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Berkeley ELENG 105 - Syllabus
School name University of California, Berkeley
Course Eleng 105- Microelectronic Devices and Circuits
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EECS 105 Microelectronic Devices and Circuits Spring 2002 Schedule R T Howe WEEK LECTURE TOPICS READING Week 1 LAB no lab Phasors and the Frequency Domain Lec 1 1 23 course overview sinusoidal sources Lec 2 1 25 phasor representation impedance Reader OS excerpt Reader OS excerpt Lec 3 1 28 transfer functions time frequency domain Lec 4 1 30 Bode plots first order transfer functions Lec 5 2 1 Second order circuits time domain HS 10 1 HS 10 1 Reader OS excerpt Week 2 Exp 1 Week 3 Exp 2 Lec 6 2 4 2nd order f domain general Bode plots Reader OS excerpt HS 10 1 IC Two Terminal Circuit Elements Resistors and Capacitors Lec 7 2 6 donors and acceptors in Si drift current Lec 8 2 8 Ohm s law IC resistors sheet resistance HS 2 1 2 3 HS 2 6 Week 4 Exp 3 Lec 9 2 11 metal metal capacitor Lec 10 2 13 pn junction equilibrium reverse bias Lec 11 2 15 pn junction small signal capacitor HS 3 1 HS 3 4 1 2 3 5 HS 3 6 Exp 4 Week 5 2 18 Presidents Day Lec 12 2 20 MOS small signal capacitor HS 3 7 3 9 The MOSFET Lec 13 2 22 MOSFET large signal overview HS 4 1 Lec 14 2 25 MOSFET large signal model Lec 15 2 27 MOSFET small signal model Lec 16 3 1 pn junction diode under forward bias HS 4 3 HS 4 5 HS 6 1 6 3 Exp 5 Week 6 WEEK LECTURE TOPICS READING LAB pn Junction Devices Week 7 no lab Lec 17 3 4 circuit models diffusion capacitance HS 6 4 5 Midterm I Wednesday March 6 6 7 30 pm no lecture 3 6 Lec 18 3 8 bipolar transistors in forward active bias HS 7 1 2 Lec 19 3 11 bipolar transistor small signal model HS 7 5 Week 8 Exp 6 Integrated Single Stage Amplifiers Lec 20 3 13 Amplifier concept 2 port parameters Lec 21 3 15 Common source amplifier biasing HS 8 1 2 HS 8 3 Lec 22 3 18 Common source amp two port model Lec 23 3 20 Common gate amplifier biasing Lec 24 3 22 Common gate amp two port model HS 8 5 HS 8 8 HS 8 8 Week 9 Exp 7 Spring Break March 25 29 Week 10 Exp 8 Lec 25 4 1 Common drain amplifier biasing Lec 26 4 3 Common drain amp two port model Lec 27 4 5 Bipolar amplifier stages HS 8 9 HS 8 9 HS 8 1 2 9 Lec 28 4 8 Summary of single stage amplifiers HS 8 1 9 Week 11 Exp 9 Frequency Response of Single Stage Amplifiers Lec 29 4 10 Current amplifiers transition frequency Lec 30 4 12 Voltage amplifiers Miller approximation HS 10 2 3 HS 10 4 Week 12 no lab Lec 31 4 15 Voltage and current buffer f response HS 10 5 6 Midterm II Wednesday April 17 6 7 30 pm no lecture 4 17 Lec 32 4 19 Multistage amplifiers two port cascades HS 9 1 2 Integrated Multistage Amplifiers Week 13 Exp 10 Lec 33 4 22 Direct coupled amps DC level shifting Lec 34 4 24 Integrated voltage current supplies I Lec 35 4 26 Integrated voltage current supplies II HS 9 3 HS 9 4 HS 9 5 WEEK LECTURE TOPICS READING Week 14 LAB Exp 11 Lec 36 4 29 Multistage amp examples transconductance Lec 37 5 1 Multistage amp examples voltage wrap up Lec 38 5 3 Multistage wrap up HS 9 5 HS 9 5 HS Chap 9 Multistage Amplifier Frequency Response Week 15 Makeup Lec 38 5 6 Open circuit time constants Lec 39 5 8 Multistage amp frequency response Lec 40 5 10 Voltage amplifier example HS 10 4 4 HS 10 7 HS 10 7 2 Week 16 Lec 41 5 13 Course wrap up Final Examination Saturday May 18 2002 8 00 am 11 00 am HS R T Howe and C G Sodini Microelectronics An Integrated Approach Prentice Hall 1997 Reader EE 105 course reader available at Copy Central OS W G Oldham and S E Schwarz Introduction to Electrical Engineering 1st Edition HRW 1984

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Berkeley ELENG 105 - Syllabus

School: University of California, Berkeley
Course: Eleng 105- Microelectronic Devices and Circuits
Pages: 3
Documents in this Course
Module 1-1 Circuit Fundamentals

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Lecture Notes 8

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Lecture 12

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Lecture 1

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Lecture 17

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Lecture 38

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10 pages

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4 pages

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20 pages

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Experiment 10: Differential Amplifiers

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19 pages

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4 pages

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21 pages

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18 pages

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33 pages

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2 pages

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17 pages

Lecture 8

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25 pages

Lecture 27

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24 pages

Lecture 20: Frequency Response: Miller Effect

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21 pages

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18 pages

Lecture 18

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18 pages

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25 pages

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24 pages

Lecture

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5 pages

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3 pages

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3 pages

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20 pages

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12 pages

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Lecture Notes

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Lecture 7: MOS Transistor

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2 pages

MOS Single Stage Amplifiers

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Lecture Notes

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19 pages

MOS Capacitor in Depletion

MOS Capacitor in Depletion

5 pages

Lecture 15 Small Signal Modeling

Lecture 15 Small Signal Modeling

29 pages

High-to-Low Propagation Delay

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5 pages

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10 pages

Lecture Notes

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Lecture Notes

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MIDTERM 2

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2 pages

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24 pages

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3 pages

Experiment 9 Multistage Amplifiers

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5 pages

Lecture 29

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14 pages

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23 pages

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14 pages

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10 pages

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17 pages

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7 pages

Lecture 33

Lecture 33

12 pages

Value Added by Circuits

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18 pages

Integrated Passives

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5 pages

Lecture 5

Lecture 5

22 pages

Lecture 15

Lecture 15

23 pages

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Lecture 38: Frequency response

15 pages

MOS Transistor MOS Sample and Hold

MOS Transistor MOS Sample and Hold

7 pages

Lecture 23

Lecture 23

11 pages

Lecture 22

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26 pages

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Lecture 17

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Lecture 27: PN Junctions

Lecture 27: PN Junctions

50 pages

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4 pages

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11 pages

Lecture Notes

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25 pages

Lecture 17

Lecture 17

21 pages

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2 pages

Lecture 25

Lecture 25

23 pages

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Common Source Amplifier Frequency Response

10 pages

Lecture 9 Frequency Response

Lecture 9 Frequency Response

10 pages

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19 pages

Second-Order Circuits Amplifier Frequency Response

Second-Order Circuits Amplifier Frequency Response

12 pages

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Discussion Notes - Voltage Sources and Current Sources

6 pages

Lecture Notes

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17 pages

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Bipolar Junction Transistor Models

17 pages

Lecture Notes

Lecture Notes

25 pages

Lecture 23

Lecture 23

16 pages

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