SU364115A1 - DEVICE FOR CONTINUOUS AUTOMATIC - Google Patents

Description

one

The invention relates to the field of electrically conductive communication and can be used in installations designed to isolate a sinusoidal signal against the background of an intermix.

A device for continuous automatic monitoring of the residual attenuation of a occupied standard channel of a tone frequency is known, comprising a pilot sinusoidal signal generator connected at the transmitting end of the channel, and a residual attenuation indicator switched on at the receiving end and consisting of a series-connected narrowband filter, amplitude detector and amplitude time quantizer, the outputs of which are connected to the count of the number of exceedances and the counter gating imptsls, and the output counter and the number of exceedances connected to the input of the recording unit.

However, in the known device, under the conditions of interference with a large dm range, the reliability of the control is sharply reduced.

In order to increase the reliability of the control when the signal is extracted from the noise in the proposed device, the output of the amplitude detector is connected additionally to the input of the amplitude emission selector, the output of which is connected to the second input of the amplitude-time quantizer.

The drawing shows a block diagram of the proposed device.

The device contains a generator / control sinusoidal signal and a residual attenuation indicator that includes a narrowband filter 2, an amplitude detector 3, an amplitude-time quantizer 4, a counter 5 for the number of exceedances, a counter 6 for gate pulses, a registering node 7. and an amplitude selector 8 for emissions.

From a channel 9 of the communication, a mixture of the control signal, the information signal (interferer) and the channel noise is fed to the narrowband filter 2, tuned to the frequency of the control signal, after which the filtered voltage is fed to the amplitude detector 3, which separates the envelope.

In the amplitude-time quantizer 4, the envelope is sampled by time and quantized but amplitude by periodically comparing with a sequence of gated pulses, whose amplitude is equal to the given 1: the maximum allowable value of the control signal amplitude, which in turn, the maximum allowable value, the residual, and the residual Thus, a sequence of ones and zeros is formed at the input of the counter 5, and the units correspond to the moments when the envelope of a given threshold is exceeded.

The input of the gating pulse counter 6 is the initial pulse sequence generated in the quantizer 4. The gating pulse frequency and the capacitance of the counters are chosen so that the ratio of the number of pulses counted by counter 5 to the total number of pulses counted by counter 6 during the monitoring time is an estimate of the relative residence time of the envelope above a given threshold.

The occurrence of a pulse at the output of the counter 5 until the end of the monitoring time means that the level of the pilot signal in the channel exceeds the set one and is fixed by the recording node 7. Otherwise, the emulsion at the output of the counter 5 does not appear, the state of the recording node 7 does not change, and the partially filled counter 5 is set to zero by a reset pulse from the output of counter 6 at the end of the monitoring time.

The presence of emissions envelope leads to a significant increase in the number of pulses arriving at the input of the counter of the number of exceedances, and can lead to overflow of this counter and to a false response of the recording device. In order to eliminate the false triggering of the node 7, the amplitude selector 8 detects the appearance of emissions at the detector output, the amplitude of which exceeds a certain selected level. In this case, at the output of the amplitude selector 8 of emissions, impulses normalized in amplitude appear, and their durations and instants of appearance correspond to

durations and moments of occurrence of the initial emissions at the output of the detector 3. These pulses are fed to the input of the amplitude-time quantizer 4 and interrupt the geylation of the gating pulses.

Thus, the areas of the envelope, on which there are powerful emissions, caused by sharp increases in the level of information signals (interference) in the channel,

are excluded from the process of post-detection processing of the signal-to-noise mixture, which leads to a sharp decrease in the error measured in the device for estimating the relative time of exceeding the envelope above the threshold and,

therefore, to increase the reliability of control results.

Subject invention

A device for continuous automatic monitoring of residual damping occupied by a standard tone frequency channel, comprising a pilot sinusoidal signal generator connected to the transmitting end of the channel, and a residual damping indicator switched on at the receiving end and consisting of a series-connected narrowband filter, amplitude detector and amplitude -time quantizer,

the outputs of which are connected to the number of exceedances counter and the counter of gating pulses, and the output of the counter of the number of exceedances is connected to the input of the registering node, characterized in that, in order to increase the reliability of control when the signal is out of interference, the output of the amplitude detector is additionally connected to the input of the amplitude emission selector, the output of which is connected to the second input of the amplitude-time quantizer.

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