SU944114A2 - Controllable frequency pulse generator - Google Patents

Description

(k) PULSE GENERATOR WITH CONTROLLED FREQUENCY.

one

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

According to the main auth. No. a pulse-generator with a controlled frequency is known, containing three AND elements, an OR element, a delay line, a register, two control triggers and a counter,

However, the known generator is characterized by a lack of reliability of operation, due to the fact that the generator does not provide for blocking the start and stopping its operation in the case of writing to the zero code register. In this case, after the zero code is rewritten from the register into the counter, the counter is reset, since the pulse of the reference frequency from the output of the second element And continues to flow to the subtracting input of the counter, the first of these pulses sets all the trigger of the counter to one states ( this is equivalent to writing to the number estimator equal to its capacity, and all subsequent pulses are subtracted from the contents of the counter one by one (as in normal operation} until the counter is zeroed. This process is repeated cyclically, and ode generator formed impulse sequence with a period proportional to the capacitance meter, which could lead to false triggering devices synchronized generator.

The purpose of the invention is to increase the reliability of the generator.

To this end, the pulse generator with a controlled frequency, containing the AND elements, the OR element, the delay line and the registrar, whose recording information input is connected to the bus, the code, the register read input is connected to the output of the delay line, the first and third outputs, AND elements are connected to the input of the OR element, as well as 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 I, the other input of which is connected to the direct output of the first digit of the counter, the inverse outputs of all subsequent bits of which are connected to the remaining inputs of the third element I, 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 And elements, the second inputs of which are connected to the bus pulse At this frequency, and the output of the OR element is connected to the input of the delay line, the fourth AND element and the NAND element are additionally introduced, the inputs of which are connected to the inverse outputs of all register memory elements, and the output to the zero input of the second control trigger and the first input of the fourth element, And, in the swarm of which the entrance is connected to the start-up bus, and the exit to the installation input of the control trigger. The drawing shows the% lock circuit of the proposed pulse generator with a controlled frequency. The generator contains the first and second control triggers 1 and 2, the inputs of which are connected respectively to the first inputs of the first and second elements I 3 and 4, the second input of the first element I 3 is connected to the second input of the second element I 4 and to the bus 5 pulses of the reference Frequencies The output of the first element And 3 is connected to the counting inputs of the control triggers 1 and 2 and the first input of the element OR 6, the second input is connected to the output of the third element And 7. The output of the second element And 4 is dinene with the subtractive input of the estimator and the first input of the third element And 7, the other input of which is connected to a direct output of the first discharge counter 8, and the remaining inputs - a population-inverted, and the outputs of all its subsequent bits. 44 The output of the element OR 6 is connected to the input of the delay line 9 and is the output 10 of the generator. The output of the delay line E is connected to the read input of the register i1, the information recording input of which is connected to the bus 12 of the code, and the output of the register 11 to the installation input of the counter 8. The inverse outputs of all memory elements of the register 11 are connected to the codes of the AND-NOT element 13, output which is connected to the zeroing input of the second control trigger 2 and the first input of the fourth element 14, the second input of which is connected to the start bus 15, and the output to the installation input of the first control trigger 1. The generator operates as follows. Before starting operation, the control triggers 1 and 2, the counter 8 and the register 11 are set to zero. At the outputs of the control triggers, low potentials are established, which prevent the output of the IZ and 4 elements, the reference frequency pulses fed to the bus 5. Then, the code of the number N is written to the bus 12, which is written to the register 11. The number N characterizes the specified the pulse following period at output 10. If a zero code is written to register 11 via bus 12 before starting operation, then a low potential is formed at the output of element NE-13, which closes AND 14 at the first input. In this case, the Start command comes from bus 15At the second input of the element I 14, it does not pass to its output and the generator remains in the initial state. If a non-zero code is recorded in register 11, then the Start command through an open element I 14 arrives at the installation input of a control trigger 1, which is set to state 1, and an element 3 is opened at the first input. frequency passes to the output of the element And 3, passes through the element OR 6, to, output 10 and to the input of the delay line 9, where it is delayed by time equal to tj. From the output of the delay line, the pulse arrives at the readout input of register 11. From register 11 and the counter 8 is entered the code of the number N. The pulse of the reference frequency passed through the element I 3 and 5 is also fed to the counting inputs of the control. Triggers 1 and 2 and, on the falling edge, transfers control trigger 1 to state O, and control trigger 2 to state 1. In this case, element And 3 closes, and element And t opens, skips all subsequent pulses of the reference frequency to the subtracting input of the counter 8 and the element And 7. The pulses of the reference frequency arriving at the subtracting input of the counter 8 are subtracted from its contents one by one. When the contents of the counter 8 become equal to one, i.e. its subtractive input receives N-1 pulses of the reference frequency, and element 7 opens. The N-th pulse passes through the element AND 7 element OR and is fed to the output 10 of the generator and the input of the delay line 9. At the same time, the Nth pulse on the trailing edge subtracts 8 units from the contents of the counter, making it equal to zero. From the output of the delay line, the pulse is fed to the read input of register 11. If the information recorded in register 11 has not changed, then the whole process is repeated cyclically. After a certain interval of time, determined by the number N, pulses arrive at output 10. If another number, other than zero, is written to the register, the next pulse at output 10 appears after a period of time determined by the new number. If the new number, then the low potential from the output of the NAND 13 element embraces the second control three | - ger 2, the And 4 element closes, the reference frequency pulses cease to arrive at the subtracting input of the counter 8 and the generator stops working. The ro pulse to the subtracting input of the counter 8 and the receipt of information from the register 11 to the installation inputs of the counter 8, the delay time of the delay line 9 are selected from the condition. GESS T, where Tx, is the pulse delay time by the delay line; C is the pulse duration of the reference frequency; T is the period of the following pulses of the reference frequency. For convenience of working with a generator, it is desirable that the pulse follow-up period of the reference frequency be a multiple of the unit of time and, for example, 1 µs, or 1 ms, or 1 s, etc. In this case, the number N is equal to the specified follow-up period in the selected time units and can be set without prior scaling. Thus, in the proposed pulse generator with a controlled frequency as compared to the known one, a false generator start is blocked when writing to the register before starting the zero code. In addition, blocking the arrival of pulses of the reference frequency to the subtracting input of the counter and the termination of the generator in the case of writing to the zero code register during the generator operation, i.e. the generator provides for blocking the start and termination of work in the case of writing a zero code in the register, which eliminates the false triggering of devices synchronized by the pulse generator with a controlled frequency and increases the reliability of its operation. invention invention Pulse generator with controlled frequency according to aut. St. W, characterized in that, in order to increase the reliability of operation, a fourth AND element and an NAND element are additionally introduced in it, the inputs of which are connected to the inverse outputs of all register memory elements, and the output to the zero input of the second control trigger and the first the input of the fourth element is And, the second input of which is connected to the start-up bus, and the output - to the installation input of the first control trigger. Sources of information taken into account during the examination 1. USSR Author's Certificate No., cl. H 03 K 1/16, 1978.

Claims (1)

Claim Controlled-frequency pulse generator No. 744917, characterized in that, in order to increase the reliability of operation, the fourth AND element and the NAND element are additionally introduced into it, the inputs of which are connected to the inverse outputs of all the register memory elements, and the output is connected to the zeroing input of the second control trigger and the first input the fourth element And, the second input of which is connected to the start bus, and the output to the installation input of the first control trigger.