Chapter 10 - Capacitors Introductory Circuit Analysis Robert L. Boylestad.
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Transcript of Electronic devices-and-circuit-theory-10th-ed-boylestad-chapter-8
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Chapter 8:FET Amplifiers
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IntroductionIntroduction
FETs provide:FETs provide:FETs provide: FETs provide:
• Excellent voltage gainHi h i i d• High input impedance
• Low-power consumption• Good frequency range
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FET SmallFET Small--Signal ModelSignal Modelgg
TransconductanceTransconductance
Th l ti hi f h i I t th di h iThe relationship of a change in ID to the corresponding change in VGS is called transconductancetransconductance
Transconductance is denoted g and given by:Transconductance is denoted gm and given by:
Dm
Ig
Δ=
GSm V
gΔ
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Graphical Determination of gGraphical Determination of gmmp gp gmm
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Mathematical Definitions of gMathematical Definitions of gmmggmm
GS
Dm V
Ig
ΔΔ
=
⎥⎦
⎤⎢⎣
⎡−=
P
GS
P
DSSm V
V1
V2I
g
P
DSSm0 V
2Ig =
⎤⎡
Where VGS =0V
⎥⎦
⎤⎢⎣
⎡−=
P
GSm0m V
V1gg
DSS
D
P
GSII
VV
1 =−
IV ⎞⎛
Where
DSS
Dm0
P
GSm0m I
Ig
VV
1gg =⎟⎟⎠
⎞⎜⎜⎝
⎛−=
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FET ImpedanceFET Impedance
Input impedance:Input impedance:
pp
Ω∞=iZ
do y1rZ ==
Output Impedance:Output Impedance:
osy
VΔwhere:
constant VD
DSd GSI
Vr ==
ΔΔ
yos= admittance parameter listed on FET specification sheets.
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FET AC Equivalent CircuitFET AC Equivalent Circuit
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CommonCommon--Source (CS) FixedSource (CS) Fixed--Bias CircuitBias Circuit( )( )
The input is on the gate and the output is on the drain
There is a 180° phase shift between input and output
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CalculationsCalculationsCalculationsCalculationsInput impedance:Input impedance:
Gi RZ =
Output impedance:Output impedance:
dDo r||RZ =
RZ
p pp p
10RrDo
DdRZ
≥≅
Voltage gain:Voltage gain:
)R||(rgVV
A Ddmi
ov −==
Voltage gain:Voltage gain:
i
Dd 10RrDmi
ov Rg
VV
A≥
−==
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CommonCommon--Source (CS) SelfSource (CS) Self--Bias CircuitBias Circuit( )( )
This is a common-source amplifier configuration, so the input is on the gate and the output is on the drain
There is a 180° phase shift between input and output
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CalculationsCalculations
RZ
Input impedance:Input impedance:
Gi RZ =
Output impedance:Output impedance:
Ddo R||rZ =
RZ
p pp p
10RrDo
DdRZ
≥≅
)R||(rgA Ddmv −=
Voltage gain:Voltage gain:
Dd 10RrDmv RgA≥
−=
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CommonCommon--Source (CS) SelfSource (CS) Self--Bias CircuitBias CircuitRemoving Cs affects the gain of the circuit.g
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CalculationsCalculations
Gi RZ =
Input impedance:Input impedance:
Gi
Output impedance:Output impedance:
10RrDo
DdRZ
≥≅
Dmo RgVA −==
Voltage gain:Voltage gain:
d
SDSm
iv
rRR
Rg1VA
+++
==
Dmo RgVA )R(R01r
Sm
Dm
i
ov SDdRg1
gV
A +≥+−==
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CommonCommon--Source (CS) VoltageSource (CS) Voltage--Divider BiasDivider Bias
This is a common-source amplifier configuration, so the input is on the gate and the p goutput is on the drain.
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ImpedancesImpedances
Input impedance:Input impedance:
21i R||RZ =
Output impedance:Output impedance:
Ddo R||rZ =
Output impedance:Output impedance:
10RrDo
DdRZ
≥≅
Voltage gain:Voltage gain:)R||(rgA Ddmv −=
Voltage gain:Voltage gain:
Dd 10RrDmv RgA≥
−=
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Source Follower (CommonSource Follower (Common--Drain) CircuitDrain) CircuitSource Follower (CommonSource Follower (Common--Drain) CircuitDrain) Circuit
In a common-drain amplifierIn a common drain amplifier configuration, the input is on the gate, but the output is from the sourcesource.
There is no phase shift between i t d t tinput and output.
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ImpedancesImpedances
RZ
Input impedance:Input impedance:
Gi RZ =
Output impedance:Output impedance:
mSdo g
1||R||rZ =
1Sd 10Rr
mSo
g1||RZ ≥≅
Voltage gain:Voltage gain:
)R||(rg1)R||(rg
VV
ASdm
Sdm
i
ov +
==
Voltage gain:Voltage gain:
10rSm
Sm
i
ov dRg1
RgVV
A ≥+==
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CommonCommon--Gate (CG) CircuitGate (CG) Circuit( )( )
The input is on the sourceThe input is on the source and the output is on the drain.
There is no phase shift between input and output.
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CalculationsCalculations
Input impedance:Input impedance:
⎥⎦
⎤⎢⎣
⎡++
=dm
DdSi rg1
Rr||RZ
1
Output impedance:Output impedance:
Dd 10Rrm
Si g1||RZ ≥≅
Output impedance:Output impedance:
dDo r||RZ =Voltage gain:Voltage gain:
10rDo dRZ ≥≅
⎥⎦
⎤⎢⎣
⎡+
d
DDm
o rR
RgV RgA
Voltage gain:Voltage gain:
⎥⎦
⎤⎢⎣
⎡+
⎦⎣==
d
D
d
i
ov
rR
1VV
A 10RrDmv DdRgA ≥=
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DD--Type MOSFET AC EquivalentType MOSFET AC Equivalentyp qyp q
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EE--Type MOSFET AC EquivalentType MOSFET AC EquivalentEE--Type MOSFET AC Equivalent Type MOSFET AC Equivalent
gm and rd can be found in the specification sheet for the FET.
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CommonCommon--Source DrainSource Drain--FeedbackFeedbackCommonCommon Source DrainSource Drain FeedbackFeedback
There is a 180° phase shift between input and output.
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CalculationsCalculationsInput impedance:Input impedance:
)R||(rg1R||rR
ZDdm
DdFi +
+=
10RR||RF
iR
Z ≥≅
Output impedanceOutput impedance::
DdDdF 10Rr,R||rRDm
i Rg1Z ≥>>+
≅
p pp p
DdFo ||Rr||RZ =
DdDdF 10Rr,R||rRDo RZ ≥>>≅DdDdF ,||
Voltage gainVoltage gain::
)R||r||(RgA DdFmv −=
Dmv D10Rd,rD||RdrFRRgA ≥>>−≅
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CommonCommon--Source VoltageSource Voltage--Divider BiasDivider BiasCommonCommon--Source VoltageSource Voltage--Divider BiasDivider Bias
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CalculationsCalculations
Input impedanceInput impedance::
21i R||RZ =
O t t i dO t t i d
Ddo R||rZ =
Output impedance:Output impedance:
RZ 10rDo dRZ ≥≅
Voltage gain:Voltage gain:
)R||(rgA Ddmv −=
RgA ≅
Voltage gain:Voltage gain:
Dd 10RrDmv RgA ≥−≅
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Summary TableSummary Tableyy
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Summary TableSummary Tableyy
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TroubleshootingTroubleshootingTroubleshootingTroubleshootingCheck the DC bias voltages:Check the DC bias voltages:
If not correct check power supply, resistors, FET. Also check to ensure that the coupling capacitor between amplifier stages is OK.
.Check the AC voltages:Check the AC voltages:
If not correct check FET capacitors and the loading effect of the nextIf not correct check FET, capacitors and the loading effect of the next stage
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Practical ApplicationsPractical Applicationspppp
ThreeThree--Channel Audio MixerChannel Audio MixerSilent SwitchingSilent Switching
Phase Shift NetworksPhase Shift NetworksMotion Detection SystemMotion Detection SystemMotion Detection SystemMotion Detection System
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