SU1136319A1 - Process for measuring non-linear distortions in communication channel - Google Patents

Abstract

METHOD OF MEASURING A NONLINEAR DISTORTION IN A SQUARE IN KANAP, including transmitting a test radio signal from a control amplifying point on the forward communication channel of a test signal in the form of a pseudo radio signal, receiving a test signal at each controlled amplifier j; At a test point, the test signal from the reverse communication channel is selected at the control amplifier by temporal selection and the measurement of the signal level, characterized in that the test signal is transmitted from the control point to the test amplifier with ampititude successively two values, which differ by величину constant value, at each controlled amplifying point, the received test signal from the forward link transmission signal is transmitted to the return path of the communication channel, and at the monitoring amplifier point, measure the level of the transmitted signal for each of the two amplitudes of the transmitted test signal and measure the difference between the ratio of measured levels and the ratio of two amplitudes of the transmitted test signal, which determine non-linear distortion s of the communication channel.

Description

The invention relates to telecommunications and can be used on communication lines to measure the magnitude of the non-linear attenuation at the third harmonic of the elements of the path of the unattended and serviced amplifying points, in particular, to localize the faulty amplifying points. A known method for measuring nonlinear distortions in a communication channel is that a test signal is transmitted from an end point to a forward channel, a shunt circuit tuned to the frequency of a test signal or a measured nonlinearity product is successively installed at intermediate amplifying points, and The end point measures the received signal level l1. The disadvantages of this method are low measurement accuracy, as well as a long time associated with the need to leave the crew to measure hoists to the highway. The closest to the proposed technical essence and the achieved result is a method for measuring nonlinear distortions in a canal of szgt, including the transmission from a control amplifying point on a direct communication channel of a test signal in the form of a pseudo-random binary radio signal, the reception of a test signal on each controlled amplifier point, the selection of the test signal from the reverse communication channel at the control amplifying point by temporal selection and measuring the level of signal 2. However, the known method provides a low measurement accuracy. The purpose of the invention is to increase the accuracy of measurement. This goal is achieved by the fact that, according to the method of measuring nonlinear distortions in a communication channel, including a transmission from a controlling amplifying point on a forward communication channel, a test signal in the form of a pseudo-random binary for the signal, receiving a test signal at each controlled amplifying point, allocating it to the controlled amplifying signal paragraph test signal from the return channel with. By means of time selection and measurement of the level of the selected signal, the test signal is transmitted from the control amplifying point with an amplitude that takes two successive values, differing by a constant value, at each controlled gain point, the test signal from the forward link transmission output is transmitted to the input of the reverse link, and at the controlling amplifying point, the level of the allocated signal is measured for each of the two amplitudes of the transmitted test ceiling elements and the signal difference between the measured ratio and the ratio of the measured levels of the two amplitude values of the transmitted test signal, determined by kot.oroy nonlinear distortion in the communication channel. The drawing shows a structural electrical circuit of the device implementing the method. The device contains at the served amplifying point (GCC) 1 pseudo-random binary radio signal generator 2, extension cable 3, amplifier 4 transmissions, switch 5, delay unit 6, level meter 7, correlator 8, band-pass filter 9 and reception amplifier 10, forward and reverse the communication channels 11 and 12 and the linear amplifier 14 in the forward direction, located on the controlled amplifier point 13, the loop filter 15 and the reversed line amplifier 16. In order to measure nonlinear distortions in the communication channel, a pseudo-random radio signal with a specific filling frequency (W) and amplitude constituting (A and AL) are transmitted to the forward communication channel from the controlling GCC 1 to the direct communication channel, and two values of K / Yo const , and at the reception of the same PMO, the time signal of the channel that passed through the channel selection is carried out by the forward link transmission elements, the shield filters and the reverse link transmission elements, i.e. taking into account the transit time of the signal from the place of its transmission to the controlled amplifying point (UE) and back, and the change (& p) of the ratio of the amplitudes of the two-level signal (D) at the reception and at the transmission is measured. In this case, the nonlinearity of the forward link channel from the point of transfer of the signal to any intermediate control unit is measured, and the effect of nonlinear reverse link is practically excluded, since the damping of the spam filter is large. about 30 dB. Ensuring the required accuracy of measurement is achieved by the fact that it is not the value of the received signal level, which is determined by the residual attenuation of the communication channel and its instability, but the change in the ratio of the amplitudes of the two-level signal in the transmission and reception is measured, and these ratios are measured by the same paragraph. At K 1 (practically at K 10) Ap 26. to where. Is the third harmonic non-linearity zatzghanie. Thus, the measured value unambiguously characterizes the damping of the nonlinearity, since - ,. Consequently, the meter scale, i P values can be graduated in. The determination of the attenuation of the nonlinearity of any UE is possible due to the fact that the voltage of the measured nonlinearity product coincides with the voltage of the signal propagating through the communication channel, in frequency and phase, which causes quite a definite law of summation of nonlinearity products from individual ones; channel elements (addition by voltage). Consequently, by measuring successively the magnitude (attenuation of the linearity of the section from the PMO to the nth UE) and a / jr, (the attenuation of nonlinearity about the PMO to (n + 1) -th UE), can be determined; third harmonic nonlinearity attenuation (U) 19 - 20 IgdO) dB. Ch.O. Devices implementing the method works as follows. . At the PMO 1, a pseudo-random binary radio signal from the generator 2 through the extension 3 and the transmission amplifier 4 is fed to the input of the forward link channel 11. Using key 5 (switching on or shorting the extension 3), the amplitude of the transmitted signal is given one of two possible values (A (or AJ) that differ by a constant value (/ AK). On the controlled UE 13 signal through the linear amplifier 14 in the forward direction The loop filter 15 and the reverse line amplifier 16 are fed to the reverse communication channel 12. At the PMO 1, the received signal goes through the receive amplifier 10 and the band filter 9 to the correlator 8, to which pseudo-random binary is fed to the second input radio signal from oscillator 2. If the delay time of the signal in block 6 is equal to the time it takes the signal from oscillator 2 to monitor YN 13 to back, then the output of the correlator 8 has a harmonic signal with a frequency equal to the frequency of filling the sequence of pulses (s). the reception is carried out by time selection of signals, the arrival of irs from monitored UE lines, the level of the received signal is measured with a meter 7 for the signal with amplitude A, and with amplitude Ag. From the difference between the ratio of measured levels and the known ratio of the amplitudes of the transmitted signal, it is possible to determine the attenuation value of the nonlinearity of the monitored section of the path. The technical and economic effect of the method of measuring the linear distortions in the communication channel consists in increasing the measurement accuracy and simplifying the measurement complex achieved by the exclusion of test signal generators on the UE.

Claims (1)

METHOD FOR MEASURING NONLINEAR • DISTURBANCES IN THE COMMUNICATION CHANNEL, which includes transmitting from the controlling amplifier point via a direct communication channel a test signal in the form of a pseudorandom binary radio signal, receiving a test signal at each controlled amplifier ₍ ; point; allocation of the test signal from the controlling amplifier from the return channel communication by temporary selection and measuring the level of the selected signal, characterized in that, in order to increase the accuracy of the measurement, from the controlled In the test station, the test signal is transmitted with an amplitude that takes two values in succession, differing by a constant value, at each monitored amplifying station, the received test signal from the output of the forward communication channel is transmitted to the input input of the reverse communication channel, and the level of the selected signal for each of the two values of the amplitude of the transmitted test signal and measure the difference between the ratio of the measured levels and the ratio of the two values the amplitude of the transmitted test signal, which determines the nonlinear distortions in the communication channel. SU ,,., 1136319 11363