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Basic Amplifiers and Basic Amplifiers and
Differential Amplifier Differential Amplifier
CSE 577 Spring 2011
Insoo Kim, Kyusun Choi
Mixed Signal CHIP Design Lab.
Department of Computer Science & Engineering
The Penn State University
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In todays analog design, simulation of circuits is essential
because the behavior of short-channel MOSFETs cannot be
predicted accurately by hand calculations. Nonetheless, if
the
designer avoids a simple and intuitive analysis of the
circuits
and hence skips the task of gaining insight, then he/she
Dont let the computer think for youDont let the computer think
for you
Insoo Kim2/22/2011
and hence skips the task of gaining insight, then he/she
cannot interpret the simulation results intelligently. For
this
reason, we say, Dont let the computer think for you.Dont let the
computer think for you.
- Behzad Razavi
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ContentsContents
Fundamentals
Basic Amplifiers: Low Frequency Analysis
Basic Amplifiers: High Frequency Analysis
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Differential Amplifier
Feedback
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FundamentalsFundamentals
Definitions
DC Operating Point & Load line
Large Signal Analysis vs. Small Signal Analysis
MOSFET intrinsic Capacitances
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DefinitionsDefinitions
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mbmbmbmb
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DC Operating Point & Load LineDC Operating Point & Load
Line
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Large Signal Analysis vs. Small Signal AnalysisLarge Signal
Analysis vs. Small Signal Analysis
Large Signal Analysis
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Large Signal Analysis vs. Small Signal AnalysisLarge Signal
Analysis vs. Small Signal Analysis
Small Signal Analysis
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How convenient !! How convenient !! How convenient !! How
convenient !! How convenient !! How convenient !! How convenient !!
How convenient !!
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MOSFET Intrinsic CapacitancesMOSFET Intrinsic Capacitances
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(contd) MOSFET Intrinsic Capacitances(contd) MOSFET Intrinsic
Capacitances
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Basic Amplifiers: Low Frequency Basic Amplifiers: Low
Frequency
AnalysisAnalysis
Single Stage Amplifiers
Multi Stage Amplifiers
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Single Stage Amplifiers: CS, CD, and CG StageSingle Stage
Amplifiers: CS, CD, and CG Stage
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Common Source Stage : Voltage GainCommon Source Stage : Voltage
Gain
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Common Drain Stage: Output ResistanceCommon Drain Stage: Output
Resistance
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Common Gate Stage : Input ResistanceCommon Gate Stage : Input
Resistance
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SummarySummary
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QuizQuiz
CD stage amplifier is suitable for output stage of OPAmp
due to its low output impedance and large bandwidth.
However, in CMOS analog IC, CS stage is more widely
used for output stage OPAmp than CD stage. Why?
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Loads for basic amplifiersLoads for basic amplifiers
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(contd) Loads for basic amplifiers(contd) Loads for basic
amplifiers
Diode Connected Load
mmbm
o
mbmombmX
X
ggg
rggrggI
V
11
||11
1
+
+=
++=
1
1
ggA mv =
XR
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2
1
2
1
)/(
)/(
LW
LW
gmmv
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(contd) Loads for basic amplifiers(contd) Loads for basic
amplifiers
Source degeneration
Sm
mm
Rg
gG
+1
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]1)([
]1)[(
22
22
++
+++=
mbmSo
oombmSout
ggRr
rrggRR
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Cascode StageCascode Stage
Small Signal Analysis
)||(
)||( 1 inmDoutout
RRgA
VgRRV
=
=
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Rout
)||(1 Doutmv RRgA =
]1)([
]1)[(
2212
22221
++
+++=
mbmoo
oombmoout
ggrr
rrggrR
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Folded Cascode StageFolded Cascode Stage
om1
R||RR
RgA
=
=
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( )[ ] [ ]
( )
L
Lm1Dt
oLD
o3o4Cm4Co7o2o2Cm2C
o4Co2Co
2I/CSR
/CgA
RC/1
rrg||r||rrg
R||RR
=
==
=
=
=
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(contd) Folded Cascode Stage(contd) Folded Cascode Stage
What are the advantages of folded cascode amplifier?
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Disadvantages:
Limited Output swing
Large Voltage Headroom
Large Power Consumption
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Basic Amplifiers: High Frequency Basic Amplifiers: High
Frequency
AnalysisAnalysis
Frequency Analysis
Dominant Pole Approach
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Frequency AnalysisFrequency Analysis
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(contd) Frequency Analysis(contd) Frequency Analysis
Bode Plot
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Dominant Pole ApproachDominant Pole Approach
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BW Estimation by Dominant Pole ApproachBW Estimation by Dominant
Pole Approach
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Bandwidth ComparisonBandwidth Comparison
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QuizQuiz
Design an amplifier which satisfy following features using
basic single-stage amplifiers.
High gain
Large Bandwidth
High input impedance
Low output impedance
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Differential AmplifierDifferential Amplifier
Single Stage Amplifiers
Multi Stage Amplifiers
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Why differential Amplifier?Why differential Amplifier?
Single Ended Signal can be easily contaminated
A Differential Signal can be cleaned up
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Power Supply noise can be reduced
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Differential Amplifier AnalysisDifferential Amplifier
Analysis
Classic Diff Amp
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(contd) Differential Amplifier Analysis(contd) Differential
Amplifier Analysis
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Diff Amp with Current Mirror LoadDiff Amp with Current Mirror
Load
)||(
||
424,2
42
4,2
oomv
ooout
mm
rrgA
rrR
gG
=
=
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Common Mode Input Voltage Range
VSS+VTN1+VDSAT5+VDSAT1 < VIC < VDD|VDSAT3||VTP3|+|
VTN1|
)||()(
)||()2(
313
31351
oom
oomom
rrgloadRCMRR
rrgrgCMRR
=
=
1. What is CM Input Voltage?1. What is CM Input Voltage?1. What
is CM Input Voltage?1. What is CM Input Voltage?2. How do we prove
this equation?2. How do we prove this equation?2. How do we prove
this equation?2. How do we prove this equation?
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(Std. Library) Design Exercise(Std. Library) Design Exercise
Design Flow
Determine Specifications
Power Consumption (ex. 1mW)
Voltage Gain (ex. >30)
Active Common Mode Input range (as large as possible)
Others: slew rate, CMRR, PSRR, etc.
Determine minimum channel length
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Determine channel width
Determine W1,2 from voltage gain spec.
Determine W5 & Bias Voltage from power consumption & CM
min.
Determine W3,4 from CM max.
Determine Bias Level of current source tr.
Check other specifications
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FeedbackFeedback
Feedback & Stability
Voltage Amplifier Model
Common Mode Feedback
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Feedback & StabilityFeedback & Stability
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Voltage Amplifier ModelVoltage Amplifier Model
Models
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(contd) Voltage Amplifier Model(contd) Voltage Amplifier
Model
1st Order Model
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(contd) Voltage Amplifier Model(contd) Voltage Amplifier
Model
2nd Order Model
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(contd) Voltage Amplifier Model(contd) Voltage Amplifier
Model
Time Response of the 2nd Order Model
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(contd) Voltage Amplifier Model(contd) Voltage Amplifier
Model
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Feedback CharacteristicsFeedback Characteristics
Gain desensitization
Band width extension
A
A
A1
1
A
A
A)(1
AA
A1
A
x
xA
f
f
2f
s
of
dd
dd
+=
+=
+=
Noise Reduction
2
n
s
21
1n
21
21so
AV
V
N
S
AA1
AV
AA1
AAVV
=
++
+=
n
s
V
V
N
S=
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Band width extension
)A1(/s1
)A1/(A
A(s)1
A(s))s(A
s/1
AA(s)
MH
MM
f
H
M
++
+=
+=
+=
Non-linearity Reduction
(a)(a)(a)(a) w/o feedbackw/o feedbackw/o feedbackw/o
feedback(b)(b)(b)(b) w feedbackw feedbackw feedbackw feedback
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Common Mode FeedbackCommon Mode Feedback
Why is CMFB circuit needed?
Due to TR mismatch, TRs may not be in saturation region at
operating point. DM Gain decreases and CM gain increases
Since output CM level is sensitive to device properties and
mismatches, it cannot be stabilized by means of differential
feedback.
General Topology of CMFB Circuit
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(contd) Common Mode Feedback(contd) Common Mode Feedback
Examples of CMFB
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Useful for low gain applicationsUseful for low gain
applicationsUseful for low gain applicationsUseful for low gain
applicationsFolded cascode amplifier with CMFBFolded cascode
amplifier with CMFBFolded cascode amplifier with CMFBFolded cascode
amplifier with CMFB)||||( 4,32,12,1 FOOmv RrrgA =
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ReferencesReferences
Joongho Choi, CMOS analog IC Design, IDEC Lecture
Note, Mar. 1999.
B. Razavi, Design of Analog CMOS Integrated Circuits,
McGraw-Hill, 2001.
Hongjun Park, CMOS Analog Integrated Circuits
Design, Sigma Press, 1999.
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