SU894853A1 - Pulse repetition discriminator - Google Patents

Description

The invention relates to digital technology and can be used in pulse technology.

A device is known for detecting pulse loss, comprising a qua- ³ selector, a trigger, an AND logic element, and a delay element [1] ...

The disadvantage of this device is limited functionality.

The closest in technical essence to the proposed one is a pulse selector for the period following, containing a clock pulse generator, the output of which is connected 15 to the information input of the register, the installation input of which is connected to the output of the one-shot, the first input of the And element and the installation input of the trigger, and the output - the second input 20 of the AND element and the input of the trigger, the output of which is connected to the blocking input of the clock generator Q 2J. "

The disadvantage of this device is its limited functionality with insufficient, high reliability of the device itself, caused by the use of reactive elements in addition to typical schemes. thirty

The purpose of the invention is the expansion of '' functionality while improving the reliability of the device.

This goal is achieved by the fact that in the pulse selector for the period following, containing a clock pulse generator, a trigger, a register, the output of which is connected to the first input of the element I., an AND-element, an additional AND element, and a synchronizer, the first input of which is connected to the input bus, the first input of the trigger and the first input of the additional element And, the second input - with the output of the clock generator, the second input of the additional element And, the first input of the element AND NOT and the second input And, and the output - with the second input t iggera, the second input of AND-NO element, whose third input is connected to the output of the flip-flop, and to an information input of the register, the clock input coupled to an output of AND-NO, and the output of the intermediate discharge - a third input of the additional element I.

The drawing shows a structural — the diagram of the proposed device.

The device comprises a synchronizer 1, a clock generator 2, a trigger 3, an AND-4 element, a register 5, and 6 and 7 elements.

The pulse selector for the period follows as follows.

The input signal starts synchronizer 1 and sets trigger 3 to '' Ο ”on the rising edge. From the output of synchronizer 1, the pulse synchronized with the clock frequency of generator 2 sets trigger 3 and first bit of register 5 to” 1 ”, the remaining bits of which are set by this momentum in in O '. *.,

During the action of the synchronized pulse, the AND-NOT 4 element is closed and only the next clock pulses of frequency ^ through this element, unlocked by the single arm of trigger 3, will begin to arrive at the synchronization input of register 5.

Due to the fact that a constant zero information is supplied to the information input of the register, 'Ί *' recorded in the first bit of register 5, under the action of clock pulses begins to shift in the register. The width of the register 5 is selected so that after a period of time equal to the period of the input pulses, a signal appears at the intermediate output of the register 5. When the pulses coincide at the inputs of the And 6 element, a selected pulse is formed at its output. If the repetition period of input pulses is less than the selected one, then the shift ’'1'’ in register 5 stops earlier than the repetition period of the input pulses ends, and there are no pulses at the intermediate input of the register.

If the repetition period of the input pulses is longer than the Selected one, then the ’’ 1 ’· intermediate discharge of register 5 is shifted further and a pulse appears at its output. When the pulses coincide at the input of the And 7 element, a control pulse appears at its 'output'.

Thus, due to the introduction of new elements and the connections between them, signals corresponding to the clock frequency of the generator are formed at the selector outputs, which is of great practical importance, i.e., it allows further synchronized processing of information.

The proposed device allows not only to control the end of the sequence of selectable pulses, but also to use it as a device for detecting pulse loss in a sequence of pulses.

Claims (2)

The invention relates to digital technology and can be used in a pulse technique. A device for detecting a loss of a pulse is known, which contains a quasi-selector, a trigger, a logic element AND, and a delay element 1. .. The disadvantage of this device is limited functionality. The closest in technical essence to the present invention is a pulse selector for the following period, containing a clock pulse generator, the output of which is connected to the information input of the register, the installation input of which is connected to the output of the one-oscillator, the first input of the AND element and the installation input of the trigger input element And the trigger input, the output of which is connected to the blocking input of the clock pulse generator r2J. “The disadvantage of this device is limited functionality with insufficient, high reliability of the device itself, caused by the use of besides reactive elements in typical circuits. The purpose of the invention is to enhance the functionality while increasing the reliability of the device. The goal is achieved by the fact that the pulse selector for the following period, containing a generator of clock pulses, a trigger, a register whose output is connected to the first input of the AND element, an AND-NOT element, an additional AND element, and a synchronizer whose first input is connected with the input bus, the first input of the trigger and the first input of the additional element And, the second input - with the output of the clock pulse generator, the second input of the additional element And, the first input of the element AND-NOT and the second input And, and the output with the second input the trigger, the second input of the NAND element, the third input of which is connected to the trigger output, and the information input of the register, the synchronization input of which is connected to the output of the NAND element, and the intermediate bit output - with the third input of the additional I. The drawing shows structure on the scheme of the proposed device. The device contains a synchronizer 1 / generator 2 clock pulses, trigger 3, element AND-NOT 4, register 5, elements 6 and 7. The pulse selector for the following period works as follows. Signal input triggers synchronizer 1 and sets it in front of the front terminal. trigger 3. From the output of the synchronizer 1, the pulse synchronized with the clock frequency of the generator 2 sets to 1 the trigger 3 and the first bit of the register b, the remaining bits of which are set by this pulse to -O. . During the synchronized operation, the element AND-NOT 4 is closed and only the following clock frequency pulses through this element, unlocked by one, with the 1st trigger of trigger 3, will start to enter the synchronization input of register 5. In view of the fact that the constant zero information, 1, recorded in the first digit of register 5, under the action of clock pulses, begins to shift along the register. The resolution of register 5 is selected so that, after an interval of time equal to the period of the following impulses at the intermediate output of register 5, the signal is transmitted. When the pulses coincide at the inputs of the element And 6, a selected pulse is formed on its sound output. If the period of the trace or input pulses is less than the time delayed ,; The shift 1 in register 5 is terminated more precisely than the period of the input pulses ends, and there are no pulses at the intermediate input of the register. If the follow-up period of the input pulses is longer than the selected one, then the daily bit of register 5 shifts further and a pulse appears at its output. With the coincidence of the pulses at the input of the element And 7 on its heights, the counter pulse is. Thus, due to the introduction of new elements and the connections between them, the selector outputs form sigals corresponding to the clock frequency of the generator, which has a great practical value, i.e., it allows for further synchronized processing of information. The proposed device allows not only to control the end of the sequence of selectable pulses, but also to use it as a device for detecting the loss of a pulse in a sequence of pulses. Claims of the invention Pulse selector by follow-up period, containing the clock clock pulse generator, trigger, register, output of which is connected to the first input of the AND element, characterized in that, in order to expand the functional capabilities while increasing the reliability of the device, the AND-NOT element is entered into it , an additional element And and a synchronizer, the first input of which is connected by the input bus, the first input of the trigger and the first input of the additional element And, the second input - with the output of the clock generator, W "Lm input of the additional element AND, the first input of the element AND-NOT and the second input of the element AND, the output with the second input of the trigger, the second input of the element AND-NOT whose third input is connected to the output of the trigger, and the synchronization 1 is connected to the output of the NAND element, and the output of the intermediate bit is connected to the third input of the additional element I. sources of information taken into account in the examination 1. USSR author's certificate No. 621081 Cl. H 03 K 5/18, 24.02.77. 2. Authors certificate of the USSR 674209, cl. H 03 K 5/18, 01.31.78.