SU813741A2 - Devise for shaping synchronizing pulses - Google Patents

Description

The invention relates to a semiconductor pulse technique and can find application in the construction of instrumentation for digital information transmission systems.

According to the main author. St. No. 660227, there is known a synchronization pulse generating device comprising a clock, a main sequence generating circuit, a sync pulse register, η adder circuits modulo two, and a zero state decoder, inputs. which are connected to the outputs of the adder circuits modulo two, the first inputs of which are connected to the main sequence generation circuit, and the second inputs are connected to the sync pulse code register [1].

The disadvantage of this device is the difficulty in generating a clock pulse shifted by a certain number of clocks relative to the selected fragment of the main sequence, which is necessary to compensate for the delay along the synchronization channel of the oscilloscope, which makes it difficult to visually examine exactly the selected fragment of the main sequence, etc. This limits the functional device capabilities.

The purpose of the invention is the expansion of functionality by forming a sync pulse with any shift relative to the selected fragment.

This goal is achieved by the fact that in the device containing the clock generator, the output of which is connected to the input of the main sequence forming unit, there is a register of the clock code, the outputs of which are connected to the first inputs of the adders modulo two, the outputs of which are connected to the inputs of the zero state decoder, the second the inputs η of the adders are connected to the outputs of the block for the formation of the main sequence, an additional coincidence element, an RS-flip-flop and a counter with a controlled counting coefficient are introduced, the output coupled to a first input of RS-trigger, the counter count input connected to the output matching element having a first input connected to the output of the clock generator, and a second input coupled to an output RS-flip-flop, a second input coupled to an output of the decoder zero state.

The drawing shows a diagram of a device for generating pulses of synchronization.

The circuit of the device contains a clock generator 1, a main sequence generating circuit 2, a sync pulse register 3, a zero state decoder 4, circuits 5.1, 5.2 ..., 5. and.- adders modulo two, an output terminal 6 of the main sequence, an output terminal 7 sequences of clock pulses, element 8 matches, RS-trigger 9, counter 10 with a controlled counting factor. The output of the clock generator 1 is connected to the main-sequence formation circuit 2 and, through the coincidence element 8, to the counter input of the counter 10, the output of which is connected to the first input of the RS-trigger 9 and the output terminal 7 of the synchronization sequence. The first inputs of the circuits 5.1, 5.2, .. 5.η adders are modulo two., Connected to the main sequence generation circuit 2, the second inputs are connected to the register 3 of the clock number, and the outputs through the zero state decoder 4 are connected to the second input of the RS-trigger 9 whose output is connected to the input of the match element 8.

The device operates as follows.

The main sequence generating circuit 2 converts the sequence of clock pulses from the generator 1 into a periodic sequence of the required structure, taken from the output terminal 6. A code combination corresponding to the fragment structure, relative to which the clock pulses must be generated, is recorded in the register 3 of the sync pulse code. If the code combination in the register 3 coincides with the state of the circuit 2 of the formation of the main sequence at the outputs of all circuits 5.1, ..., 5. n. of modulo two adders, a zero appears, and an impulse appears at the output of the zero state decoder 4, which sets trigger 9 to the state where coincidence element 8 opens, passing clock pulses from generator 1 to the counting input of counter 10. Counter 10 has a controllable the counting coefficient and when the last of the clock pulses arriving at its input, the number of which is equal to 5 the selected counting coefficient, a pulse is generated at the output of the counter 10, which is removed from the output terminal 7 of the clock pulses, and e trigger switch 9, closing the coincidence element 8 and terminating at the input of the counter flow 10 October _clock. The sync pulse generated in this way at the output terminal 7 has a shift relative to the selected fragment of the main sequence by the number of ticks equal to the pressure coefficient set in counter ₁₅ . Since the sequences at the output terminals 6 and 7 are periodic, the sequence of clock pulses at terminal 6 can be considered not only as lagging, but also as leading. In this case, a ²⁰ clock pulse generated from a fragment in a previous period is considered to correspond to the same fragment in a subsequent period.

Claims (1)

(54) DEVICE FORMATION OF SYNCHRONIZATION PULSES which is connected to the output of the zero state decoder. The drawing shows a diagram of the device forming, synchronization pulses. The device circuit contains a clock frequency generator 1, a main sequence generation circuit 2, a clock code register 3, a zero state decoder 4, circuit 5.1, 5.2 ..., 5 .-- adders for module two, an output terminal 6 of the main sequence, an output sync pulse sequence terminal 7, coincidence element 8, RS flip-flop 9, counter 10 with controlled counting coefficient. The output of the clock frequency generator 1 is connected to the main-sequence formation circuit 2 and through a coincidence element 8 to the counting input of the counter 10 whose output is connected to the first input of the RS flip-flop 9 and the output terminal 7 of the sync pulse sequence. The first inputs of the circuits 5.1, 5.2, .. 5. and modulo-two adders., Are connected to the main sequence generation circuit 2, the second inputs are connected to the register 3 clock number, and the outputs through the zero-decryptor 4 are connected to the second RS- the trigger 9, the output of which is connected to the input of the coincidence element 8. The device operates as follows. The main sequence formation circuit 2 converts the clock pulse sequence from generator 1 into a periodic sequence of the desired structure, removed from the output terminal 6. A code combination corresponding to the fragment structure, relative to which it is necessary to form the clock pulses, is written to the clock code register 3. If the code combination in register 3 coincides with the state of circuit 2, the formation of the main sequence at the outputs of all schemes 5.1, ..., 5. A modulo two adders appear zero, and at the output of decimator 4 of the zero state, a pulse appears that sets trigger 9 to the state in which the coincidence element 8 opens, skipping clock pulses from generator 1 to the counting input of counter 10 The counter 10 has a controlled counting factor and when the last of the clock pulses arrives at its input, the number of which is equal to the selected counting factor, a pulse is generated at the output of the counter 10, which is removed from the output terminal 7 clock pulses e trigger switch 9, closing element 8 and terminating the flow of matching between the input of the counter 10 of clock pulses. Formed by this signal on the output terminal 7, the clock pulse shifts relative to the selected fragment of the main sequence by the number of cycles equal to the pressure ratio set by the counter 10. Since the sequences on the output terminals 6 and 7 are periodic, the sequence of sync pulses on the clamp 6 can be considered not only as delayed, but also as advanced. In this case, the sync pulse generated from the fragment in the previous period is considered to correspond to the same fragment in the subsequent period. The invention The device for the formation of synchronization pulses by author. St. No. 660227, characterized in that, in order to expand the functional capabilities, it additionally introduces an element of coincidence, RS trigger and a counter with a controlled counting coefficient, the output of which is connected to one RS trigger input, and the counting input of the counter is connected to output terminal a matching element, the first input of which is connected to the output of the clock generator, and the second input is connected to the output of the RS trigger, the second input of which is connected to the output of the zero state decoder. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 660227, cl. H 03 K 5/153, 03.28.77