SU926758A1 - Correcting amplifier with controllable amplitude-frequency characteristic - Google Patents

Description

one

. The invention relates to radio engineering and can be used in devices for the transmission of pulsed signals over cables.

A correction amplifier with an adjustable amplitude-frequency characteristic, a three-stage amplifier, is known, to the output of which a DC amplifier and an adjustable element are connected through an automatic gain control detector and an adjustable element}.

However, the known device has a reduced accuracy of the equalization of the amplitude-frequency characteristic (AFC) due to the fact that the reactive control element cannot compensate for attenuation of the low-frequency cables, and the reduced stability of the control circuit to self-excitation due to the simultaneous operation of several control elements.

The purpose of the invention is to improve accuracy.

This goal is achieved in that a correction amplifier with an adjustable amplitude-frequency characteristic, containing a three-stage amplifier, to the output of which is connected via an automatic gain control detector, a DC amplifier, as well as an adjustable element, is inserted between the output of the first stage of the three-stage amplifier and the input of the adjustable element of the variable bode equalizer, and between the output of the constant amplifier

15 current and control input is adjustable. The main element is a threshold adjustable element, between the output of the second cascade of a three-stage amplifier and another input of the threshold adjustable element is a two-terminal correction signal.

The drawing shows a structural electrical circuit of the proposed device.

The correction amplifier contains a three-stage amplifier consisting of the first, second and third stages 1-3, an adjustable element, a two-pole correction 5, a threshold adjustable element 6, a DC amplifier 7, an automatic gain control detector 8, a variable equalizer (PV) Water 9.

The device works as follows.

Corrective dual-pole 5 is connected to the output of cascade 2 via the threshold adjustable element 6. At output current values 7 UT 7, the frequency response is controlled by the adjustable element by changing the load resistance of the PV 9. If the output current of the UFT 7 becomes greater than Jnop, the adjustable element C stops affect the frequency response of the cascade 1, but the threshold adjustable element 6 connects the corrected two-terminal 5 to the output of the stage 2 and changes the degree of connection of the correction two-pole to the stage 2, i.e. Frequency response of the cascade 2, depending on the output current of the UFT 7.

The signal from the cable line is fed to the input of a three-stage amplifier amplified by cascades 1-3 and fed to the input of the AGC detector 8, the output of which DC signal proportional to the level of the signal at the output of the cascade 3 is fed to the DCF 7j input, the UPT 7 output current passes through diodes of adjustable elements and 6, the differential resistances of which determine the load resistance of PV 9 and the degree of connection of the correction two-terminal 5 to the stage 2.

The frequency response is adjusted so that when the length of the cable line connected to the input is changed, the signal level at the output of the cascade 3 changes, which causes a change in the DC signal at the output of the 8 AGC detector, leading to a change in the output current of the DCF 7, which in turn, causes a corresponding change in the load resistance of the MF 9 and the degree of connection of the correction two-terminal 5 to the stage 2.

This leads to a corresponding change in the frequency response of the cascades 1 and 2. The amplitude and shape of the pulses at the output of cascade 3 remain unchanged.

The use of the variable Vaude equalizer 9 and the two-pole correction 5 instead of the active regulating elements, as well as the threshold adjustable element 6, which excludes the simultaneous operation of the regulating elements, favorably distinguishes the proposed correction amplifier with the adjustable frequency response from the known one, as the accuracy of the frequency response equalization in the low frequencies increases stability of the control circuit to self-excitation.

Claims (1)

1. A correction amplifier with an adjustable amplitude-frequency characteristic, containing a three-stage amplifier, to the output of which a DC amplifier is connected via an automatic gain control detector, as well as an adjustable element, characterized in that, in order to improve accuracy, it is inserted between the output of the first the cascade of the three-stage amplifier and the input of the adjustable element the variable water equalizer, and between the output of the direct current amplifier and the control input of the adjustable element is Beam adjustable element, between the output of the second stage of the three-stage amplifier and the other input of the threshold adjustable element - correction two-pole. one Sources of information taken into account in the examination 1. US patent No. 3671886, cl. 33-18-18, 1972 (prototype). R Ksh ".G" pdH-CZH I k-s-Il l t HH 1:55 - .Hh I v n I 2 l. ± I J