SU402160A1 - DEVICE FOR AUTOMATIC CORRECTION OF AMPLITUDE-FREQUENCY DISTORTIONS IN SYSTEMS - Google Patents

Description

Devices for automatic correction of amplitude-frequency distortions in transmission systems are known, containing a test signal source at the transmitting end, the outputs of which are connected to the input of the receiving part of the corrector via a communication channel, to the control inputs of which the corresponding outputs of the control unit are connected, and the output of the corrector is connected to the node of the branch, the output of which is connected through the series-connected filters that make up the test signal and the switch is connected to the input of the detector.

The principle of operation of these devices consists in the compensation of impulses of pre-action and aftereffect. However, the correction of the characteristics of the channel but the impulse response does not allow, by the residual value of the corrected preemptive and aftereffect pulses, determine whether the frequency characteristics of the corrected channel match within the specified norms.

The purpose of the invention is to simplify the device and expand its functionality.

The proposed device is characterized in that it introduces a control signal generator consisting of a series-connected amplifier, integrator quad and a threshold node, the output of which is connected

It is connected to one of the inputs of the control unit connected to the integrator.

The block diagram of the device shown in the drawing.

The source of test signal 1 forms a test signal with a discrete spectrum, the components of which are evenly distributed throughout the entire frequency range of the transmission system and have the same amplitudes. At the output of channel 2, the amplitude components of the test signal are changed in accordance with the amplitude-frequency characteristic and are fed to the equalizer 3. From here, the test signal comes in

junction 4, then the components of the test signal are separated by filters 5. Switch 6 and detector 7 convert the amplitude-frequency characteristic channel - equalizer into a periodic signal,

which is the sum of the constant voltage corresponding to the constant attenuation value and the complex variable voltage corresponding to the distortion of the amplitude-frequency characteristic.

Successively turning on the amplifier 8, the quad 9 and the integrator 10 allows the signal corresponding to the distortion of the amplitude-frequency characteristic to be converted into a constant voltage proportional to

accurate to a constant coefficient

average power. The constant input from the output of the integrator 10 enters the normal node AND and the node is adjusted 12.

If the DC voltage at the integrator output exceeds the threshold value, which corresponds to higher frequency response characteristics than the norm, the threshold node 11 turns on the adjustment unit 12, which is valid until the distortion reaches the specified norm. Thereafter, the threshold node returns to its original state, and the adjustment is terminated.

To transfer the ecjiH components of the test signal to a low level and arrange them so that they do not interfere with the information signal, the amplitude-frequency distortion can be corrected without interruption of communication, which in some cases is quite significant.

Subject invention

Device for automatic correction of amplitude-frequency distortion in systems

transfer, containing iia to the end of the source and the source of the south signal, the outputs of which are connected through a channel to the input of the receiving part, a corrector, to the adjusting inputs of which are connected, the corresponding outputs of the node are adjusted, and the output of the corrector is connected to the branching node, the output of which is through a series-connected filter components of the test signal and a non-switch connected to the detector input, characterized in that, in order to extend the functionality of the circuit while simultaneously simulating it In this case, the detector output is connected to the input of the final input control signal generator, state 1, it is from a series-connected amplifier, quad, integrator, and a normal node whose output is connected to one of the inputs of the control node, and the second integrator output is connected to the second input of the latter.