SU1001448A1 - Pulse train shaper - Google Patents

Description

(SM DEVICE FOR THE FORMATION OF PUTS OF PULSES

one

The invention relates to pulse - -. technology and can be used when testing digital devices discrete automation,.

A device for forming a series of pulses is known, comprising a pulse generator, a key device, a pulse counter, an AND circuit, a program storage unit and a trigger, the output of the pulse generator being connected to the pulse counter through the key device, and the code inputs of the program storage block are bitwise connected And to the corresponding inputs of the pulse counter, the output of which is connected to the input of the program storage unit, the output of the pulse counter is connected to one of the trigger inputs, the second input of which connected to the inputs of the AND gates and the output of the program storage, and a trigger output connected to a control input of switching unit. In the specified device for

the bundle size settings here use the same binary codes that, after inversion, are written to the counter, the overflow pulse of which interrupts the operation of the former 1,

The disadvantages of this device are, firstly, the possibility of distorting information when filling the binary counter, and secondly, if it is necessary to obtain large size packets, transferring decimal numbers to binary creates certain inconveniences for the operator and can lead to errors on the part of the operator.

Claims (1)

The closest to the present invention is a device for forming a time sequence of pulses containing a trigger, one input of which is connected to the input bus, and a second input to the output of the element I, and series-connected pulse generator, a key and counters, the trigger output being connected to the control input key, as well as the second key and match items | 2 J. A disadvantage of the known device is the impossibility of controlling the number of pulses in a burst due to the presence of a rigid connection between the outputs of the counter and the inputs of element I. The purpose of the invention is to enhance the functionality by controlling the number of pulses in the decimal code. The goal is achieved by the fact that a device containing a trigger, one input of which is connected to the input bus and another to the output of the element I, and the successively connected pulse generator, a key and counters, the trigger output connected to the control input of the key four multiplexers, one encoder and one decimal setting for each counter, and the counters are made decade, while the outputs of the ten-set indicator are connected to the inputs of the encoder, the output bus of each of the four bits of which is connected to the control input of the corresponding multiplexer, two information inputs of each of which are connected respectively to the direct and inverse outputs of the counter digits of the same name, and the outputs of all multiplexers are connected to the inputs of the I.I. Each unit is connected to a decimal setter, encoder and Four multiplexers can be made in the form of a switch to ten positions, four directions, with the moving contacts of each direction being connected to one of the inputs of the element I, and the fixed contacts each The first direction is connected to the direct and inverse outputs of the corresponding counter discharge, and for the first direction, the second, fourth, sixth, eighth and tenth contacts are connected to the first output, and the inverse output is first, third, fifth The seventh and ninth contacts, for the second direction, the third, fourth, seventh and eighth contacts are connected to the direct output of the second discharge, and the first, fifth, fifth, sixth ninth and tenth contacts to the inverse one, and the third to the third direction. my third-party output The five, sixth, seventh and eighth pins, with inverse the first, second, third, fourth, ninth and tenth contacts, for the fourth direction, the ninth and tenth contacts are connected to the fourth direction, with the inverse one with the first to the second contacts, FIG. 1 shows a functional diagram of the proposed device; in fig. 2 shows the implementation of the device using switches in ten positions in four directions. The device contains trigger 1, input bus 2, element 3 AND, pulse generator t, key 5, counters 6, multiplexers, encoders 11, decimal setting devices 12 "The device output is bus 12, Counters 6 are decadal. Trigger 1 is designed to control key 5. Single output of trigger 1 is connected to the control input of key 5, single input of trigger 1 to input bus 2, and input to output of element 3. Element 3 is intended to form a zero setting signal of tri1-ger 1. Inputs element 3 is connected to the outputs of the multiplexers U-Yu. The signal at the output of element 3 appears in the presence of output signals from each multiplexer. The pulse generator is designed to form a continuous pulse sequence, its output is connected to the pulse input of the key 5. The key 5 passes the input pulse sequence to the bus 13 of the device and the input of the first decade counter 6 if its potential input has a enable signal supplied from trigger 1. Decadal counters 6 are intended for counting pulses emitted by key 5 and generating a binary-decimal code with decadal counters 6 connected in series. Their number is determined by the required pack size. The outputs of each decade counter are connected to the multiplexer inputs. In this case, the direct and inverse outputs of the first, second, third and fourth bits are connected respectively to the information inputs of the multiplexers 7-10. Each of the multiplexers is designed to connect to the inputs of the element 3 direct or inverse outputs of the corresponding bits of the counters 6 depending on the level of the signals at their control inputs connected to the output buses of the encoders of the same name 11. If there is a signal at the control input 1 to the input element 3 is connected to the direct output of the discharge, and for O the inverse. The encoders 11 are intended to convert any of the -digit numbers from zero to nine, issued by decimal sets, to the binary number used to control multiplexers 7-10. Trigger 1, element 3, pulse generator, key 5, decade counters 6 can be implemented on a microchip, and multiplexers connected to each decade counter 6, the encoder 11 and the decimal setting 12 are conveniently implemented using switch 1 to ten positions Four directions, the contacts of which are connected to the decade counter 6 and the element 3, the device operates as follows. In the initial state, the decade counters 6 are set to the zero state. Trigger 1 is also in the zero state. Therefore, the key 5 does not transmit to the input of the first ten-day counter 6 and the bus 13 the pulse sequence generated by the generator of k pulses. Before starting, using the descale setting devices 12, the desired number of pulses in a packet is set, for example, 159 At the setting unit 12 of the lower order it is necessary to set the number 9, at the setting set of the second category - number 5, and then At the third setting setting At the output of the first-digit encoder 11, code 1001 is generated (the least significant bit to the left), at the output of the second-digit encoder, 1010, and at the output of the bus (1 third-time generator, 1000, the formation of a burst starts after the input signal is applied to bus 2, while trig Ger 1 is set to one and opens key 5, which begins to pass pulses generated by the generator t to the input of the first ten-day counter 6 and bus 13 When the 159th pulse passes to the counter input, the code 1001 is set to the direct outputs of the first ten-day counter inverse - 0110, on the direct outputs of the second ten-day counter - 1010, on the inverse - (1101, on the direct outputs of the third ten-day counter - 1000, on the inverse 0111, Then the multiplexers connected to the first ten-day counter are connected to the inputs of the 3 dp element mye exits first and fourth. bits and inverse outputs of the second and third bits of this counter, multiplexers of the second decade counter — direct outputs of the first and third bits and inverse outputs of the second and fourth bits, multiplexers of the third ten-day counter — direct output of the first discharge and inverse outputs of the second third and fourth bit. Thus, at all inputs of element 3, a level 1 turns on and an output of element 3 appears, the signal driving trigger 1 is in the zero state. Key 5 is locked and the formation of the burst ends. In order to resume the operation of the proposed device, it is necessary to reset decade counters 6 to the zero state and send the input signal to bus 2. In case of using switches at ten positions four directions connected to each decade counter 6, the necessary connection of direct and inverse outputs of each bit Yes, with the inputs of element 3, it is provided as described above. Thus, the use of the proposed device allows to expand its functionality by controlling the number of pulses in a packet by a decimal code. Setting the size of a pack in the decimal number system makes it possible to significantly reduce the time required for testing digital devices of discrete automation, in particular, counters, since there is no need to convert decimal numbers to binary ones. In addition, errors that may occur with such a translation are eliminated. Claim 1. A device for generating pulse bursts containing a trigger, one input of which is connected to the input bus and the other to the output of the I element, and serially connected pulse generator, a key and counters, the trigger output being connected to the control input of the key, about the fact that, in order to expand the functionality by controlling the number of pulses in a bundle with a decimal code, four multiplexers, one encoder and one decimal setting device per counter are entered into it, and The detectors are made decadal, while the outputs of the decimal setter are connected to the inputs of the encoder, the output bus of each of the four rows of which is connected to the control input of the corresponding multiplexer, two information inputs of each of which are connected respectively to the direct and inverse outputs of the same name counter, and the outputs of all multiplexers are connected to the inputs of the element I. 2 ,. A device according to claim 1, wherein the decadal unit, the encoder and the four multiplexer associated with each counter are made in the form of a switch in the ten position, four directions, while the movable contacts of each direction are connected to one of the inputs the element And, and the fixed contacts of each direction are connected to the direct inverted outputs of the corresponding estimator discharge, moreover for. the first direction with the forward output of the first discharge are connected to the second, fourth, sixth, eighth and tenth contacts, with the inverse output - the first, third, fifth, seventh and ninth contacts, for the second direction to the direct output of the second discharge are connected the third, fourth, seventh and eighth contacts, with the inverse - the first, second, fifth, sixth, ninth and tenth contacts, for the third direction, the fifth, sixth, seventh and eighth contacts are connected to the third direction, with inverse - first, second, third, fourth, ninth tenth contacts, for directing a fourth direct output of the fourth discharge connected ninth and tenth contacts with inverse - the first to eighth contacts. Sources of information taken into account in the examination of the USSR Author's Certificate N 56357, class H 03 K 3/6, 1973. 2 The USSR Author's Certificate No. 130372, cl. G About F 1/0, 1972,., FagL / / ty ± t 111111 i ± J j 11 Sh Sh / and J