SU843253A2 - Pulse generator with controllable frequency - Google Patents

Description

The invention relates to pulse * generators and can be used as a master oscillator in synchronization blocks of electronic computers and various automation devices.

By main auto No. 744917 known pulse generator with a controlled frequency, containing the first, second and third elements AND, element OR, delay line, register, first and second control triggers and counter [I].

A disadvantage of the known generator is low reliability, because in cases where the signal on the start bus appears later than the arrival of the leading edge of the next pulse of the reference frequency, the first pulse at the generator output is shortened. The purpose of the invention is to increase the reliability of work.

This goal is achieved by the fact that in a pulse generator containing AND elements, an OR element, a delay line and a register, a recording input, the information of which is connected to the code bus, a register read input is connected to the output of the delay line, ⁵ outputs of the first and third AND elements connected to the inputs of the OR element, two control triggers and a counter, the installation input of which is connected to the output of the register, and the subtractive input of the counter is connected to the output of the second and one input of the third AND element, the other input of which is connected to the direct output of the first a meter stage, the inverse outputs of all subsequent bits of which are connected to the remaining inputs of the third AND element, while the output of the first AND element is connected to the counting inputs of the control triggers, and the installation input of the first control trigger is connected to the start bus, the outputs of the first and second control triggers are connected respectively to 4 h 843 253 first inputs of first and second aND gates, whose second inputs are connected to bus ^ pulse frequency reference, and an output element ILY Cpd · ⁴ / nen to the input of the delay line, enter n optional trigger input C bus is connected to the reference frequency pulses input R - to the output of the first control flip-flop, a 'output - to the first input of the first element w ment I. \

The drawing shows a block diagram of a pulse generator with a controlled frequency.

The pulse generator contains the first and second control triggers 1 and 2 and an additional trigger 3, the R-input of which is connected to the output of the first control trigger 1. The outputs of the additional trigger 3 20 'and the second control trigger 2 are connected respectively to the first inputs of the first and second elements 4 and 5, the second inputs of which, like the C-input of the additional trigger 25 ger 3, are connected to the bus 6 pulses of the reference frequency. The installation input of the first control trigger 1 is connected to the start bus 7. The output of the first element 4 is connected to the C-inputs of the first and second control triggers 1 and 2 and the first input of the OR element 8, the second input of which is connected to the output of the third element And 9. The output of the second element 5 is connected to the subtracting counter input 10 and the first input of the third element 9, the other input of which is connected to the direct output Q of the first discharge of the counter 10, and the remaining inputs are connected to the inverse outputs of all its subsequent discharges.

The output of the OR element 8 is connected to the input of the delay line 11 and is the _45th output of the generator 12.

The output of the delay line 11 is connected with the read input of the register 13, the input of the information recording of which is connected to the code bus 14, the output of the register ₅₀ 13 is connected to the installation input of the counter 10.

The generator operates as follows. ''

Before starting operation, control ₅₅ triggers 1 and 2, counter 10 and register 13 are set to 0. Additional trigger 3 is also set '0 to low potential from the output of the first control trigger 1. Low potentials at the outputs of the second control trigger 2 and additional trigger 3 prevent passage to the outputs of elements 4 and 5 of them - -, the pulses of the reference frequency received on the bus 6. Then the code of the number N is received on the bus 14, which is written in the register 13. The number N characterizes the set pulse repetition period at the output 12.

By the Start command received on bus 7, the control trigger 1 is set to state 1, removing the low potential from the R-input of the additional trigger 3. On the trailing edge of the nearest pulse of the reference frequency, which arrives on bus 6 either simultaneously with the start command or later her, an additional trigger 3 is set to state 1, opening the And 4 element at the first input. The next pulse of the reference frequency passes to the output of the And 4 element, passes through the OR element 8, to the output 12 and through the delay line 11, where it is delayed by mja equal to T ₃ is supplied to the register reading input

13. From the register'13 to the counter 10, the code of the number N is rewritten. The first reference frequency pulse passed through the element And 4 also arrives at the C-inputs of the control triggers 1 and 2 and on the trailing edge puts the control trigger 1 to state 0, and the control trigger 2 - to the state ”1. In this case, the additional trigger 3 goes into state 0, closing the And 4 element at the first input, and the And 5 element opens, passing all subsequent pulses of the reference frequency to the subtracting input of the counter 10, and the first input of the element 9.

Pulses of the reference frequency received at the subtracting input of the counter

10., subtracted from its contents by one. When the contents of counter 10 become equal to unity, i.e. its subtractive input receives N-1 pulses of the reference frequency, at the output of all bits of the counter 10 high potentials are established, and the And 9 element opens. The N-th pulse passes through the elements of P 9, OR 8 and enters the output 12 and the input of the delay line 11. At the same time, the N-th pulse on the trailing edge subtracts from the contents of the counter 10 unit, de ·. barking it equal to zero. From the output of the delay line, the pulse goes to the read input of register 13. If the information recorded in the register · _t 13 does not change, then the whole process is repeated cyclically. After certain time intervals determined by the number N, pulses are output 12. If another number is written in the register 13, then the next pulse at the output 12 appears after a period of time determined by the new number.

In order to avoid the simultaneous arrival of an N-ro pulse at the subtracting input of the counter 10 and information from the register 13 to the installation inputs of the counter 10, the delay time of the pulse by the delay line 11 is selected from the catch

I 4 I <T _a Chae E, delay time of the delay line; pulse duration reference · where CT ^L 3843253

1'

For the purpose of convenience, working with the generator, the To is taken as a multiple of the time unit, for example - 1 μs, or 1 ms, or 1 s. In this case, the number N is equal to ~ the given pulse repetition period in the selected units of measurement. time and it can be set without prior scaling. "

In the proposed impulse generator, the appearance of the first shortened pulse at the generator output is excluded, thereby increasing the reliability of its operation.

Claims (1)

The invention relates to pulse generators and can be used as a master oscillator in synchronization units of electronic computers and various automation devices. According to the main auth. No. 744917 is known a controlled frequency pulse pulse, which contains the first, second, and third elements AND, the OR element, the delay line, the register, the first and second control triggers, and the counter SP. The disadvantage of the known generator is low reliability, since in those cases when the signal on the start bus appears after the arrival of the leading edge of the next pulse of the reference frequency, the first pulse at the generator output is formed shortened. The purpose of the invention is to improve reliability. The goal is achieved by the fact that the pulse generator containing the AND elements, the OR element, the delay line and the register, the recording input, whose information is connected to the code bus, the register read input is connected to the output of the delay line, and the outputs of the first and third elements are connected to the element inputs. OR, two control triggers and a counter, the installation input of which is connected to the register output, and the subtracting input of the counter - to the output of the second and one input of the third element AND, the other input of which is connected to the direct output for the first time A row of the counter, the inverse outputs of all subsequent bits of which are connected to the remaining inputs of the third element AND, while the output of the first element I is connected to the counting inputs of the control triggers, and the installation input of the first control trigger is connected to the start bus, the outputs of the first and second control triggers are connected respectively to the first inputs of the first and second elements AND, the second inputs of goats, which are connected to the pulse bus of the reference frequency, and the output of the element OR is connected to the CO input of the delay line; tional trigger input C bus is connected to the reference frequency pulses input R - vkod to the first control flip-flop, and an output - to the first input of the first element VI. The drawing shows a block diagram of a pulse generator with a controlled frequency. The pulse generator contains the first and second control triggers I and 2 and the additional trigger 3, the R input of which is connected to the output of the first control trigger 1, the outputs of the additional trigger 3 and the second control trigger 2 are connected respectively to the first inputs of the first and second elements And 4 and 5, the second inputs of which, like the C-input of the additional trigger 3, are connected to the bus 6 of the pulses of the reference frequency. The setup input of the first control trigger 1 is connected to the start bus 7. The output of the first element 4 is connected to the C-inputs of the first and second control triggers I and 2 and the first input of the element OR 8, the second input of which is connected to the output of the third element AND 9. The output of the second element 5 is connected to the subtracting input of the counter 10 and the first input of the third element 9, the other input of which is connected to the direct output Q of the first bit of the slash 10, and the remaining inputs with the inverse outputs Qgj, .. jQH of all its subsequent bits. The output of the element OR 8 is connected to the input of the delay line 11 and is the output 12 of the generator. ; The output of the delay line 11 is connected i to the read input of the register 13, the information recording input of which is connected to the bus 4 of the code, the output of the register 13 is connected to the installation input of the counter 10. The generator operates as follows. Before starting operation, the control triggers 1 and 2, the counter W and the register 13 are set to O. Auxiliary trigger 3 is also set to O by a low potential from the output 34 of the first control trigger 1. Low potentials at the outputs of the second control trigger 2 and the additional trigger 3 prevent from passing to the exits of elements 4 and 5. pulses of the reference frequency arriving at bus 6. Next, bus 14 receives a code of number N, which is recorded in register 13. The number N characterizes the specified pulse following period at output 12. On the Start command fed to bus 7, the control trigger 1 is set to state 1, remove the low potential from the R-input of the additional trigger 3. On the falling edge of the nearest pulse of the reference frequency, which arrives on the bus 6 either simultaneously with the appearance of the Start command or later, the additional trigger 3 is set to 1, opening the first input element AND 4. The next pulse of the reference frequency passes to the output of the element AND 4, passes through the element OR 8, to the output 12 and through the delay line 11, where it is delayed by a time equal to / Lj, is fed to the register reading input 13. From the register 13, the code of the number N is copied to the counter 10. The first pulse of the reference frequency that passes through the element I 4 also goes to the C inputs of the control triggers 1 and 2 and transfers the control trigger I to the state O on the falling edge, and the control trigger 2- to state 1. In addition, trigger 3 goes to state O, closing element I 4 at the first input, and element 5 opening, skipping all subsequent reference frequency pulses to the subtracting input of counter 10, and first input of element 9. The reference frequency pulses arriving at the counting subtracting input 10., subtract one from its contents. When the contents of counter 10 become equal to one, i.e. its subtractive input receives N-I pulses of the reference frequency, high potentials are established at the output of all bits of the meter Yu, and the element E9 opens. The N-th pulse passes through the elements of P 9, OR 8 and enters the output 12 and the input line 11 of the delay. At the same time, the Nth pulse on the falling edge subtracts 10 units from the 5 contents of the counter, making it equal to zero. From the output of the delay line 11, a pulse arrives at the readout input of register 13. If the information recorded in register 13 does not change, the whole process repeats cyclically. At certain time intervals, determined by the number N, pulses are output to output 12. If another number is written to register 13, then the next pulse at output 12 appears after a period of time determined by the new number. In order to avoid the simultaneous arrival of the Nth ro pulse on the subtracting input of counter 10 and the arrival of information from register 13 to the installation inputs of counter 10, the time delay of the pulse by the delay line M is selected from the catch. T 1 t where T, is the delay time of the delay line-power efficiency of the pulses of the reference frequency; Te is the period of the following pulses of the reference frequency. 3 seconds of convenience — work with a generator — a torus Ta — is taken as a multiple of a unit of time, for example, 1 μs or 1 Mg, or 1 s. In this case, the number N is equal to the specified pulse duration in the selected units; time and can be set without prior scaling,. In the predalaged generator Kttftyjib-. The situation at the generator output of the first shortened pulse is eliminated, thereby increasing the reliability of its operation. Invention formula Pulse supplator with controlled frequency according to auth.St. No. 7449.17, characterized in that, in order to ensure reliability of operation, an additional trigger, input C of which is connected to the reference frequency pulse bus, is input R, to the output of the first control trigger, and output to the first input of the first element I. Sources of information taken in consultation with the examination I. USSR Copyright Certificate № 744917, 101. H 03 L 7 / 00.29.08: 78.