SU1658394A1 - Communication channel testing method - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to improve the control accuracy of a broadband communication channel. The control method of the communication channel is. that a periodic linear-frequency-modulated signal is formed as a control signal at the transmission, and at the reception all its spectral components are summed up in the same phase and control the duration of the total signal at a selected level of its amplitude. An example of the implementation of the proposed method. 3 il.

Description

The invention relates to telecommunications and can be used to control communication channels used in the organization of data channels.

The purpose of the invention is to improve the control accuracy of a broadband communication channel.

FIG. 1 shows a structural electrical circuit of a device implementing the proposed method; in fig. 2 - the same, the generator of the linear-frequency-modulated (LFM) signal; in fig. 3 - the same broadband matched filter.

The essence of the method is that a periodic chirp signal is generated as a control signal at the transmission, and at the reception all its spectral components are summed up at the same phase and control the duration of the total signal at a selected level of its amplitude.

The device for implementing the proposed method (Fig. 1) contains on transmission a generator of 1 chirped pulses, and at the reception - a broadband matched filter 2 and indicator 3, and the chirped-generator 1 of pulses (Fig. 2) contains dispersive

ultrasonic delay line 4 (DULZ) on surface acoustic waves (SAW) and amplifier 5, and broadband matched filter 2 contains an input amplifier 6, DULZ 7 on the SAW and output amplifier 8.

The device works as follows.

The trigger pulse is fed to the input of the 1 chirp pulse generator, where in the DULZ 4 a pulse is formed with a square envelope of the amplitude-frequency characteristic and with a linear frequency characteristic. The amplifier 5 provides a predetermined amplitude of the control pulse. From the output of filter 2, the signal compressed in duration goes to indicator 3. Amplifiers 6 and 8 make it possible to make the transmission coefficient of filter 2 equal to one. All spectral components are delayed through the DULZ 7 for a different time, and the dispersion introduced by generator 1 is compensated, and the spectral components arrive at the output of filter 2 at the same time in zero phase. As a result of their common-mode addition, an envelope of the form Sin х / х is formed with an increased

cl

with

about cl

00 00

Yu

amplitude. The deviation of the duration of the received signal from the nominal value at a selected amplitude level characterizes the phase distortions introduced by the channel and determines the quality of the transmission.

Claims (1)

Claims of the method of monitoring a communication channel, namely, that a transmission signal is formed on a transmission, and its spectral components are selected at the reception and determining the distortion of the pilot signal, characterized in that, in order to increase the control accuracy of the wideband communication channel, a periodic frequency-modulated signal is formed as a pilot signal in the transmission, and at the reception its spectral components are summed in the same phase and the total phase distortions in the communication channel due to an increase in the duration of the total signal at a selected level of its amplitude. 1 FIG. 2