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Chapter 3:Operational Amplifiers
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OPERATIONAL AMPLIFIERS
Having learned the basic laws and theorems for circuit analysis, we are now ready to study an active circuit element of paramount importance:
the operational amplifier, or op amp for short. The op amp is a versatile circuit building block.
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OPERATIONAL AMPLIFIERS
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OPERATIONAL AMPLIFIERS
1. The inverting input, pin 2.
2. The noninverting input, pin 3.
3. The output, pin 6.
4. The positive power supply V+, pin 7.
5. The negative power supply V−, pin 4.
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OPERATIONAL AMPLIFIERS
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OPERATIONAL AMPLIFIERS
As an active element, the op amp must be powered by a voltage supply as typically shown in Fig.
Although the power supplies are often ignored in op amp circuit diagrams for the sake of simplicity, the power supply currents must not be overlooked. By KCL,
io = i1 + i2 + i+ + i−
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OPERATIONAL AMPLIFIERS
The equivalent circuit model of an op amp is shown in Fig. The output section consists of a voltage-controlled source in series with the output resistance Ro. It is evident from Fig. that the input resistance Ri is the Thevenin equivalent resistance seen at the input terminals, while the output resistance Ro is the Thevenin equivalent resistance seen at the output. The differential input voltage vd is given by
vd = v2 − v1
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OPERATIONAL AMPLIFIERS
where v1 is the voltage between the inverting terminal and ground and v2 is the voltage between the noninverting terminal and ground. The op amp senses the difference between the two inputs, multiplies it by the gain A, and causes the resulting voltage to appear at the output. Thus, the output vo is given by:
A is called the open-loop voltage gain because it is the gain of the op amp without any external feedback from output to input.
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OPERATIONAL AMPLIFIERSA practical limitation of the op amp is that the magnitude of its
output voltage cannot exceed |VCC|. In other words, the output
voltage is dependent on and is limited by the power supply
voltage. Op amp can operate in three modes, depending on the
differential input voltage vd :
1. Positive saturation, vo = VCC.
2. Linear region, −VCC ≤ vo = Avd ≤ VCC.
3. Negative saturation, vo = −VCC.
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IDEAL OPERATIONAL AMPLIFIERS
To facilitate the understanding of op amp circuits, we will
assume ideal op amps. An op amp is ideal if it has the
following characteristics:
1. Infinite open-loop gain, A=∞.
2. Infinite input resistance, Ri = ∞.
3. Zero output resistance, Ro =0.
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IDEAL OPERATIONAL AMPLIFIERS
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Example
The op amp is used in the circuit of Fig. Find the closed-loop gain vo/vs . Determine current i when
vs = 1 V.
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Solution
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INVERTING AMPLIFIER
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INVERTING AMPLIFIER
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Example
Refer to the op amp in Fig.. If vi = 0.5 V, calculate: (a) the
output voltage vo, and (b) the current in the 10 kW resistor.
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Example
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Example
Determine vo in the op amp circuit shown in Fig.
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NONINVERTING AMPLIFIER
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NONINVERTING AMPLIFIER
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Voltage Follower (Buffer)
Such a circuit has a very high input
impedance and is therefore useful as an
intermediate-stage (or buffer) amplifier to
isolate one circuit from another, as portrayed
in Fig. The voltage follower minimizes
interaction between the two stages and
eliminates inter-stage loading.
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Example
For the op amp circuit in Fig., calculate the output voltage vo.
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Solution
Using superposition, we let
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Solution
Applying KCL at node a,
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SUMMING AMPLIFIER
Besides amplification, the op amp can perform addition and subtraction.
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SUMMING AMPLIFIER
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SUMMING AMPLIFIER
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Example
Calculate vo and io in the op amp circuit in Fig
Solution:
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Example
Find vo and io in the op amp circuit shown in Fig.
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DIFFERENCE AMPLIFIER
Difference (or differential) amplifiers are used in various applications where there is need to amplify the difference between two input signals.
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DIFFERENCE AMPLIFIER
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DIFFERENCE AMPLIFIER
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Example
Design an op amp circuit with inputs v1 and v2 such that vo = −5v1+3v2.
Solution:
The circuit requires that
vo = 3v2 − 5v1
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Design 1
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Design 2
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Good Luck
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