SU913565A1 - Square-wave generator - Google Patents

Description

I

The invention is intended for use in automation, remote control and computing.

The known generator of rectangular pulses containing an n-bit binary counter, the reset input of which is connected to the output of the first OR circuit, and the counting input to the output of the master oscillator, a trigger, the inputs of which are connected to the outputs of the first and second coincidence circuits, a duration code sensor and a code sensor interval, the outputs of which are connected to the inputs of the first and second coincidence circuits respectively through two groups of OR circuits, two differentiating circuits. The second inputs of the two groups of circuits OR are connected to the outputs of the counter. Differentiating circuits are connected between the outputs of the trigger and the ^ inputs of the first circuit OR [1].

The disadvantage of the known generator is the redundancy of the circuit solution, which leads to a lower

reliability of operation, complexity and appreciation of the product.

The closest in technical essence to this invention is a square-wave generator, which contains a counter, a master oscillator, a duration code sensor, an interval code sensor, a differentiating circuit, a two-channel group multiplexer, a counting trigger, and a coincidence circuit, the counter connected by a counting input to the master output the generator, the sensor of the duration code is connected by its outputs to a group of inputs of one channel of the multiplexer, the outputs of the sensor, the code of the interval are connected to the group of inputs of another channel a multiplexer, whose outputs are connected to one group of inputs of the coincidence circuit, and the outputs of the counter are connected to another group of inputs of the coincidence circuit, the output of the coincidence circuit is connected to the input of the differentiating circuit,

3 913565

which is connected to the counting trigger input and the reset input of the counter, the output of the counting trigger is connected to the address input of the multiplexer (2].

The disadvantage of this device is that it uses the same circuits and circuits for upravle- ': Nia duty cycle and a frequency that causes the following negative consequences: the value of the generated _{range) 0} Mykh frequency depends on the duty cycle (t. e. with a single duty cycle value, the magnitude of the frequency range of the generated frequencies is one, and when the duty ratio changes, the magnitude of the frequency range is ₅

the generated frequencies will be different), which causes a narrowing of the functionality of the generator and the range of generated ·. frequency, and also complicates the management of the generator; in this case, when it is necessary to expand only the extreme values of the range of generated frequencies, and the extreme values. Nia duty cycle range to leave the same, must be increased Num-25 lo code length and the sensor code transmitter discharge interval, which may be accomplished only by increasing the number of components and connections in oscillator circuit, and this, in its ₃ turn, leads to a circuit redundancy and reduces its reliability, increasing the same number of digits as a sensor of a duration code, and an interval code sensor complicates the pairing of a generator with a control device when it is used instead of sensors; in the process of controlling the generator, when it is necessary to rebuild only the output frequency, and the duty cycle remain the same, _ it is necessary to replace both the duration sensor code and the interval sensor code, which, when using an automatic control device as sensors, leads to a decrease in performance and the reliability of the generator control process from an automatic control device.

The aim of the invention is to expand the functionality, the range of generated frequencies, increase reliability, performance and simplify the process of automatic control of the generator.

This goal is achieved by the fact that in the device containing the counter, the master oscillator, the sensor

duration code, interval code sensor, differentiating circuit, dual-channel multiplexer, counting trigger, coincidence element, the interval code sensor outputs are connected to one group of information inputs of the multiplex, duration code sensor outputs are connected to another group of multiplexer information inputs, whose address input connected to the output of the counting trigger, the outputs of the multiplexer are connected to one group of inputs of the element “I

drops, another group of inputs of which are connected to the counter outputs, and the output of the coincidence element is connected via a differentiating circuit to the counter reset input and the trigger input, a scale code sensor, an η-channel multiplexer and one output pulse divider, and one of the n-channel information inputs are introduced the multiplexer is connected to the output of the master oscillator and to the input of the pulse divider, the outputs of the pulse divider are connected to other information inputs of the η-channel multiplexer, the control inputs of the p-channel The multiplexer is connected to the outputs of the scale code sensor, and the η-channel multiplexer output is connected to the counter input.

The drawing shows a block diagram of a generator of rectangular pulses.

The device contains · counter 1, the master oscillator 2, the sensor 3 of the duration code, the sensor 4 of the interval code, the differentiating circuit 5, the group two-channel multiplexer 6, the counting trigger 7, the scheme is the same. 8, scale code sensor 9, η-channel multiplexer 10, η-output divider II pulses, one of the information inputs of the η-channel multiplexer 10 connected to the output of master oscillator 2 and to the input of η-output divider 11 pulses, outputs of the divider 11 the pulses are connected to other information inputs of the n-channel multiplexer 10, the control inputs of the η-channel multiplexer 10 are connected to the outputs of the scale code sensor 9, and the output of the η-channel multiplexer 10 is fed to the input of the counter 1.

The device works as follows.

From sensor 3 parallel binary code is fed to a group of inputs

913565

one of the channels of multiplexer 6, simultaneously with sensor 4 parallel Binary code is fed to a group of inputs of another channel of multiplexer 6, which, depending on the ₅ states of the counting trigger 7, connects to one group of inputs of the coincidence circuit 8 either outputs of sensor 3 or outputs of sensor 4, At the same time, the other group of inputs of the circuit, about the coincidence of 8 from counter 1, receives the code appearing on its outputs when counting pulses, which. are received from the output of the η-channel multiplexer 10. The pulse count _{15 by} counter 1 continues until the code formed at the output of counter 1 and the code already entered in the coincidence circuit 8 coincides, while the output of the coincidence circuit is ₂₀ 8, a signal appears that, through differentiating circuit 5, resets counter 1 and simultaneously triggers trigger 7 to a new state, and since the trigger output 7 is connected 25 to the address input of multiplexer 6, the latter connects a group of its inputs to the second sensor to the coincidence circuit 8. For example, if the outputs of sensor 3 are connected, then the outputs of sensor 4 are connected and vice versa. Thus, from the output of the trigger 7, a sequence of rectangular pulses with a given duration and interval is obtained. ₃₅ The residence time of the trigger 7 in the first and second states (respectively, the pulse duration and the interval duration) is determined by codes that are fed to the coincidence circuit 8 alternately from two sensors 3 and 4 and the frequency of the pulses from the output of the η-channel multiplexer 10 to the input of the counter 1. It is obvious that by changing the repetition rate of these pulses, it is possible to change the repetition rate of the output pulses of the generator, leaving the duty cycle unchanged, i.e. production- ..

leads, scale output is “

" 50

sequence. pulses.

This happens as follows.

From the encoder code 9, the parallel binary code goes to the address (control) inputs of the η-channel multiplexer 10, depending on the incoming code, only one of the d-channels of the multiplexer 10 is opened, and since this channel is co.

11 pulses are united with one of the outputs of the η-bit divider, then the pulses from this output pass through n-channel multiplexer 10 to the input of counter 1. Thus, by supplying the corresponding codes from sensor 9 of the scale code, you can connect different outputs of divider to the input of counter 1 - 11, than th is provided by changing the frequency of the output pulses in a wide range regardless of the magnitude of the duty cycle (ie, from the value of the codes received from sensors 3 and 4).

The positive effect of the device is to expand the functionality, the range of the generated frequencies, increase reliability, performance and simplify the process of automatic generator control due to the fact that different circuits and circuits are used to control the duty cycle and frequency.

Claims (1)

Claim A rectangular pulse generator containing a counter, a master oscillator, a duration code sensor, an interval code sensor, a differentiating circuit, a counting trigger, a coincidence element,; a two-channel multiplexer, where the interval code sensor outputs are connected to one group of multiplexer information inputs, the duration code sensor outputs are connected to another multiplexer information input group, the address input of which is connected to the counting trigger output, multiplex outputs are connected to the same input terminal group , another corpse of the inputs of which is connected to the outputs of the counter, and the output of the coincidence element is connected. Through a differentiation circuit to the reset input of the counter and the counting input a trigger of m) Leach in that, in order to expand the functional capabilities, the range of frequencies being generated, improving reliability, and productivity pro- ¹ protsessp simplify automatic generator control, it introduced scale code sensor, η-channel multiplexer and η -Output impulse divider, one of which is information 7 913565 eight the η-channel multiplexer inputs are connected to the output of the master oscillator and to the input of a pulse divider; the outputs of the pulse divider are connected. yen .. s. the other information inputs * ¹ 5 of the η-channel multiplexer, the control inputs of the η-channel multiplexer are connected to the outputs of the scale code sensor, and the output of the η-channel multiplexer is connected to the counter input,