234 ANALOG BUILDING BLOCKS AND OPERATIONAL AMPLIFIERS
The voltage gain is independent of the op-amp parameters. By selecting the resistors
to achieve the desired ratio, constructing a linear amplifier with a prescribed voltage
gain is rather simple. It may further be noted that the output impedance isZo =
0, with zero output impedance of the ideal op amp; the input impedance isZi =
vi/ii =Ri.
(b) The equivalent circuit of the inverting amplifier is shown in Figure E5.2.1(b). The current
through the feedback resistorifis given byif=vo−vi
Rf+RiThe voltage at the inverting inputvnis
vn=vi+RiifCombining these two equations, one getsvn=vi+Ri(
vo−vi
Rf+Ri)Sincevpis connected directly to ground,vp=0; the output voltagevoisvo=−Avn=−A[
vi+Ri(
vo−vi
Rf+Ri)]The voltage gain of the overall circuit is then given byvo
vi=−1 −(
Ri
Ri+Rf)1
A+(
Ri
Ri+Rf)IfAbecomes infinitely large, 1/A→0, and the preceding expression reduces to−Rf/Ri,
obtained in part (a). Clearly asA→∞, the inverting terminal voltagevn=−vo/Ais
going to be very small, practically on the order of microvolts. Then it may be assumed
in the inverting amplifier thatvnis virtually zero, i.e.,vn∼=0.
(c) (i) WhenAis infinitely large,
vo
vi=−Rf
Ri=−80
2=− 40(ii) WhenAhas a finite value of 100,vo
vi=−1 −(
Ri
Ri+Rf)1
A+(
Ri
Ri+Rf)=−1 −2
82
1
100+2
82=− 28. 4The principle ofnegative feedbackis clearly illustrated in the operation of the inverting
amplifier in Example 5.2.1, since negative feedback is used to keep the inverting terminal voltage
as close as possible to the noninverting terminal voltage. One way of viewing negative feedback
is to consider it as a self-balancing mechanism which allows the amplifier to preserve zero