SU1083375A1 - Device for measuring group transmission time in communication channel - Google Patents

Abstract

. DEVICE FOR MEASUREMENT. GROUP TRANSMISSION TIME IN THE COMMUNICATION CHANNEL, containing on the transmitting side a first matching unit and serially connected reference generator, sawtooth voltage generator and frequency modulator, and on the receiving side a second matching unit and serially connected conversion unit and indicator, characterized in that in order to reduce the measurement time, serially connected square pulse generator and phase handler are entered on the transmitting side, and subsequently received on the receive side phase connected demodulator and threshold unit; the output of the reference generator is connected to the input of the square pulse generator; the output of the frequency modulator is connected to the second input of the phase switch, whose output is connected to the input of the first matching unit; the output of the second matching unit is connected to the input phase demodulator, and the output of the threshold unit is connected to the input of the conversion unit. fff h 11

Description

.1 The invention relates to telecommunications and can be used to monitor and measure multichannel transmission systems. A device for imereNIL group transmission time in a communication channel is known, which contains a modulator on the transmitting side, the input of which is connected to the output of the reference oscillator, and the serially connected counting unit and t J indicator on the receiving side. The disadvantage of this device is the measurement time circuit design, the closest to the technical essence and the achieved result to the proposed is a device for measuring the group transmission time in the communication channel, which contains on the side, the first matching unit and serially connected reference generator, sawtooth generator and frequency modulator; on the receiving side, the second matching unit and the serially connected conversion unit and indicator C23. ; A disadvantage of the known device which performs the calculation of the characteristic of the group transmission time by the response of the communication channel to a sequence of pulses of the linear frequency of a no-modulated signal is that it requires a long measurement time, since the equipment on the receiving side is complicated in setting up and operating wherein, in order to reduce the measurement time, a high speed analog-code is needed, and to compute the converter t is a literal block. I The purpose of the invention is to reduce the measurement time. The goal is achieved in that the device for measuring the group transmission time in the communication channel, comprising on the transmitting side a first matching unit and serially connected reference oscillator, sawtooth generator and frequency modulator, and on the receiving side a second matching unit series-connected conversion unit and an indicator; on the transmitting side, a series-connected square impulse generator and phase handler are inserted, and on the receiving side are entered after phase connected demodulator and threshold unit, while the output of the reference generator is connected to the input of the square pulse generator, the output of the frequency modulator is connected to the second input of the phase switch, the output of which is connected to the input of the first matching unit, the output of the second matching unit is connected to the input phase shifter, demodulator, and the output of the threshold unit is connected to the input of the conversion unit. FIG. 1 shows the structural electrical circuit of the device; in fig. 2 - unit recalculation and indicator. A device for measuring the group transmission time in a communication channel contains a reference generator 1, a generator of 2 rectangular pulses, a frequency modulator 3, a sawtooth voltage generator 4, a phase manipulator 5, a first matching unit 6, a communication channel 7, a second block b matching, a phase demodulator 9, a threshold unit 10, a conversion unit 11 and an indicator 12. 1 The conversion unit 11 contains a frontalization block 13, a first pulse counter 14, a clock generator 15, a second pulse counter 16 and a decoder 17. The indicator 12 consists of blocks 18, -18 memories with display elements. Reference oscillator 1 is a quartz stabilized multivibrator. Rectangular pulse generator 2 can be built as a pulse trainer, such as a Schmitt trigger. Frequency modulator 3, an overvoltage linear frequency modulated signal, is a generator of sinusoidal oscillations that are used as a carrier oscillation applied to the input of a ring frequency converter, to the information input of which a sawtooth voltage generated by the 4th sawtooth generator is applied. The stability of the working stroke of the sawtooth voltage of the generator 4 is determined by the use of a nonlinear rheostatic capacitive bridge. Phase manipulator 5, the phase of the input oscillations changing at certain instants of time, for example, cannot be built like a conventional ring frequency converter; the first and second blocks 6 and 8 matching - as balancing and matching transformers; threshold block 10 — as a Schmitt trigger; block 13 of the fission of fronts — as a differentiating chain followed by the formation of short rectangular pulses; the first and second counters 14 and 16 pulses - on integrated circuits K155IE5; 15 clock pulse generator - as a multivibrator stabilized by a quartz resonator. Descrambler 17 is a shift register giving permission to write to indicator 12 Blocks with display elements can be built on K589IR12 integrated circuits with mapping to seven-segment indicators via binary code to seven-segment converters. The device works as follows. The starting pulse, which comes from the reference generator 1, simultaneously starts the generator 2 rectangular pulses and the generator 4 sawtooth voltage. Under the control of the sawtooth voltage, the frequency modulator 3 generates a linear frequency-modulated signal, which in the phase manipulator 5 manipulates in phase, for example, 180, under the control of rectangular impulses with a duty cycle, for example 2, coming from a generator of 2 rectangular pulses . The linear-frequency-modulated signal thus generated with phase shift in the first matching unit 6 is matched with communication channel 7 in terms of frequency, level and input impedance. At the receiving side, from the output of the second matching unit 8, the designation of which is similar to the first matching unit 6, the signal arrives at the phase demodulator 9, and from its output the sequence. The signals of the rectangular shape of the post, falls on the threshold block 10, where the edges of the rectangular pulses improve. Information about the unevenness of the group transmission time consists in changing the location of the fronts of the received rectangular pulses compared to the transmission from the generator by 2 rectangular pulses. . In recalculation unit 11, the intervals between the edges of the received pulse sequence are calculated, and the counting results are recorded in the indicator 12. Subtracting the value of the current interval from the interval received as the initial one (at the initial frequency), one obtains information on the non-uniformity of the group transmission time of the measured communication channel. 11 recalculations and the Block indicator can be implemented according to the scheme shown in FIG. A sequence π of rectangular pulses is fed to the input of the edge extraction unit 13, at the output of which short pulses are formed, corresponding to the edges of the received sequence, the number of which is 2n. In the first counter 14 pulses, the number of high frequency pulses from a generator of 15 clock pulses is calculated, falling into the intervals between the edges of a received sequence of square pulses. The second counter 16 pulse counts the number of fronts. For example, when calculating the interval between the first and second edges at the output of the second pulse counter 16, there is code K 0001, the decoder 17 outputs logical 1 to the first output and allows recording the contents of the first pulse counter 14 to the first memory block 18 with display elements. Similarly, the time intervals between the second and third, third and fourth (and so on up to 2 nd) fronts are calculated, and the measurement results are recorded in the corresponding memory blocks with display elements, the number n of which is determined by the code size K and equal to 2. The technical and economic efficiency of the proposed device is to reduce the time taken to measure the group transmission time in the communication channel, as well as to simplify the setup and operation of the device.

Claims (1)

. DEVICE FOR MEASUREMENT. A GROUP TRANSMISSION TIME IN A COMMUNICATION CHANNEL, containing on the transmitting side a first matching unit and series-connected reference generator, a sawtooth voltage generator and a frequency modulator, and on the receiving side a second matching unit and series-connected reading unit and indicator, characterized in that, for the purpose of reducing the measurement time, on the transmitting but the phase demodulator and the threshold unit are connected, while the output of the reference generator is connected to the input of the square-wave pulse generator, the output of the frequency modulator is connected to the second input of the phase manipulator, the output of which is connected to the input of the first matching unit, the output of the second matching unit is connected to the input of the phase demodulator, and the output of the threshold block is connected to the input of the conversion unit. about "1083375> 1 1083375