Department of Electrical and
Computer Engineering
·
Syllabus
Course
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ECE
327: Electronic Circuits II |
Instructor
|
Dr.
George Engel |
Office
|
UP2228 |
Phone
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(618)
650-2806 |
Email
|
|
URL
|
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Lectures
|
Tuesday,
Thursday 12:30
pm –1:45 pm |
Labs
|
Tuesday: 9:30 - 12:20 pm Thursday:
9:30 – 12:20 pm |
Course Description
|
BJT
small signal analysis, design of BJT amplifier circuits, amplifier frequency
response, feedback theory, operational amplifiers, filter design, waveform
generation, analog-to-digital conversion, digital-to-analog conversion, and
case studies in electronic system design |
Grading
|
Exam
#1: 15% Exam
#2: 15 % Exam
#3: 15% Project
#1: 15% Project
#2: 15% Homework:
15% Laboratory
Exercises: 15% |
Textbooks
|
Microelectronic
Circuits (4th Edition) Adel
Sedra and Kenneth Smith Oxford
University Press ISBN: 0-19-511663-1 |
|
T
Jan. 11 |
6.1
BJT differential pair 6.2
Small-signal operation of the BJT differential amplifier |
|
R
Jan.13 |
6.3
Other non-ideal characteristics of BJT differential amplfier 6.4
Biasing in BJT integrated circuits |
|
T
Jan. 18 |
6.5
BJT differential amplifier with active load 7.1
s-domain analysis 7.2
Amplifier transfer function |
|
R
Jan. 20 |
7.3 Low-frequency response of CE amplifiers |
|
T
Jan. 25 |
7.4 High-frequency response of CE amplifiers |
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R
Jan. 27 |
7.5 Frequency response of a cascode circuit 7.6 Frequency response of emitter follower |
|
T
Feb. 01 |
8.1
General feedback structure 8.2
Properties of negative feedback |
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R
Feb. 03 |
8.3
Four basic feedback topologies 8.4
Series-shunt feedback |
|
T
Feb. 08 |
8.5
Series-series feedback 8.6
Shunt-shunt and shunt series feedback |
|
R
Feb. 10 |
---
EXAM # 1 (Chapters 6 and 7) -- |
|
T
Feb. 15 |
8.7 Determining loop gain 8.10
Stability using Bode plots 8.11
Frequency compensation |
|
R
Feb. 17 |
9.1
Classification of output stages 9.2
Class-A output stage |
|
T
Feb. 22 |
9.3 Class-B output stage |
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R
Feb. 24 |
9.4
Class AB output stage 9.5
Biasing class AB circuit |
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T
Feb. 29 |
10.1 The 741 op-amp 10.2 DC analysis of the 741 |
|
R
Mar. 02 |
10.3 Small-signal analysis of
741 input stage 10.4 Small-signal analysis of
741 second stage |
|
T
Mar. 07 |
10.5 Analysis of 741 output
stage 10.6 Gain and frequency
response of the 741 |
|
R
Mar. 09 |
10.7 CMOS op-amps 10.8 Alternative configurations
for CMOS and Bi-CMOS op-amps |
|
T
Mar. 14 |
---
Spring Break, NO CLASS!!! --- |
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R
Mar. 16 |
---
Spring Break, NO CLASS!!! --- |
|
T
Mar. 21 |
10.9 Data Converters – An introduction 10.10 D/A converters 10.11 A/D converters |
|
R
Mar. 23 |
11.1 Filter transmission,
types, and specification 11.2 Filter transfer function 11.3 Butterworth and Chebyshev
filters |
|
T
Mar. 28 |
--
EXAM #2 (Chapters 8, 9, 10) -- |
|
R
Mar. 30 |
11.4 First-order and
second-order filter functions 11.5 Second-order lCR resonator |
|
T
Apr. 04 |
11.6 Second-order active
filters based on inductor replacement 11.7 Single-amplifier
biquadratic active filters |
|
R
Apr. 06 |
12.1 Basic priniciples of
sinusoidal oscillators 12.3
LC and crystal oscillators |
|
T
Apr. 11 |
12.4
Bistable multi-vibrators 12.5
Generation of square and
triangular waveforms using astable multivibrators |
|
R
Apr. 13 |
12.6
Monostable multivibrator 12.7
Integrated circuit timers |
|
T
Apr. 18 |
12.8
Non-linear waveform-shaping
circuits 12.9
Precision rectifier circuits |
|
R
Apr. 20 |
Case
study in electronic system design |
|
T
Apr. 25 |
Case
study in electronic system design |
|
R
Apr. 27 |
Case
study in electronic system design |
|
Jan. 10 |
---
NO LABS --- |
|
Jan. 17 |
Experiment #6: BJT Differential Pair and
Applications E1.1, E1.2, E1.3, E1.4 Simulations
using Mentor Graphics followed by laboratory exercise. |
|
Jan. 24 |
Experiment #6: BJT Differential Pair and
Applications E2.1,
E3.1, E3.2 |
|
Jan. 31 |
Experiment #7: Single BJT Amplifiers at
Low and High Frequencies E1.1,
E1.2, E2.1, E3.1 |
|
Feb. 07 |
Experiment #7: Single BJT Amplifiers at
Low and High Frequencies E4.1,
E4.2, E5.1 |
|
Feb. 14 |
Experiment #8: Feedback Principles Using
and Op-Amp E1.1,
E2.1, E2.2, E2.3, E2.4, E2.5 |
|
Feb. 21 |
Experiment #8: Feedback
Principles Using and Op-Amp E3.1,
E3.2, E3.3, E3.4 |
|
Feb. 28 |
Experiment #9: Basic Output Stage
Topologies E1.1,
E1.2, E2.1, E2.2 |
|
Mar. 06 |
Experiment #9: Basic Output Stage
Topologies E3.1,
E3.2, E4.1, E4.2 |
|
Mar. 13 |
---
SPRING BREAK ---- |
|
Mar. 20 |
Experiment #10: CMOS Op
Amps E1.1,
E1.2, E2.1, E2.2, E2.3 |
|
Mar. 27 |
Experiment #10: CMOS Op
Amps E3.1,
E3.2, E4.1 |
|
Apr. 03 |
Experiment #11: Op-amp
RC filter Topologies E1.1,
E1.2, E1.3, E1.4, E2.1, E2.2 |
|
Apr. 10 |
Experiment #11: Op-amp
RC filter Topologies E3.1,
E3.2, E4.1, E4.2, E4.3 |
|
April 17 |
Experiment #12: Waveform
generators E1.1,
E1.2, E2.1, E2.2 |
|
April 24 |
Experiment #12: Waveform
generators E3.1,
E3.2, E4.1, E4.2 |
Homework
|
HW #1 |
Assigned: Due: Chapter 6: 6.1, 6.4, 6.18, 6.22, 6.29,
6.39, 6.65, 6.71 |
|
HW #2 |
Assigned: Due: Chapter 7: 7.1, 7.10, 7.25, 7.36,
7.52, 7.57, 7.67 |
|
HW #3 |
Assigned: Due: Chapter 8: 8.1, 8.7, 8.11, 8.14, 8.18,
8.21, 8.31, 8.39, 8.42, 8.50, 8.63, 8.71 |
|
HW #4 |
Assigned: Due: Chapter 9: 9.3, 9.9, 9.14, 9.16, 9.20,
9.24 |
|
HW #5 |
Assigned: Due: Chapter 10: 10.1, 10.6, 10.18, 10.22,
10.31, 10.45, 10.52, 10.60, 10.66, 10.68 |
|
HW #6 |
Assigned: Due: Chapter 11: 11.4, 11.6, 11.11, 11.12,
11.20, 11.33, 11.42, 11.49, 11.50 |
|
HW #7 |
Assigned: Due: Chapter 12: 12.4, 12.23, 12.26, 12.32,
12.34, 12.38, 12.39, 12.43, 12.50,12.54 |