3.2:

Characteristics of OpAmp

JoVE Core
Electrical Engineering
Un abonnement à JoVE est nécessaire pour voir ce contenu.  Connectez-vous ou commencez votre essai gratuit.
JoVE Core Electrical Engineering
Characteristics of OpAmp

161 Views

01:17 min

April 11, 2024

The operational amplifier, commonly known as an op-amp, is a specially designed electronic circuit component. Its purpose is to work in conjunction with other circuit elements to execute a defined signal-processing operation. Consider an equivalent circuit model of an op-amp, as depicted in Figure 1; the output section comprises a voltage-controlled source in parallel with the output resistance Ro.

Figure1

Figure 1: The equivalent circuit of the nonideal op-amp

Figure 1 shows that the input resistance Ri equates to the Thėvenin equivalent resistance observable at the input terminals. Similarly, the output resistance Ro corresponds to the Thėvenin equivalent resistance discernible at the output. The differential input voltage (vd) is calculated as the difference between the noninverting terminal's voltage relative to the ground and the inverting terminal's voltage relative to the ground.

The op-amp discerns the difference between these two inputs and amplifies it by the gain A, thus generating a voltage that appears at the output. Here, A represents the open-loop voltage gain – named so because it signifies the gain of the op-amp in the absence of any external feedback from the output to the input.

Feedback is an integral concept to comprehend when studying op-amp circuits. Negative feedback can be achieved by feeding the output back to the op-amp's inverting terminal. When a feedback path from output to input exists, the resulting ratio of the output voltage to the input voltage is known as the closed-loop gain.

The op-amp does have its practical limitations. One such limitation is that the magnitude of its output voltage cannot surpass |VCC|. Essentially, the power supply voltage determines and restricts the output voltage. Depending on the differential input voltage, the op-amp can function in one of three modes: positive saturation, linear region, or negative saturation. If an attempt is made to increase vd beyond the linear range, the op-amp reaches saturation, yielding either vo = VCC or vo = –VCC.