Download instructor resources. Additional order info. This text describes device physics and circuit design in the context of modern microelectronics integrated circuit technology. The authors have designed a concise, concentrated presentation, limiting coverage to only those concepts necessary for the understanding of devices and circuits. Introduction to Microelectronics.
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University of California, Berkeley. College of Engineering. Department of Electrical Engineering and Computer Sciences. EE Microelectronic Devices and Circuits. Microelectronic Devices and Circuits aims to provide a basic understanding of analog integrated circuits, as well as an introduction to electronic devices.
The course consists of two minute lectures per week, one discussion session at which the homework and lecture material will be reviewed , and one three-hour laboratory per week. The prerequisite is EECS Text: R. Howe and C. Reserve Books: In addition to the textbook and the reader, the following references are helpful and will be on one-day reserve at the Bechtel Engineering Library:. Sedra and K. Smith, Microelectronic Circuits, 5th ed.
SPICE references:. Exams and Grading: There will be two midterms and a final exam. The review sessions will be held Feb. Your grade for the course will be determined approximately as follows:. Satisfactory completion of the laboratory is required in order to receive a grade in the course. Solutions to the homework will be distributed at the following lecture.
Microelectronics: An Integrated Approach
Skip to search form Skip to main content You are currently offline. Some features of the site may not work correctly. Howe , Charles Sodini Published Engineering. Introduction to Microelectronics. The Digital Inverter. Microelectronic Sensing Systems. Semiconductor Physics and IC Technology.