SU1267602A1 - Device for detecting pulse loss - Google Patents

Abstract

The invention relates to a pulse technique, can be used in data reception and processing systems for detecting the loss of pulses in a sequence, as well as for restoring a pulse when it is lost in a controlled sequence. The purpose of the invention is to enhance the functionality and increase noise immunity by eliminating the passage of impulse noise at the output of the device, when it appears on the input bus in the intervals between the pulses of the monitored sequence, and also by using the device to control a series of pulses. To do this, the device additionally introduced an element 1, 2, and two elements 5 and 6 of the delay. In addition, the device contains elements 2 and 4 of the delay, elements And 3 and 9, elements SH 7,10 and 11, trigger 8, shaper 12 imo S pulses, input bus 13, output tires 14 and 15. Trigger 8 opens element And 3 every time at the moment of occurrence of the impulse of the controlled sequence and closes its era-; Memory at the end of the pulse. This prevents interference with the output of the device. 2 Il.

Description

The invention relates to a pulse technique and can be used in data reception and processing systems to detect pulse loss in a pulse sequence, as well as to restore a pulse when it disappears in a controlled sequence.

The purpose of the invention is improving noise immunity and expanding functionality by eliminating the passage of interference pulses to the output of the device when they appear on the input bus in the intervals between pulses of a controlled sequence, as well as by using the device to control series (packs) of pulses.

I

On Fig, 1 shows a functional diagram of a device for detecting pulse loss; in FIG. 2 is a timing diagram explaining its operation.

The device for detecting pulse loss contains an additional element OR 1, a second delay element 2, the first element 'AND 3, the first delay element 4, the first 5 and second 6 additional delay elements, the first element OR 7, trigger 8, the second element And 9, the third 10 and second 11 elements OR, forger-pulser 12 pulses, input bus 13 ,, first 14 and second 15 output buses ,,

The input bus 13 is connected to the first input of the element FROM, the second input of which is connected to the first input of the element And 9 and to the output of the trigger 8, the first input of which is connected to the output of the element OR 7, the first input of which is connected to the output of the element 4 delay, the input of which is connected to the first input of the OR element 11 „the output of the And 9 element is connected to the output bus 14 and with the first input of the OR 10 element, the output of which is connected to the output bus 15, the output of the OR element 1 through the delay element 2 is connected to the third input of the And 3 element, the output of which is connected with input the delay element 4 and with the second input of the OR element 10, the first input of which is connected to the second input of the OR element 11, the output of which through the pulse shaper 12 is connected to the second input of the trigger, the first input of the OR element 1 is connected to the input bus 13, and its second input to output 1267602 ^{1 to the} delay element 4 and to the inputs of the delay elements 5 and 6, the outputs of which are connected respectively to the second inputs of the element OR 7 and element 5 AND 9.

The device operates as follows. ·

In the initial state, a reset pulse (not shown) trigger 8 is set to a single state. Element And 3 is closed at two inputs by the low potentials of the input bus 13 and from the output of the delay element 2, respectively, and is open at the third input 15 high potential from the output of the trigger 8, element And 9 is closed at the input by low potential from the output of the delay element 6.

The input sequence of pulses with the repetition period T is supplied from the input bus 13 (Fig. 2a) to the inputs of the elements OR 1 and AND 3. To the other input of the element And 3, the pulses of the input sequence come from the output 25 of the element OR 1 through the delay element 2 (Fig. 2 <f), whose delay time is T, i.e. with a shift of one period in relation to the pulses of the input sequence.

With the arrival of the first pulse of the input sequence to the input of the And 3 element, the last remains closed at the other input with a low potential from the output of the Delay element 2. After a time equal to T, a second pulse of the input sequence appears at the input of the And 3 element, and at the other input of it, the first pulse of the sequence is delayed by delay element 2. When this element And 3 opens and the pulse from its output (Fig.26) passes through the element OR 10 to the output bus 15 (Fig.2 k).

At the same time, the pulse from the output 45 of the And 3 element is fed to the input of the delay elegance 4 and through the OR 11 element to the input of the shaper 12, at the output of which a short pulse is formed at the end of the input pulse (at a given edge) ₅₀ (Fig.

2e), switching the trigger 8 to the zero state (Fig. 2 b), after which the elements And 3 and 9 are closed by the low potential from the output of the trigger.

After a time equal to T, from the moment the first signal appears at the output of the And 3 element (at the input of the delay element 4), the first pulse appears at the output of the delay element 4 (Fig. 2 g), which is fed to the inputs of the delay elements 5 and 6, the input of the element OR 1 and through the element OR 7 to the first input of trigger 8, switching it? in a single state. At the same time, the high potential from the output of trigger 8 opens the And 3 element and the third pulse of the input sequence arriving at its inputs and the delayed second pulse of the sequence again open the IZ element, the output pulse of which goes through the OR element 10 to the output bus 15 (Fig. 2k). The output pulse of the And 3 element again goes to the input of the delay element 4 and through the OR element 11 to the input of the former 12, which, at the end of the input signal, switches the trigger 8 to the zero state. At the same time, the low potential from the output of the trigger 8 closes the And 3 and 9 elements.

The delay time of the delay element 6 is selected slightly longer than the pulse duration. The output pulse of the delay element 6 (Fig.2¾) is fed to the input of the element And 9, closed by this time with a low potential from the output of the trigger 8.

If the next (fourth) pulse of the input sequence disappears on the input bus 13, the And 3 element remains closed. The pulse from the output of the delay element 4 (Fig. 2d) is fed to the inputs of the delay element 5, the OR element 1 and through the delay element 6 to the input of the And 9 element, open at the input with high potential from the output of the trigger 8. At the same time, the output of the And 9 element is formed a replacement pulse, which is fed to the output bus 14 (Fig. 2 and), connected to the signaling device of the loss of input pulses, and to the inputs of the elements OR 10 and 11. From the output of the element OR 10, the replacement pulse is fed to the output bus 15 of the device (Fig. 2 ), restoring the input sequence. The pulse from the output of the element OR 11 is fed to the input of the shaper 12, the output signal of which sets the trigger 8 to zero.

Thus, in the event of a pulse failure in the input sequence, a replacement pulse is generated at the output of the device after time Tj. from the expected moment of arrival of the missing input pulse. By the time of the appearance of the next pulse of the input sequence on the bus 13, the pulse from the output of the delay element 5 (Fig.2d, the delay time of which is T, enters through the element OR 7 to the first input of trigger 8 and sets it to a single state. The signal from the output of trigger 8 opens the element And 3. Simultaneously, the input of the element And 3 receives a pulse from the output of the element 4 of the delay, delayed by time T by the element 2 of the delay, therefore, the next (fifth) pulse of the input sequence opens the element And 3, the output signal of which again dulls on the output bus 15 (through the OR element 10), to the input of the delay element 4 and through the OR element 11 to the input of the shaper 12.

At the end of the serine (pack) of input pulses after a time equal to T '+' tj, a replacement pulse is generated at the output of the And 9 element, which is fed to the output buses 14 and 15 and through the And 11I 1 1 element to the input of the pulse shaper 12, the output signal of which Toggles trigger 8 to zero. Then, the last pulse from the output of the delay element 5 switches trigger 8 to the initial (single) state, after which the device is ready to receive the next input pulse sequence.

Thus, when a series of pulses with a repetition period T arrives at the input bus 13 on the output bus 15, a similar series of pulses shifted by one period T is allocated, the number of pulses in which is equal to the number of pulses of the input series, and the duration of the output pulses is equal to the duration of the input pulses .

- If one of the pulses of the sequence disappears on the input bus, the replacement pulse is generated at the output of the And 9 element, which is fed to the output bus 14, connected to the signaling device for the loss of input pulses, and also through the OR 10 element to the output bus 15, restoring the input sequence.

Trigger 8, the output of which is connected to the input of the And 3 element, opens the And 3 element every time a pulse of a controlled sequence appears and closes its third OR element, which will exit at the end of the pulse, therefore, if there is 13 on the input bus along with the signals of the input sequence, interference pulses will appear, they ₅ will not pass to the output of the device.

Claims (1)

The invention relates to a pulse technique and can be used in data reception and processing systems for detecting the loss of pulses in a sequence of pulses, as well as for restoring a pulse when it disappears in a controlled sequence; The purpose of the invention is to improve noise immunity and enhance functionality by eliminating the passage of interference pulses at the output of the device when they appear on the input bus in the intervals between the pulses of the monitored sequence, and also due to the possibility of using the device, dp control of a series of packets of pulses. Fig. 1 is a functional block diagram of the device for detecting the loss of a pulse; FIG. 2 shows timing diagrams explaining his work. A device for detecting the loss of a pulse contains an additional element OR 1, the second delay element 2, the first element AND 3, the first delay element 4, the first 5 and the second 6 additional delay elements, the first element OR 7 ,, trigger 8 the second element AND 9, the third 10 and second 11 elements OR, forg41 puller 12 pulses, input bus 13 ,, first 14 and second 15 output buses ,, Input bus 13 is connected to the first input of an AND 3 element, the second input of which is connected to the first input of the AND 9 element and trigger output 8, the first input of which is connected to the output of the house The element OR 7, the first input of which is connected to the output of the delay element 4, whose input is connected to the first input of the element 11, the output of the element 9 is connected to the output bus 14 and to the first input of the element 10, the output of which is connected to the output bus 15, the output of the SHS 1 element through the delay element 2 is connected to the third input of the AND 3 element whose output is connected to the input of the 4 delay element and to the second input of the OR 10 element, the first input of which is connected to the second input of the SHSh 1 I element whose output of the pulse former I2 is connected from the second m input of the trigger, the first input of the element OR 1 is connected to the input bus 13J and its second input - to the output of the element 4 sternly and to the inputs of the delay elements 5 and 6, the outputs of which are connected respectively to the second inputs of the element OR 7 and the element AND 9. The device works in the following way . In the initial state, by a reset pulse (not shown), the trigger 8 is set to one. Element And 3 is closed at two inputs by low potentials of the input bus 13 and from the output of element 2, the delay is 1P1o, and is open at the third input by a high potential from the trigger output 8, and element 9 is closed at the input by low potential from the output of delay element 6. The input pulse sequence with the following period T comes from the input bus 13 (Fig.2a) to the inputs of the OR 1 and AND 3 elements. To the other input of the AND 3 element the pulses of the input sequence are received from the output of the SHSh 1 element through the delay element 2 (Fig 2O) whose delay time is T, i.e. with a shift of one period in relation to the pulses of the input sequence. With the arrival of the first pulse of the input sequence at the input of the element And 3, the latter remains closed at the other input by a low potential from the output of the delay element 2. After a time equal to T, the second pulse of the input sequence appears at the input of the AND 3 element, and the first W pulse of the sequence, delayed by the 2 delays, appears at its other input. In this case, the element AND 3 opens and the pulse from its output (yig.2b) passes through the element OR 10 to the output bus 15 (FIG. 2k). At the same time, the pulse from the output of the element I 3 arrives at the input of the element 4 of the delay and through the element SHSh 11 to the input of the former 12, the output of which at the end of the input impulse (at a given front) takes a short impulse (FIG. 2d) and switches the trigger 8 to zero state (fig. 2 e), after which the low potential from the trigger output closes the elements 3 and 9, after a time equal to T, from the moment of the appearance of the first signal at the output of the element 3 and 3 (at the input of the element 4 zaderlski) the first pulse on the 3rd output of the element 4 delay (figg) The first one is fed to the inputs of delay elements 5 and 6, to the input of the element OR 1 and through the element OR 7 to the first input of the trigger 8, switching it to one state. In this case, a high potential from the output of the trigger 8 opens the element I 3 and the third pulse of the input sequence arriving at its inputs and the delayed second pulse of the sequence again open the OZ element, the output pulse of which through the SHI element 10 enters the output bus 15 (Fig. 2 ). The output pulse of element 3 again enters the input of element 4 of the delay and through element OR 11 at the input of shaper 12, which, at the end of the input signal, switches trigger B to zero. The low potential from output of trigger 8 closes elements AND 3 and 9. The delay time of the delay element 6 is chosen somewhat longer than the pulse duration —and the output pulse of the delay element 6 (FIG. 2) is fed to the input of the AND 9 element closed by a low potential at that time from the output of the trigger 8. In case of a loss on the input bus 13 oche In the middle (fourth) pulse of the input sequence, the And 3 element remains closed. The pulse from the output of the delay element 4 (Fig. 2d) is fed to the inputs of the delay element 5, element 1 and through the delay element 6 to the input element And 9 open at the input high potential from the output of the trigger 8. At the same time, an output is generated at the output of element 9 replacement, which arrives at the output bus 14 (FIG. 2 and), connected to the signal impairment indicator of input pulses, and to the inputs of the OR 10 and 11 elements. From the output of the OR 10 element, the replacement pulse goes to the output bus 15 of the device (Fig. 2 k), restoring the input sequence. The pulse from the output of the element OR 11 is fed to the input of the generator 12, the output of which sets the trigger 8 to the zero state. Thus, in the case of a missing pulse in the input sequence, a replacement pulse is formed at the output of the device through time T from the expected arrival time of the missing input and myca. By the time the next pulse of the input sequence arrives on bus I3, the pulse from the output of delay element 5 (fig. Whose delay time is T goes through the OR element 7 to the first input of trigger 8 and sets it to one state. The signal from trigger output 8 opens element AND 3. At the same time, the input of element AND 3 receives a pulse from the input of delay element 4 delayed by time T by delay element 2, therefore the next (fifth) pulse of the input sequence opens AND 3, the output signal of which is again It arrives at the output bus 15 (through the element OR 10) at the input of the element 4 delayed and through the element ШШ 1 1 at the input of the generator 12. At the end of the cepiffl (packs) of the input pulses through time equal to T + T, the output of the element 9 is formed the replacement pulse that goes to the output buses 14 and 15 and through the element Sh1I 11 to the input of the imaging unit 12 pulses, the output signal of which switches the trigger 8 to the zero state. Then the last pulse from the output of the delay element 5 switches the trigger B to the initial (single) state then the device is ready to the next input pulse sequence. Thus, when pulses arriving at the input bus 13 cepiiH with a period of following T on the output bus 15 are similar, shifting by one period T, a series of pulses, the number of pulses equal to the number of pulses of the input batch, and the duration of the output pulses are equal to the duration of the input pulses. - When one of the impulses of the sequence disappears on the input bus at the output of element 9, a replacement impulse is generated, which is fed to the output bus 14 connected to the signal impairment indicator of the input impulses, as well as through the ICh1 element 10 to the output bus 15, restoring the input sequence. Trigger 8, the output of which is connected to the input of the element And 3, opens element 3 and 3 each time the impulse of the controlled sequence appears and closes it immediately after the end of the pulse, after the signal on the input bus 13, along with the input sequence signals appear interference pulses, they will not pass to the output device. The invention The device for detecting the loss of a pulse containing three OR elements, two AND elements, two delay elements, a pulse shaper, a trigger, two output buses and an input bus connected to the first input of the first element AND, the second input of which is connected to the first input of element AND to the trigger output), the first input of which is connected to the output of the first OR element, the first input of which is connected to the output of the first delay element, the input of which is connected to the first input of the second HJDi element, while The second element AND is connected to the first VOLUME bus and to the first input: the third OR element, whose output is connected to the second output bus, characterized in that, in order to increase noise immunity and enhance the functionality, two additional elements are introduced into it and ШШ, the output of which Through the second delay element is connected to the third input of the first element And, the output of which is connected to the input of the first delay element and with the second input of the third element OR, the first input of which is connected to The second input of the second OR element, the output of which is connected to the second trigger input through the pulse shaper, the first input of the additional OR element is connected to the input bus, and its second input is connected to the output of the first delay element and to the inputs of the first and second additional delay elements, the outputs of which are connected respectively to the second inputs of the first element OR and the second element AND "