SU1665523A1 - Device for cycle synchronization - Google Patents

Abstract

The invention relates to a technique for transmitting discrete information over communication channels and can be used in digital transmission systems with pulse code modulation. The purpose of the invention is to reduce recovery time. The frame alignment device contains a discrete detector 1, a clock frequency selector 2, the first, second, third and fourth elements of the match 3-6, the first and second elements OR 7, 8, the first trigger 9, the first and second elements are NO 10, 11, the drive 12 on exit from synchronism, drive 13 on the entrance to synchronism, generator equipment 14, frequency divider 15. The goal is achieved by introducing the fifth and sixth elements of the match 16, 17, the second, third and fourth triggers 18-20, the third element OR 21. 1 Il.

Description

The invention relates to the transmission of discrete information over communication channels and can be used in digital transmission systems with pulse code modulation.

The purpose of the invention is to reduce recovery time.

The drawing shows a structured electrical circuit of a frame alignment device.

The frame alignment device contains a discrete detector 1, a clock frequency selector 2, the first 3, the second 4, the third 5 and the fourth b elements of the match, the first 7 and second 8 elements OR, the first trigger 9, the first 10 and second 11 elements NO, drive 12 out of synchronism, accumulator 13 on synchronism input, generator equipment 14, frequency divider 15, fifth 16 and sixth 17 coincidence elements, second 18, third 19 and fourth 20 triggers, third element OR21,

The frame alignment device operates as follows.

A group signal from a discrete channel is fed to the input of a discrete detector 1, which functions as a decoder for a specific combination on each bit of the group signal. The generator equipment distributor 14 at the time of the expected end of the sync signal (identified at this place earlier) forms a stand for the sync signal and this stand enters the input of the first coincidence element 3 and the first element NO 10. The signal at the output of the first element 3 coincides response system type Response. The absence of a sync signal at the planned time point is accompanied by the appearance of a signal at the output of the first element NO 10, which is the signal Neoclick. The incoming additional Neo-response signals are summed up in accumulator 12 at the output of synchronism until the capacity of the accumulator is filled and the signal at the input of the third coincidence element 5 arrives. The presence of the signal Response leads to the appearance of a signal from the installation of the accumulator 12 upon the exit from synchronization to the zero state, which is formed at the output of the first element OR 7 ..

In parallel, the response and non-response signals are generated by the second coincidence element 4 and the second element Н ЕТ 11.

the coincidence of the signals appearing at the outputs of discrete detector 1 and frequency divider 15. The latter operates in phase with the generator equipment 14 during the retention phase. However, this device performs an operational adjustment during the recovery phase. The appearance of the first signal Neo-response at the output of the second element NO 11 of the analyzer of the synchronization search circuit opens the first trigger 9 and the first signal of the sync signal, passing through the fourth element 6 of the match, sets the frequency divider 15 to the zero state. After that the first trigger 9

closes, and the accumulator 13 on the input to synchronism, set to the zero state by the signal from the inverse output of the first trigger 9, records 1 received from the output of the fourth element 6 of coincidence

through the second element OR 8. The next signal at the output of the frequency divider 15 appears exactly through the cycle and either confirms the presence of a sync signal at the same positions in the cycle, which is accompanied by recording the second 1 into the drive 13 at the sync signal input, or the search begins again, which is accompanied by the installation of the accumulator 13 on the entry into synchronism to the zero state by a signal from the inverse output of the first trigger 9.

After filling the accumulators 13 and 12, the input and output of synchronization at the moment of arrival of the signal from the output of the frequency divider 15 triggers the third coincidence element 5 and sets the generating equipment 14 to the new synchronism state through the third OR 21 element. At the same time, the signal from the output of the third element 5 coincidence through the first element OR 7 drive 12 is reset to the initial zero state, which corresponds to readiness for the next adjustment.

Simultaneously from the output of discrete detector 1, the signal arrives at the input of the fifth element, 16 coincidence, which checks for the presence of a sync signal at positions adjacent to the position of the previous synchronism. If in a given interval, at positions with a shift (-2) - (+ 2) bit, defined by the third trigger 19, there is such a signal, then it is checked for an error in it. This function is performed by the sixth matching element 17 and the second trigger 18. The sixth matching element 17 transmits a signal from a reliability control device that detects the presence of errors in the channel to the first input of the second trigger 18. If there is an error, the second trigger 18 goes to the status 1. At the inverse output, O appears, which closes the fifth coincidence element 16. If there are no errors, the second trigger 18 allows the adjustment of the generator equipment 14 instantly, without waiting for a long accumulation of the error signals. The adjustment is performed by a signal from the output of the fifth element 16 to match through the third element OR 21.

In the event that an adjustment signal is not extracted by the fifth element 16, which indicates the presence of a fault greater than two bits, the search is performed as in a known device.

Claims (1)

Claims A frame alignment device comprising a discrete detector, the input of which is connected to the input of a clock frequency selector and is the input of the device, as well as the first, second, third and fourth elements of the match, the first and second elements OR, the first and second elements NO, synchronization input drive, sync synchronization drive, first trigger, generator equipment and frequency divider, the output of the selector clock is connected to the first input of which and the first input of the generator equipment the output frequency, while the output of the discrete detector is connected to the first inputs of the first, second, and fourth elements of the match, the first and second elements are NO, whose outputs are connected respectively to the drive input for synchronization output and the first input of the first trigger, the direct output of which is connected to the second input of the fourth element coincidence, and the inverse output of the first trigger connected to the installation input of the accumulator by synchronization input, the input of which is connected to the output of the second element OR, and the outputs of the first and second elements of coincidence are connected to the first inputs of the first and second elements OR, respectively, the output of the first element OR is connected to the synchronizing output of the storage device the output of which and the output of the accumulator at the input to synchronism are connected respectively to the first and second inputs of the third match element, the output of which is connected to the second input of the first element the OR input, while the first output of the generator equipment is connected to the second inputs of the first match element and the first element NO, and the output of the fourth match element is connected to the second inputs of the second OR element, the first trigger and frequency divider, the output of which is connected to the second inputs of the second match element, and the second element NO and to the third input of the third match element, characterized in that, in order to reduce the recovery time, the third OR element, the second, third and fourth trigger are introduced The first, fifth and sixth elements of the match, to the first inputs of which are connected, respectively, the output of the discrete detector and the direct output of the fourth trigger, while the output of the third element of the match is connected to the first input of the third element OR, to the second input of which the output of the fifth match element is connected, to the second input of which is connected the inverse output of the second trigger, to the first input of which is connected the output of the sixth coincidence element, the second input of which is the input of the control of the reliability of the device, The output of the third element OR is connected to the second input of the generator equipment, the second and third outputs of which are connected to the first inputs of the fourth and third triggers, respectively, to the second inputs of which and the second input of the second trigger the fourth output of the generator equipment is connected, and the third output of the third trigger is connected to the third input of the fifth matched element.