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General Information:

Lecturer:                  Reza Sarvari (office EE221)  

Classes:                   ZOJ 1:30-3:00    ;  Bargh3

Text:                         Hu, "Modern Semiconductor Devices for Integrated Circuits"
                                 Pierret, "Semiconductor Device Fundamentals"

Suggested Texts:     Streetman, "Solid State Electronic Devices"  (Text Figures)
                                 Muller, "Device Electronics for Integrated Circuits"
                                 Yang, "Microelectronic Devices"
                                 
                                 
Syllabus:                  

Grades(tentative):     HW(3)+2Midetrms (8)+Final(9)
                                If # of Hws and Quizes are double-digit, two minimum omitted

Homeworks/Exams and solutions:

             homework 1  ;
             homework 2  ;
             homework 3  ; 
             homework 4  ;  



Lectures: (  Google Drive ) OLDER VIDEO FILES OCW (اصول ادوات حالت جامد)

            Lecture0-a    (  Lecture0a ) Introduction - Atom to Transitor
            Lecture0-b    (  Lecture0b ) Introduction - Atom to Transitor!
            Lecture1       (  Lecture1   ) Quantum - History
            Lecture2       (  Lecture2   ) Quantum - Examples
            Lecture3       (  Lecture3   ) Crystals
            Lecture4       (  Lecture4   ) Bonds - E-k relation
            Lecture5       (  Lecture5   ) Dopants and Carrier Concentration
            Lecture6       (  Lecture6   ) Drift, Diffusion, Equilibrium
            Lecture7       (  Lecture7   ) Recombination - Generation
            Lecture8       (  Lecture8   ) pn Junction - Electrostatics
            Lecture9       (  Lecture9   ) pn Junction - I/V characteristics
            Lecture10     (  Lecture10 ) pn Junction - non-ideal effects
            Lecture11     (  Lecture11 ) pn Junction - Transient / small-signal
            Lecture12     (  Lecture12 ) M-S Junction 
            Lecture13     (  Lecture13 ) Field Effect Transistor, JFET, MESFET
            Lecture14     (  Lecture14 ) MOSCap 01
            Lecture15     (  Lecture15 ) MOSCap 02
            Lecture16     (  Lecture16 ) MOSFET
            Lecture17     (  Lecture17 ) MOSFET scaling
            Lecture18     (  Lecture18 ) BJT1
            Lecture19     (  Lecture19 ) BJT2

Older HWs:

the only way to hand in solutions is coursewrae
for solutions please check coursewrae

            homework 1    ;   solution  (due 21 Bahman)
            homework 2&3;   solution  (due 5 Esfand)
            homework 4    ;   solution  (due 17 Esfand)
            homework 5    ;   solution  (due 23 Esfand)
            homework 6    ;   solution  (due 26 Esfand)
            homework 7    ;   solution  (due 29 Farvardin)
            homework 8    ;   solution  (due 3 Ordibehesht)
            homework 9    ;   solution  (due 10 Ordibehesht)
            homework 10  ;   solution  (due 20 Ordibehesht)
            homework 11  ;   solution  (due 27 Ordibehesht)
            homework 12  ;   solution  (due 1 khordad)
            homework 13  ;   solution  (due 8 khordad)

            term project   (due 9 tir)



Lecture Notes:

Newer Slides:
             PSSD00
             PSSD01
             PSSD02
             PSSD03
             PSSD04
             PSSD05
             PSSD06
             PSSD07
             PSSD08
             PSSD09
             PSSD10

Older Slides:
             SSD_00
             SSD_01
             SSD_02
             SSD_03
             SSD_04
             SSD_05
           

Note: there are several typos in these notes, you may use them to understand the topics that have been covered in the classes. So if you have not been in the classes, use lecture notes at your own risk!

            Part 1 
            Part 2 

_________


Interactive simulations
Duality - wiki
Wave-particle duality
RadioTalk w Afshar
Uncertainty Principle
Schrodinger Equation
Quantum wavefunction
Operators and QM
Operators and Commutators - wiki
Operators in QM
Postulates of QM
Java applet solving Schrodinger Eq
Periodic Potential Lab
Review of quantum mechanics: 
  • Wave-particle duality 
  • Time-independent Schrödinger Equation 
  • Probability densities 
  • Operators 
  • Properties of Eigenfunctions and Eigenvalues 
  • Time-Dependent Schrödinger Equation 
  • Free Particle, Particle in a Box, Quantum Wells, Tunneling




Crystal - wiki
Review Presentation
Solid Surfaces
Crystal structures (Structures of Solids)
Crystal Lattice
Bravais lattice - wiki
3D graphics
Symmetry Exp. Applet (Symm. Solids)
Crystal, Symmetry, Diffraction
Miller index - wiki
Animation of Miller Indices
Crystal Planes Claculator
Structures of crystals: 
  • Materials and Bonds
  • Crystal Structure
  • Basis / Lattice 
  • Unit Cell, Primitive Unit Cell, Wigner-Seitz Unit Cell
  • Miller Indices      






Semiconductor - wiki
Energy bands
Intrinsic and Extrinsic Semiconductor
Semiconductor at equilibrium
Drift and Diffusion Current
 Effective Mass, Density of States
Effective mass
Fermi–Dirac statistics - wiki (+)
Compare different statistics
Carrier Transport
Basic Bulk Silicon Transport
Gen./Recom. (+) (+)
Semiconductor Properties:
  • Electron/holes 
  • Energy bands 
  • effective mass
  • Density of states
  • Intrinsic and Extrinsic materials
  • Fermi-Dirac statistics 
  • Drift, mobility, resistivity 
  • Diffusion (Einstein relationship) 
  • Generation/Recombination
  • quasi-Fermi level


Semiconductor technology
Czochralski process
Crystal Growth and Fabrication
 VLSI Fabrication Review
Thermal oxidation - wiki
Photolithography - wiki
Chemical vapor deposition - wiki
 Fabrication Technology
Animation of CMOS process
Ion Beam Simulator
Fabrication: 
  • Crystal growth
  • Thermal oxidation
  • lithography and pattern transfer
  • Dopant addition and diffusion
  • Chemical vapor deposition 




p-n junction - wiki (+)
p-n Junctions
PN Junction Band Diagram
PN Junction Lab
 PN Electrostatic
 IV Characteristic of PN (+)
 Minority & Majority currents
 PN capacitance (+)
 PN juction model
Reverse bias breakdown

PN Junction: 
  • PN diode fabrication
  • Energy diagram (PN electrostatics)
  • I-V characteristics (ideal diode)
  • Minority & Majority currents 
  • Junction capacitance 
  • Junction model 
  • junction breakdown
  • generation / recombination current 




 MS Contact (+)
 MS Junction
Schottky diode - wiki
Schottky diode current
Ohmic contact - wiki

Metal-Semiconductor Contact:
  • Ideal MS contacts
  • Energy diagram
  • current / voltage characteristics
  • schottky diode
  • Ohmic contact

MOSFET , CMOS - wiki
MOS Capacitors (+) (+)
 MOS fundamentals
 MOS Electrostatics
MOSCap simulator
CV Characteristics  (+)
Short-channel effect - wiki  (+)
CMOS process
 CMOS/Overview

MOS Devices: 
  • MOS cap
  • MOS fundamentals
  • Electrostatics
  • flat-band, enhancement, depletion, inversion
  • C-V Characteristics
  • MOSFET I-V  characteristic
  • device model
  • MOS technology
  • Oxide charges, Mobile ions, Fixed Charge, Interfacial traps, Induced charges
  • short channel effects


BJT - wiki
 BJT basics
 Singh book's pics
base transit time
Non-ideal effects
Transistor models

Bipolar Transistor: 
  • Structure and operation
  • BJT Fundamentals
  • emitter and base efficiencies
  • current gain
  • base transit time
  • device model
  • regions of operations
  • Ebers-Moll model 





Same Course at Other Schools!

                MIT1   ;    MIT2    ;    MIT3   ;   MIT4
                Berkeley ;  (+)
                CalTech
                Purdue2
                UIUC
                UMN
                RPI
                Graz University of Technology
                Delft
                Washington
                Minnesota
                Virginia
                Drexel
                U of Florida (+)                            




Useful Links: