SU970669A1 - Pulse duration discriminator - Google Patents

Description

The invention relates to a pulse technique and can be used in automation and remote control devices, in computing and measurement techniques.

A pulse selector is known in duration, containing an element NOT, a differentiating element, three elements I, a clock generator, a pulse counter, a trigger and a frequency divider, the first input of the pulse counter through the first element and connected to the output of the clock generator and the first input of the second element And, the second with the first input of the third element And directly and through the differentiating element - with the output of the element NOT, and the output - with the first input of the trigger, the second input of which is connected to the output of the second ele And cient through frequency divider, and an output - to vtorlm inputs of the second and third elements and lj.

However, this device has a low reliability due to the repeated formation of strobe pulses with input signals, the duration of which is selected within a given selection range; insufficient

The breaking capacity shown in the device is large: | The dead time during the selection of pulses, whose duration lies in the selection zone, is caused by the fact that the frequency divider, regardless of the duration of the selected pulse, continues to work until it is filled, preventing the device from recovering, and this selector also causes an additional decrease in reliability selectivities, since if the selector # 1th pulse ends

15 at the beginning of the strobe, the subsequent pulses, the duration of which fits into the remaining part of the strobe, will also be recognized as lying in a predetermined length range and at the output of the device false information will appear; insufficient selection accuracy, due to the fact that there is no synchronization of the clock pulse generator with the collected pulses.

Closest to the offer is a pulse selector for dpitali, which additionally contains a second trigger included

30 between the inputs of the element NOT and the first

The element AND, and the element OR, the first input of which is connected to the output of the element NOT, the second input - with the output of the pulse counter, and the output - with the second input of the second trigger.

However, the known selector has insufficient resolution and reliability in the selection of pulses, the duration of the kotorzh lies in a given range of duration, and insufficient accuracy of selection due to discrete error; complex structure.

The purpose of the invention is to increase the resolution, device availability and selection accuracy while simplifying the device.,

The goal is achieved by the fact that in the device containing the element NOT, the input of which is connected to the input bus of the device, the differentiating element, the clock generator, the first and second triggers, the start input of the last of which is connected to the output of the pulse counter, and the direct output the first input element is And, and the frequency divider, the input start the first trigger through the differentiating element connected to the input bus device and the second input element And the first reset input connected to the output element NOT, the second input reset and - to the output of the frequency divider, and a direct output connected to a blocking input of said clock pulse generator, the third input of AND gate and the reset input of the second flip-flop, inversngy output connected to the reset input of the frequency divider, the counting input. which is connected to the output of the clock pulse generator and the counting input of the pulse counter, the reset input of which is connected to the inverse output of the first trigger,

The drawing shows a structural electrical circuit of the proposed device.

The device contains the element NOT 1, the differentiating circuit 2, the first trigger 3, made on the elements 2 AND-NOT and 3 AND-NOT, the start input of which through the differentiating circuit 2 is connected to the input of the element NB 1, the output connected to the first reset input of the first trigger 3 The forward output of trigger 3 is connected to a blocking input of a 4-clock pulse generator, the output of which is connected to a counting input of a counter of 5 pulses and a frequency divider b. The output of counter 5 is connected to the start input of the second trigger 7, the direct output of which is connected to the first input of the element 8, the second input to the input of the element 1, and the third input to the direct output of the trigger 3 and the reset input of the second trigger 7, the inverse output which is connected to the reset input of the divider 6, the output connected to the second reset input of the trigger 3. The inverse output of the trigger 3 is connected to the reset input of the counter 5. The device has an input bus E connected to the input of the element HE 1 and the output bus 10 connected to the output of the element I eight.

The device works as follows.

In the initial state, the level H is present at the input of the device and at the inverse outputs of the triggers 3 and 7, the level O at the output of the element NO 1 and at the direct outputs of the triggers 3 and 7. The generator 4 is blocked and the clock pulses are not generated. Counter 5 and divider 6 are blocked on the reset inputs.

The input impulse of the zero level removes the prohibition signal from the first reset input of the trigger 3 and, having passed through the differentiating circuit 2, with the leading front tilts it. In this case, the lock is removed from the generator 4 and the counter 5, and the trigger and the element And 8 are prepared to operate. Generator 4 begins to generate clock pulses with a fixed initial phase, which are counted by counter 5. Counter conversion factor 5 is proportional to the minimum selection threshold. If the selectable pulse exceeds the minimum selection threshold in duration, then at the output of counter 5, an impulse occurs, which throws trigger 7 into

At the same time from the outputs

state

Claims (2)

trigger 7 serves resolution levels on the frequency divider 6 and the first input of the element 8. At this point, the divider 6 with a division factor proportional to the maximum selection threshold begins counting the clock pulses of the generator 4, all the time the count of the divider 6 on the first and third inputs of the element And / there are resolving levels, and in the second a prohibiting level of a selectable pulse. If at this moment the selectable pulse ends, then the resolving level will arrive at the second input of the element 8. At the output of the element NO 1, the level O appears, which returns the trigger 3 to the initial state, at which the level O is set at its direct output, and hence at the third input of the element 8. However, this level is established after the end of the selected pulse after time, where Tszd9 is the delay time of signal propagation by one logical element. At the time at the inputs of the element And 8, a coincidence occurs and at the output it appears a pulse of the same duration, sufficient to reliably start the subsequent recording device, made in the same or faster components, as the proposed device. (If the subsequent registering device is slow-acting, then an appropriate matching device should be inserted between the output of the selector and the registering device. A similar device is also necessary if the logical levels of the selector and the subsequent recording device do not match). When returning to the initial state, trigger 3 resets and blocks counter 5, blocks generator 4, returns to initial state trigger 7, which in turn resets and blocks divider 6 Often and delivers the inhibitory level to the first input of the And 8 element. Thus , the proposed dream device is ready to receive. The next selectable pulse. The recovery time of the selector is determined by the time it takes for the signal to pass through the elements of the device and practically does not exceed. If the duration of the selected pulse is less than the minimum selection threshold, then the pulse at the output of the counter 5 is absent, trigger 7 cannot switch and AND element 8 is closed at the first input. The end of the selectable pulse therefore does not lead to the appearance of a pulse at the output of the IW element. At the end of the selectable pulse, trigger 3 returns to the state blocking counter 5 and generator 4, after which the selector is again ready to receive the next signal. If the duration of the selected pulse is greater than the maximum selection threshold, then the device works in the same way as in the first case. However, the frequency divider 6 has time to trigger a pulse at its output, by which the trigger 3 at the second reset input returns to the zero state. In this case, the counter 5 is reset and blocked, generator 4 is blocked, trigger 7 returns to its initial state and blocks divider 6 from this state. In this state, the selector remains until the end of the selectable pulse. At the moment of termination of the selectable pulse on the course of the device, the pulse does not occur as the element 8 is closed on the first and third inputs. After the end of the selected pulse, the selector is almost immediately ready to receive the next pulse. The dead time is determined only by the recovery time of the differentiating circuit 2. Thus, the proposed device has a higher resolution and reliability in a given selection duration range, since it has significantly less dead time and does not have false output pulses, due to the fact that the selector reset to the initial state immediately upon termination of the selected pulse; has a high selection accuracy, since the clock pulses of the generator 4 have a fixed initial phase with respect to the time of arrival of the selected pulses; simpler because it contains less by three blocks and two inter-block connections. The invention selector pulse duration, containing the element NOT, the input of which is connected to the input bus of the device, differentiating element, clock generator, the first and second triggers, the start input of the last of which is connected to the output of the pulse counter, and the direct output - to the input of the element And, and a frequency divider, characterized in that, in order to increase the resolution, device reliability and selection accuracy while simplifying the device, the trigger input of the first trigger through The fermenting element is connected to the input bus of the device and the second input of the And element, the first reset input is connected to the output of the NOT element, the second reset input to the output of the frequency divider, and the direct output is connected to the blocking input of the clock generator, the third input of the And element and the input reset the second trigger, the inverse output of which is connected to the reset input of the frequency divider, the counting input of which is connected to the output of the clock generator and the counting input of the pulse counter, the reset input of which is connected to the inverse m the output of the first trigger. Sources of information taken into account in the examination 1. USSR author's certificate number 677088, cl. H 03 K 5/16, 05.16.77. 2. Authors certificate USSR 790270, cl. H 03 K 5/26, 01.23.79, (prototype).