ece137a, notes set 4: emitter degeneration, common source ... · common-source amplifier: dc bias...
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
ECE137A, notes set 4:
Emitter Degeneration,
Common Source Stage
Mark Rodwell, Doluca Family Chair, ECE DepartmentUniversity of California, Santa [email protected]
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Emitter Degeneration: Before
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Emitter Degeneration: After
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
AC Small-Signal Circuit
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Need a simpler method
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Subcircuit Model for Emitter Degeneration
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Input Resistance
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Effective Transcondance
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Output Resistance
Since MOSFET circuit analysis is a more important subject,
we now simplify and approximate analysis by assuming .
Since the FET model has no element , the resulting expression
will be exact in
be x
be
R R
R
the case of FETs.
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Output Resistance
What is ?outR
Use Norton-Thevenin transformation:
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Output resistance
Using this Norton-Thevenin transformation
By inspection:
but:
so: / (1 )
test test eac m CE be test ce
be test eac
out test test eac m ce eac ce ce m eac
V I R g R V I R
V I R
R V I R g R R R R g R
(1 )out ce m eacR R g R
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Output Resistance: more exact answer
ECE137AB: use the rough approximation
If, (somewhat unlikely), you are involved
in precision analog design using BJTs, then use the more exact formula.
Ignore 1 1beRbe
out ce m eac ce m eac
be x eac
RR R g R R g R
R R R
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Model of Transistor with Emitter Degeneration
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Effect of Emitter / Source Degeneration
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Why use Emitter / Source Degeneration ?
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Emitter Degeneration Example
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Emitter Degeneration Example: Parameters
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Emitter Degeneration Example: Analysis
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Common-Source Amplifier: FET Parameters
2
Use the following (250nm FET from notes set 2)
0.3V
/ 2 0.55mA/V ( /1 m)
0.69mA/V ( /1 m)
/ 0.625V
1/ 10
th
gs g g g
v gs inj g g
inj g
V
K c W L W
K c v W W
V v L
V
For : mobility-limited
For : velocity-limited
th gs th
th gs
V V V V
V V V
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Common-Source Amplifier: DC Bias Design
2
2 2
Pick 40 m 22mA/V , 27.6mA/V
Let's bias the device @ 0.2V and 1.0V.
( ) 0.2V< 0.625V Mobility-limited
22mA/V (0.2V) (1 1V/10V)=0.97mA.
0.3V 0.5V
g v
gs th DS
gs th
D
th gs
W K K
V V V
V V V
I
V V
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Common-Source Amplifier: DC Bias Design
2 1
bias the source @ 0.5V 0.5V/0.97mA=515
0.5V+0.5V=1.0V
we can obtain this by picking 1.0M , 2.3M .
bias the drain @ 1.5V
(3.3V 1.5V)/0.97mA=1.85k
s SS
g gs s
g g
D
D
V R
V V V
R R
V
R
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Element Values
10k
100k
2.3M
1M515
1.85k
3.3V
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Common-Source Amplifier: Small-Signal Analysis
10k2.3M 1M 10.3k 1.85k
,in AmpR LeqR
2
,Amp 1 2
Mobility-limited: 2 ( )(1 ) 2(22mA/V )(0.2V)(1 1V/10V)=9.86mS.
1/ 10V/0.97mA=10.3k
|| || 10.3k ||1.85k ||10k 1.36k
|| 2.3M ||1M 697k
/ (
m gs th DS
DS D
Leq DS D L
in g g
out in m Leq
g K V V V
R I
R R R R
R R R
v v g R
, ,
9.86mS)(1.36k ) 13.2
/ / ( ) 697k / (697k 100k ) 0.875
/ ... 11.5
in gen in Amp in Amp gen
out gen
v v R R R
v v
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Maximum Signal Swings
bias solution:outC
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Maximum Signal Swings: Knee Voltage
V3.0 when occurs Knee thdg VV
0.2VV3.0V5.0 when isWhich DGgsDS VVV
V1: of valueBias DSV
V2.0: valueMinimum DSV
V8.0output going-negative Maximum V8.0
V2.0kneeV
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
max
max
The transistor has 0.97mA DC drain current.
The most we can do is decrease this current ....to zero.
0.97mA (a decrease)
The equivant load resistance is 1.36k .
D
Leq
out Leq D
out Leq
I
R
V R I
V R
max 0.97mA 1.36k 1.3V
The maximum positive output swing is 1.3V.
DI
Maximum Signal Swings: Cutoff
1.3V
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
In working the above problem,
we had been given desired DC bias currents and voltages,
and had found the required FET width and resistor values.
Suppose, instead, we had been given the FET width and resistor values,
and had been asked to find the DC bias currents and voltages.
Such analysis can be difficult.
Iteration makes the calculations easier.
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
2FET: 22mA/V , 27.6mA/V,
0.625V, 1/ =10V, 0.3V
v
th
K K
V V
We first find 3.3V(1M )/(1M 2.3M )=1.0V.gateV
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
2
2
Let's assume mobility-limited, and then check if assumption is correct.
( ) (1 )
but and ( )
So: ( ) (1 ( ))
D gs th DS
gs g D SS DS DD D SS D
D g D SS th DD D SS D
I K V V V
V V I R V V I R R
I K V I R V V I R R
This is a cubic equation ! Terribly tedious to solve.
We need a quicker technique to solve such problems.
2 2(22mA/V )(0.7V 515 ) (1 3.3V/10V (2365 ) /10V)D D DI I I
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
First ignore the term,
i.e. treat it as a perturbation
DSV
2 2 2
2 2 2
2 2 2
2 2 2
( ) (22mA/V )(0.7V 515 )
/ (22mA/V ) (0.7V) 2(0.7V)( 515 ) ( 515 )
0 ( 515 ) 2(0.7V)(515 ) 1/ (22mA/V ) (0.7V)
0 ( ) 2(0.7V) / (515 ) 1/ (22mA/V ) / (515 ) (0.7V
D g D SS th D
D D D
D D
D D
I K V I R V I
I I I
I I
I I
2 2
2 2
2 2
2 2
) / (515 )
0 (2.89mA)+(1.36mA)
0 ( / 2 ) ( / 2 ) /
1.44mA (1.44mA) (1.36mA) 1.44mA 0.49mA=1.94mA, 0.954mA.
D D
D D D
D
I I
aI bI c I b a b a c a
I
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
Now estimate the termDSV
0.954mA
so: 0.954mA 515 0.491V
and: 3.3V 0.954mA 1.85k 1.535V.
so: 1.535V 0.491V=1.043V.
D
S
D
DS
I
V
V
V
Now use this value of to estimate the termDS DSV V
(1 ) 1 1.043V/10V=1.104.DSV
Now use this better, but still slightly incorrect, value of to calculate :DS DV I
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
DC bias analysis by iteration
2 2 2
2 2 2
2 2 2 2 2
2 2
(1.104) ( ) (24.29mA/V )(0.7V 515 )
/ (24.29mA/V ) (0.7V) 2(0.7V)( 515 ) ( 515 )
0 ( ) 2(0.7V) / (515 ) 1/ (24.29mA/V ) / (515 ) (0.7V) / (515 )
0 (2.87mA)+(1.36mA)
D g D SS th D
D D D
D D
D D
I K V I R V I
I I I
I I
I I
2 21.44mA (1.44mA) (1.36mA) 1.44mA 0.436mA=1.90mA, 0.97mA.DI
If necessary, we can iterate further.
The answer is, however, now very close to exact
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Source Degeneration
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ECE137A class notes, UCSB, Mark Rodwell, copyright 2019
Source Degeneration
)1(~
/1~/1
:bipolar with as derivation Same
,
,
ACSmDSout
ACSmm
RgRR
Rgg