The op-amp circuit applications we have studied thus far utilized resistors in the op-amp
feedback path and in connecting the signal source to the circuit, that is, in the feed-in path.
As a result, circuit operation has been (ideally) independent of frequency. By allowing the
use of capacitors together with resistors in the feedback and feed-in paths of op-amp circuits,
we open the door to a very wide range of useful and exciting applications of the op
amp. We begin our study of op-amp–RC circuits by considering two basic applications,
namely, signal integrators and differentiators.
we open the door to a very wide range of useful and exciting applications of the op
amp. We begin our study of op-amp–RC circuits by considering two basic applications,
namely, signal integrators and differentiators.
The op-amp circuit applications we have studied thus far utilized resistors in the op-ampfeedback path and in connecting the signal source to the circuit, that is, in the feed-in path.As a result, circuit operation has been (ideally) independent of frequency. By allowing theuse of capacitors together with resistors in the feedback and feed-in paths of op-amp circuits,we open the door to a very wide range of useful and exciting applications of the opamp. We begin our study of op-amp–RC circuits by considering two basic applications,namely, signal integrators and differentiators.we open the door to a very wide range of useful and exciting applications of the opamp. We begin our study of op-amp–RC circuits by considering two basic applications,namely, signal integrators and differentiators.
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