6.002x CIRCUITS AND ELECTRONICS€¦ · 6.002x CIRCUITS AND ELECTRONICS Amplifiers – Revisit...
Transcript of 6.002x CIRCUITS AND ELECTRONICS€¦ · 6.002x CIRCUITS AND ELECTRONICS Amplifiers – Revisit...
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6.002x CIRCUITS AND ELECTRONICS
Amplifiers – Revisit Small Signal Trick
Reading: Amplifier small signal model -- Chapter 8 of A&L
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n MOSFET amp
n Saturation discipline — operate MOSFET only in saturation region
n Large signal analysis 1. Find vO vs vI under saturation discipline. 2. Valid vI , vO ranges under saturation discipline.
Review Vs RL
vO
vI iDS
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Large Signal Analysis Review Review ( )
LTI
SO RVvKVv2
2−−=
“interesting” region for vI .
Saturation discipline satisfied.
corresponding interesting region for vO
2 Valid operating ranges
TIO Vvv −=TIO Vvv −>
TIO Vvv −<
Vge 5 .,.
V1
V1
Vs
vI
vO
VT
V2
1 vO vs vI
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Operating in the saturation region
Iv
SV
TV
TIO Vvv −=
vO
Vs RL
vO vI iDS
( )L
TISO RVvKVv
2
2−−=
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But…
Iv
SV
TV
TIO Vvv −=
vO
Demo
( )L
TISO RVvKVv
2
2−−=
Amp is nonlinear … L How do we get a linear amplifier?
Vs RL
vO vI iDS + –
+ – VI
vA
VI vA
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Small Signal Trick
TV
VS
vO
vI
Vs RL
vO
vI iDS
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Small Signal Trick
v Operate amp at VI , VO à DC “bias” (possible choice: midpoint of valid input operating range)
v Superimpose small signal of interest on top of VI
v Response to small signal seems to be approximately linear
Remember “Boost and Shrink”
Vs RL
vO
vI iDS + –
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We use a DC bias VI to “boost” interesting input signal above VT (and in fact, well above VT )
Boost – Use DC Bias Vs RL
vO
vI iDS + –
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Let’s look at this in more detail — I graphically II mathematically III from a circuit viewpoint
In the next sequence
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I Graphically interesting input signal
+– +–
IvΔ
Vs
RL
vO
VI
TIO Vvv −=
vO
VS
0 VT
vI
vI
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Recall Small Signal Model Notation aka incremental model aka linearized model
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Small Signal Model Input: vI = VI + vi
Output: vO = VO + vo
0 0
vI vO
t t
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II Mathematically
… watch my fingers!
( )22 TIL
SO VvKRVv −−=
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II Mathematically
… watch my fingers!
( )22 TIL
SO VvKRVv −−=
Transconductance related to MOSFET parameters and VI
We will see why this is called transconductance in the next sequence
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Mathematically ( ) iTILo vVVKRv −−=
gm related to VI
In other words, our circuit behaves like a linear amplifier for small signals
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Also, see Figure
8.9 in the text
for a graphical
interpretation
of this result
Another way ( )2
2 TIL
SO VvKRVv −−=
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Small Signal Demo interesting input signal
+ – + –
Iv
SV
TVTIO Vvv −=
0
Demo
Vs
RL
vO vi
VI
vO
Iv