SU907791A1 - Pulsce disciminator by interval between pulses - Google Patents

Description

(54) SELECTOR №ShULSOV INTERVAL BETWEEN IMPULSAIA

one

The invention relates to a pulse technique and can be used in various radar and radio devices.

Known pulse selector, which contains the first delay element, performed on the multivibrator with two inputs, between which the second delay element is connected, the front edge driver and the falling edge driver, whose inputs are connected to the input pulse source bus, and the front edge generator output is connected to the first an anti-coincidence element input, the second input of which is connected to the output of the first delay element.

However, such a pulse selector has insufficient selection accuracy.

The closest in technical essence to the present invention is a pulse selector that contains front and rear shapers

fronts, the inputs of which are connected to the input bus, the anti-coincidence element, the first input of which is connected to the output of the front edge forekshirer, the trigger, the output of which is connected to the input of the controlled clock pulse generator, and the output of the last one is connected to the input of the pulse counter, 2 J.

ten

The disadvantage of this device is that it is not suitable in those cases where the pulse duration is different for the input sequence, as well as in it

Claims (2)

The 15 selectable output pulses are not restored. These circumstances significantly narrow the scope of its application. In addition, this selector selects pulses over an interval with 20 errors equal to the duration of the selection of 1X pulses, and does not exclude the selection of pulses, the interval between which is more than 39 times the number specified. All this greatly reduces the accuracy of selection. The purpose of the invention is to improve the accuracy of selection and the expansion of the field of application. The goal is achieved by the fact that in the pulse selector, the interval between pulses contains the front and rear edge drivers, the inputs of which are connected to the input gain, the anti-matching element, the first input of which is connected to the output of the front-edge driver, the first trigger, the clock input connected to the output of the counter pulses, and the output via a controlled clock pulse generator with a counting pulse counter input, a second trigger is introduced, the single input of which is connected to the output of the antiswitch element The second input is connected to the output of the pulse counter, while the single input of the first trigger is connected to the zero input of the second trigger, to the output of the falling front generator and to the input of the pulse counter installation, and the zero input of the first leading edge. Figure 1 shows the functional diagram of the selector; in Fig. 2, the digram, we are the stresses that show the work of the selector. The pulse selector for the interval between pulses contains a pulse counter 1, a controlled 2-pulse generator, shapers 3 and 4 of the front and rear edges, anti-coincidence element 5, the first trigger 6, the second trigger 7, the input bus 8 and the output bus 9. Figure 2 shows impulses 10 of input sequence on bus 8, impulse at shaper 3 output, impulse 12 at flip-flop output 6, impulse 13 at shaper output, impulse 14 at generator output 2, impulse 15 and counter 1 output, impulse 16 at anti-coincidence element output 5, imp pulse 17 at the trigger output 7. The inputs of the formers 3 and 4 fronts are interconnected and connected to the bus 8. The first input of the anticoincidence element 5 is connected to the zero input of the trigger bis by the output of the inverter 3, and the second input is connected to the clock input of the trigger bis by the counter output 1. The direct output of trigger 6 is connected to the input of the hegerator 2, the output of which is connected to the input of the counter 1. The single input of the trigger 6 is connected to the zero input of the trigger 7, to the output of the driver 4 and to the initial state of the counter I. The output of the anti-matching element 5 is connected to the single input of the trigger 7. The triggers 6 and 7, when a low potential is applied to the single (zero) input, go to the single zero state, i.e. at their direct output is set to high (low voltage level. A difference from low potential 1C to high at the clock input of trigger 6 will transfer it to the state opposite to what it was before the appearance of this fuse. If there is an element of anti-coincidence at the direct input A high voltage level is set at 5, and a low voltage level is set at its low voltage inverse at its output. In all other cases, a high voltage level is maintained at the output of the anti-matching element 5. The pulse pulse in the interval between pulses works as follows. In the initial position, the triggers of all bits of counter 1, as well as triggers 6 and 7 are in the zero state. A low voltage level is maintained at the input of the generator 2, and there are no pulses at its output The pulses of the input sequence 10 are fed to the inputs of the formers 3 and 4. The starter 3 triggers on the leading edge of the input pulse and forms a short negative pulse 11, which arrives at the zero input of trigger 6 and either confirms it o the zero state, or sets it to the zero state (pulse 12), if before that it was in the single state. The shaper 4 is triggered by the falling edge of the input pulse and forms a short negative pulse 13, which is fed to the single input of the trigger 6, the zero input of the trigger 7 and to the bus of the installation of the counter J to its initial state. In this case, the 5 trigger 6 is set to one state, and the count bits of the counter 1 and the trigger 7 are set to the zero state. Impulse I 2 of a high voltage level from a single output of trigger 6 is fed to the input of generator 2 and allows its operation. The clock pulses 14 of the output of the generator 2 are counted by the counter 1. The module of the counter 1 is selected based on the given selection interval and the required precision of the interval. At the moment of filling the counter 1, a positive pulse 15 arrives at its output, arriving at the direct input of the anti-matching element 5 and to the clock input of the trigger 6. In this case, the trigger 6 is set to the zero state, thereby blocking the generator 2 In case the interval t between the pulses is equal to the specified selection interval tj, then the pulses on the direct and inverse inputs of the anti-matching element 5 coincide in time and the output of the last pulse is set to low-voltage pulse 16, by which the trigger 7 switches to the unit state not (pulse 17). On the falling edge of this input pulse, the driver 4 is activated, the output pulse of which counter 1 and trigger 7 return to the zero state, and trigger 6 returns to the single state, i.e. the device is alerted to further analysis of the input pulse sequence. In case t tg, then an output pulse is not generated at the output of counter I, and therefore, trigger 7 cannot be set to one. In the event that t 7 s ° C the filling of counter I with its output produces a positive impulse 15, the approaching direct input of the anti-coincidence element 5 and the clock input of the flip-flop 6. At this, the flip-flop 6 is set to zero. the generator 2 itself, and since the input pulse is absent at the device input, the driver 3. does not work, and the trigger 7 is disabled and in this case it cannot be set to one. In the device for improving the accuracy of working off the interval between the pulses of the generator 2 can be performed according to a scheme with quartz frequency stabilization. The invention selector pulses on the interval between pulses, containing the formers of the front and rear edges, the inputs of which are connected to the input bus, anti-coincidence element, the first input of which is connected to the output of the front-edge former, the first trigger, the clock input of which is connected to the output of the pulse counter and the output through a clock pulse generator with a counting pulse counter input, characterized in that, in order to improve the selection accuracy and expand the field of application, it the second trigger, a single input of which is connected to the output of the anti-coincidence element, the second input of which is connected to the output of the pulse counter, while the single input of the first trigger is connected to the zero input of the second trigger, to the output of the back front driver and the zero input the input of the first trigger is connected to the output of the front-edge driver. Sources of information taken into account during the examination 1. USSR author's certificate No. 479240, cl. H 03 K 5/20, 1974. 2. USSR author's certificate # 613499, cl. H 03 K 5/20, 1976. and . Fis.1