SU1109920A1 - Device for checking pulse sequence signals - Google Patents

Abstract

A PULSE CONTROL SIGNAL DEVICE, containing the element AND, the first multivibrator and a series-connected pulse shaper, the element NO and the second multivibrator, the output of the pulse shaper connected to the input of the first multivibrator and to the first input of the AND element, which is different, the ra- dies that are connected to the input of the first multivibrator and to the first multivibrator, which is connected to the heart of the multiplicator, and which is connected to the heart of the multiplicator. control, four OR elements are entered into it, five additional AND elements, two counters, two decoders and an NOT element, with the output of the first counter, whose input connects En with the output of the first multivibrator, connected to the input of the first decoder, the first group of information outputs of which through the first OR element is connected to the first input of the first additional element AND, the second group of information outputs through the second element OR, connected to the first input of the second additional element And, the output of the second counter whose input is connected to the output of the second multivibrator is connected to the input of the second decoder, the first group of information outputs of which through the third element OR soy Inena with the first input of the third additional element And, the second group of information outputs through the fourth element ШШ is connected to the first input of the fourth additional element I, and the first control output of the first decoder is connected to the Reset input of the second (L counter, and the second control output to the first input p of the additional element And, the first control output of the second decoder is connected to the Reset input of the first counter, the second control output is connected to the second input of the And elements, and the third control s output - to an input prohibition NO element, the second inputs of the first / second and fifth additional elements and are combined and connected to the output of NOT circuit whose input is connected to the output of the pulse shaper, the output of which is connected to the second inputs of the third and fourth additional elements I.

Description

The invention relates to a telecommunication technique and can be used to control information transmitted over a communication line, represented by a sequence of pulses with a pulse between pulses, in which the duration of pulses and pauses is normalized in duration. A time interval meter is known comprising a pulse shaping unit, logical gates And and a pulse width analyzer 1. However, the meter does not have the ability to control the duration of the pulses and pauses of the emuls sequence. Closest to the invention is a pulse signal signal control device containing an element AND, a first multivibrator and a serially connected pulse shaper, an NO element and a second multivibrator, the output of the pulse shaper connected to the input of the first multivibrator and to the first input of element 2. However, the well-known The device has a low control accuracy, since it does not fix compliance with the norm of the duration of pulses and pauses. The purpose of the invention is to increase the accuracy of the control. To achieve this goal, a pulse signal sequence control device containing an H element, a first multivibrator and series-connected pulse generator, a NO element and a second multivibrator, the output of the pulse shaper is connected to the input of the first multivibrator and the first input of the AND element, four OR elements are entered , five additional And elements, two counters, two decoder and an element, and the output of the first counter, the input of which is connected to the output of the first multivibrator, connected to the input of the first decoder, the first group of information outputs of which the first element SH is connected to the first input of the first additional element AND, the second group of information outputs through the second element OR is connected to the first input of the second additional element AND, the output of the second counter, which is connected to the output the second multivib rator, is connected to the input of the second decoder, the first group of information outputs of which through the third element OR is connected to the first input of the third additional And, the second group of information outputs through the fourth element OR is connected to the first input of the fourth additional element AND, the first control output of the first decoder is connected to the Reset input of the second counter, and the second control output to the first input of the additional additional element AND, the first control output of the second decoder is connected to the Reset input of the first counter, the second control output to the second input of the AND elements, and the third control output to the Input of the NO element, the second inputs of the first About, the second and fifth additional elements AND are combined and connected to the output of the NOT element, the input of which is connected to the output of the pulse former, the output of which is connected to the second input of the third and fourth additional elements I. The drawing shows the electrical circuit diagram of the proposed device. The device contains a pulse shaper 1, a HE element 2, the first and second multivibrators 3 and 4, the element NO 5, the first and second counters 6 and 7, the first and second decoders 8 and 9, the first, second, third and fourth elements OR 10-13 , Element I 14, first, second, third, quarter and fifth additional elements And 15-19. The device works as follows. The signal taken in the form of dc sprinkling from the output of the imaging unit 1 is fed to the input of the element HE 2, the input of the first multivibrator 3, the corresponding inputs of the element 14 and the third and fourth additional elements 17 and 18 and the first input of the element NO 5. the pulse front starts the first multivibrator 3, from the output of which the counting pulses are fed to the input of the first counter 6. The electrical signals from the output of the first counter 6 are fed to the input of the first decoder 8, on the information outputs of which pulses appear, the presence of the latter on certain outputs is determined by the number of counting pulses received on the first counter 6. After two pulses are counted by the first counter 6 on the first control output of the first decoder 8 a pulse signal appears, which resets the second counter 7 to the initial state at the second input, due to which the second deshi (| fator 9 and, In addition, from the Inhibit element NO 5 input, the prohibition signal is removed, received from the third control output of the second decoder 9. After the pulse at the output of the shaper 1 stops, the nepSo multivibrator 3 stops and the first counter 6 and the first decoder 8 remain in that state from the moment of the beginning of the pause the prohibition signal is removed from the input of the Prohibition element NO 5, as a result of which the prohibition of the operation of the second multivibrator 4, which was created by the element NO 5, is lifted. and the second cartoon of the vibrator 4 to the first input of the second counter 7 receives counting pulses. The electrical signals from the output of the second counter 7 are fed to the input of the second decoder 9. The information outputs of the decoder 9 receive pulsed signals depending on the number of counting pulses received by the second counter 7. After counting two pulses, a pulse signal appears at the first control output of the second decoder 9, which resets, at the second input, the first counter 6 to the initial state. In the period from the moment of the end of the information pulse to the reset of the first counter 6, the operation of the corresponding additional elements AND 15, 16 and 19 is allowed, the second inputs of which connect the inputs of the first and second elements OR 10 and 11, respectively, whose inputs are connected to the corresponding information outputs the first decoder 8, and the second control output of the first decoder 8, controlling the pulse duration is longer than normal. At this time, at the output of one of the additional elements AND 15 16 or 19, a signal appears that informs about the duration of the terminating pulse: Shorter than normal, OK, Longer than normal. After the end of the pause (the moment of arrival of the next pulse), the operation of the second multivibrator 4 is prohibited. The second counter 7 and the second decoder 9 remain in the state determined by the number of counting pulses received at the input of the second counter 7 during the pause duration. In the period from the moment the pause ends to the reset of the second counter 7, the operation of the element is allowed. And 14 and the third and fourth additional elements And 17 and 18, the second inputs of which are connected respectively to the outputs of the third and fourth elements OR 12 and 13, the inputs of which are connected to the corresponding information outputs of the second decoder 9, and the second control output of the second decoder 9 controlling the duration of the pause is longer than normal. At the output of one of the elements 14, 17 or 18, a signal appears that characterizes the pause as short, normal or long. The described process is repeated until the end of the last pulse in the information sequence. Then the second counter 7 counts the counting pulses until the second control output of the second decoder 9 fails to receive a signal that prohibits the operation of the second multivibrator 4 through the element NO 5. At this, the workflow stops until the first pulse of the next pulse sequence arrives. The duration of the counting pulses output by the first and second multivibrators 3 and 4, as well as the counters and decoders, are chosen depending on the time parameters of the monitored pulse sequence and the required accuracy of the control. The second counter 7 and the second decoder 9 must be designed for such a size so that it is possible to distinguish a long pause from the end state of the pulse sequence. Thus, the proposed device makes it possible to control the duration of the pulse sequence signals for compliance with specified norms without interruption of communication, indicating the nature of the deviation

norms of parameters of pulse signals, which increases the accuracy of control.

In the known device, only the pulse duration of the information sequence is controlled to exceed a predetermined threshold and the duration of the pause between pulses is not monitored, and the pulse duration and pauses are not monitored according to the criteria: Shorter than normal and Longer than normal.

Introduction to the device of the proposed units and change of connections allows you to expand the functionality of controlling the duration of the pause between pulses and in controlling the duration of the pulses and pauses according to the criteria: Shorter than normal, Longer than normal.

Thus, the use of the proposed device will allow detecting a communication device in a timely manner, carrying out a distorted transmission of the pulse sequence, which makes it possible to minimize difficult-to-detect damages associated with distortion of connection establishment on the communication lines, the value of the transmitted information, etc.

In addition, the time required to find faults associated with the distortion of the information pulse sequence is reduced, which will reduce the number of service personnel.

Claims (1)

A PULSE SEQUENCE SIGNAL CONTROL DEVICE, comprising an And element, a first multivibrator and a pulse shaper connected in series, a NO element and a second multivibrator, the output of the pulse shaper being connected to the input of the first multivibrator and to the first input of the And element, characterized in that, in order to control the accuracy of , four OR elements, five additional AND elements, two counters, two decoders and an element NOT are entered into it, while the output of the first counter, the input of which is connected to the output the house of the first multivibrator, connected to the input of the first decoder, the first group of information outputs of which through the first element OR is connected to the first input of the first additional element And, the second group of information outputs through the second element of OR is connected to the first input of the second additional element And, the output of the second counter, input which is connected to the output of the second multivibrator, is connected to the input of the second decoder, the first group of information outputs of which through the third OR element is connected to the first the input of the third additional element And, the second group of information outputs through the fourth element OR is connected to the first input of the fourth additional element And, the first control output of the first decoder is connected to the Reset input of the second counter, and the second control output to the first input of the fifth additional element And, the first control the output of the second decoder is connected to the Reset input of the first counter, the second control output is connected to the second input of AND elements, and the third control output is connected to the Zap input element is NO, the second inputs of the first (second and fifth additional elements and are combined and connected to the output of NOT circuit whose input is connected to the output of the pulses, the output of which is connected to the inputs of the third ring vto minutes fourth additional elements I. >