SU924871A2 - Device for automatic correction of amplitude-frequency distortions in transmission systems - Google Patents

Description

The invention relates to radio engineering and can be used to correct distortion of the amplitude-frequency characteristics (AFC) of channels, group and linear paths of transmission systems.

By main auto No. 402160, a device is known for automatic correction of amplitude-frequency distortions in transmission systems, comprising a source of a test signal on the transmitting side and a corrector, a branching unit, filters of the test signal components, a switch, a detector, an amplifier, a quadrator, an integrator, threshold, connected in series node and regulation node ^ 1]. However, the correction accuracy of this device is low.

The purpose of the invention is to improve the accuracy of correction.

To do this, in a known device for automatic correction of amplitude-frequency-frequency distortions in transmission systems, additional integrator and quadrator are connected in series, the output of which is connected to the control input of the threshold node, and the corresponding output of the detector is connected to the input of the additional integrator.

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

A device for automatic correction of amplitude-frequency distortions in transmission systems contains a source 1 of a test signal and on the receiving side 2 a corrector 3, a branch 4, filters 5 of the components of the test signal, switch 6, detector 7, amplifier 8, quadrator 9, integrator 10, threshold node 11, regulation node 12, an additional integrator 13 and an additional quadrator 14, wherein the transmitting side 15 is connected to the receiving side 2 by a path 16.

The device works as follows.

Source 1 generates a test signal with a discrete spectrum, the components of which are uniformly located over the entire frequency range of the path 16 and have the same amplitudes. At the output of path 16, the amplitudes of the components of the test signal change in accordance with its frequency response and are input. Corrector 3 · From the output of corrector 3, the test signal through branching unit 4 is fed to the input of filters 5, which extract the corresponding components from the test signal. Switch 6 and detector 7 convert the frequency response of the path plus corrector system into a periodic signal, which is the sum of the constant voltage corresponding to the constant component of the frequency response of the path plus corrector system and the alternating voltage corresponding to the variable component of the frequency response of the path plus corrector system, i.e. frequency response distortion. The variable component is amplified by amplifier 8 and fed to the input of quadrator 9. Serially connected quadrator 9 and integrator 1.0 convert the signal reflecting the distortion of the frequency response of the system path plus corrector into a signal proportional to its average power. From the outputs of the integrator 10, the signal is supplied to the second input of the control unit 12 and the input of the threshold node 11. From the additional output of the detector 7, the signal is fed to the input of the additional integrator 13, the output of which is proportional to the constant component of the frequency response of the system plus the corrector. This signal is squared by an additional quadrator 14 and fed to the additional input of the threshold node 11.

If the frequency response distortion exceeds a predetermined norm, then the signal level at the output of the integrator 10 exceeds the threshold level of the threshold node 11, which is determined by the signal level

4871 4 at the output of the additional quadrator 14, and the threshold node 11 includes a regulation node 12. The control unit 12, by adjusting the corrector 5 of the corrector 3, minimizes the distortion of the frequency response of the path system plus the corrector and the signal level at the output of the integrator 10.

Minimization is performed until 10, until the voltage of the integrator 10 11c becomes less than the voltage of the threshold node 11 Un, upon reaching which the threshold node 11 turns off the node 12 pels of walking. Since the signal levels at the outputs of the integrator 10 and the additional quadrator 14 are equally dependent on the magnitude of the constant component of the frequency response of the 2o path plus corrector system, the ratio between the quantities and _n and 1) _m does not depend on the magnitude of the constant component of the frequency response, i.e. its oscillations do not reduce the accuracy of correction of distorted frequency response.

Thus, the proposed device ensures independence of the accuracy of the correction of distortion of the frequency response from fluctuations in the constant component of the frequency response, 30 which increases the accuracy of the correction in comparison with the prototype.

Claims (1)

The transmitting side 15 is connected to the receiving side 2 by the path 16. The device operates as follows. Source 1 forms a test signal with a discrete spectrum, the components of which are evenly located throughout the frequency range of path 1b and have the same amplitudes. At the output of the path 16, the amplitudes of the components of the test signal are changed in accordance with its frequency response and fed to the input of the corrector 3. From the output of the corrector 3, the test signal through the junction node k enters the input of the filters 5, which separate the corresponding components from the test signal. Switch 6 and detector 7 convert the frequency response of the system path plus equalizer into a periodic signal, which is the sum of the constant voltage corresponding to the constant component of the frequency response of the system path plus equalizer and the variable voltage corresponding to the variable component of the path plus system response corrector, i.e. distortion of frequency response. The variable component is amplified by the amplifier 8 and fed to the input of the quadrant 9. A serially connected quadrator 9 and integrator 1.0 convert the signal that reflects the distortion of the frequency response of the system path plus corrector into a signal proportional to its average power. From the outputs of the integrator 10, the signal enters the second input of the control unit 12 and the input node of the threshold 11. From the auxiliary output of the detector 7, the signal arrives at the input of the additional integrator 13 at the output of which the signal is proportional to the constant component of the frequency response of the system plus equalizer. This signal is quadraised by an additional quad 14 and fed to the auxiliary input of the threshold node 11. If the frequency response distortions exceed a predetermined rate, the signal at the output of the integrator 10 exceeds the threshold level of the threshold node 11, which is determined by the signal level at the output of the additional quad 14, and the threshold node 11 includes an adjustment unit 12. The adjustment unit 12 by adjusting the equalizer 3 minimizes distortion of the frequency response of the system path plus equalizer and the signal level at the output of the integrator 10. Minimization is performed until the voltage of the integrator 10 UH is less than the voltage of the threshold node 11 Up, with reaching which the threshold node IT turns off the node 12 regulation. Since the signal levels at the outputs of the integrator 10 and the additional Quad 1 equally depend on the value of the constant component of the frequency response of the system path plus equalizer, the ratio between the values of the UE and U does not depend on the value of the constant component of the frequency response, i.e. its oscillations do not reduce the accuracy of the correction of distortion of the frequency response. Thus, the proposed device ensures the independence of the accuracy of the correction of distortions of the frequency response from the oscillation constant of the frequency response, which improves the accuracy of the correction compared to the prototype. The invention The device for automatic correction of amplitude-frequency distortion in the transmission systems by author. Ev, No., characterized in that, in order to improve the accuracy of the correction, an additional integrator and a quadrant are connected in series into it, the output of which is connected to the control input of the threshold node, and the corresponding detector output is connected to the input of the additional integrator. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 402160, cl. H 04 B 3/04, 1971 (prototype).