, the discrete Fourier transform, computation of the discrete Fourier transform, and filter design techniques. Taught in conjunction with Electrical Engineering 250. Students cannot receive credit for this course and Electrical Engineering 250. (Also offered as Computer Engineering 153. Students cannot receive credit for both courses.) Prerequisite(s): course 103. Enrollment restricted to School of Engineering and Division of Physical and Biological Sciences majors or permission of instructor. P. Milanfar, H. Sadjadpour
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Electrical Engineering 153 - Digital Signal Processing
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Electrical Engineering 154: Feedback Control Systems.W
1.25 Credits
University of California-Santa Cruz
Analysis and design of continuous linear feedback control systems. Essential principles and advantages of feedback. Design by root locus, frequency response, and state space methods and comparisons of these techniques. Applications. Prerequisite(s): course 103. Enrollment restricted to School of Engineering and Division of Physical and Biological Sciences majors or permission of instructor. Enrollment limited to 30. P. Milanfar, P. Mantey, W. Dunbar, G. Elkaim, J. Rosen
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Electrical Engineering 154 - Feedback Control Systems.W
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Electrical Engineering 171: Analog Electronics
1.25 Credits
University of California-Santa Cruz
Introduction to (semiconductor) electronic devices. Conduction of electric currents in semiconductors, the semiconductor p-n junction, the transistor. Analysis and synthesis of linear and nonlinear electronic circuits containing diodes and transistors. Biasing, small signal models, frequency response, and feedback. Operational amplifiers and integrated circuits. Prerequisite(s): course 70/L; previous or concurrent enrollment in course 171L required. C. Gu, W. Liu, A. Shakouri, K. Pedrotti
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Electrical Engineering 171 - Analog Electronics
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