SU1411785A1 - Time function generator - Google Patents

Abstract

The invention relates to the field of automation and computing. The purpose of the invention is to simplify the generator and increase reliability. The time function generator contains a multilevel comparator 1, a group of 3 w of keys, a source of 4 reference voltages, n groups of m IZ elements, a distributor of 6 pulses, n groups of m storage elements 7, (n + 1), a group of n elements And 8, Record-Play 9 switch, shaper 10 pulses, operation mode switch 11, generator of 12 single pulses, generator of 13 clock pulses and n groups of keys 14. Simplification of the generator is achieved by eliminating OR elements from memory resetting circuits and control scheni complements You are a key 14. In this case, increased stability of the storage elements and improved output quality by switching reference voltages only one group key in analog output device that provides povshenie reliability of the time function generator. 1 il. with S (L

Description

The invention relates to automation and computer technology, in particular to time function generators <! operational setting of parameters of reproduced functions.

The purpose of the invention is to simplify generators and increase reliability.

The drawing shows a block diagram of a generator of time functions.

The generator contains a multilevel input 2 settings of the generator of time functions, a group consisting of w analog, a source of 4 reference voltages,} 5 elements And 5, a distributor of 6 pulses, memory elements 7 (S-input setting to one, R-input setting, elements And 8, the switch '' Record-play 9, the formatter 10 pulses (on the leading edge of the triggering pulses) switch 11 operating mode, 12 single pulse generator, 13 clock generator, switch, output 15 of the time function generator.

The operation of the generator of time functions remains from two stages: recording gene 20

With the generated function and the reproduction of the product, the generated function can be implemented. Record and play Rnk (s in the manual and automatic modes.

In manual recording mode, the start of the 6-pulse distributor is || carried out by the pulses of the 12-pulse generator, approximating voltages are fed to the input 2 of the multi-level SBOR comparator 1 also manually from: any voltage source, for example, using a potentiometer.

In automatic mode, the start of the distributor 6 is carried out impu. the forests of the generator 13 clock pulses, and the input 2 of the device is fed a recorded (simulated) signal.

Consider the operation of the device on the function recording in automatic mode.

In the initial position, the distributor 6 is in the zero position, the switch of the operating mode 11 is in the upper (according to the diagram) position, the switch 9 is in the Record position.

When »applying a signal exceeding the threshold of operation of the multilevel device 1 to input 2 of the device: simultaneous translation of switch 11 to the lower position (according to the scheme), the 6-pulse distributor gates element I 5 of the first group from the first pulse of the generator 13 clock pulses, and from the excited output multilevel comparator 1 through the corresponding element And 5 of the first group to the input S of the connected storage element 7. of this group receives a write signal 1, which is valid for a time equal to long sti pulse. At the same time, the reset inputs R of all the storage elements 7 of the first group, through the element And 8 open in this cycle, receive a short-term reset pulse generated by the pulse shaper 10 along the leading edge of the triggering pulses, the duration of which is much less than the duration of the clock pulse. In this case, all the storage elements 7 of this group are reset to 0. However, after the end of the duration of the reset pulse, the storage element 7 associated with the excited output of the multilevel comparator 1 is again set to position 1.

I

With the arrival of the second clock pulse, the described processes occur in the second group of elements and so on until the completion of the cycle of operation of the pulse distributor 6.

When playing back information, switch 9 is set to Play. In this case, the inhibitory potential from the switch 9 is supplied to the information inputs of the And 8 · elements, and the reset pulses are sent to the recording elements 7 during interrogation by the pulse distributor 6 of the pulses. There is no recording of new information on the storage elements 7, since the elements And 5 are closed by inhibitory potentials from the outputs of the multilevel comparator 1 due to the absence of a signal at its input 2.

The pulses of the dispenser 6 in this case gate the passage of information from the excited storage elements 7 through the keys 14 to the control inputs of the analog keys 3, on the combined outputs of which 15 a generated time function is formed in the form of a piecewise-step approximation of the recorded analog signal.

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Reproduction of the generated function can be carried out by the pulses of the single pulse generator.

In the considered generator of time functions, simplification of constructive performance is achieved by eliminating elements OR chains of zeroing and simplifying the execution of keys 14 (which can be used as AND elements). This increases the stability of the memory elements due to the simplification of their reset circuits in ”0, improves the quality of the output signal due to switching | threshold signals to the output of the device by a single group of analog keys and, consequently, the reliability of the generator itself increases.

Claims (1)

The claims 20 A time function generator containing. clock pulse generator, single pulse generator, reference voltage source, 25-pulse switch, operating mode switch, η groups of n> elements And, η groups of w memory elements, h groups of m keys and a multi-level comparator, information input of which is the setup input of the generator of time functions, and the reference inputs are connected to the outputs of the reference voltage source, and each i-th, i = 1, ..., m, element And of each j-th, j = 1, p group is connected first 35 house to the i-th output of a multilevel comparator, and odom - to the installation input in 1 i-ro of the storage element of the j-th group, the output of which is connected to the signal input of the i-ro key of the j-th group, and the second inputs of the And elements of the j-th group and the control inputs of the keys of the j-th group are connected to the jth output of the pulse distributor, the start input of which is connected to the output of the operating mode switch, connected by the inputs to the outputs of the single and clock pulses, characterized in that, in order to simplify the generator and increase reliability, it contains (n + 1) a group of η elements And, (n + .1) th group of w key d, the Record - playback switch and a pulse shaper, the input of which is connected to the output of the operation mode switch, and the output - to the first input of the Record-playback switch, connected by the second input to the logical zero bus, and the output with the first inputs of AND elements (n + 1) -th group, each j-th of which is connected by the second input to the j-th output of the pulse distributor, and the output to the inputs of the installation in 0 memory _; elements of the j-th group, and each i-th key of the (n + 1) -th group is connected by a signal input to the i-th output of the reference voltage source, the control input - with the output of the i-ro key of the remaining groups, and the output - with the output by bus. generator of time functions.