ECE 303 ANALOG ELECTRONICS
Masum Hossain
Today’s Topics
• Course information • Course instructor info. and office hours
• Textbook and Syllabus
• Exam Dates
• Marking scheme
• Course overview
• Background Review
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Course Information
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Instructor information
Name: Masum Hossain
Office: ICE – 11th Floor
Office hours: Open door policy between 2pm to 5pm,
encouraged to make appointment by e-mail
E-mail: [email protected] Add 303 in the subject
line
Website: www.ualberta.ca/~masum
Course Information
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Lecture Section: LEC Monday, Wednesday, Friday 09:00 – 09:50, SAB 321
Seminar Section: ETLC 2-001, Wednesday 12:00 – 12:50
Lab Section: TBA
Lab fees: The lab requires a mandatory parts kit ($20), SK-10
breadboard, and tools (small pliers, wire cutters, wire
strippers). All are available from the Electrical Engineering
Student Club.
Website: Access via eClass using CCID
First Class: 4th January, 2016
Last Class: 11th April,2016
Design Lab
• The labs run Tuesdays, Wednesdays, and Thursdays.
• Students may take any lab section they wish.
• We encourage students to work in teams of two, but
this is not required; students may choose to work alone.
Maximum of two students per group, though. Both
students in a group must be officially registered in the
same lab section.
• Students needing help with lab registration should
contact the undergraduate student advisor, AnnMarie.
• There are no labs this week, but there is a one-hour lab
intro session next week, on
Tuesday/Wednesday/Thursday. All students must attend.
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Course Information
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Course Section Sedra/Smith 5th
edition
Sedra/Smith 6th
Edition
Differential
Amplifiers
Chapter 7 Chapter 8
Frequency Response 1– 1.6
4.8,4.9,5.8,5.9
6.4 – 6.8, 7.6
1.1—1.6
Chapter 9
Feedback Chapter 8 Chapter 10
Op-amps 9.1-9.6 Chapter 12
Chapter 11 (partial)
• Main Text book:
S. Sedra and K. C. Smith, Microelectronic Circuits, 6th ed.,
Oxford University Press (2010), ISBN 0195323033 — www.sedrasmith.org.
• Useful reference:
B. Razavi, Fundamentals of Microelectronics, Wiley (2006),
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Course Information
Item Weight
Exam #1 (Feb 3rd) 25%
Exam #2 (March 9th) 25%
Exam #3 (April 6th) 25%
Design Laboratory 25%
Class participation and assignments 5% (bonus)
Total 100%
Lecture note will NOT be posted in e-class, therefore class attendance is required.
Only Weekly summary will be uploaded at the end of the week with practice
problems – solutions will be posted before the Exam
Evolution of Technology
Evolution of Technology
Components of Innovation
Components of Innovation
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80%
RF Analog
70%
Analog
75%
Digital
75%
Analog-Mixed
signal
80%
Analog
80%
Digital
80%
Digital
60%
Digital
75%
Analog-Mixed
signal
Why Analog Circuits So Important?
13
80%
RF Analog
70%
Analog
75%
Digital
75%
Analog-Mixed
signal
80%
Analog
80%
Digital
80%
Digital
60%
Digital
75%
Analog-Mixed
signal
Flash Memory DDR2 DRAM Processor 10 % Analog 10 % Analog
Apple Watch Reverse Engineered
Engineering Path
14
End product
Engineering Path
15
End product
S0A+ S0B+ S1C+ S1D
Engineering Path
16
ECE 302
Device
ECE 380
Digital
Systems
Undergraduate training Graduate school Real work
μ-Architecture
implementation End product
S0A+ S0B+ S1C+ S1D
ECE 210
Digital Logic
ECE 303
Analog ckt.
ECE 402
Analog
Systems
Engineering Path
17
μ-Architecture
implementation End product
S0A+ S0B+ S1C+ S1D
Digital system
Analog system
Today’s Topics
• Course information • Course instructor info. and office hours
• Textbook and Syllabus
• Exam Dates
• Marking scheme
• Course objectives
• Background Review
18
Background Review
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• Requires Background from 302:
• Devices diodes, MOSFETs and BJTs
• Device characteristics I-V characteristics for MOSFETs and BJTs
• Equivalent circuits models π and T model
• Small signal analysis transconductance, gain, output impedance
• Different configurations CS,CG,CD & CE,CB,CC
• General Circuit Concepts: • Solving circuits: KVL, KCL
• Solving circuits with dependent source
• Simple 1st order filters
• Control system Concepts:
• Feedback systems