SU658720A1 - Pulse train shaper - Google Patents

Description

The invention relates to a pulse technique, in particular, to generators producing a series of pulses, and can be used for the number-pulse coding of information.

The known device for generating pulse sequences, containing comparison elements, switching units, a single-cycle generator, has insufficient reliability due to its complex network 1.

Closest to the proposed invention, a device for forming pulse sequences, comprising a multi-pulse pulse generator, a control trigger, a two-input element AND, an element OR, the terminals "Start and Stop" 2.

However, this device is not able to form packs with any number of pulses and different intervals between them.

Claims (2)

In order to form any pulse sequences with a constant structure of the entire device, a device for forming pulse sequences containing a multi-pulse pulse generator, a control trigger, a two-input element AND, an OR element, the Start and Stop terminals, a block of two-input elements I., and a delay device consisting of p links, the number of which corresponds to the basis of the information supplied to the register, and the control trigger inputs are connected to the Start and Stop terminals, respectively. o, the control trigger output is connected via the AND element to the signal input of the first link of the delay device, the uncontrolled output of each link of which is connected to the signal input of the next link, and the controlled output of the corresponding input of the OR element, one of the inputs of which is connected to the Start terminal, the clock inputs of each link of the delay device are connected to the outputs of the multi-cycle pulse generator5 connected to the clock inputs of the elements AND of the block of two-input elements I. whose control inputs are connected to you register odes. In addition, each link of the delay device consists of 0 four AND elements and an inverse implication element, with the two inputs of the first element AND being the signal and first clock inputs of the link, the output of the first AND element connected to the first inputs of the second AND element and the inverse implication element the second inputs of which are interconnected and are the control input of the link, the third inputs of the second element AND and the element of inverse implication are interconnected and are the second clock input of the link, the outputs of the second element And and the inverse implication element is connected to the inputs of the third and fourth elements AND, respectively, the second inputs of which are interconnected and are the third clock input of the link, the output of the fourth element AND is the controlled output of the link, and the output of the third element And the uncontrolled output of the link. FIG. 1 is a diagram of the proposed device; in fig. 2 is a diagram of a link of a delay device. A device for forming pulse sequences contains a trigger 1 of control, the first input of which is connected to the Start terminal, and the second one is connected to the Stop terminal. The output of the trigger I through the element 2 and is connected to the signal input of the device 3 delays, consisting of individual links 4-1. Uncontrolled outputs of links 4-1-4- (p-1) are connected to signal inputs of, respectively, links 4-2-4-T1, and controlled ones - to the corresponding input of element 5 OR. One of the inputs of the element 5 is connected to the terminal "Start. The clock inputs of links 4-1-4-p are connected to a multi-pulse generator of 6 pulses, which is also connected to clock inputs of elements AND of block 7 of two-input elements AND, the control inputs of which are connected to the outputs of register 8. Each of the links 4-1-4- The n contains elements 9-12 AND and the inverse implication element 13, with the two inputs of element 9 being the signal and first clock input of the links 4-1-4. The output of element 9 is connected to the first inputs of elements 10 and 13. The second inputs of elements 10 and 13 are interconnected and are control inputs of links 4-1 to 4-t1. The third inputs of the elements 10 and 13 are interconnected and are clock inputs of the links. The outputs of elements 10 and 13 are connected to the first inputs of elements 11 and 12, respectively, the second inputs of which are interconnected and are the third clock inputs of the links 4-1-4-4. The device works as follows. The command "Start at the inputs of the trigger 1, elements 2 and 5 receives a signal, which is fed from the output of element 5 to the output of the device and to the input of the element 2. The first signal arriving at the output of the device is a reference for counting the time intervals of the remaining signals. The command "Start Trigger 1 is switched to one state, allowing the signal to pass through element 2, which is fed to the signal input of the link 4-1. In the first clock of generator 6, the signal from element 9 "is recorded in element 13, which prohibits the signal from passing through the first input if there is a signal at the second input (if there is no signal at the control input of the link), or to element 10 (if there are controls signal). On the second clock cycle, the signal is respectively recorded in one of the elements 12, II. In the third cycle, the signal enters the uncontrolled or controlled output of links 4-1 - -4-p. The signal arriving at the uncontrolled output of the 4-1-4-p links is fed to the signal input of the subsequent link 44 - -4-p. Thus, the delay time of a signal in one link 4-1-4-g is equal to the period of repetition of clock pulses. A constant signal corresponding to a certain value of the first decade of decimal information recorded in register 8 is fed to the control input of the corresponding element AND of block 7. By this signal, the first clock pulse of generator 6 is fed through element AND of block 7 to the control input of the corresponding link 4 -1-4-p. The signal coming from the previous link 4-1-4-p and delayed by a time proportional to the sequence number of this link is "recorded on the first and second clock cycle, and on the third it goes through a controlled output to the input of element 5, from the output of which enters the output device. This pulse is delayed relative to the reference time, proportional to the sequence number of the links 4-1-4-n, to which the control signal is fed. After the delayed pulse has been generated, register 8 is reset and transferred to the next state corresponding to the next value of the second decades of decimal information. Further, the formation of pulses occurs, similarly to the above, before the arrival of the command “Stop. Thus, each decimal information value of one decade at the output of the device will correspond to a pulse delayed with respect to the signal of the previous decade for a time proportional to the sequence number of that link 4-1-4-n, for which the control signal is applied. Claim 1. A device for forming pulse sequences, comprising a multi-pulse pulse generator, a control trigger, a two-input element AND, an OR element, terminals "Start and Stop", characterized in that, in order to form any pulse sequences when