SU1056473A1 - Method and device for measuring non-linear distortions in high-frequency transmission system - Google Patents

Abstract

1 A method of measuring nonlinear distortions in high-frequency transmission systems, including the transmission and test signal from a serviced amplifying point on a forward channel. Communication, the transmission of a combinational frequency signal from a forward link transmission output to each return unattended amplifying point to a reverse input. of the communication channel, the selection at the served amplifying point of the signal is the combination of the frequency of the monitored unattended amplifying point from the signal received via the return link | measuring the selected signal and comparing it with a normalized value, characterized in that, in order to improve measurement accuracy, simultaneously with the transmission of the test signal from the serviced amplifying point on the direct, the communication channel is fed to the receive input of the direct communication channel of the controlled unattended amplifying the point of the harmonic signal of the first control frequency, and the selection of the signal of the combination frequency at the controlled amplifying point About a point is carried out by time selection, where a pseudo-random binary signal with a central second control frequency is transmitted as a test signal, the first and second control frequencies are chosen from the condition that the harmonics of the second control frequency are not equal to the combination frequency, equal to the sum or difference of the second control frequency and one of the harmonics of the first control frequency ". / g 11

Description

2o A device for measuring nonlinear distortions in high-frequency transmission themes containing, at the serviced amplifying point, amplification of transmission, the output of which is connected to the input of the forward link, the amplifier. The input and output of which are connected respectively to the output of the reverse link and with the input of the first bandpass filter, a level meter and a remote control channel, and at each unattended amplifying point a first linear amplifier, the input and output of which are connected respectively to the input at: em and out a second direct link transmission, a second linear amplifier, the input and output of which are connected respectively to the receive input and the output of the reverse link / communication channel, and a second band-pass filter whose input and output are connected respectively to the output of the direct communication link and with the Reverse link reception input, characterized in that a synchronizer and a pseudo-random signal generator, a delay unit and a correlator are entered at the served amplifying point, and at each unattended force At the servicing point, the first and second outputs of the synchronizer are connected respectively to the input of the remote control channel and to the control input of the delay unit, the second input and output of the correlator are connected respectively to the output of the first bandpass filter and to the input level meter, the second output of the ipseudo-random signal generator is connected to the input of the transmission amplifier, and at each unattended amplifier point the input and output of the control generator is often s are respectively connected to the input reception telecontrol channel and receiving input forward link zi.i

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The invention relates to telecommunications and can be used for. remotely determining the magnitude of the non-linearity of amplifiers in unattended amplifying points (LLP), 5 high-frequency (HF) transmission systems located on the communication lines. There is a known method for measuring the magnitude of non-linear distortions in HF transmission systems, which is located in the trunk section between two: served by force points (PMO is served with PMO in the direction of

two sinusoidal signals from the tested LLW: the first (test) - in is the linear path of the system, the second (telemetry) - from the control frequency generator (TSC) to the input of the linear amplifier (LUs) located in the controlled LLP, receive a 20 combination signal at the controlling OUP , select it and compare it with% 10 of the magnitude of the magnitude of the nonlinear distortion "The measurement process is repeated for all subsequent 25 LEL until the defective LU is found in the LUP 1"

A device containing a test signal generator, whose output is connected to the input of the transmission amplifier, and a combining signal extraction unit, the output of which is connected to the input of the nonlinear distortion estimator, and on each LEL, the GCF, whose input is connected to the LUS input f, is known.

The disadvantage of the known method and the device implementing it is the low accuracy of measurements, due to the fact that the signal with the GKCH lies outside the working spectrum of the system.

In addition, this method of measurement requires the participation of two teams of operators from neighboring PMOs.

The closest to the invention to the technical nature is a method for measuring nonlinear distortions in RF transmission systems, including the transmission of a test signal from a PMO on a forward link, the transmission of a combination frequency signal from each forward link to a reverse input for a communication channel, extracting a 3t0 signal at a PMO of a combining frequency controlled by a SCC from a signal received by the nd reverse communication channel, measuring the level of a dedicated / -o signal and comparing it with the normalized value Zj, The closest to the invention to the technical essence is a device for measuring nonlinear distortions in RF transmission systems, which contains a transmission amplifier on an OUP, the output of which is connected to the input of the forward link channel, the amplifier, reception, input and output of which are connected respectively to the output of the reverse the communication channel and with the input of the first bandpass filter, a level meter and a remote control channel, and at each NUP - the first linear amplifier, the input and output of which are connected respectively to the input of the receiver and the output of the transmission straight a communication channel, a second linear amplifier, the input and output of which are connected respectively to the input of the receiver and to the output of the transmission of the reverse communication channel, and a second band-pass filter whose input and output are connected respectively to the output of the transmission of the direct communication channel and with a reverse channel receive input {2 The disadvantage of this method and the device implementing it is also low measurement accuracy. Purpose of the invention. - improving the accuracy of measurements. I The goal is achieved by; that according to the method of measuring nonlinear distortions in high-frequency transmission systems, including the transmission of a test signal from the PMN on the forward link, the combination frequency signal from the forward link link output to the reverse link receive input is sent to each CEL, the selection on the PMO of the signal, the combinational frequency of the co-monitored LCP from the signal received on the reverse communication channel, the measurement of the level of the selected signal and its comparison with the normalized value, simultaneously with the transmission of the test The signal from the PMOs on the forward link is fed to the input of the forward link channel's reception of the monitored LUE, the harmonic signal of the first control frequency, and the selection to the FCS of the combinational frequency of the monitored FID is performed by temporal selection, and . 73 signal with a central second control frequency, and the first and second control frequencies are chosen from the condition that the harmonics of the second control frequency are not equal to the combination frequency equal to the sum or difference of the second control frequency and one of the harmonics of the first control frequency realizing the method of a transmission amplifier containing a PMO. The output of which is connected to the input of a direct communication channel; an amplifier-reception, the input and output of which are connected respectively to the output of a reverse communication channel and with the input of the first bandpass filter, a level meter and a telecontrol channel, and at each NUP - the first linear amplifier, the input and output of which are connected respectively to the input input and to the output of the transmission of the forward link channel, the second linear amplifier, the input and output of which are connected correspondingly with the reception input and with the output of the reverse transmission; the communication channel and the second bandpass filter 1, the input and output of which are connected respectively to the output of the transmission of the forward communication channel and with the input input of the reverse communication channel; the synchronizer and the pseudo-random signal generator, the delay unit and the Lorrelator are connected in series, and a control frequency generator is input at each LEL, with this first and second synchronizer outputs connected to the remote control channel input and the second input and the output of the correlator is connected respectively to the output of the first bandpass filter and to the input of the level meter, the second output of the pseudo-random signal generator is connected to the input of the transmission amplifier, and at each output unit The input and output of the reference frequency generator are connected respectively to the receive input of the telecontrol channel and to the receive input of the forward link. The essence of the method of measuring nonlinear distortions in the RF transmission systems consists in the fact that two signals are supplied - a pseudo-random binary test signal to the signal being tested, and a control signal. the frequency of the frequency to the input of the linear amplifier of the tested LLP. Then, a loop-transmitted signal of a combination frequency at the PMN is received, a temporary selection of this synal is made taking into account the transit time of the test and combination signals, the level of the extracted signal is measured and compared with the normalized Value,

The drawing shows a structural electrical circuit of a device for measuring nonlinear distortions in RF systems.

The device contains a serviced amplifying item 1, comprising an amplifier 2 transmissions, an amplifier 3 reception, a first band-pass filter C, a pseudo-random signal generator 5, a delay unit 6, a correlator 7, a level meter 8 and a synchronizer 9 forward link 10, a reverse channel 11 link Zi, the channel 12 telecontrol and maintenance-free amplifying points 13, each of which contains the first linear amplifier 1, the second linear, the amplifier 15, the second band-pass filter 16 and the generator 17 control frequency, |

The DDS 5, via the amplifier 2, transmits a signal continuously to the forward link channel 10. The signal from the synchronizer 9 starts the GCh 17 of the tested LLP 13 via the remote control channel 12. At the same time, the signal from the synchronizer 9 is supplied to the delay unit 6, With the voltage of the PSDS, the voltage of the GCB forms a combination product of the second or third order. The output of the first VLU through the second band-pass filter 16 enters the reverse link channel 11 and further into the OUP 1, where the signal of the combining frequency is amplified, filtered and fed to the correlator 7. binary signal. The delay unit 6 delays the signal of the 5 PDDS generator for the total time that the test signal passes to the monitored LFC and the combination frequency signal back to the LLA monitored. The selected signal is processed on the correlator 7, after which the measurement of the nonlinear distortion in the 8 level meter,

The technical and economic efficiency of the method for measuring nonlinear distortions in RF transmission systems and devices for its implementation is to improve the accuracy of remote measurement of nonlinear distortions in NUP amplifiers:

Claims (1)

1. A method for measuring nonlinear distortion in high-frequency transmission systems, including transmitting a test signal from a serviced amplifier point via a direct channel. Communication, transmitting a Raman signal at each maintenance-free amplifying station from the transmission output of the direct communication channel to the input input of the reverse communication channel, highlighting on the serviced amplification point of the Raman frequency signal of a controlled maintenance-free amplification point ^ from a signal received on the reverse communication channel) Measuring the level of the selected signal and comparing it with a normalized value, characterized in that, in order to increase the measurement accuracy, at the same time as transmitting the test signal from the serviced amplifier point to the direct channel, a harmonic signal is fed to the input channel of the direct communication channel of the controlled unattended amplifier point control frequency, and allocation for servicing; the desired amplification point of the Raman signal of the controlled unattended amplification point carried out by temporary selection, whereby a pseudo-random binary signal with a central second control frequency is transmitted as a test signal, and the first and second control frequencies are selected so that the harmonics of the second control frequency are not equal to the combination frequency equal to the sum or difference of the second control frequency and one of the harmonics of the first control frequency. from: <g ω cz About Qi 05 k & b CO 10564732о A device for measuring nonlinear distortion in high-frequency transmission systems, which contains a transmission amplifier at the serviced amplification point, the output of which is connected to the input of the direct communication channel, a reception amplifier, the input and output of which are connected respectively to the output of the reverse communication channel and to the input of the first band-pass filter , a level meter and a telecontrol channel, and at each maintenance-free amplification point - the first linear amplifier, the input and output of which are connected respectively to the input of the input and output m transmission of a direct communication channel, a second linear amplifier, the input and output of which are connected respectively to the reception input and output of the reverse / communication channel transmission, and a second band-pass filter, the input and output of which are connected to the corresponding communication channel, characterized in that on the served amplifier a synchronizer and a series-connected pseudo-random signal generator, a delay unit and a correlator are introduced, and at each maintenance-free amplification point, a control frequency generator is introduced, while of the amplified point, the first and second outputs of the synchronizer are connected respectively to the input of the telecontrol channel and to the control input of the delay unit, the second input and output of the correlator are connected respectively to the output of the first band-pass filter and to the input of the level meter, the second output of the random-signal generator is connected to the input of the transmission amplifier, and at each maintenance-free amplification point, the input and output of the control frequency generator are connected, respectively, with the output of the direct communication channel transmission receiving input from the inverse input receiving the telecontrol channel, and to the input of receiving forward channel svyazi.I