SU868991A1 - Pulse train generator - Google Patents

Description

(54) GENERATOR OF SERIES OF PULSES

The invention relates to an impulse technique and can be used in radio engineering devices and automation systems. A pulse generator is known, in which the pulse frequency of the output pulses varies according to the set program, the output pulses are output by a comparator, triggered by two counters, one of which outputs signals when pulses of a constant frequency from the clock generator feed to its input, and the second counter triggered when pulses from a clock generator are applied to its input, equal to the number of pulses in the sum or difference between the second set number and the number of pulses at the output of the first pulse counter l This g The generator, in accordance with the inherent program, allows to vary the frequency of the pulse of the output pulses over a wide range. However, QJH does not provide a constant duration and number of pulses in a series when the output pulse frequency changes without significant modification of the circuit, since the generator circuit does not have a series counting element, a pulse output pulse generator, gating and returning the device to its initial position, which requires additional preparation for his subsequent work after the end of the series. The closest to the proposed technical entity is a device containing a pulse generator, a key device, a pulse counter, AND elements, a program storage unit and a trigger, a pulse generator output is connected via a key device to a pulse count program input, and the bottom is connected through the elements I to the corresponding inputs of the pulse counter, the output of which is under-3 connected to the input of the storage unit of the program. To increase the reliability of the device, the output of the pulse counter is connected to one of the trigger inputs, the second input of which is connected to the inputs of the elements AND and the output of the program storage unit, and the output of the trigger below is connected to the control input of the key device. This device allows you to change the number of pulses in a series according to a given program at a constant frequency and their duration at the output. The disadvantages of the device include the fact that the program storage unit does not allow to memorize, Boc makes and changes the pulse frequency in a series while maintaining the number of pulses in a series is always strictly constant, changing the program. The purpose of the invention is to control the duration and number of pulses in a series are constant. The goal is achieved by the fact that a pulse train generator containing a pulse generator, a counter balance, the output of which is connected to the first input of the program storage unit, the first output of which is connected to the trigger input, is additionally introduced a pulse shaper and a controlled linear resistance made, for example On the transistor, the base of which is connected to the second output of the program storage unit, the collector is connected to the first input of the pulse generator, the output of which is connected through the Pulse driver the first input of the pulse counter, the second input of which is connected to the output of the flip-flop, a second input of the pulse generator and the second input of the program storage unit. The program always contains a pulse counter, the bit outputs of which, besides the senior one, are connected (AND-NOT and resistors to the middle point of the voltage divider, connected through a switch to the second inputs of the elements, with the inputs of the storage unit programs are the inputs of the pulse counter, and the first and second outputs are the high-order output of the pulse counter, respectively. The drawing shows the functional diagram of the generator. 1 The generator contains a trigger p 1 is RS-type, generator of 2 pulses, which operates in the mode of a stalled self-oscillator generator, shaper of 3 pulses on the leading edge, counter of 4 pulses, linear controlled resistance, which in this case is performed on transistor 5, block 6 of program storage, which contains counter 7 pulses, elements AND-HE 8, resistors 9, divider 10 on resistors 1 and 12 and switch 13. I The generator works as follows. In the initial state, when the supply voltage is turned on And in the absence of probing pulses on the generator after the transient processes in it, trigger 1 is set to a position where logical O is present at its output, which causes disruption of the self-oscillating process in the generator 2 pulses zi In this case, on the output of the pulse train generator there is no output signal (logical O), and pulse counters 4 and 7 are set to the position where logical O is set on their direct fractional outputs, and logical inverse 1, since the trigger output 1 to the installation input of the counters 4 and 7 pulses is given a logical O. collector and emitter. From the direct one-bit outputs of the counter 7 pulses of the program storage unit 6 is fed to the input of elements 8 Logic O, and the logical 1 is supplied to the enable inputs, therefore the output of the elements 8 is set to logical 1. From the inverse-sided outputs of the counter 7 pulses is fed the corresponding inputs of elements 8 are logical l, and the permitting inputs through switch 13 receives a logical O, so the logical I is present at the inverse bit outputs of elements 8. Thus, in the initial state and the device on all NFF x and inverse outputs of elements 8 is set to logical 1. The first probe pulse arriving at the generator input acts on trigger 1, which changes its state from logical O to 1, thereby removing the prohibition from pulse generator 2 and the circuit of its positive feedback is restored. In generator 2, the process of generation begins and at its output a sequence of pulses is generated, which acts on the input of the generator of 3 pulses along the leading edge. From the output of generator 3 but mation claim burst duration with a constant repetition period is supplied to the generator output bus, and simultaneously acts on the counting input of the pulse counter 4 to fill it either. . The counter 4 pulses is intended for counting the number of pulses in a pack, the number of pulses in which is determined by the width of the counter of 4 pulses. A series consists of several bursts of pulses, the number of packs in a series is determined by the size of the counter of 7 pulses. As soon as the pulse counter 4 is completely filled, the voltage drop of which affects the counting input of the pulse counter 7, and in it the state of the low-order trigger cell changes. The forward output of the low-order cell of the pulse counter 7 is set to logical and the inverse logical O. Then, at the direct output of element 8, by switching it to the polarity of the voltage, a logical O is established at the enable input, and the inverse element 8 retains the logical 1, since logical O is fed to its enable input. Thus, the state changes from logical 1 to O only at the forward output of element 8 of the lower bit, and all other outputs preserve logical 1. As a result those resistor 9 is connected in parallel with resistor 11 of divider 10 to res 50

And resistors to and 12. The total resistance of the base circuit of the transistor 5 is reduced, and the bias voltage at its base also decreases. The resistance of the transition between the emitter and collector of the transistor 5 increases. Therefore, the time constant is the time of the setting of the RC-generator of the 2-pulse generator.

connected in parallel to the resistor 11. in the process of the generator. . In this case, the period of repetition of pulses in a packet is constant, but it increases from one packet to another, i.e.

Claims (2)

55 from the beginning of the series to its end. In order to obtain the inverse dependence of the repetition periods of pulses in a bundle, it is necessary to increase, since the collector of transistor 5 is connected to the point of connection of the capacitor with the resistor of the timing circuit. The pulse repetition period in the bundle at the output of the device is extended. The number of pulses in a burst is determined by the width of the counter of 4 pulses, and the number of packs in a series is determined by the length of the counter of 7 pulses. After the end of the higher-order pulse output of the pulse counter 4, the voltage across the pulse counter input 7 enters, resulting in the next discharge of which another resistor 9 is connected in parallel to the resistors 11 and 12, the offset at the base of transistor 5 is reduced by the subsequent voltage level and thereby increases the pulse repetition period in the followup pulse train. When the high discharge of the counter 7 pulses is triggered, the voltage drop from its output is reset flies trigger 1 to its original steady state. At the output of the trigger 1, a logical O is established, which oscillates in the generator of 2 pulses, resulting in the formation of a series of pulses consisting of individual packets before the next probe pulse arrives at the input of the device. The program of the pulse repetition period in a pack and in a series varies according to the resistance of the resistors 9. The necessary period of repetition of pulses in a series is determined from the time constant set by the RC circuit of the generator 2 of the impedance junction transition collector of the transistor 5, through which the main RC- chain on the general inu device. The resistance value of the transition of the collector-emitter of the transistor 5 is determined by the characteristics based on the value of the necessary bias voltage on the base of the transistor 5, which is programmed by the resistance of the resistors 9, to change the position of the switch 13 to the opposite. Thus, the number of pulses in a pack and in a series is always strictly constant, although their repetition period varies according to the program laid down according to the values of the resistors: 9. Claim 1. Pulse train generator, pulse generator, pulse counter, the output of which is connected to the first input of the program storage unit, the first output of which is connected to the trigger input, characterized in that in order to adjust the pulse repetition period in the series the impulse driver and the controlled linear resistance made, for example, on a transistor, the base of which is connected to the second by the output of the program storage unit, are additionally introduced; the collector is connected to the first input of the gene Rathore pulses, whose output is connected through a pulse shaper to the first input of the counter momenta, the second input of which is connected to the output of the flip-flop, a second input ikpulsov generator and the second input of program storage unit. 2. The generator according to any one of these, in that the program storage unit contains a pulse counter, the bit outputs of which, besides the senior one, are connected via series-connected AND-NES elements and resistors to the midpoint of the voltage divider, one output which through the switch is connected to the second inputs of the NAND elements, and the inputs of the Program Storage Unit are the inputs of the pulse counter, and the first and second outputs are respectively the high-order output of the counter.a pulses. Sources of information taken into account in the examination 1. US patent number 3870963, cl. 288-59, published. 03.11.75. 2. USSR author's certificate number 456357, cl. H 03 K 3 / 6A, 1973 (prototype).