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News:  
  • Extra HW posted!

General Information:

Lecturer:            Reza Sarvari (office EE221)  

Classes:             Sunday, Tuesday   9:00-10:30    ;  Classroom EE04

Text:                [T1] Agarwal, Lang "Foundations of Analog and Digital Electronic Circuits"
                        [T2] Desoer, Kuh "Basic circuit theory"

Suggested Readings:     
                        Razavi, "Fundamentals of Microelectronics"
                        Sedra, Smith, "Microelectronic Circuits"   Text  ,  Solution 
                        Floyd, Buchla, "Fundamentals of Analog Circuits"
                        Millman, Grabel, "Microelectronics"
                        Boylestad, Nashelsky, "Electronic Devices and Circuit Theory

Syllabus:         see 25721

کلاسهای حل تمرین:
  • سه شنبه  ساعت ۱۲ الی ۱  کلاس الف ۱۱ 
  • چهارشنبه  ساعت ۱۲ الی ۱  کلاس الف ۱۱  
 

Grades:           Lab (20%) + MidTerm (30%) + HW&Quizes (10%) + Final (40%)
                        Note: to pass the course you need to score minimum 50% of (Mid & Final)   

  Older Homepae

Homeworks/Exams and solutions:
LTSpice files are denoted with  ; (get it from here)

           homework 01 ;
           homework 02 ;
           homework 03 ;
           homework 04-05 ;
           homework 06 ;
           homework 07 ;
           homework 08 ;
           homework 09 ;
           homework 10 ;
           homework 11 ;
           homework 12 ;



           Mid-solution 96-02 ;
           final-solution 95-02 ;
           mid-solution 95-02 ;
           final 94-02 ;
           final 94-01

Slides:

           AC 01
           AC 02
           AC 03
           AC 04

References:

Thoroughly written notes by "Dr. Alavi." More extensive than what we cover for the Part of "Electronics" on this course, still one of the best notes you may find:

         Review:     Chapter 1: 01
         Amplifiers: Chapter 2: 02a , 02b
         OpAmps:   Chapter 3: 03
         Diode:       Chapter 4:  04a , 04b
         BJT:          Chapter 5:  05
         FET:          Chapter 6: 06

Older Homeworks/Exams and solutions:

           homework 01 ;
           homework 02 ;  
           homework 03
           homework 04 ;
           homework 05 ;
           homework 06
           homework 07
           homework 08 & 09 ;


           homework 01&02
           homework 03 ;
           homework 04 ;
           homework 05 ;
           homework 06 ;
           homework 07 ;
           homework 08 ;
           homework 09 ;
           homework 10 ;


           Sample Exams.zip
           Sample Exams with solutions.zip

Lab Companion:

            CoverSheet  use this coversheet for your Lab reports,
           Note: Please consider new ordering for lab session as:

           LAB1  ; LAB 01 
           LAB2  ; LAB 02 
           LAB3  ; LAB 03 
           LAB6  ; LAB 06 
           LAB7  ; LAB 07 
           LAB8  ; LAB 08 
           LAB4  ; LAB 04 
           LAB5  ; LAB 05 



Lecture Notes:


Reading:
[T2] Chapter02  

Signals  
Unit Impulse Overview
Continuous/Discrete-Time Signals
.
(Review of) signals :
  • Unit Step
  • Unit Impulse (Delta)
  • Unit Ramp
  • Sinusoid
  • Periodic Signals  



Resistor
Series/Parallel Conections
Two-Terminal Resistors
Basic Circuit Concepts
 Resistors
Resistive Circuits

(Review of) Resistive Networks:
  • Nonlinear resistors
  • Series and Parallel
  • Equivalent resistance ()
  • Dependent Sources
  •    





KVL-KCL
KVL-KCL
Nodal Analysis
Mesh and Nodal Analysis
.
Mesh/Node Analysis:
  • Floating Sources
  • Superposition
  • Thevenin/Norton Network
  •  



 Fundations of Nonlinear Network
 Series/Parallel Elements
Nonlinear Circuit Analysis –
.
Analysis of Nonlinear Circuits:
  • Nonlinear Elements (Diode)
  • Analytical Solutions/ Graphical Analysis
  • Piecewise Linear Analysis
  • AC/ DC Analysis (Incremental Analysis)


Capacitors / Inductors
Capacitors & Inductors

Energy Storage Elements:
  • Capacitors/ Inductors
  • Circuit Examples
  • Thevenin/Norton Network
  • Active/ Passive Energy 

BJT Amplifier Circuits
BJT Small Signal Model
Basic BJT Amplifiers
Basic FET Amplifiers

Amplifiers:
  • Transistors
  • DC analysis
  • Bias point
  • Small Signal Equivalent
  • 2- port Equivalent Circuit  


Op Amp Circuits
 Ideal Op Amp

Operational Amplifiers:
  • The Op Amp Model
  • Input and Output Resistances
  • Operations!
  • Op Amp in Saturation
  •   



1st Order Circuits
1st Order Circuits

 RLC Circuits
1st/2nd-Order Circuits
1st/2nd-Order Circuits
 Transient Analysis
State-Variable Analysis

First/Second-Order Circuits:
  • State Variables
  • Series/Parallel RLC Circuit
  • Step/Impulse Response
  • State-Variable Method
  • Higher-Order Circuits  





Sinusoial / Phasor Analysis
Sinusoidal steady state analysis
Sinusoidal Steady-State
Freq Response
Bode Plot
Frequency Response and Bode Plot
Exercises on Static Circuits
AC Circuit Analysis


Sinusoidal Steady State:
  • Phasor Analysis
  • Homogeneous/Particular/Complete Solution
  • Sinusoidal Steady-State Response
  • Impedance
  • Frequency Response 
  • Resonance
  • Bode Plot 





.


.
Diodes + Energy Storage Elements :
  • Analysis of Diode Circuits
  • Peak Detector/Clamping Circuit
  • Full-Wave Diode Bridge
  •  



.
Circuit Simulation  



Applet (+) (+)
wiki - wiki  aa
pdf  aa
ppt  aaa
.
Other:
  • Spice
  • c
  • d
  • e
  • f  






Similar Course at Other Schools!

            MIT:  6.002 ; 6.012  ; 6.012  ;  6.071  ;  6.101  ;  6.098  ;
            Berkeley: EE40 ; EE100 ; EE105 ;
            Stanford:  ee122 ;  
            Michigan: ece311 ;
            GaTech:  ece2040 ; ece3041 ; ece3041 ; ece3050  ;    
            ASU: ECE201  ; EEE202  ; EEE302 ;   
            UC San Diego : ece53a (+) ;   ece60a  ;          
            Colorado: ecen4827   ;
            Kentucky: ee562   ;
             
            UC Santa Cruz: ee171   ;
            Mississippi State: ece3434  ;
             
            Rose-Hulman: ES203   ;



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