| source UC Davis (X) |
level |
department Engineering: Electrical and Computer Engineering (X) |
Lecture—1 hour. Overview of Electrical and Computer Engineering programs and advising; setting and attaining goals; ethics; introduction to major topics in ECE. (P/NP grading only.)—I. (I.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; workshop—1 hour. Prerequisite: Computer Science Engineering 30. Computer architecture; machine language; assembly language; macros and conditional macros; subroutine/parameter passing; input-output programming, interrupt and trap; direct-memory-access; absolute and relocatable code; re-entrant code; program development in an operating system. Only one unit of credit to students who have completed Computer Science Engineering 50.—I, II. (I, II.)
Score: 10.290035 Details | Listing | Web page
Discussion—1 hour. Prerequisite: consent of instructor; lower division standing. Research group conferences. May be repeated for credit. (P/NP grading only.)—I, II, III. (I, II, III.)
Score: 10.290035 Details | Listing | Web page
Seminar—1-4 hours. Prerequisite: consent of instructor. Examination of a special topic in a small group setting. May be repeated for credit.
Score: 10.290035 Details | Listing | Web page
Internship—3-15 hours. Prerequisite: lower division standing; project approval prior to period of internship. Supervised work experience in Electrical and Computer Engineering. May be repeated for credit. (P/NP grading only.)
Score: 10.290035 Details | Listing | Web page
Prerequisite: consent of instructor. (P/NP grading only.)
Score: 10.290035 Details | Listing | Web page
(P/NP grading only.)
Score: 10.290035 Details | Listing | Web page
Laboratory—3 hours; lecture—3 hours; discussion—1 hour. Prerequisite: Engineering 17. Theory, application, and design of analog circuits. Methods of analysis including frequency response, SPICE simulation, and Laplace transform. Operational amplifiers and design of active filters. Only 3.500 units of credit to students who have completed Engineering 100. Restricted to the following majors: Electrical Engineering, Computer Engineering, Computer Science & Engineering, Electrical Engineering/Materials Science, Optical Science & Engineering, Biomedical Engineering, Electrical Engineering Graduate Students.—I, II. (I, II.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: course 100, 140A (may be taken concurrently). Operation of bipolar and field-effect transistors. Use and modeling of nonlinear solid-state electronic devices in basic analog and digital circuits. Introduction to the design of transistor amplifiers and logic gates.—II, III. (II, III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: course 110A. Frequency response of amplifiers using open-and short-circuit time constraints. Analysis and design of multistage and feedback amplifiers. Stability and compensation of feedback systems. Introduction to oscillators and data converters (analog-to-digital and digital-to-analog converters).—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; laboratory—3 hours. Prerequisite: courses 110B and 150A. Electronic circuits for analog and digital communication, including oscillators, mixers, tuned amplifiers, modulators, demodulators, and phase-locked loops. Circuits for amplitude modulation (AM) and frequency modulation (FM) are emphasized.—II. (II.)
Score: 10.290035 Details | Listing | Web page
Lecture—2 hours; laboratory—3 hours. Prerequisite: courses 110B and 140B. Analysis and design of analog integrated circuits. Emphasis on bipolar transistor circuits. Single-stage amplifiers, cascaded amplifier stages, current sources, differential pair, frequency response, and feedback amplifiers.—I. (I.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; laboratory—3 hours. Prerequisite: courses 110A and 180A. CMOS devices, layout, circuits, and functional units; VLSI fabrication and design methodologies.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—2 hours; laboratory—3 hours. Prerequisite: courses 110A, 180A. Analysis and design of digital integrated circuits. Emphasis on MOS logic circuit families. Logic gate construction, voltage transfer characteristics, and propagation delay. Regenerative circuits, RAMs, ROMs, and PLAs.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: Mathematics 21D, Physics 9D, Engineering 17. Basics of static electric and magnetic fields and fields in materials. Work and scalar potential. Maxwell's equations in integral and differential form. Plan waves in lossless media. Lossless transmission lines.—I, II. (I, II.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: course 130A. Plane wave propagation in lossy media, reflections, guided waves, simple modulated waves and dispersion, and basic antennas.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; laboratory—3 hours; discussion—1 hour. Prerequisite: course 110B, 130B, 140B. The study of Radio Frequency and Microwave theory and practice for design of wireless electronic systems. Transmission lines, microwave integrated circuits, circuit analysis of electromagnetic energy transfer systems, the scattering parameters.—I. (I.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; laboratory—3 hours; discussion—1 hour. Prerequisite: course 132A. Passive RF and microwave device analysis, design, fabrication, and testing for wireless applications. RF and microwave filter and coupler design. Introductory analysis and design of RF and microwave transistor amplifiers.—II. (II.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; laboratory—3 hours; discussion—1 hour. Prerequisite: course 132B. Microwave amplifier theory and design, including transistor circuit models, stability considerations, noise models and low noise design. Theory and design of microwave transistor oscillators and mixers.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisites: course 130B. Properties of electromagnetic radiation; analysis and design of antennas: ideal cylindrical, small loop, aperture, and arrays; antenna field measurements.—I. (I.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; project. Prerequisite: course 130B. Principles of optical communication systems. Planar dielectric waveguides. Optical fibers: single-mode, multi-mode, step and graded index. Attenuation and dispersion in optical fibers. Optical sources (LEDs and lasers) and receivers. Design of digital optical transmission systems.—II. (II.)
Score: 10.290035 Details | Listing | Web page
Lecture—1 hours; discussion—1 hour; laboratory—3 hours. Prerequisite: courses 135 and 150A. Characteristics and applications of state-of-the-art opto-electronic components (semiconductor detectors, optical modulators and optical fibers), and fiber optic communication systems.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: Engineering 17; Physics 9D. Semiconductor device fundamentals, equilibrium and non-equilibrium statistical mechanics, conductivity, diffusion, density of states, electrons and holes, p-n junctions, Schottky junctions, and junction field effect transistors.—I, II. (I, II.)
Score: 10.290035 Details | Listing | Web page
Lecture—3 hours; discussion—1 hour. Prerequisite: course 140A. Electrical properties, design, and models for Bipolar and MOS devices.—III. (III.)
Score: 10.290035 Details | Listing | Web page
Lecture—2 hours; laboratory—3 hours. Prerequisite: course 140B. Basic fabrication processes for Metal Oxide Semiconductor (MOS) integrated circuits. Laboratory assignments covering oxidation, photolithography, impurity diffusion, metallization, wet chemical etching, and characterization work together in producing metal-gate PMOS test chips which will undergo parametric and functional testing.—I. (I.)
Score: 10.290035 Details | Listing | Web page