SU660285A1 - Arrangement for automatic quality control of four-core telephone channel - Google Patents

Description

The invention relates to telephony and can be used in the technique given by her to communicate. A device for automatic quality control of a four-wire telephone (TLF) channel is known. It contains a low-level control current generator, the output of which is connected to one input of the operating signal over-output indicator, the output of which is connected to the first input of the storage unit, the indicator of the reduction of operating signal levels, which output through the key connected to the second input of the storage unit whose third input through the integrator is connected to the output of the indicator of the decrease of the working signal levels and from the output m residual attenuation indicator 1. However, the known device makes it possible to control the telephone channel occupied by the voice information by the power level of the signals passing through the channel and by the residual attenuation value, but does not provide control by the generalized parameters. In particular, it does not allow to judge the presence of interference in the channel and its bandwidth, which indicates a low accuracy of control. The object of the invention is to improve the accuracy of the control. To do this, the device for automatic quality control of a four-wire TLF channel, containing a low-level control current generator, the output of which is connected to one input of the operating signals exceeding indicator, the output of which is connected to the first input of the storage unit, an indicator of reducing the working signals levels, the output of which through the key connected to the second input of the storage unit, the third input of which through the integrator is connected to the output of the indicator of reduction of operating signal levels and the output of the indicator a residual damping gap, a switching unit, an ambient control unit, a switch, a control unit, a computing unit connected to a display unit, a mutual correlation control unit, a pseudo-noise signal generator, a control signal sensor, and control channel reception and transmission paths, . the output of the receiving path of the controlled channel through the block

the switching is connected to the first input of the block of the controlling control, the first attempt of which is connected to the inputs of the indicators for reducing the levels of operating signals and residual attenuation, as well as to another input of the indicator npesi-, the operating signal level, output

low-current control current generator (.1 level is connected to the second input of the surrounding control unit, the second output of which is connected via the switching unit connected to the receive and transmit paths of the control channel and connected to the input of the controlled channel transmitting path, other input and output of the switching unit through the surrounding control unit connected to the first input and the first output of the switch, the second output of which is connected to the first input of the computational unit through the mutual correlation control unit, the second input of which is connected to The output of the storage unit and the other computational unit are connected to the first input of the control unit, the first output of which is connected to the auxiliary input of the surrounding control unit, and the second output is connected to the second input of the switch through the control signal sensor, the third output of which is connected to the second input of the control unit, the third output of which is connected to the third input. A switch connected to the pseudo-noise signal generator.

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

A device for automatic quality control of a four-wire TLF channel contains a transmission path 1 of a controlled channel with a source of 2 working signals connected to its input, a receiving path 3 of a monitored channel with a receiver of 4 working signals, receiving and transmitting paths 5 and 6 of a control channel, switching unit 7, block 8 ambient control, low-level control current generator 9, operating signal level indicator 10, operating signal level decrease indicator 11, residual attenuation indicator 12, memory storage approx 13, switch 14, integrator 15, a computing unit 16, display unit 17, a control yuschiyblok 18 sensor 19 control signals, the switch 20, generator 21, a PN signal unit 22 vzaimnokorrel tsiomnogo control.

The device works in the following way.

The computing unit 16, through the control unit 18, sends to the block 8 of the monitoring control a connection signal via the switching unit 7 of the paths 1 and 3 of the first monitored

channel to generator 9 and indicators 10, 11 and 12. Simultaneous control unit. 18 through the sensor 19, the switch 20, the block 8 and the switching unit 7 to the path 6 of the transmission of the control channel sends a signal to the control unit 18 of another station, which, in turn, makes similar connections of the control elements to the paths 3 and 1 at the opposite end controlled channel. The confirmation response signal that the monitoring device is connected to the first of the monitored channels, the control unit 18 receives from the opposite station via the control channel reception path 5, after which the unit 8, using the signals from the control unit 1.8, connects its indicators 10, 11, 12 and the generator 9 to the monitored the channel, the channel status information from each of the indicators 10, 11, and 12 is fed to the corresponding input of the storage unit 13. If the channel has exceeded the working signal level above the norm, the storage unit 13 is black Without the computing unit 16, the information is displayed on the display 17 about the nature of such a fault. Information about the number of the controlled channel is fed to the display unit 17 from the computing unit 16.

After completing the monitoring cycle, the device connects to the next channel. If, on the channel, there is a decrease in the levels of operating signals, which was noted by indicator 11, then the storage unit 13: the additional results from indicator 12, which is activated via integrator 15, only after the levels of operating signals are lower than normal.

Claims (1)

The residual attenuation of the channel is measured by the indicator 12 according to the level of the control current of the low level sent from another station by the same generator 9. The nature of the malfunction according to the results of the monitoring by the indicator 12 is also transmitted through the computing unit 16 to the display unit 17. X. indicator 12 shows that the channel normally, the storage unit 13 transmits to the control unit 18 through the computing unit 16 a signal on the continuation of control over this channel. The control unit 18 turns on the sensor 19, and the path 6 through the switch 20, the block 8 and the switching unit 7 receive signals for a corresponding station to connect the paths 1 and 3 at the other end of the channel to the switch 20. After dusting these signals, the block 8 signals the control unit 18 connects ierocl 10chm-spru 20 to T a1stam 3 and 1 on s1p) konpo cap; 1.p. The response signal about the state of the switch from another station comes already through the controlled channel to the control unit 18 through the switch 20. The switch 20 connects the paths of the control unit 18 to the paths 1 and 3, respectively, of the pseudo-noise signal generator 21 and the block 22 of the correlation control . A similar connection exists at the other end of the channel. The DC voltage obtained as a result of the monitoring is fixed at the output of block 22 by a calculating block 16, which converts this voltage and outputs the value of the cross-correlation coefficient to the display block 17. If the channel has no interference and its characteristics are normal, then the display unit 17 fixes a value equal to one. In the presence of interference and distortion, this value will be less than one and its value will determine the maximum channel capacity. After measurements are taken on the signals of the computing unit 16, the control unit 18 connects the outputs of the switch 20 to the paths 5 and 6 through the block 8, and the outputs of the indicators 10, 11, 12 and the output of the generator 9 to the paths 1 and 3. The control device is ready for connection to the next monitored channel. The proposed device makes it possible to judge the presence of interference in the channel, its capacity and to automate the process of monitoring the channel both by individual parameters (by the power level of the transmitted signals and by residual attenuation) and by generalized parameters (cross-correlation coefficient). Apparatus of the Invention A device for automatic monitoring of the quality of a four-wire telephone channel, comprising a low-level control current generator, the output of which is connected to one input of the operating signal level indicator, the output of which is connected to the first input of the storage unit, the indicator of operating signal level reduction, output which through the key is connected to the second input of the storage unit, the third input of which through the integrator is connected to the output of the indicator of the decrease of the working signal levels and with the output of the residual attenuation indicator, characterized in that, in order to make the control accurate, a switching unit, a block monitoring control, a switch, a control unit, a computing unit connected to the display unit, a mutual correlator control unit, a pseudo-noise signal generator, sensor of control signals, as well as paths of reception and transmission of the control channel; the output of the path of reception of the controlled channel through the switching unit is connected to the first input of the surrounding control unit, the first in the stroke of which is connected to the inputs of the indicators of the decrease in the levels of operating signals and residual attenuation, as well as to another input of the indicator, exceeding the level of operating signals, the output of the low-level control current generator is connected to the second input of the ambient control unit, the second output of which is connected through the switching unit receiving and transmitting the control channel, connected to the input of the transmission path of the controlled channel, other input and output of the switching unit are connected to the first input through the surrounding control unit and the first output of the switch, the second output of which is connected to the first input of the computing unit through the mutual correlation control unit, the second input of which is connected to the output of the storage unit, and the other output of the computing unit is connected to the first input of the control unit, the first output of which is connected to the auxiliary input of the unit ambient control, and the second output through the sensor control signals connected to the second input of the switch, the third output of which is connected to the second input of the control unit, tr Tille output of which is connected to the third input of the switch connected to the generator of a pseudo noise signal. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 445167, cl. H 04 J 3/14, 1973.