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EE1411
© Digital Integrated Circuits2nd Devices
Digital Integrated Digital Integrated CircuitsCircuitsA Design PerspectiveA Design Perspective
The DevicesThe Devices
Jan M. RabaeyAnantha ChandrakasanBorivoje Nikolic
July 30, 2002
EE1412
© Digital Integrated Circuits2nd Devices
Goal of this chapterGoal of this chapter
Present intuitive understanding of device operation
Introduction of basic device equations Introduction of models for manual
analysis Introduction of models for SPICE
simulation Analysis of secondary and deep-sub-
micron effects Future trends
EE1413
© Digital Integrated Circuits2nd Devices
The DiodeThe Diode
n
p
p
n
B A SiO2Al
A
B
Al
A
B
Cross-section of pn-junction in an IC process
One-dimensionalrepresentation diode symbol
Mostly occurring as parasitic element in Digital ICs
EE1414
© Digital Integrated Circuits2nd Devices
Depletion RegionDepletion Regionhole diffusion
electron diffusion
p n
hole driftelectron drift
ChargeDensity
Distancex+
-
ElectricalxField
x
PotentialV
W2-W1
(a) Current flow.
(b) Charge density.
(c) Electric field.
(d) Electrostaticpotential.
EE1415
© Digital Integrated Circuits2nd Devices
Diode CurrentDiode Current
EE1416
© Digital Integrated Circuits2nd Devices
Forward BiasForward Bias
x
pn0
np0
-W1 W20p n
(W2)
n-regionp-region
Lp
diffusion
Typically avoided in Digital ICs
EE1417
© Digital Integrated Circuits2nd Devices
Reverse BiasReverse Bias
x
pn0
np0
-W1 W20n-regionp-region
diffusion
The Dominant Operation Mode
EE1418
© Digital Integrated Circuits2nd Devices
Models for Manual AnalysisModels for Manual Analysis
VD
ID = IS(eVD/T – 1)+
–
VD
+
–
+
–VDon
ID
(a) Ideal diode model (b) First-order diode model
EE1419
© Digital Integrated Circuits2nd Devices
Junction CapacitanceJunction Capacitance
EE14110
© Digital Integrated Circuits2nd Devices
What is a Transistor?What is a Transistor?
VGS VT
RonS D
A Switch!
|VGS|
An MOS Transistor
EE14111
© Digital Integrated Circuits2nd Devices
The MOS TransistorThe MOS Transistor
Polysilicon Aluminum
EE14112
© Digital Integrated Circuits2nd Devices
MOS Transistors -MOS Transistors -Types and SymbolsTypes and Symbols
D
S
G
D
S
G
G
S
D D
S
G
NMOS Enhancement NMOS
PMOS
Depletion
Enhancement
B
NMOS withBulk Contact
EE14113
© Digital Integrated Circuits2nd Devices
Threshold Voltage: ConceptThreshold Voltage: Concept
n+n+
p-substrate
DSG
B
VGS
+
-
Depletion
Region
n-channel
EE14114
© Digital Integrated Circuits2nd Devices
The Threshold VoltageThe Threshold Voltage
EE14115
© Digital Integrated Circuits2nd Devices
The Body EffectThe Body Effect
-2.5 -2 -1.5 -1 -0.5 00.4
0.45
0.5
0.55
0.6
0.65
0.7
0.75
0.8
0.85
0.9
VBS
(V)
VT (
V)
EE14116
© Digital Integrated Circuits2nd Devices
Transistor in LinearTransistor in Linear
n+n+
p-substrate
D
SG
B
VGS
xL
V(x) +–
VDS
ID
MOS transistor and its bias conditions
EE14117
© Digital Integrated Circuits2nd Devices
Transistor in SaturationTransistor in Saturation
n+n+
S
G
VGS
D
VDS > VGS - VT
VGS - VT+-
Pinch-off
EE14118
© Digital Integrated Circuits2nd Devices
A model for manual analysisA model for manual analysis
EE14119
© Digital Integrated Circuits2nd Devices
Current-Voltage RelationsCurrent-Voltage RelationsA good ol’ transistorA good ol’ transistor
QuadraticRelationship
0 0.5 1 1.5 2 2.50
1
2
3
4
5
6x 10
-4
VDS (V)
I D (
A)
VGS= 2.5 V
VGS= 2.0 V
VGS= 1.5 V
VGS= 1.0 V
Resistive Saturation
VDS = VGS - VT
EE14120
© Digital Integrated Circuits2nd Devices
Process DataProcess Data
EE14121
© Digital Integrated Circuits2nd Devices
Current-Voltage RelationsCurrent-Voltage RelationsThe Deep-Submicron EraThe Deep-Submicron Era
LinearRelationship
-4
VDS (V)0 0.5 1 1.5 2 2.5
0
0.5
1
1.5
2
2.5x 10
I D (
A)
VGS= 2.5 V
VGS= 2.0 V
VGS= 1.5 V
VGS= 1.0 V
Early Saturation
EE14122
© Digital Integrated Circuits2nd Devices
Velocity SaturationVelocity Saturation
(V/µm)c = 1.5
n
(m/s
)
sat = 105
Constant mobility (slope = µ)
Constant velocity
EE14123
© Digital Integrated Circuits2nd Devices
Velocity Saturation (Computation)Velocity Saturation (Computation)
EE14124
© Digital Integrated Circuits2nd Devices
PerspectivePerspective
IDLong-channel device
Short-channel device
VDSVDSAT VGS - VT
VGS = VDD
EE14125
© Digital Integrated Circuits2nd Devices
IIDD versus V versus VDSDS
-4
VDS (V)0 0.5 1 1.5 2 2.5
0
0.5
1
1.5
2
2.5x 10
I D (
A)
VGS= 2.5 V
VGS= 2.0 V
VGS= 1.5 V
VGS= 1.0 V
0 0.5 1 1.5 2 2.50
1
2
3
4
5
6x 10
-4
VDS (V)
I D (
A)
VGS= 2.5 V
VGS= 2.0 V
VGS= 1.5 V
VGS= 1.0 V
ResistiveSaturation
VDS = VGS - VT
Long Channel Short Channel
EE14126
© Digital Integrated Circuits2nd Devices
A unified modelA unified modelfor manual analysisfor manual analysis
S D
G
B
EE14127
© Digital Integrated Circuits2nd Devices
Transistor Model Transistor Model for Manual Analysisfor Manual Analysis
EE14128
© Digital Integrated Circuits2nd Devices
The Sub-Micron MOS TransistorThe Sub-Micron MOS Transistor
Threshold Variations Subthreshold Conduction Parasitic Resistances
EE14129
© Digital Integrated Circuits2nd Devices
Threshold VariationsThreshold Variations
VT
L
Long-channel threshold Low VDS threshold
Threshold as a function of the length (for low VDS)
Drain-induced barrier lowering (for low L)
VDS
VT
EE14130
© Digital Integrated Circuits2nd Devices
The MOS TransistorThe MOS Transistor
Polysilicon Aluminum
EE14131
© Digital Integrated Circuits2nd Devices
MOSFET Capacitance ModelMOSFET Capacitance Model
EE14132
© Digital Integrated Circuits2nd Devices
MOSFET Gate CapacitanceMOSFET Gate Capacitance
EE14133
© Digital Integrated Circuits2nd Devices
MOSFET DB and SB CapacitanceMOSFET DB and SB Capacitance
EE14134
© Digital Integrated Circuits2nd Devices
Junction CapacitanceJunction Capacitance
EE14135
© Digital Integrated Circuits2nd Devices
More Process DataMore Process Data
EE14136
© Digital Integrated Circuits2nd Devices
Problems (2)Problems (2)
EE14137
© Digital Integrated Circuits2nd Devices
Problems (3)Problems (3)
EE14138
© Digital Integrated Circuits2nd Devices
Problems (8)Problems (8)
EE14139
© Digital Integrated Circuits2nd Devices
Problems (17)Problems (17)
EE14140
© Digital Integrated Circuits2nd Devices
Latch-upLatch-up
