SU1531111A1 - Operational amplifier - Google Patents

Abstract

The invention relates to analog and analog-digital computing. The purpose of the invention is to increase the dynamic accuracy. The decision amplifier contains two blocks 1.2 of the weight resistors, feedback elements 3.8, an operational amplifier 4 with a potential output, and an operational amplifier 5 with a current output, a voltage follower 6, a correction capacitor 7. The dynamic error of the decision amplifier decreases proportionally to the gain factor operational amplifier. 2 Il.

Description

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L / A.

Fiel

The invention relates to analog and analog-digital computing.

The purpose of the invention is to increase the dynamic accuracy.

FIG. 1 shows a functional diagram of a decision amplifier; in fig. 2 - voltage follower.

The decisive amplifier contains two sets of weight resistors 1.2, the first feedback element 3, the operational amplifier C with a potential output and the operational amplifier 5 with a current output, a voltage follower 6, a correction (the capacitor 7, the second feedback element 8 zi

In the repeater (Fig. 2), the transmission coefficient of the feedback elements 3 and 8 is assumed to be one, and the transmission coefficient of the blocks of the weight resistors 1 and 2 is zero, the input signal is fed to the non-inverting inputs of the operational amplifiers 4 and 5.

The decisive amplifier works as follows.

The input signals to the combined inputs of the weight resistors 1 and 2 relative to the input voltage to the non-inverting inputs of the operational amplifiers k and S are added to the signal from the output of the operational amplifier k fed to its inverting input through the feedback element 3, and the output of the repeater 6 arriving at the inverting input of the operational amplifier 5 through the feedback element 8.

Formed at the inverting inputs of the operational amplifiers and the difference signals are amplified by these amplifiers. The output signals of the operational amplifiers S due to the high value of their gain factors are determined by the values of the input signals and the weights of the resistors of the blocks of the weight resistors 1 and 2 for each input and the elements 3 and 8 of the feedback. With equal transfer coefficients of the weight resistors blocks 1 and 2 and feedback elements 3 and 8, the signals at the outputs of the operational amplifiers C and S are equal to the error determined by the gain factors

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these amplifiers. On alternating current, the output signal of the operational amplifier through the correction capacitor 7 is fed to the output of the repeater 6, i.e. output of the decisive amplifier. In this case, the output signal of the decisive amplifier is the sum of the signals from the outputs of the operational amplifiers k and 5. Since the output signal of the operational amplifier k is equal to the required value of the output voltage of the decisive amplifier with a certain error, only a part of the output amplifier leaves the output of the operational amplifier 5 signal, complementing the output of the op amp to the desired value. The dynamic error of the decisive amplifier in this case decreases in proportion to the gain of the operational amplifier.

Claims (1)

Formula invented11 A decision amplifier containing two sets of weight resistors, the inputs of which are the inverting information inputs of the decision amplifier, the first operational amplifier, between the inverting input and the output of which the first feedback element is connected, the second operational amplifier with current output, the second feedback element and Voltage repeater, characterized in that, in order to increase the dynamic accuracy, a correction capacitor is inserted in it connected between the outputs of the first and second operational amplifiers The output of the voltage follower is the output of the decision amplifier and is connected via a second feedback element to the inverting input of the second operational amplifier, the output of which is connected to the input of the voltage repeater, the corresponding inputs of the first and second weight resistors being pairwise combined, and their outputs connected to the inverting inputs of the first and second operational amplifiers, respectively, the non-inverting inputs of which are combined and are the non-inverting information input of the decisive go amplifier 0f / s.2