SU1159168A1 - Device for measuring non-linear distortions in communication channel - Google Patents

Abstract

A DEVICE FOR MEASURING NONLINEAR DISTRIBUTIONS IN A COMMUNICATION CHANNEL - containing forward and reverse communication channels, at the served amplifying point - the first amplifier, the second amplifier, the bandpass filter, the indicator and a series-connected radio pulse generator, a delay unit and a correlator, on each maintenance-free amplifier point - serially connected first linear amplifier, filter and second linear amplifier, output. The first amplifier is connected via a forward link to the input of the first linear amplifier, the output of the second linear amplifier is connected via a reverse link to the input of the second amplifier, and the output of the bandpass filter is connected to the second input of the correlator, characterized in that in order to simplify the device by excluding the telecontrol channel and at each unattended amplifying point of the control frequency generator, the first, second, third and fourth switches, the extender, are introduced at the served amplifying point , the first, second and third keys, the first and second memory blocks, the subtraction block and the control unit, while the second output of the pseudo-random sequence of radio pulses is connected to the signal input of the first switch, the first output of which is connected to the first signal input of the second switch}, which is connected to the input of the first /) amplifier, the second output of the first switch is connected to the first signal input of the third switch and to the input of the extension cable, the second signal input of the second switch connected to the first output of the fourth switch and to the output of the amplifier, the output of the second amplifier is connected to the signal input of the fourth switch, the second output of which is connected to the second signal input of the third switch, the output of which is 00 filter, the output of the correlator of the switch - to the signal inputs of the first and second keys, the outputs of which, respectively, through the first "second memory blocks are connected respectively to the first and second inputs of the subtraction unit, the output of which is Through the third key is connected to the input of the indicator, and the first, second, third and fourth outputs of the control unit are connected respectively to the control inputs.

Description

the first, second and third keys and to the combined control inputs

the first, second, third and fourth switches.

The invention relates to telecommunications and can be used on telecommunication lines for measuring the attenuation value of nonlinearity in the third harmonic of the path unattended and served by the amplifying,: points and for localizing the faulty amplifying points.

A device for measuring non-linear distortions in a communication channel, 10 comprising a transmitting service, is known. The amplifier point (PMO) of the test signal source, at the monitored unattended amplification point (LLL) is a shunt circuit, tuned to the frequency of the test signal or nonlinearity product to be measured, and at the PMO receiver — Level meter of the nonlinearity product 01 420

The disadvantages of the known devices are the necessity of the brigade of gauges to go to the main line, which is associated with significant time and material costs and low sensitivity, which allows to determine only the element of the path with a large deviation from the norm (about 20 dB). ,

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The closest to the invention to the technical essence and the achieved result is a device for measuring nonlinear distortions in the communication channel, containing forward and 35 reverse communication channels, on the PMO - the first amplifier, the second amplifier, the coaxial filter, the indicator and the successively connected generator, 40 radio pulses, delay unit and correlator; on each H3TI - serially connected. first linear amplifier, filter and second linear amplifier; output of the first 5 amplifier is connected via p my Single NAL communication to the inlet of the first linear usipitel, the output of the second linear

the amplifier is connected to the input of the second amplifier via the reverse link, and the output of the bandpass filter is connected to the second input of the correlator 2.

The disadvantage of this device is the complexity associated with the presence of a control frequency generator at each LCP and a telecontrol channel between the PMO and the LUP.

The purpose of the invention is to simplify the device by eliminating the reference frequency generator at each LEL and the telecontrol channel.

To achieve the goal of a device for measuring nonlinear distortions in a communication canal, containing forward and reverse communication channels at a serviced amplifying point — the first amplifier, the second amplifier, the band-pass filter, the indicator and the series-connected pseudo-random radio pulse generator, delay unit and correlator , at each unattended amplifier point - the first linear amplifier, the filter and the second linear amplifier are connected in series, the output of the first amplifier is connected via The first communication channel is connected to the input of the second amplifier and the output of the bandpass filter is connected to the second input of the correlator; the first, second, third and fourth switches are entered at the serviced amplifier point. the extension, the first, second and third keys, the first and second memory blocks, the read unit and the control unit, while the second output of the pseudo-random sequence of radio pulses is connected to the signal input of the first About the switch, the first output of which is connected to the first signal input of the second switch, the output of which is connected to the input of the first amplifier, the second output of the first switch is connected to the first signal input of the third switch and to the extension input, the second signal input of the second switch is connected to the first output of the fourth switch the body and to the output of the extension, the output of the second amplifier is connected to the signal input of the fourth switch, the second output of which is connected to the second signal input t A switch whose output is connected to the input of the bandpass filter, the output of the correlator is connected to the signal inputs of the first and second keys, the outputs of which, respectively, through the first and second memory blocks are connected respectively to the first and second inputs of the subtractor, the output of which is connected to the indicator input, and the first, second, third, and fourth outputs of the query unit are connected respectively to the control inputs of the first, second, and third keys and to the combined control inputs of the first, in orogo, third and fourth switches The drawing shows an electrical block diagram of an apparatus for measuring the nonlinear distortion in the communication channel. . Us, the unit contains an OUP 1, including a generator 2 of a pseudo-random sequence of radio pulses, a first switch 3, a second switch 4, a first amplifier 5, a delay block 6, an extension 7, a correlator 8, a band-pass filter 9, a third switch 10, a fourth switch 11, a second amplifier .12, first key 13, second key 14, first and second memory blocks 15 and 16, control unit I7, subtraction unit I8, third key 19 and indicator 20, forward and reverse channels 21 and 22, and LUP 23 including the first linear amplifier 2A, filter 23 and the second linear y silicate 26. The device operates as follows. At the OUP 1, a pseudo-random sequence of radio pulses from generator 2 through the first and second switches 3 and 4 and amplifier 5 is fed to the input of the direct communication channel 21. To the NUP 23 signal via the linear amplifier 24, through the filter 25 and the linear amplifier. reverse link 22. I received signal through amplifier 12, fourth and third switches 11 and 10, and band-pass filter 9 to the second input of the correlator 8. When the switches 3,4, 10 and 11 are in the upper position, which are controlled by control unit 17, the extension 7 included in the reception path, in the lower position - in the transmission path. The pseudo-random sequence of radio pulses from generator 2 is sent to the first input of the correlator 8 through the delay unit 6. If the delay time of the signal in delay block 6 is equal to the signal passing time from the generator 2 to the controlled EUP 23 and back, the harmonic signal is output equal to the frequency of the sequence of radio pulses. Thus, the reception is carried out by the time selection of signals passing from separate amplifying points of the main line. The received signal through the first or second keys 13 and 14 is fed respectively to the first or second blocks 15 and 16 of the memory, and is stored there. The first and second keys 13 and 14 are controlled by the control unit 17 and store the received signal levels corresponding to the inclusion of the extender 7 in the receive path or in the transmission path. The difference between these levels, generated by subtraction unit 18, goes through the third key 19 to the indicator 20. At the same time, according to the indications of the indicator 20, it is possible to determine: the attenuation of the nonlinearity. non-linearity of the return path is practically eliminated, since the attenuation of the loop filters is about 30 dB. The feasibility of the proposed device consists in eliminating the telecontrol channel and the control frequency generator at each LEL. In addition, with the help of the proposed device, measuring successively the attenuation of the nonlinearity of the section, including the controlled NL, and the section, exclude-. it can be used to determine the attenuation of the nonlinearity of the controlled LLP.

Claims (1)

DEVICE FOR MEASURING NON-LINEAR DISTORTIONS IN A COMMUNICATION CHANNEL - containing direct and reverse communication channels, at a served amplifier point - a first amplifier, a second amplifier, a band-pass filter, an 'indicator and a sequentially connected pseudorandom sequence of radio pulses, a delay unit and a correlator, on each unattended amplifier paragraph - a series-connected first linear amplifier, a filter and a second linear amplifier, the output of the first amplifier is connected through a direct communication channel to the input of the linear amplifier, the output of the second linear amplifier through the reverse communication channel is connected to the input of the second amplifier, and the output of the bandpass filter 'is connected to the second input of the correlator, characterized in that, in order to simplify the device by eliminating the telecontrol channel and on each maintenance-free amplifier at the control frequency generator point, the first, second, third and fourth switches, the extension cord, the first, second and third keys, the first and second memory blocks, the subtraction unit are entered at the served amplification point the control unit, and the second output of the pseudo-random sequence of radio pulses is connected to the signal input of the first switch, the first output of which is connected to the first 'signal _ input of the second switch, the output S of which is connected to the input of the first amplifier, the second output of the first switch is connected to the first signal 'input of the third switch and to the input of the drill collar, the second signal- 3 ny input of the second switch ¹ connected to the first output chen chotvertogo switch and to the output of the elongatable the output of the second amplifier is connected to the signal input of the fourth switch, the second output of which is connected to the second signal input of the third switch, the output of which is connected to the input of the bandpass filter, the output of the correlator is connected to the signal inputs of the first and second keys, the outputs of which are respectively through the first * and the second memory blocks are connected respectively to the first and second inputs of the subtraction unit, the output of which through the third key is connected to the indicator input, and the first, second, third and fourth output The control unit s are connected respectively to the control inputs of the first, second and third keys of the first, second, third and four to the combined control inputs of that switch.