THz & nm Transistor Electronics: It's All About The Interfaces.
The Revolution from Transistor to Digital Electronics
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Transcript of The Revolution from Transistor to Digital Electronics
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The Revolution from Transistor to Digital Electronics
PROJECT SUBMITTED BY:-
SAUPARNA DATTASAUPARNA DATTASUBHAJIT BHATTACHARJEESUBHAJIT BHATTACHARJEE
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Table of Contents………
Bipolar Junction Transistor.Field Effect Transistor.MOSFET.E-type MOSFET.D-type MOSFET.C-type MOSFET.Entering into Digital ElectronicsLogic Implementation.
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History of transistors
In 1906, an American inventor and physicist, Lee De Forest, made
the vacuum tube triode or audion as he called it.
Used in radios Used in early computers
In 1947, John Bardeen and Walter Brattain deviced - the first "point contact" transistor.
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Basic construction of Transistor
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Transistor operation
force – voltage/currentwater flow – current - amplification
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Field Effect Transistor
Field effect Transistor is a semiconductor device which depends for its operation on the control of current by an Electric Field.
Classification of Field Effect Transistors
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7
7
Construction
Drain
Source
GATE
For a N Channel FET
an N type silicon Bar is
used
Heavily doped P type
material is deposited on either side of
the bar to form GATE
The two ends of the bar are
known as Source and
Drain
Fig 3. Construction of N Channel FET EC-302.31 t0 32
AEI302.31 TO 33
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Fig3116_new.swf
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9
9
Drain Characteristics 9 Drain characteristics show the relation between the
drain to source voltage and VDS and drain current ID
AB
Avalanche BreakdownID
VDS
- VGS
OHMIC Region Pinch Off
Region Breakdown Region
VGS= 0
AEI302.31 TO 33
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MOSFET
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How does a MOSFET work?
Structure: Device formed on lightly
doped p-type substrate. Source and drain are
heavily doped with n-type. Oxide layer separates gate
from Si surface. Result: N-P-N type, nMOS.
nMOS device in enhancement mode
Equilibrium energyband diagram
Operation: VGS > Vth
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MOSFETThere are basically two types of MosfetEnhancement type Mosfet
Depletion type Mosfet
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HELLO EVERY ONE LET’S HELLO EVERY ONE LET’S LEARN VLSI BASIC BUILDING LEARN VLSI BASIC BUILDING
BLOCK…BLOCK…
Fundamental of MOS Fundamental of MOS Theory and Theory and
CMOS TransistorsCMOS Transistors
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CMOS Transistor
Gate
Source
Drain
Gate
Drain
Source
Complementary MOS P-channel MOS (pMOS) N-channel MOS (nMOS)
pMOS P-type source and drain
diffusions N substrate Mobility by holes
nMOS N-type source and drain
diffusions P substrate Mobility by electrons
pMOS
nMOS
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CMOS Transmission Gate
Transmit signal from INPUT to OUTPUT when Gate is closed
Drain
Gate
INPUT
Gate (complementary of Gatecomplementary of Gate)
Gate
pMOS nMOS OUTPUT
0 OFF OFF ZZ1 ON ON INPUT
ZZ : High-Impedance State, consider the terminal is “floating”
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CMOS Inverter
Connect the following terminals of a PMOS and an NMOS Gates Drains
Vdd
PMOSVin Vout
Ground
NMOS
Vdd
Gnd
Vout
Vin
Vin
Vin = HIGHVout = LOW (Gnd)
ONON
OFFOFF
Vdd
Gnd
Vout
Vin
Vin
Vin = LOWVout = HIGH (Vdd)
ONON
OFFOFF
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PUN/PDN of a CMOS Inverter
A B0 11 Z
A B0 Z1 0
A B0 11 0
Pull-UpNetwork
Pull-DownNetwork
CombinedCMOSNetwork
A
Gnd
B
CMOS Inverter
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PUN/PDN of a NAND Gate A B C
0 0 10 1 11 0 11 1 Z
A B C0 0 Z0 1 Z1 0 Z1 1 0
A B C0 0 10 1 11 0 11 1 0
Pull-UpNetwork
Pull-DownNetwork
CombinedCMOSNetwork
A
B
A B
C
Vdd
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PUN/PDN of a NOR Gate
A B C0 0 10 1 Z1 0 Z1 1 Z
A B C0 0 Z0 1 01 0 01 1 0
Pull-UpNetwork
Pull-DownNetwork
CombinedCMOSNetwork
A
C
B
A B
Vdd
A B C0 0 10 1 01 0 01 1 0
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PUN/PDN of a XOR GateVdd
A
B
A A
A
B
BB
C
A B C0 0 Z0 1 11 0 11 1 Z
A B C0 0 00 1 Z1 0 Z1 1 0
A B C0 0 00 1 11 0 11 1 0
Pull-UpNetwork
Pull-DownNetwork
CombinedCMOSNetwork
Function = XORXOR
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A Systematic ApproachEach variable in the given Boolean eqn
corresponds to a PMOS transistor in PUN and an NMOS transistor in PDN
Draw PUNPUN using PMOS based on the Boolean eqn ANDAND operation drawn in seriesseries OROR operation drawn in parallelparallel
Invert each variablevariable of the Boolean eqn as the gate input for each PMOS in the PUN
Draw PDNPDN using NMOS in complementary form Parallel (PUN) to series (PDN) Series (PUN) to parallel (PDN)
Label with the same inputs of PUNLabel the output
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Example
BCAF In series
In parallelVdd
(1) Draw the Pull-Up Network
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Example
BCAF In series
In parallelVdd
(2) Assign the complemented input
A
C
B
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Example
BCAF In series
In parallelVdd
(3) Draw the Pull-Down Network in the complementary form
A
C
B
A C
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Example
BCAF In series
In parallelVdd
(3) Draw the Pull-Down Network in the complementary form
A
C
B
A C
B
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Example
BCAF In series
In parallelVdd
Label the output F
A
C
B
A C
B
F
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Example
BCAF In series
In parallelVdd
A
C
B
A C
B
FA B C F0 0 0 00 0 1 00 1 0 10 1 1 11 0 0 11 0 1 01 1 0 11 1 1 1
Truth Table
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BIBLIOGRAPHY
Wikipedia.com
Google.com
Mahesh Naidu (B.E. in Electrical & Electronics, BITS-Pilani Hyderabad
Campus)
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