SU379045A1 - - Google Patents

Description

AUTOMATIC SIGNAL LEVEL REGULATOR

The invention relates to the field of gain control devices and is intended for use in long distance channels and in other individual communication channels.

. There are known automatic level controllers, which are analogous to the intended purpose, but they are difficult to perform, are not accurate enough, and do not provide full los 5 reproduction; and the residual gain of the channel.

The purpose of the invention is to reduce the divergence of the output signal level from the nominal value while simplifying the device.

This is achieved by the fact that in a device containing filters, amplifiers w chetyrehOLUSNIK, having resistance in one il. And both longitudinal branches to and switched off in a transverse branch variable resistance, to the input of one filter is connected the input of the second filter, the output of which through one of the amplifiers is connected To the inlet. A receiver connected to its output to the control input of the quadrupole, to the main input of which you connected the first filter, and the four-pole drive connected to the second amplifier.

FIG. 1 shows a block-diagram of the device; in fig. 2 given an example of the implementation of the pair

recharger included in the signal circuit as a controllable link.

As shown in “a FIG. 1, an automatic level controller (AGC) has a signal circuit, 5 formed by a series connection of a filter / bandwidth-separating signal, a quadrupole 2 connected as a control link, and an amplifier 3. The AGC control circuit contains a filter 4, The control signal frequency that is selected and connected at the output of the filter 4 is a serial connection of amplifier 5 and rectifier 6, which form the control link. The input of filter 4 is connected to the input of filter /,

5 and the output of the external sensor 6 is connected to the second input of the quadrupole 2, as a result of which the control signal is fed to the controlled link (quadrupole 2) not from the AGC output, but from its input. Quadripole 2

0 contains in one or both longitudinal branches x a constant resistance 7, and in the transverse branch connected behind the resistance 7 parallel to the output of the quadrupole, variable resistance 8, the value of which is inversely proportional to the rectified current of the control signal removed from the rectifier 6. In the example shown in FIG. 2, the variable resistance 8 is made in the form of a diode bridge. The value of the so0 of opposition 8 should be much less.

resistance values 7, which, in the particular case, can be the resistance of the signal source, reduced to the input of the quadrupole 2.

With this construction of the AGC, the transfer coefficient control is performed by the control signal supplied from the AGC input. From the filter 4 transmitted to the line, the channel frequency is divided, the iKOTOporo value is changed in accordance with the oscillations of the rest of the path gain. The control link (amplifier 5 and rectifier 6 amplifies, rectifies and releases the voltage of the control signal from the pulsations. The induced current is fed from the output of the rectifier 6 to the quadrupole 2, which performs the function of the control link, and sets its ratio transmission such that the actual output t / o of the useful signal and the output of the AGC, equal to the product of the input voltage 6in by the transfer coefficients of the quadrupole 2 and amplifier 3, remains constant. The change of the transfer coefficient of the quadripole 2, which ensures The tc constant output voltage of the AGC is due to the fact that the voltage of the control cistern is fed to the input of the control circuit from the AGC input (direct adjustment). In addition, the linearity between the rectified current and the output of the rectifier 6 and the voltage the control signal, supplied to the amplifier 5 at the input of the control circuit, and as a variable resistance 8, elements with a voltage-current characteristic following the ecoponential law are used, in which the resistance 8 changes in size back rationally flowing current, and the resistance 8 remains much less than the value of the constant resistance 7 in the longitudinal branch (or branches x) of the quadrupole 2. | It should be borne in mind that changes in the useful signal due to varying sound power do not affect Nor on the operation of the AGC, since they do not affect the control circuit and that, while the coefficient of transmission of the AGC, which at the same time remains constant.

The main advantage of the invention is the ability to completely eliminate the deviations of the residual gain at the channel output from the nominal. since the accuracy of the adjustment does not depend on the magnitude of the level deviation at the output of the regulator, it is determined only by the deviation of the regulating characteristic of the regulator itself from the linear one.

A significant circuit simplification of the controller is achieved by the fact that, with the above described implementation, he himself - without additional devices and measures - ensures the attenuating nature of the process that occurs on the highway during rapid level changes in cases where several automatic regulators are connected in series.

This AGC can be used in long distance broadcasting and other individual communication channels, with or without low frequency, high and low frequency spectra of the path, at the terminal receiving station and on the receiving side of the intermediate amplifying points. It can be used in conjunction with and without AGC systems.

Subject invention

An automatic signal level regulator, for example, for long-distance broadcast channels, containing filters, amplifiers, a quadrupole consisting of resistance in one or both longitudinal branches and a variable resistance included in the transverse branch, and in order to reduce the deviation the output signal level from the nominal value while simplifying the device, the input of the second filter is connected to the input of the first filter, the output of the latter through the first amplifier is connected to the rectifier input Ithel, .kotorogo output connected to the control .The inputs quadripole, IK main input of which is connected the output of the first filter and, as quadripole .ko output is connected to a second amplifier.

PSbix. (and OUT)