SU860324A1 - Device for checking communication channel frequency characteristics - Google Patents

Description

(54) SUIT (; TVTO for the CONSTRUCTION OF THE FREQUENCY CHARACTERISTICS OF THE COMMUNICATION CHANNEL

I

The invention relates to telecommunications engineering and can be used to control frequency characteristics in channels and communication paths during the transmission of information through it.

A device for monitoring the frequency characteristics of a communication channel is known, comprising in the transmitting part a first generator of a control frequency, the output of which is connected through a serially connected first amplitude modulator and a first filter of a control frequency to the first input of the first amplifier, the output of which is connected to the input of the communication channel, control frequency generator, the output of which is connected via a second amplitude modulator connected in series and the second filter of the control frequency is connected to the second input of the first usi The cell, whose third input is an information signal, and the first quadratic detector, and the second amplifier in the receiving part, the input and first output of which are connected respectively to the output of the communication channel and to the input of the first band-pass filter, the output of which is the information output of the device, and the fourth control frequency filters, the combined inputs of which are connected to the second output of the second amplifier, the first and second limiting amplifiers, whose inputs are connected to the outputs of the third and fourth th filter control frequency, first and second amplitude detectors, a second quadratic detector and the comparator C.

However, the known device has a low control accuracy.

ten

The purpose of the invention is to improve the accuracy of control. To achieve the goal. In the device for controlling the frequency characteristics of the communication channel, containing in the transmitting part, the first generator of the control frequency, output to 5 through the first amplitude modulator connected in series and the first filter of the control frequency connected to the first input of the first amplifier, the output of which is connected to the input of the link zi, second generator

20 of the control frequency, the output of which is connected in series through the second amplitude modulator and the second filter of the control frequency to the second input of the first 3 amplifier, to the third input of which the information signal is supplied, and the first quadratic detector, and in the receiving part to the second amplifier, input and the first output of which is connected respectively to the output of the communication channel and to the input of the first bandwidth of the fiber, the output of which is the information output of the device, the third and fourth filters of the control frequencies, combine Negative inputs of which are connected to the second output of the second amplifier, the first and second amplifiers are the delimiters, whose inputs are connected respectively to the outputs of the third and fourth filters of the control frequencies, the first and second amplifiers O) 1e detectors, the second quadratic detector and the comparison unit, are entered in the transmitting part of the third amplifier, third, fourth, fifth, sixth and seventh amplifiers modulators, first and second switches, first, second, third and fourth frequency synthesizers, first and second integrators, second, third, four the first and fifth band filters, the first differential frequency selection unit, the first control unit, the first phase shifter and the control signal generator, and in the receiving part the eighth, ninth, tenth and eleventh amplitude modulators, the sixth, seventh, eighth and nine first bandpass filters, p1.1Y, sixth and seventh frequency synthesizers, first and second low pass filters, fetium and fourth switches, third and fourth integrators, second phase shifter, second control unit and second split frequency allocation unit, while Transmitting part of the output of the first amplifier through a successively connected third amplifier, third amplitude modulator, second bandpass filter, fourth amplitude modulator, third bandpass filter, the input and output of which are combined with the input and output of the fourth bandpass filter, first quadratic detector, fifth fifth band the filter, the pn amplitude modulator, the first integrator and the first switch are connected to the second input of the first amplitude modulator, the output of the fifth band-pass filter. through a serially connected J, sixth amplitude modulator, second integrator, and second switch are connected to the second input of the second amplitude unit 1 of the first module, the outputs of the first and second control frequency generators are connected respectively to the first and second inputs of the first difference-frequency allocation unit, output It is connected to the first inputs of the first, second, third, and fourth synthesizers; the output of the first control unit is connected to the second inputs of the first, second, fourth frequency synthesizers, the first, and the torus. About the switches and to the input of the control signal generator, the first and second OUPS1L of which are connected respectively to the third inputs of the first and second switches, the output of the second reference frequency generator is connected to the third input of the first frequency synthesizer, the output of which is connected to the second input of the third amplitude modulator, the output of the second synthesizer frequency is connected to the second input of the fourth amplitude modulator, the first output of the third frequency synthesizer is connected to the second input of the fifth amplitude modulator and to the house of the first phase shifter, the output of which is connected to the second input of the amplitude amplitude modulator, the second output of the third frequency synthesizer —and the output of the fourth frequency synthesizer are connected respectively to the first and second inputs of the seventh amplitude modulator, the output of which is connected to the fourth input of the first amplifier, and in the receiving one parts - the second output of the second amplifier through the successively connected eighth amplitude modulator, sixth bandpass filter, ninth amplitude modulator, seventh bandpass filter, input and the course of which is combined with the input and output of the eighth band-pass filter, the second quadratic detector, the ninth band-pass filter, the tenth amplitude modulator, the first input of which is combined with the first input of the eleventh amplitude modulator, and the third integrator is connected to the first input of the comparison unit, the output the first amplifier is a granule through the second differential frequency allocation unit, the second input of which is connected to the output of the second amplifier of the limiter is connected to the first inputs of the fifth sixth and seventh frequency testers, the outputs of which are connected to the second inputs of the eighth, ninth and one fifteen amplitude modulators, respectively, the output of the first amplifier — grap 1 chitel is connected to the second input of the fifth frequency synthesizer; the output and input of the second phase shifter are connected respectively to the second inputs of the tenth amplitude modulator and the eleventh amplitude modulator, the output of which through the fourth integrator is connected to the second input of the comparator unit, the output of the third filter of the control frequency in series the first amplitude detector, the first low-pass filter, the second control unit and the third switch are connected to the third input of the comparison unit, the output of the fourth filter of the control frequency through the second connected

The amplitude detector and the second frequency band are connected to the second inputs of the third switch and the second control unit, the first input and output of which is connected to the first and second inputs of the fourth switch, the output of which is connected to the fourth input of the comparison unit.

FIG. Figure 1 shows the structural electrical circuit of the transmitting part of the device proposed; in fig. 2 - the same, the receiving part.

A device for monitoring the frequency characteristics of the communication channel contains, in the transmitter part, the first amplifier 1, the third amplifier 2, the first and second filters of the control frequency 3 and 4, the first through seventh amplitude modulators 5-11, the first and second generators of the control frequency 12 and 13, the first block 14 of the first and the difference frequency, the first and second switches 15 and 16, the second to the fifth bandpass filters 17-20, the first to the fourth frequency synthesizers 21-24, the first quadratic detector 25, the first phase shifter 26, the first and second integrators 27 and 28, generator the control signal ator 29, the first control unit 30. In the receiving part (FIG. 2) - the second amplifier 31, the third and fourth filters of the control frequency 32 and 33, from the eighth to the eleventh amplitude modulators 3437, the first, sixth, seventh, eighth and the ninth bandpass filters 38-42, the second quadratic detector 43, the third and fourth integrators 44 and 45, the first and second amplitude detectors 46 and 47, the first and second amplifiers limiting gels 48 and 49, the first and second low-pass filters 50 and 51; the second difference frequency allocation unit 52, the fifth to seventh frequency locators 53-55, the second phase shifter 56, the third and fourth switches 57 and 58, the second control unit 59, the comparison unit 60.

The device works as follows.

The first and second generators of the reference frequency 12 and 13 produce harmonic signals with frequencies f and are located outside the spectrum of the information signal. For example, for the secondary channel, f is 312.15 kHz, and 551.7 kHz. The first difference frequency separator 14 is allocated the difference frequency p, equal to fj f. The first frequency synthesizer 21 produces frequencies equal to $ 4-fp, where the type is integer numbers, the second frequency synthesizer 22 produces frequencies equal to WJNfp, where M and N are also divisible numbers, the third frequency synthesizer 23 produces two frequencies F and 2F, equal respectively fp | E and) P, where E is an integer, which is chosen to be 20-100.

Measuring frequency f. It is produced by the fourth frequency synthesizer 24, modulated by the frequency F and the dual-frequency complex with the frequencies i.P and with the shock level of the permissible noise level through the first amplifier 1 is introduced into the channel together with the information signal. With the help of the first amplifier having a large input impedance, amplitude modulators, the second

a band-pass filter, 17 with a 3-5F bandwidth, and a third and fourth band-pass filters, 18 and 19, tuned to frequencies f at drg fg-i-FH with a bandwidth of 0.05-0.2F, The sum of the information and measurement signal is separated by a bipolar signal with an offset by the fi-fg frequency spectrum, which includes a two-frequency measurement of the 1st signal. After quadratic detection, the fifth band-pass filter 20 tuned to the frequency 2F highlights the signal - (4) containing a harmonic signal with a frequency of 2F and a randomized narrowband signal X (-t) generated by the information signal, and the harmonic and random signal of one time dca.

5 The signal vlfc) is fed to the fifth and sixth amplitude modulators 9 and 10. As a carrier, a signal with a frequency of 2F is fed to the fifth amplitude modulator; and the sixth amplitude modulator 9 is supplied to the sixth amplitude modulator. in phase on. The output signals of the amplitudes of the modulators 9 and 10 are averaged by the TCs of the integrators 27 and 28, having a constant gain of 1 + 10 s. Slowly changing signals d (-t) and b (-fe) c output

integrators 27 and 28 are fed to the inputs of switches 15 and 16, the output of which alternately with control signals from the control signal generator is fed to amplitude modulators 5 and

 6. The signal of the first control frequency, amplitude jrHpOBaHHbm by the signal C ((-Y and control signals1 and the signal of the second control frequency, amplitude modulated by the signal b (-) control signals

5 through the first and second filters of the control frequency 3 and 4 and the first amplifier 1 enters the channel along with the information and measurement signals. The signals of the measuring control unit 30 change the measuring frequency within the channel frequency band, respectively, the carrier frequencies fed to the modulators change accordingly.

Claims (1)

At the reception of the third and fourth filters of the control frequency 32 and 33, amplitude modulated signals of the control frequency are extracted, from which, using an amplifier-limiter, signals with frequencies equal to X = + Df, g + 1 are obtained, along with the frequency mixing in the channel. Using the first and second amplitude detectors 46 and 47 and the first and second lowpass filters 50 and 5, the output signals O (i), ST and control signals were extracted. Since the frequencies of the information signal and the measuring signal are mixed in the channel by the same amount. D f, as well as the control frequency signals, the siptal V at the output of the de band filter 42 is associated with the signal (b) at the output of the fifth band filter 20 by the relation: va) -Kb (-t-trp)), where K - channel transfer coefficient at the measuring frequency; group time delay channel at the measuring frequency; and () is a noise disturbed by thoughts in the channel. The inputs of block 60 compares the third and fourth integrators 44, 45 with signals аШи b (i), and from the third and fourth switches 57 and 58 - signals dft) and bCt). In block 60, the comparison with signals a (-t ), b Ct) a (i), bCi), the attenuation and relative group lag r are determined; at the measuring frequencies as: ° r e Cj-W-d1 UJ bltF., ChgzhtN. Thus, the proposed device allows to control the frequency characteristics of channels and paths with high accuracy. communication during the transmission of information on them. Using the results of the control to quickly correct the characteristics of the channel and timely conduct prsk | Protective measures can increase the quality of communication channels and paths and the efficiency of their use. Apparatus of the Invention A device for combining frequency characteristics of a communication channel, comprising, in the transmitting part, a first frequency generator, the output of which is connected through the first amplitude amplifier and the first control frequency filter to the first input of the first amplifier and the second the control frequency generator whose output is connected through a second amplitude power amplifier and the second control frequency filter connected to a second input the first amplifier, to the third input of which informational 8 ignals was fed, and the first quadratic detector, and & the receiving part is the second amplifier, the input and the first output of which are connected respectively to the output of the communication channel and to the input of the first bandpass filter, the output of which is the information output of the device, the third and fourth filters of the control frequencies, the combined inputs of which are connected to the second output of the second amplifier, the first and second amplifier-limiters, the inputs of which are connected to P1o with the outputs of the third and fourth filters of the control frequencies, the first and second amplitude detectors, the second quadratic detail Ktorov and sravnegat unit, characterized in that, in order to increase the accuracy of control, vvedstP) in the transmitter portion of the third usilitetsh; the third, fourth, fifth, sixth, and seventh amplitudes 1 {b e modulators; first and second switches; the first, second, third and fourth frequency synthesizers; first and second integrators; second, third, fourth, and fifth bandpass filters; the first block of selected differential frequency; first control unit; first phase shifter and control signal generator. In the receiving part, the eighth, ninth, tenth, and eleventh amplitude modulators; sixth, seventh, and ninth bandpass filters; the fifth, sixth and seventh synthesizer frequencies; the first and second filters TP1ZHNICH frequencies; third and fourth switches; third and fourth integrators; second fuser; the second control unit and the second difference frequency allocation unit; in the transmitting part, the output of the first amplifier through the third amplifier connected in series, the third amplitude modulator, the second band-pass filter, the fourth amplitude modulator, the third band-pass filter, the input and output of which are combined respectively with BCTifo with the input and the output of the fourth bandpass filter, the first quadratic detector, the fifth band filter, the fifth amplitude modulator, the first integrator and the first switch are connected to the second input About the amplitude model, the output of the fifth bandpass filter through the sixth amplitude 1Y modulator connected in series, the second integrator and the second switch are connected to the second input of the second amplitude modulator, the outputs of the first to the second frequency frequency generators are connected respectively to the first and second inputs of the first a difference frequency selection block, the output of which is connected to the first inputs of the first, second, third and fourth frequency synthesizers, the output of the first control unit is connected to the second inputs The first, second and fourth frequency synthesizers, the first and second switches and the input of the control signal generator, the first and second outputs of which are connected to the first and second switches, respectively, are connected to the third input of the first frequency synthesizer, the output of which is connected to the second input of the third amplitude modulator, the output of the second frequency synthesizer is connected to the second input of the fourth amplitude-1O modulator, the first output is the third of its synthesis the frequency jam is connected to the second input of the fifth amplitude modulator and to the input of the first phase shifter, the output of which is connected to the second input of the sixth amplitude modulator, the second output of the third frequency synthesizer and the output of the fourth frequency synthesizer are connected to the first and second inputs of the seventh amplitude modulator, the output of which is connected to the fourth input of the first amplifier, and s of the receiving part - the second output of the second amplifier through serially connected eighth amplitude module of the sixth strip the second filter, the ninth amplitude modulator, the seventh band-pass filter, whose input and output are combined respectively with the input and output of the eighth band-pass filter, the second quadratic detector, the ninth band-pass filter, the tenth amplitude modulator, the first input of which is combined with the first input eleventh amplitude modulator, and a third integrator connected to. the first input of the comparator unit, the output of the first force of the limiting body through the second differential frequency selection unit, the second input of which is connected to the output of the second amplifier limiting device, is connected to the first inputs of the fifth, sixth and seventh frequency synthesizers, whose outputs match the second and the corresponding inputs the eighth, ninth and eleventh amplitude modulators, the output of the first amplifier limiter is connected to the second input of the fifth frequency synthesizer, the output and input of the second phase shifter are connected, respectively with the second inputs of the tenth amplitude modulator and the eleventh amplitude modulator, the output of which is connected to the second input of the comparator through the fourth integrator, the output of the third filter of the control frequency through the first amplitude detector connected in series, the first low-pass filter, the second control unit and the third switch are connected with the third input of the comparator unit, the output of the fourth filter of the control frequency through the second amplitude detector connected in series and the second filter of the lower frequencies This is connected to the second inputs of the third switch and the second control unit, the first input and output of which are connected respectively to the first and second inputs of the fourth switch, the output of which is connected to the fourth input of the unit. Sources of information taken into account during the examination 1. Solovyov N.N. Measuring equipment in wire communication, part IV, M., Sv, 1974, p. 274-275. FIG. 2