ee 105 microelectronic devices and circuitsboser/courses/105/...b. e. boser 17 textbook ee 105...
TRANSCRIPT
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B. E. Boser 1
EE 105
Microelectronic Devices and Circuits
Bernhard E. Boser
University of California, Berkeley
Copyright 2012 by Bernhard Boser
EE 105 Lecture 1: Microelectronic Devices and Circuits
mailto:[email protected]
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Overview
Microelectronic Devices and Circuits
What is microelectronics?
What are microelectronic devices?
Administrative
People (instructor, buddies, GSIs, reader)
Website(s)
Syllabus, exam dates
Textbook
Assignments
Discussions
Labs
Grades
Microelectronic Devices
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What is Microelectronics?
EE 105 Lecture 1: Microelectronic Devices and Circuits
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Electronic Circuits
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Whats inside the box?
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And are Microchips made of?
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Whats the fuss about Microelectronics?
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Size
EE 105 Lecture 1: Microelectronic Devices and Circuits
Ref: Gordon Moore, ISSCC 2003
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Performance
EE 105 Lecture 1: Microelectronic Devices and Circuits
Ref: preshing.com
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Moores Law
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Microelectronics in 3 bullets
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Administrative
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Prof. Bernhard Boser
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Introductions
Ashkan Borna
Brian Lambson
Michael Roe
YongKeong Yap
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Course Web
Bspace
Links to everything
Grades (check regularly!)
If you cannot access bspace:
http://www.eecs.berkeley.edu/~boser/courses/105
EE 105 Lecture 1: Microelectronic Devices and Circuits
http://www.eecs.berkeley.edu/~boser/courses/105http://www.eecs.berkeley.edu/~boser/courses/105
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Textbook
EE 105 Lecture 1: Microelectronic Devices and Circuits
Youll have to read it
Homework tells you what
The lecture does not repeat the book
Typically the reading is ahead of the lecture
Enables meaningful in-class discussions
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Webcast
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Lecture Notes
Posted on course-web after the lecture
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Syllabus & Exam Dates
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Assignments
Posted Friday
Due following Friday
6-10 hours to complete
Reading
Problem solving
Get help from
Instructor
GSIs
Friends
Discussions
Piazza
Google
But turn in your own work!
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Discussions
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Laboratories
You must complete all labs to pass the course!
3 hour lab sessions
Do prelabs to finish on time
Makeup labs if you miss one or do not finish
Work in groups of two
Not three (or four or )
One feels lonely
Sign up for lab NOW
Mike to mike
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Grades
Homework (15%)
Labs (15%)
You must complete all labs to pass the course!
Midterms (30%)
Final (40%)
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Questions
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Microelectronic Devices
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Devices
Resistors
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Active Devices
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Active Device Requirements
Modulate current flow
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Active Device Examples
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Semiconductors
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Conductors, Insulators, Semiconductors
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Semiconductors
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III IV V
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Silicon Crystal
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Density:
5 x 1022 atoms / cm3
Distance between atoms:
0.22 nm
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Bandgap
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Intrinsic Carrier Concentration ni
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40 20 0 20 40 60 801 10
6
1 107
1 108
1 109
1 1010
1 1011
1 1012
1012
106
n i T x T 0
cm3
8555 T x
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Semiconductors Summary
EE 105 Lecture 1: Microelectronic Devices and Circuits