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1.6 Op-Amp Basics
Basic Op-Amp
Op-amp equivalent circuit
Practical (Ri = high , Ro = small) Ideal (Ri =∞ , Ro = 0)
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1.6 Op-Amp Basics
Basic Operation of Op-Amp input voltage at minus (-) output voltage opposite in phase input voltage at plus (+) output voltage in phase
Basic Op-Amp - Constant-gain multiplier
Input signal is applied through resistor Ri to the minus input
Output is connected to the same minus input through resistor Rf
Resulting output: opposite in phase to input signalInverting constant gain multiplier
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1.6 Op-Amp Basics
Op-amp ac equivalent circuit
Basic Op-Amp - Constant-gain multiplier
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1.6 Op-Amp Basics
Ideal Op-amp equivalent circuit Redrawn equivalent circuit
(for circuit analysis)
Basic Op-Amp - Constant-gain multiplier
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1.6 Op-Amp Basics
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1 VRR
RV
f
fi
Using Superposition theorem
Basic Op-Amp - Constant-gain multiplier
i) V1 only (set –AvVi =0)
ii) –AvVi only (set V1 =0)
ivf
i VARR
RV
1
12
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1.6 Op-Amp Basics
11
VRA
RV
v
fi
11)1(V
RAR
RV
vf
fi
Basic Op-Amp - Constant-gain multiplier
ivff
fiii VA
RR
RV
RR
RVVV
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11
121
i
f
v
f
i
v
i
iv
i
o
V
V
R
R
RA
VR
V
A
V
VA
V
V 1
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1
11 R
R
V
V fo
It is shown that the ratio i/o depends only on the value of Rf and R1
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1.6 Op-Amp Basics
Basic Op-Amp - Unity Gain
111
R
R
V
V foIf Rf = R1
Gain with negative sign shows that the output voltage has undergone 180º phase inversion from input signal
Basic Op-Amp - Constant Gain
If Rf = 10R1 1011
R
R
V
V fo
If we select precise values for Rf and Ri, we can obtain a wide range of gains
Gain accuracy depends on resistors used
Gain is slightly affected by temperature & other circuit factors
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1.7 Practical Op Amp Circuits
Inverting Amplifier Non-inverting Amplifier
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0 1R
R
V
V f11
0
R
R
V
V f
Inverting constant gain multiplier Non-inverting constant gain multiplier
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1.7 Practical Op Amp Circuits
Non-inverting Amplifier
01
11 V
RR
RV
f
Equivalent circuit Non-inverting constant-gain multiplier
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1
1
0 1R
R
R
RR
V
V ff
Which results in;Since Vi = 0, using voltage divider rule,
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1.8 Data Sheet LM741
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1.8 Data Sheet LM741
ABSOLUTE MAXIMUM RATINGS
Supply voltage = +22V
Internal power dissipation = 500mW
Differential input voltage = + 30V
Input voltage = + 15V
ELECTRICAL CHARACTERISTICS
Input offset voltage
Input offset current
Input bias current
Input resistance
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1.8 Data Sheet LM741
ELECTRICAL CHARACTERISTICS
Large signal voltage gain
Output voltage swing
Output short circuit current
Supply voltage rejection ratio
Bandwidth
Slew rate
Supply current
Power consumption
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1.8 Data Sheet LM741
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1.8 Data Sheet LM741
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1.8 Data Sheet LM741
