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Transcript
Chapter 6
The Operational
Amplifier
1
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.

The operational amplifier or op amp for short,
finds daily usage in a large variety of
electronic applications.
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
2

op amps have three principal terminals:
the
inverting
input
the non-inverting input
the output
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
3
Ideal Op Amp Rules
 No current ever flows into either
input terminal.
 There is no voltage difference
between the two input terminals.
The op amp acts to make this
happen!
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
4

Apply KVL, Ohm’s
law, and the ideal op
amp rules to find
v out
Rf
  v in
R1
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
5
Example: vin(t)=5 sin 3t mV, Rf=47 kΩ, R1=4.7 kΩ
vout(t) = -50 sin 3t mV
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
6
v out
 R f 
 1 v in
 R1 
To solve, use KVL, KCL,
and op amp rules.
Suggested circuit variables to
perform the circuit analysis

Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
7
Example: vin(t)=5 sin 3t mV, Rf=47 kΩ, R1=4.7 kΩ
vout(t) = 55 sin 3t mV
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reproduction or display.
8
 vout(t)

=vin(t)
this design allows connection of a
practical voltage source to a load without
experiencing voltage droop!
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
9
v out
Rf
  (v1  v 2  v 3 )
R
This amplifier performs the operation of adding.
It also introduces a gain of –Rf/R
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
10
v out
R f R2 
   (v1  v 2 )
 R R1 
This voltage is not
affected by the
circuit on the right.
Op amps can be combined in stages to create the
desired relationship between the outputs and the inputs.

Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
11
This circuit will produce an
accurate voltage regardless of the
age of the battery Vbat .
Zener diode: i=0 if v<4.7 volts
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
12
With a reference voltage source Vref, we can
drive a constant current Is=Vref / Rref through
any load RL.
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reproduction or display.
13
The op amp can be modeled as a dependent
voltage source, with the following components
as shown:
 input resistance Ri
 output resistance Ro
 open loop gain A
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reproduction or display.
14
For a 741op amp (A=200,000, Ri=2MΩ, Ro=75Ω
vout(t) = -49.997 sin 3t mV.
An ideal op amp produces vout(t) = -50 sin 3t mV.
[Analyze the detailed op amp model using nodal analysis.]
Example:
vin(t)=5 sin 3t mV,
Rf=47 kΩ,
R1=4.7 kΩ
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
15
When A=∞, Ro=0 Ω, and Ri=∞ Ω, the op amp
behaves according to the ideal op amp rules.
(vd=0 and iin=0)
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reproduction or display.
16
When v1 = v2 = vCM, the output should be zero,
but real op amps produce a small “common
mode” voltage voCM. ACM=| voCM / vCM |
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reproduction or display.
17


The enormous but unpredictable gain of the op amp is made
usable through negative feedback.
When vin goes up, vd goes down, and the op amp reacts by
lowering vout until the “unwanted” non-zero vd is pushed back
to zero.
this “feedback”
resistor allows the
output to affect the
input terminal.
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reproduction or display.
18




An op amp requires power supplies.
Usually, equal and opposite
voltages are connect to the V+ and
V- terminals.
Typical values are 5 to 24 volts.
The power supply ground must be
the same as the signal ground.
in this example +18V is connected to V+
and -18 V is connected to VCopyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
19
vout=10vin, but only up to the ±18 V supplies
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reproduction or display.
20
Non-zero output “offsets” can be removed:
Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for
reproduction or display.
21
Slew rate is the maximum V/μs for output.

examples: input (green) and output (red)
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reproduction or display.
22

Op amps in open loop can be used to make
decisions. In this case, is vin>2.5 V?
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reproduction or display.
23
Design a circuit that provides a “logic 1” 5 V output if a
certain voltage signal drops below 3 V, and zero volts
otherwise.
Answer:
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reproduction or display.
24
This device allows precise amplification of
small voltage differences:
vout=K(v+-v-)
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reproduction or display.
25