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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 LAB Week 1 no lab Phasors and the Frequency Domain Lec. 1 (1/23) course overview: sinusoidal sources Reader: OS excerpt Lec. 2 (1/25) phasor representation; impedance Reader: OS excerpt Week 2 Exp. 1 Lec. 3 (1/28) transfer functions, time/frequency domain HS 10.1 Lec. 4 (1/30) Bode plots: first-order transfer functions HS 10.1 Lec. 5 (2/1) Second-order circuits: time domain Reader: OS excerpt 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 HS 2.1-2.3 Lec. 8 (2/8) Ohm’s law, IC resistors, sheet resistance HS 2.6 Week 4 Exp. 3 Lec. 9 (2/11) metal-metal capacitor HS 3.1 Lec. 10 (2/13) pn junction (equilibrium, reverse bias) HS 3.4.1-2, 3.5 Lec. 11 (2/15) pn junction small-signal capacitor HS 3.6 Week 5 Exp. 4 (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 Week 6 Exp. 5 Lec. 14 (2/25) MOSFET large-signal model HS 4.3 Lec. 15 (2/27) MOSFET small-signal model HS 4.5 Lec. 16 (3/1) pn junction diode under forward bias HS 6.1-6.3WEEK 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 Week 8 Exp. 6 Lec. 19 (3/11) bipolar transistor small-signal model HS 7.5 Integrated Single-Stage Amplifiers Lec. 20 (3/13) Amplifier concept; 2-port parameters HS 8.1,2 Lec. 21 (3/15) Common source amplifier: biasing HS 8.3 Week 9 Exp. 7 Lec. 22 (3/18) Common source amp: two-port model HS 8.5 Lec. 23 (3/20) Common gate amplifier: biasing HS 8.8 Lec. 24 (3/22) Common gate amp: two-port model HS 8.8 Spring Break March 25-29 Week 10 Exp. 8 Lec. 25 (4/1) Common drain amplifier: biasing HS 8.9 Lec. 26 (4/3) Common drain amp: two-port model HS 8.9 Lec. 27 (4/5) Bipolar amplifier stages HS 8.1,2,9 Week 11 Exp. 9 Lec. 28 (4/8) Summary of single stage amplifiers HS 8.1-9 Frequency Response of Single-Stage Amplifiers Lec. 29 (4/10) Current amplifiers: transition frequency HS 10.2-3 Lec. 30 (4/12) Voltage amplifiers: Miller approximation 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 HS 9.3 Lec. 34 (4/24) Integrated voltage/current supplies I HS 9.4 Lec. 35 (4/26) Integrated voltage/current supplies II HS 9.5WEEK LECTURE TOPICS READING LAB Week 14 Exp 11 Lec. 36 (4/29) Multistage amp examples: transconductance HS 9.5 Lec. 37 (5/1) Multistage amp examples: voltage wrap-up HS 9.5 Lec. 38 (5/3) Multistage wrap-up HS Chap. 9 Multistage Amplifier Frequency Response Week 15 Makeup Lec. 38 (5/6) Open-circuit time constants HS 10.4.4 Lec. 39 (5/8) Multistage amp frequency response HS 10.7 Lec. 40 (5/10) Voltage amplifier example 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,

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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
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10 pages

Lecture 38

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17 pages

Lecture 8

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25 pages

Lecture 27

Lecture 27

24 pages

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Lecture 20: Frequency Response: Miller Effect

21 pages

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18 pages

Lecture 18

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18 pages

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25 pages

Lecture 6: MOSCAP

Lecture 6: MOSCAP

24 pages

Lecture

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5 pages

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23 pages

Derivation of The Ideal Diode Equation

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3 pages

Experiment 8: Multi-stage Amplifiers

Experiment 8: Multi-stage Amplifiers

3 pages

Lecture Notes

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23 pages

Lecture Notes

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10 pages

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20 pages

Lecture Notes

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25 pages

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BJT Biasing Summary

12 pages

Lecture Notes

Lecture Notes

9 pages

Lecture Notes

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25 pages

Lecture 7: MOS Transistor

Lecture 7: MOS Transistor

33 pages

Problem Set

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2 pages

MOS Single Stage Amplifiers

MOS Single Stage Amplifiers

15 pages

Experiment 3 - The Curve Tracer

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6 pages

Lecture Notes

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11 pages

Microelectronic Devices and Circuits Overview

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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

High-to-Low Propagation Delay

5 pages

MOS Current Sources Two-port Models

MOS Current Sources Two-port Models

10 pages

Lecture Notes

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21 pages

Lecture Notes

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23 pages

MIDTERM 2

MIDTERM 2

8 pages

Course Information

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2 pages

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10 pages

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Experiment 1 Introduction to Electronic Test Equipment

9 pages

Lecture Notes

Lecture Notes

15 pages

Overview

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24 pages

Prelab 7: Frequency Response

Prelab 7: Frequency Response

3 pages

Experiment 9 Multistage Amplifiers

Experiment 9 Multistage Amplifiers

5 pages

Lecture 29

Lecture 29

14 pages

Lecture 7 Properties of Materials for Integrated Circuits

Lecture 7 Properties of Materials for Integrated Circuits

23 pages

Lecture 17 Frequency-Domain Analysis

Lecture 17 Frequency-Domain Analysis

14 pages

Lecture 5 MOSFET

Lecture 5 MOSFET

10 pages

Lecture 17: MOS transistors →digital

Lecture 17: MOS transistors →digital

17 pages

Micro Linear BiCMOS Chip Set for Undergraduate Laboratories in Microelectronic Devices and Circuits

Micro Linear BiCMOS Chip Set for Undergraduate Laboratories in Microelectronic Devices and Circuits

37 pages

Improved Inverter: Current-Source “Pull-Up”

Improved Inverter: Current-Source “Pull-Up”

7 pages

Lecture 33

Lecture 33

12 pages

Value Added by Circuits

Value Added by Circuits

18 pages

Integrated Passives

Integrated Passives

5 pages

Lecture 5

Lecture 5

22 pages

Lecture 15

Lecture 15

23 pages

Lecture 38: Frequency response

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

Lecture 22

26 pages

EE 105 Discussion Section 101

EE 105 Discussion Section 101

6 pages

Lecture 17

Lecture 17

15 pages

Lecture 27: PN Junctions

Lecture 27: PN Junctions

50 pages

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Time Constants Frequency Response of Common Drain/ Common Source Amplifiers

4 pages

CMOS Amplifiers

CMOS Amplifiers

11 pages

Lecture Notes

Lecture Notes

25 pages

Lecture 17

Lecture 17

21 pages

EE105 Expanded Description

EE105 Expanded Description

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

Discussion Notes - Voltage Sources and Current Sources

Discussion Notes - Voltage Sources and Current Sources

6 pages

Lecture Notes

Lecture Notes

17 pages

Bipolar Junction Transistor Models

Bipolar Junction Transistor Models

17 pages

Lecture Notes

Lecture Notes

25 pages

Lecture 23

Lecture 23

16 pages

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