SU728132A1 - Pulse-frequency function generator - Google Patents

Description

The invention relates to computing technology and can be used in the development of a device for the mathematical processing of frequency sensor signals. The frequency-pulse function converter 1 is known. This converter is difficult to configure, especially when processing non-uniform pulse-frequency signals. The closest in technical essence to the present invention is a pulse-frequency. Functional converter 2, which contains subtraction blocks, multiplication blocks and adder, the first input is i-ro (, ..., N, where N is the number of reference frequencies) of the subtraction block is the input of the i-th reference frequency of the converter, and the output of the i-ro of the subtraction unit is connected to the i-th input of the totalizer, the output of which is the output of the device, through the appropriate multiplication unit. A disadvantage of the known device is the complexity of its implementation and adjustment, caused by the large number of blocks (subtracting, multipliers, and reference-frequency oscillators) necessary for the realization of the piecewise-linear approximating function. This is especially true for the reproduction requirements of a given function, with high accuracy. The purpose of the invention; is a simplification of the device. The goal is achieved by the fact that the device containing the subtracting blocks, multiplying blocks and an adder, the first input i-ro (, ..., N, where N is the number of reference frequencies) of the subtracting unit is input 1-6 of the reference frequency of the converter and the output of the i-ro block of the subtraction is connected via the corresponding multiplication block to the i-th input of the adder, the output of which is the output of the device, entered a shift register with feedback and an element AND whose output is connected to the second input of each block in the read, with the first input element And It is connected to the input of the device and the input of the shift register with feedback, and the remaining inputs of the AND element are connected to the outputs of the shift register with feedback. The block diagram of the device is shown in the drawing.

Claims (1)

Claim ........ Where w is the number of inputs of the element And 2. ......... The condition for the appearance of one pulse at the output of the i-ro of the subtraction block 3 for the period T _{oi of the} reference signal F _o ; is the absence of pulses of the signal F at the second input of the last one, - - ^{s is the} average frequency F _y , of the output i-ro unit of subtraction of the device signal F = F P (FROM ·) St SI ⁴ '04' (2) where P (o T _o5 ) is the probability of the absence of signal pulses F _s for the period T _{o of the} reference frequency F _o ; ^F vi ^{= F} o <) (3) 04 times 4 times the frequency coefficients k / y. at the output of adder 5, an approximating function is obtained N. F, K _? Blocks you, F ,,; on you K A pulse-frequency functional converter containing subtractions, multiplication blocks, and a mathor, the first input i-ro (i = l, ..., N, where N is the number ^ ζ TsNIIIPI The circulation of 751 reference frequencies) of the block, subtraction is the input of the i-th reference frequency of the converter, and the output of the i-ro of the subtraction block through the corresponding multiplication block is connected to the i-th input of the adder, the output of which is the output of the device, characterized in that, with In order to simplify the device, 'it additionally' contains a feedback shift register and an AND element, the output of which is connected to the second input of each subtraction unit. The first input of the AND element is connected to the input of the device and the input of the shift register with feedback, and the rest of the inputs element And are connected to the outputs of the shift register with feedback.