SU1192109A1 - Amplifier - Google Patents

Abstract

AMPLIFIER containing a differential signal amplifier, one input of which is the input of the amplifier and through the input frequency divider is connected to one of the inputs of the differential error signal amplifier, the output of which is connected to another input of the differential signal amplifier, while the amplitude equalizer input is connected to the output of differential amplifier the signal, and the output is the output of the amplifier, which is designed so that, in order to increase the accuracy by reducing distortion, between the other inputs differential amplifier error signal output and the differential amplifier output signal vvei den frequency-dependent (A divider.

Description

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1 The invention relates to electronic amplifying devices and can be used in high-quality amplifiers and converters for various purposes. A known amplifier with adjustable distortion, which contains a differential of 5) The potential input stage, voltage divider, differential error signal amplifier, one input of which is connected to the signal input of the differential input stage, and another voltage amplifier CO, however, is characterized low accuracy, due to the growth of nonlinear distortions with a large, linear component of the error signal. Closest to the present invention, there is an amplifier containing a differential signal amplifier, one input of which is an input of the amplifier, and through an input frequency-dependent divider connected to one of the inputs of the differential amplitude of the error signal, the output of which is connected to another input of the differential amplifier, while the amplitude input the equalizer is connected to the output of the differential signal amplifier, and the output is the output of the amplifier, 2 J. The disadvantage of the known amplifier is low accuracy. The purpose of the invention is to improve the accuracy by reducing distortion. The goal is achieved in that an amplifier containing a differential signal amplifier, one input of which is the input of an amplifier and is connected via an input frequency-dependent divider to one of the inputs of a differential error signal amplifier, the output of which is connected to another input of a differential amplifier. signal, while the amplitude equalizer input is connected to the output of the differential signal amplifier, and the code is the output of the amplifier, between the other input of the differential error signal amplifier and the output Differential signal amplifier introduced an output frequency-dependent divider. The drawing shows the structures on the electrical amplifier circuit. 9 The amplifier contains a differential amplifier 1 signal, an input frequency-dependent divider 2, a differential amplifier 3 error signal, an amplitude equalizer 4, an output frequency-dependent divider 5 .. The amplifier works as follows. The input signal is fed to one of the inputs of the Differential Amplifier 1 signal and, after amplification, K {... times through the amplitude equalizer 4 with the transmission coefficient K times to the amplifier output. At the same time, the signal is fed to each input of the differential amplifier 3 of the error signal through an input frequency-dependent divider 2 with a transfer coefficient K and a signal through an output frequency-dependent divider 5 with a transfer coefficient Kgy. At the inputs of the differential amplifier 3 of the error signal, the voltage UQ, rfleUo Ue, K, ICg, is formed, and the transmission coefficient V is chosen so that the balance condition KC K is fulfilled in a wide frequency band. The amplification of the error signal K times a differential amplifier 3 (Jo in the corresponding phase is fed to another input of the differential amplifier 1 of the signal. At the same time, the products of distortion are suppressed in Kp K 5.5. K, (K times. Increase in the differential loop transfer coefficient feedback on the frequencies of the slopes of the amplitude-frequency characteristic (AFC) of the differential amplifier 1 signal allows to sharply reduce linear and nonlinear distortions, i.e. the accuracy of amplification of the frequency response signal of the vertical frequency-dependent divider 5, a frequency response of the differential amplifier 1 and MO signal; Jette be a frequency response of the high pass filter for the differential amplifier 1 with the signal passband from O to top

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cutoff frequency. The frequency response of the input frequency-dependent divider 2 is determined by the presence of powerful out-of-band spectral components of the signal, leading to an overload of the differential amplifier 3 error signal. Thus, the introduction of the output frequency-dependent divider 5, i.e. output frequency correction facilitates the task of matching the input

921094

amplifier with a signal source in a wide frequency range, which improves the frequency and noise characteristics of the device and improves accuracy by reducing distortion, which improves the accuracy class of measuring devices that use this amplifier.

Claims (1)

AMPLIFIER containing a differential signal amplifier, one input of which is the input of the amplifier and. through an input frequency-h dependent divider is connected to one of the inputs of the differential amplifier of the error signal, the output of which is connected to the other input of the differential amplifier of the signal, while the input of the amplitude equalizer is connected to the output of the differential amplifier of the signal, .a. the output is an amplifier output, which is important in that, in order to increase accuracy by reducing distortion, between the other input of the differential amplifier of the error signal and the output of the differential amplifier of the signal, the output frequency dependent divisor. SU .. „1192109 1 11921