SU924879A2 - Device for automatic monitoring of amplitude-frequency and amplitude characteristics of voice-frequency channels - Google Patents

Description

one

The invention relates to radio engineering and can be used with automatic measurements in the channels of the tone frequency.

According to the main author. St. No. a device for automatic control of amplitude-frequency and amplitude characteristics is known, comprising, at the transmitting part, a frequency generator, an extension cable, a first threshold unit, a measurement view distributor, a gating pulse driver, a channel code generator, a first additional extension cable, a first crucial block, a registration block, a channel switch, and in the receiving part a channel switch, a second threshold unit, a looping unit, a second additional extension, a second decision unit, an additional distributor of the measurement type and a unit for receiving and monitoring the channel code, as well as forward and reverse data transmission channels.

forward and reverse tone frequency channels D.

However, the known device does not provide sufficient accuracy of control.

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

To achieve this goal, the integrator and the receiver of the clock frequency are entered into the device for automatic control of the amplitude-frequency and amplitude characteristics of the channel frequency, while the output of the second threshold unit is connected to the input of the second decision block through the integrator, the second input of which is connected through the clock frequency receiver with an additional direct channel data transmission output.

The drawing shows a structural electrical circuit device.

The device for automatic control contains a frequency generator 1. 392 extender 2, first and second additional extenders 3 and 4, first and second threshold blocks 5 and 6, measuring distributor 7, additional measuring distributor 8 of measurement, sampling pulse shaper 9, channel code shaper 10, first and second decision blocks 11 and 12, registration block 13, switch of 14 channels, additional switch of 15 channels, block 16 of a loop, block 17 of receiving and monitoring the channel code, forward and reverse channels 18 and 19 of the tone frequency of the forward and reverse channels 20 and 21 of the transmission data integrator 22 and p 23 clock frequency receiver. The device works as follows. The test signal is fed to the input of the monitored direct channel 18, after passing which is compared in amplitude with a fixed threshold level of the second threshold block 6. The fact that the threshold level is exceeded indicates that the attenuation of the straight channel 18 at a given tone frequency is not large enough in order to be framed. The attenuation increase information is transmitted on the reverse 2T channel. In order to combat impulse noise, an integrator 22 is provided at the output of the second threshold block 6. With the help of integrator 22, the fact that the threshold level is exceeded by a signal is only provided that the threshold is repeatedly exceeded for a given time interval, for which the pulses from the generator 1 through my channel 20 goes to receiver 23 and an observation interval is determined during which the attenuation remains constant, and at the output of integrator 22 a decision is formed which way should the attenuation be changed by the end of this observation interval. If the amplitude of the signal at the input of the second threshold unit 6 exceeds the threshold level, then a series of rectangular pulses of standard amplitude appears, the frequency of which follows the given tone frequency produced by the generator 1. This information is transmitted on the reverse channel 21 and is used to increase attenuation of the device by the end of the observation interval. If the amplitude of the signal at the input of the second threshold unit 6 was below the threshold level, then in the presence of impulse noise at certain points in time it is possible that the threshold is exceeded. However, due to the irregular nature of the interference, the amplitude and duration of the impulse noise at the input of the second threshold unit 6 vary randomly. The interference pulse frequency is limited by the bandwidth of the direct channel 18 and, therefore, cannot noticeably increase the frequency of the desired signal. Thus, in spite of individual cases of exceeding the threshold level due to interference, the signal from the integrator. 22 is transmitted on the reverse channel 21 and carries information that the attenuation should be reduced by the end of the observation interval. As a result, by the beginning of the next observation interval, the output of the direct channel 18 receives a signal with an increased level, which is again compared in amplitude with the threshold. This procedure is repeated during two observation intervals, and after each successive interval the level at the output of the direct channel 18 more and more closely approaches the nominal level that coincides with the threshold level. By the end of the last N-th observation interval, the attenuation of the device with an error not exceeding the minimum attenuation of the n-th extension 2 will compensate for the measured attenuation of the forward channel 18. The analysis time required for deciding at the output of the integrator 22 depends on the frequency of the measurement signal, on which the attenuation of the forward channel 18 is monitored. For the lowest of the tonal frequencies, the analysis time is maximum, since the maximum pulse period of the threshold is exceeded. Technical and economic advantages of the proposed device are to improve the measurement accuracy of the amplitude-frequency characteristics of communication channels in the presence of

impulse noise and the achievement of independence of measurement accuracy of the frequency of the test tone signal.

Claims (1)

The invention is a device for automatic control of the amplitude-frequency and amplitude characteristics of the channels of the tonal frequency by av. St. No. Characterized in that. In order to increase the control accuracy, the integrator and the receiver of the clock frequency are entered into it on the receiving side, while the output of the second threshold unit is connected to the input of the second decision unit through the integrator, the second input of which is connected to the additional output of the forward channel of the forward channel data.