SU1525921A1 - Device for correcting nonuniformity of group passage time in communication channels - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to increase the accuracy of the correction. The device contains on the transmitting side: transmitter 1 group signal, r-r 2 reference signal and multiplier 3, and on the receiving side: amplitude equalizer 4, phase-frequency corrector 5, amplitude detector 6, distributor 7, control voltage block 8, comparison unit 9, the meter 10 group transit time, the comparator 11, the driver of the 12 strobes, the counter 13 of the parcels, the decoder 14 and the demodulator 15. On the transmitting side the formation of the group signal and its amplitude modulation are carried out. This signal, having passed the communication channel, arrives at the receiving side. Here the amplitude and phase-frequency correction of the group signal is made. Further, the corrected signal after demodulation is fed to the output of the device. The goal is achieved by providing a cycle of fine adjustment of the equalizer 5. The diagrams for the implementation of the distributor 7 and the meter 10 are given. 3 Il.

Description

01 Sd

R

Phil.1

The invention relates to telecommunications and can be used in data transmission equipment where multichannel signal conversion devices (MTP) are used.

The purpose of the invention is to increase the accuracy of the correction.

Fig. 1 is an electrical block diagram of a device for correcting the unevenness of group travel time in communication channels; Fig. 2 is an electrical distribution diagram of the distributor; FIG. 3 is an electrical block diagram of a group transit time meter.

A device for correcting the unevenness of group time in communication channels contains a transmitter 1 of a group signal, a generator 2 of a reference signal, a multiplier 3, an amplitude equalizer 4, a phase-equalizer 5, an amplitude detector 6, a distributor 7, a block 8 of control voltages, a block , 9 comparisons, the meter 10 of the group transit time, the comparator 11, the driver of 12 gates, the counter of 13 parcels, the decoder 14, the demodulator 15.

The distributor 7 contains the first 16, second 17, third 18 And elements, reversible counter 19, fourth 20 and Fifth 21 elements And, first 22 and second 23 D-flip-flops, sixth 24, seventh 25, eighth 26 and ninth 27 elements And , first 28 and second 29 counters, first 30, second 31 and third 32 decoders, third 33, fourth 34, fifth 35 and sixth 36 D-triggers, tenth 37, eleventh 38 and twelfth 39 elements And, seventh 40, eighth 41 and ninth 42 D-triggers, the first 43, the second 44 and the third 45 OR elements, the thirteenth element And 46, the tenth B-trigger 47, the first 48 and the second 49 one-shot.

The meter 10 group travel time contains a subtractor 50, accumulating adder 51.

A device for correcting the unevenness of group travel time in communication channels operates as follows.

On the transmitting side, the signal generated in the transmitter 1 of the base signal is multiplied by a multiplier 3 with the reference signal 0

five

0

five

0

five

0

five

0

five

Scrap formed in the generator 2 of the reference signal, thereby carrying out an additional amplitude modulation of the group signal. Having passed through the communication channel, the group signal is fed to the amplitude equalizer 4, which is an amplifier with automatic adjustment. The control voltage from the output of the amplitude corrector 4 enters the block 8 of control voltages, where a uniformly aged and a series of voltages are formed. The values of the signal of this series are related to the level of the signal coming from the channel of the PM signal, to a resool signal at the output of the control unit displays the control signal in the amplitude equalizer 4. From the output of the control voltage unit 8, the signal goes to the second input of the comparison unit 9 . The signal passed through the amplitude equalizer 4 and the phase-frequency equalizer 5 is fed to the amplitude detector 6, where the envelope of the group signal coming to the first input of the comparison unit 9 is separated from it. Comparison unit 9 is A1C, which generates code numbers at its output, forming an arithmetic progression with a factor of 2. When the next level specified by the control voltages is exceeded, the code numbers at its output doubled (00000, 00001, 00011, 00111, 01111, 11111), which allows the code weight to vary depending on the modulation depth of the received baseband signal.

In the gate former 12, when the gate changes from 0 to 1, any of the code number bits coming from the output of the comparison block 9 forms a gate along the leading edge of the change. These gates appear only when the code is increased and serve as recording pulses into the meter 10 of the group transit time. The greater the modulation depth of the received group signal, and hence the quality of the correction, the greater the value of the code number and the greater their number averaged in the meter 10 of the group transit time, which is the averager over the time interval specified by the counter 13 of the parcels through the decoder 14 , and implemented on subtractor 50 and accumulating adder 51.

The averaged signal, which reflects the modulation depth and indirectly of the GWP channel, is recorded in the comparator 11, at the output of which the signal sign is formed, i.e. A more-less signal is applied to the distributor 7 accompanied by a pulse from the output of the decoder 14.

If at the output of the comparator 11 signal 23 D-flip-flops fine tuning

phase correction 5, which happens when a fairly rough correction.

If it looks like 1, then the pulses from the output of the decoder 14 through the third element I 18 are fed to the counting input of the reversing counter 19 and summed, changing the code numbers at the output 15 of the distributor 7 and thus making a coarse adjustment of the phase-frequency equalizer 5. When the sign at the output of the comparator changes 11, one 20 units are subtracted from the reversible counter 19, i.e. the reversible counter 19 returns to the previous state, the second element 17 and the pulses from the output of the decoder 14 to the second counter 25 are opened simultaneously (its state is decrypted by the third decoder 32) and fixed through the tenth element 37 a seventh dm trigger 40. The signal from its output prohibits further passage of pulses to the counting input of the reversible counter 19. This completes the coarse adjustment of the phase-frequency equalizer 5. This same signal allows the first D-trigger 22 to work, Its outputs are through the sixth 24, seventh 25, eighth 26 and ninth 27 elements And to the output of the distributor, and also allows the passage of pulses from the output of the decoder 40 14 through the first element 16 to the second counter 29, which determines the fine tuning cycle.

The state of the second counter 29 is decrypted by the second decoder 31 and fixed by the third 33, fourth 34 and fifth 35 D-flip-flops. The signals from their outputs control the operation of the first 22 and second 23 D-flip-flops, fine-tuning the phase-frequency KoppeKTOjja 5, allowing the passage of pulses through the fourth 20 and fifth 21 elements And only at a certain time in the fine-tuning cycle. The presence of these pulses depends on the sign of the signal at the output, the comparator 11 connected to the second element I 17. If there is a signal at the output of the comparator 11 in the form

35

The end of the tuning cycle is fixed by the sixth D-flip-flop 36. The signal from its output through the first one-shot 48 through the first element OR 43 generates a reset pulse for the first 28 and second 29 counters, and also blocks the passage of signals through the tenth 37, eleventh 38 and twelfth 39 elements AND In this case, all previous states are fixed in the third 33, fourth 34, vol 35, sixth 36, seventh 40, eighth 41, ninths 42 L-triggers, and the distributor 7 goes into tracking mode.

By means of the first decoder 30, a cycle for setting up a nastrich is specified, at the end of which the first one-shot 48 produces an impulse reset and the tracking cycle is repeated. If during the cycle the third decoder 32 detects something, sufficiently; a large number of bad conditions (the signal on the code of the comparator 11 at the moment of arrival of the pulse from the decoder 14 is O), the pulse from its output through the second element OR 44 will return to its original state The third 33, the fourth 34, the fifth 35, the sixth 36 D-flip-flops are fine tuned and will set the tenth D-flip-flop 47, and also through the third element OR 45 will reset the first 28 and second 29 counters. Thus, the fine tuning cycle will be turned on again.

If, as a result of the fine tuning cycle, the eighth 41 and ninth 42 D-flip-flops detect an inadequate fine adjustment, which is possible, for example, when switching the PM channels, the second one-shot 49 through the thirteenth element And 46 produces a pulse of general reset of the distributor circuit 7, and the full cycle the settings are repeated.

The first counter 28 counts the pulses arriving through the decoder 14 through the first element I 16. The third decoder 32 depresses the state of the first counter 28 and fixes it by means of the eighth 41 and ninth 40 D-flip-flops. Their outputs block the outputs of the first 22 and second 5 0 5 about 0

0

five

The end of the tuning cycle is fixed by the sixth D-flip-flop 36. The signal from its output through the first one-shot 48 through the first element OR 43 generates a reset pulse for the first 28 and second 29 counters, and also blocks the passage of signals through the tenth 37, eleventh 38 and twelfth 39 elements AND In this case, all previous states are fixed in the third 33, fourth 34, vol 35, sixth 36, seventh 40, eighth 41, ninths 42 L-triggers, and the distributor 7 goes into tracking mode.

By means of the first decoder 30, a cycle for setting up a nastrich is specified, at the end of which the first one-shot 48 produces an impulse reset and the tracking cycle is repeated. If during the cycle the third decoder 32 detects something, sufficiently; a large number of bad conditions (the signal on the code of the comparator 11 at the moment of arrival of the pulse from the decoder 14 is O), the pulse from its output through the second element OR 44 will return to its original state The third 33, the fourth 34, the fifth 35, the sixth 36 D-flip-flops are fine tuned and will set the tenth D-flip-flop 47, and also through the third element OR 45 will reset the first 28 and second 29 counters. Thus, the fine tuning cycle will be turned on again.

If, as a result of the fine tuning cycle, the eighth 41 and ninth 42 D-flip-flops detect an inadequate fine adjustment, which is possible, for example, when switching the PM channels, the second one-shot 49 through the thirteenth element And 46 produces a pulse of general reset of the distributor circuit 7, and the full cycle the settings are repeated.

The corrected signal from the output of the phase-frequency equalizer 5 is fed to the demodulator 15.

Claims (1)

Invention Formula A device for correcting the unevenness of group time of passage in communication channels, containing a transmitter of a group signal on the transmitting side, on the receiving side - series-connected amplitude corrector and phase-frequency equalizer, as well as amplitude detector, control voltage block, meter of group passage time, distributor, Comparison unit and demodulator, characterized in that, in order to increase the correction accuracy, sequentially connected oscillators are introduced on the transmitting side ornogo signal and the multiplier, a second input coupled to an output of the transmitter baseband signal, and the output is the output device and the reception side five 0 a gate driver and serially connected parcel counter, decipheror and comparator are entered, the decoder output is connected to the first inputs of the group transit time meter and the distributor, the second output of the amplitude corrector is connected to the input of the control voltage block, the output of which is connected to the first input of the comparison unit, BT, I- the stroke of which is connected to the second one, and through the gate driver to the third inputs of the group transit time meter, the output of which is connected to the second input of the comparator, you Which is connected to the second input of the distributor, the output of which is connected to the input of the phase-frequency equalizer, the output of which is connected to the input of the amplitude detector, the output of which is connected to the second input of the comparator and to the input of the demodulator, the first output of which is connected to the input of the package counter, and the second output is the output of the device. from 6C 50 to the cat. 51 FSF Fig.Z from AS