Requisites: Mathematics 32A and 32B, or 33A and 33B, Physics 1C. (Formerly numbered Electrical Engineering 101A.) Lecture, four hours discussion, one hour outside study, seven hours. Electrical quantities, linear circuit elements, circuit principles, signal waveforms, transient and steady state circuit behavior, semiconductor diodes and transistors, small signal models, and operational amplifiers. Not open for credit to students with credit for course 110. Requisites: Mathematics 33A, 33B or Mechanical and Aerospace Engineering 82, Physics 1C. (Formerly numbered Electrical Engineering 100.) Lecture, three hours discussion, one hour outside study, eight hours. Individual contract required consult Undergraduate Research Center. Students must be in good academic standing and enrolled in minimum of 12 units (excluding this course). Entry-level research for lower-division students under guidance of faculty mentor. Tutorial (supervised research or other scholarly work), three hours per week per unit. May be applied toward honors credit for eligible students. Exploration of topics in greater depth through supplemental readings, papers, or other activities and led by lecture course instructor. Designed as adjunct to lower-division lecture course. Discussion of and critical thinking about topics of current intellectual importance, taught by faculty members in their areas of expertise and illuminating many paths of discovery at UCLA. Error control codes for digital information. Number systems and arithmetic algorithms. Specification and implementation of algorithmic systems: data and control sections. Standard logic modules and programmable logic arrays. Specification and implementation of combinational and sequential systems. (Formerly numbered Electrical Engineering M16.) (Same as Computer Science M51A.) Lecture, four hours discussion, two hours outside study, six hours. Ohm’s law voltage and current division, Thevenin and Norton equivalent circuits, superposition, transient and steady state analysis. Experiments with basic circuits containing resistors, capacitors, inductors, and transformers. (Formerly numbered Electrical Engineering 11L.) Lecture, one hour laboratory, one hour outside study, one hour. Corequisites: course 11L (enforced only for Computer Science and Engineering and Electrical Engineering majors), Mathematics 33B. Requisites: course 3 (or Computer Science 1 or Materials Science 10), Mathematics 33A, Physics 1B. (Formerly numbered Electrical Engineering 10H.) Lecture, four hours discussion, one hour outside study, seven hours. Resistive circuits, capacitors, inductors and ideal transformers, Kirchhoff laws, node and loop analysis, first-order circuits, second-order circuits, Thevenin and Norton theorem, sinusoidal steady state. (Formerly numbered Electrical Engineering 10.) Lecture, four hours discussion, one hour outside study, seven hours. Introduction to measurement and design of electrical circuits. ![]() Research frontiers of electrical engineering. ![]() Basic circuits techniques with application to explanation of electrical engineering inventions such as telecommunications, electrical grid, automatic computing and control, and enabling device technology. Introduction to field of electrical engineering. (Formerly numbered Electrical Engineering 3.) Lecture, two hours laboratory, two hours outside study, eight hours. (Formerly numbered Electrical Engineering 2H.) Lecture, four hours discussion, two hours outside study, six hours. Physics for Electrical Engineers (Honors). Discussion of electrical properties of semiconductors leading to operation of junction devices. Introduction to concepts of modern physics necessary to understand solid-state devices, including elementary quantum theory, Fermi energies, and concepts of electrons in solids. (Formerly numbered Electrical Engineering 2.) Lecture, four hours discussion, two hours outside study, six hours. Introduction by faculty members and industry lecturers to electrical engineering disciplines through current and emerging applications of autonomous systems and vehicles, biomedical devices, aerospace electronic systems, consumer products, data science, and entertainment products (amusement rides, etc.), as well as energy generation, storage, and transmission. (Formerly numbered Electrical Engineering 1.) Seminar, one hour outside study, two hours. 2020-2021 Electrical and Computer Engineering Courses 2020-2021 Electrical and Computer Engineering Courses Lower-Division Courses
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