SU936413A1 - Pulse length discriminator - Google Patents

Description

(54) SELECTOR OF PULSES OF DURATION

The invention relates to the immersion technique and can be used in systems for controlling pulses according to their arrival time and their potency. A device containing a clock pulse generator, three AND elements, a NE element, a differentiating circuit, a pulse counter, a trigger and a frequency divider is known. However, the indicated device, while controlling the pulse duration, does not control the arrival time of this pulse. The closest in technical terms to the invention is a pulse selection device comprising a differentiating element, the input of which is connected to the input thickness, one of the inputs is connected to the first input of the AND element, and the other output to the first input of the trigger, series-connected controlled clock generator impulses counter and deflector, the output of which is connected to the second input of the AND element and through the series-connected element OR and the delay element to the reset input of the counter and the second trigger input, output cat cerned is connected to the input of the controlled oscillator clock pulses Sauvie, however, the known device is L pozvog produce control pulses only by their length, but can not control the time of arrival of these pulses. The circuit of the invention is the extension of the functional capabilities of the device due to the possibility of a temporary tolerance control of imputuses. The goal is achieved by the fact that the pulse selector has the duration, containing the last trigger connected, the controlled clock generator, the pulse counter and the descrambler, as well as the AND element, the output of which is connected to the first input of the OR element, has been additionally introduced. two triggers and an AND element, the output of which is connected to the second input of the epemen OR, and the first, second, and third inputs are connected, respectively, to the first outputs of the first and second complementary triggers and through the inverter to the first one of the main epemen And, the second and third inputs of which are connected respectively to the second outputs of the first and second additional triggers, the first inputs of which are connected respectively to the first and second outputs of the decoder, the third and fourth outputs of which are connected respectively to the second inputs of the first and second additional triggers , the second output of the decoder is connected to the input of the main trigger, the output of which is connected to the second input of the counter of impulses. The drawing shows the functional diagram of the section Dr. impupsov on dgshtepnesti. The selector contains a controlled generator of 1 clock pulses, a counter of 2 pulses, a decoder 3, triggers 4-6, an inverter 7, elements AND 8 and 9, an element OR 10, a bus 11 of the control input of the device, a bus 12 of controlled impulses, an output bus 13, The Selecto | bb works as follows: Decoder 3 is designed to issue strobe pulses for the beginning and end of the time tolerances. Moreover, strobe impulses C of the first and second outputs of the decoder 3 correspond to the beginning and end of the permissible time interval at the time of arrival of the monitored pulse through bus 12, and strobe pulses from the third and fourth outputs of the decoder 3 correspond to the beginning and end of the permissible time interval at the end of this controlled pulse. In the initial state, there are low voltage levels on buses 1113, and high voltage levels at the outputs of the decoder 3, low ypoBHli voltages at the direct outputs of the 4-6 flip-flops, and high inverse outputs of the 4-6 flip-flops voltage levels, at the output of the inverter 7 - high voltage level, and at the outputs of the elements And 8 and 9 - low voltage levels. When entering the launch point on the bus 11, against which the time parameters of the tested impedance are monitored, trigger 4 is set to one state. Thus, the counter 2 and the controlled generator 1 of clock pulses are allowed, the clock pulses from which are fed to the counter clock. counter 2. At the time point when a pulse appears at the output of decoder 3, the trigger 5 switches and from its direct output a high voltage level goes to the element 8, and from its inverse output This voltage level is supplied to the element 9, when a controlled pulse arrives on the bus 12, a high voltage level arrives at the third input of the element 9 and a low voltage level from the inverter 7 at the third input of the element 8. At the outputs of the elements of both 8 and 9, the voltage level is kept low, since at least one of the inputs of these elements there is a low voltage level. At the time when a second pulse appears at the second output of the decoder 3, the trigger 6 switches, and from its direct output, a high level arrives at the element And 8, and from its inverse output a low level goes at element And 9. At the output of the element WG 8, a low level of voltage will remain, since the third input of this pattern is present low voltage As taken from the inverter element 7. And the low voltage level at the output of the element 9 is maintained by low voltage levels supplied to the two inputs of the elements 9 from the inverse outputs of the flip-flops 5 and 6, When the third output of the decoder 3 has a pulse, the trigger 5 will be reset and from the direct output of this trigger a low voltage level is fed to the first input of the element And 8, and from the inverse output of this trigger. a high voltage level arrives at the first input of the element And 9, But, since the second input of the element And 9 maintains a low level of voltage taken from the inverse output of the trigger 6, then at the output of the element 9, as well as at the element 8, low voltage levels. At the end of the monitored impulse arriving at the device bus 12, the low voltage levels at the outputs of the elements And 8 and 9 remain, At the time when the fourth output of the decoder 3 has a strobe pulse, the trigger 6 will return to its initial state and the direct output of this trigger low voltage level arrives at the second input of the EI element 8, and from the inverse output of this trigger high voltage level arrives at the second input element of the element 9. But since by this time the third input of the element 9 from the bus 12 post devices if the voltage level is already low, then the output of the AND 9 element will keep the voltage level low. The strobe from the fourth output of the decoder 3 also goes to the setup input of the trigger 4 and returns it to the initial state and the low voltage level from the trigger 4 stops the operation of the controlled clock generator 1 and resets the counter 2, the device returns to the initial state.

Thus, if the controlled j pulse is within the specified tolerances, then the outputs of the elements And 8 and 9 always keep the voltage level low and, accordingly, through the OR element 10 and the bus 13 of the device all the time the voltage level is low .

If the controlled impulse is in vit s earlier than the strobe impulses from the first output of the decoder 3, then all three inputs of the AND 9 element have high voltage levels, and therefore the output of the AND 9 element and the OR 10 element also have high voltage levels . If the monitored pulse does not reach the moment the strobe pulse arrives from the second output of the decoder 3, then from the direct outputs of the triggers 5 and 6, the first two inputs of the And 8 element will receive high voltage levels (and the third input of the And 8 elements will remain high voltage) and from the output of the element And 8, and hence from the element OR Y, a high level of voltage is removed. If the controlled pulse terminates before the moment when the strobe pulse arrives from the third output of the decoder 3, then all three inputs of And 8 will have high voltage levels coming from the direct outputs of flip-flops 5 and 6 and from inverter 7, which means high voltage levels will be element outputs AND 8 and element OR 10. If the monitored pulse does not end by the moment the strobe pulse arrives from the fourth output of the decoder 3, then high voltage levels go from the inverse outputs of the flip-flops 5 and 6 to the first two inputs of the AND 9 element. e together with a high level of voltage at the third input of the element And 9 will result in high levels of voltage, both at the output of the element And 9 and at the output of the element OR 10. That is, any deviation of the time parameters of the monitored pulse (both the start point and the end point of the monitored pulse will result in a high voltage level at the output of the device.

Thus, this pulse selector, in comparison with the known pulse, allows not to control

only the duration of the pulses, but also the MOt of the arrival of these pulses.

Claims (2)

1. USSR author's certificate No. 677088, cl H 03 K 5/19, 1979. 2. The author's testimony of the USSR № 696599, cl. H 03 K 5/19, 198 O.