SU792603A1 - Video regenerator for communication system with pulse-code modulation - Google Patents

Description

The invention relates to telecommunications and can be used in data transmission systems. A video recorder for communication systems with pulse code modulation (PCM) is known, which contains an amplifier, a resonant clock frequency selector, a first gate driver, a threshold detector, a subtractor unit, a crucial unit. and a relaxation generator, the amplifier's output being connected to the inputs of the resonant selector of this product and the threshold detector, as well as to the first input of the subtracting unit, the second input of which is connected The output of the subtracting unit is connected to the first input of the decision block, the output of which is connected to the input of the relaxation generator, and the output of the resonant clock frequency selector is connected to the input of the first gate generator 1. However, the inaccuracy of setting zzko-. bandpass filter in the clock frequency selector (SPM), as well as irregularities in the density of current premises of the group input signal, a pulsing pulse, and therefore 1i, the output pulses of the video regenerator fluctuate in phase, which reduces the reliability of the group signal transmission and creates additional interference when decoding the PCM signal. In addition, in a well-known video recorder, there is a very low retention time for short interruptions of communication. The aim of the invention is to reduce the phase fluctuations of the output pulses and increase the retention time during short breaks in the communication channel. For this purpose, a delay line, a trailing time synchronizer, a switching unit, a clock extractor and a second gate generator, are inserted into the video recorder for PCM communication systems with the second clock generator, the amplifier output being connected to the extra delay input, the output of which is connected to the first input of the next a time synchronizer, the first output of which is connected to the first input of the switch unit 1, and the second output of the following time synchronizing switch

connected to the first input of the sync signal selector and the second input of the switching unit, the third input of which is connected to the second input of the time synchronizer to the output of the sync selector signal, the second input of which is connected to the output of the relaxation generator, while the fourth input of the switching unit is connected to the output of the first gate generator impulse, the first output of the switching unit is connected to the input of the second driver of the str @ "coil pulses, the output of which is connected} to the input of the unit switches The output of which is connected to the second decision unit, the third timed ped synchronizer to the third output of the switching unit, while the next time synchronizer contains a generator of selector pulses and a series-connected time discriminator, filter, controlled pulse generator and frequency divider, moreover, the time discriminator input is the first input of a time synchronizer, the input of the selector pulse generator is the third input of the following time signal About the synchronizer, and the outputs of the frequency divider and the controlled pulse generator are respectively the second and first outputs of the time synchronizer, the second input of the time discriminator is connected to the output of the selector pulse generator, and the second input of the frequency divider is the second input of the next time synchronizer , the switching unit contains the first and second prohibition elements, the AND element, the OR element, the trigger and the pulse counter, with the output of the first prohibition element connected to the first input with Pulse detector, the output of which is connected to the first trigger input, the first input of the first prohibition element is the second input of the switching unit, the second input of the first prohibition element, which is simultaneously the third input of the switching unit is connected to the second inputs of the pulse counter n trigger, the output of which is connected to the first the input element And, the second input of which is the first input of the switching unit, and the output of the element And is the first output of the switching unit, while the trigger output is connected to the first input of the second th element of the ban, the second input of which is the fourth input of the switching unit, the second element output prohibition connected to first input of the OR gate, the second input of which is a fifth input of the switching element output is a second OR output switching unit

and the output of the first prohibition element is the third output of the switch unit.

The drawing shows a structural electrical circuit of the proposed video recorder.

Video generator for PCM communication systems contains amplifier 1, resonant SPM 2, threshold detector 3, subtraction unit 4, first shaper 5 gating pulses (VIF), solver unit 6, relaxation generator 7, second VIF 8, extractor 9 sync signal, delay line 10, a follow-up time synchronizer 11, consisting of a time discriminator 12, a filter 13, controlled by a pulse generator

14, a frequency divider 15 and a selector pulse generator 16, a switch unit 17 consisting of a first prohibition element 18, a pulse counter 19, a trigger 20, an AND 21 element, a second prohibition element 22, and an OR 23 element.

The video recorder works as follows. At the beginning of the session, when a group video signal is input to the video recorder, the strobe pulses generated in the first VIF 5 pass through the prohibition element 22 and the input OR 23 to the input of the decisive unit 6. The signal from the output of the video recorder starts to flow to the second the output of the selector 9 is a sync signal, and its first input is received - output 1e pulses of the divider 15. If the output pulses of the divider 15 do not coincide in time with the clock signals of the clock signal selected in clock generator 9 after three cycles of a cycle, then a constant voltage appears at the output of the latter,

 which sets the trigger 20, the counter 19 and the divider 15 to the initial position, and also opens the ring phase-locked loop using the prohibition element 18. When the next clock pulse arrives, the voltage at the output of the clock signal selector 9 becomes zero, whereby the divider 15 starts normal operation, the phase-locked loop system closes, and the transition process begins. After the phase locked loop system has been closed, the cyclic frequency pulses start to arrive from the output of the prohibition element 18 on the input of the counter 19, its overflow, indicating the completion of the transition process in the tracking system, sets the trigger 20 to a single state, from the output of which the unit stream is fed the input element And 21 and the second (prohibiting) input element 22 prohibition,

Claims (3)

SS which in turn leads to the fact that the first VIF 5 is turned off, and the output pulses of the controlled pulse generator 14 pass through the AND 21 element to the input of the second VIF 8, the gate-pulses of which pass through the OR 23 element to the input of the decisive unit 6. Further, the regeneration process is supported by a tracking system serving as a device of clock synchronization. The above process is repeated when synchronization is lost in the tracking system. Note that the output pulses of the divider 15 must be slightly more than one of the clock pulses allocated in the selector 9 of the clock signal, and the overshoot in the tracking system must be chosen in such a way that the tracking fails during the transient process. The proposed video recorder, in comparison with the known, allows to reduce phase fluctuations by several orders of magnitude and significantly increase the retention time of the circuit during short interruptions of communication. Claim 1. Video generator for communication systems with impulse-code modulation, comprising an amplifier resonant clock frequency selector, a first gating driver, a threshold detector, a subtracting unit, a deciding unit and a relaxation generator, the output of the amplifier being connected to the inputs of a resonant separator clock frequency and threshold detector, as well as the first input of the subtracting unit, the second input of which is connected to the output of the threshold detector, while the output of the subtracting unit is connected to the first the input of the decision block, the output of which is connected to the input of the relaxation f generator, and the output of the resonant clock frequency selector is connected to the input of the first gating pulse generator, which, in order to reduce the phase fluctuations of the output pulses and increase the retention time short breaks in the communication channel, delay lines are inserted, a trailing time synchronizer, a switching unit, a clock extractor and a second gate generator, the output of the amplification The body is connected to the input of the delay line, the output of which is connected to the first input of the following time synchronizer, the first output of which is connected to the first input of the switching unit, and the second output of the following time synchronizer is connected to the first input of the clock signal and the second input of the switching unit, the third input connected to the second input of the time synchronizer and to the output of the clock signal, the second input of which is connected to the output of the relaxation generator, while the fourth input the switch location is connected to the output of the first gating pulse shaper, the first output of the switching unit is connected to the input of the second gating pulse shaper, the output of which is connected to the fifth input of the switching unit, the second output of which is connected to the second input of the decisive synchronizer, and the third input of the following time synchronizer is connected to the third block output re-. the key. 2. The video generator according to claim 1, which is also distinguished by the fact that the following time synchronizer comprises a selector pulse generator and a serially connected time discriminator, a filter, a controlled pulse generator and a frequency divider, the time discriminator input being the first input of the time domain the synchronizer, the input of the selector pulse generator is the third input of the time synchronous clock; the torus, and the outputs of the frequency divider and the controlled pulse generator are respectively the second and first outputs of the next intermittent synchronizer, while the second time discriminator input is connected to the output of the selector pulse generator, and the second input of the frequency divider is the second input of the next Bj ieme synchronizer . 3. The video recorder according to claim 1, wherein the switch unit contains the first and second prohibition elements, the AND element, the OR element, the trigger and the pulse counter, and the output of the first prohibition element is connected With the first input of the pulse counter, the output of which is connected to the first input of the trigger, the first input of the first prohibition element is the second input of the switching unit, the second input of the first prohibition element, which is simultaneously the third input of the switching unit, is connected to the second inputs of the pulse counter and trigger, The output of which is connected to the first input of the element I, the second input of which is the first input of the switching unit, and the output of the element I is the first output of the switching unit, while the output of the trigger cx is single with the first input of the second prohibition element, the second input of which is the fourth the input of the switching unit, the output of the second {south barring element is connected to the first input of the OR element, the second input of which is the fifth input of the switching unit, the output of the OR element is the second output of the switching unit, and the output of the first elec The inhibitor is the third output of the switch unit. 92603 Sources of information taken into account during the examination 1. Gurevich, V.Ye. and Shch), Pulse-code modulation in communication systems, part 1., L., LEIS., 1971, p. 51 (prototype).