SU1238059A1 - Device for calculating values of trigonometric and hyperbolic functions - Google Patents

Abstract

The invention relates to computing and is intended to process information represented by a number-pulse code. The purpose of the invention is to simplify the device. The device is capable of calculating the functions sin X, ops X, sh X, oh Kf sec to cosec x sech y.t cosech x The device contains four counters, six groups of elements and, ten OR elements, four delay elements and a synchronization unit. The simplification of the device is achieved due to the fact that the fifth counter is excluded from its composition and the links to the goletz are changed by individual blocks. 1 ilp with (L ISD 00 00 ate with

Description

The invention relates to computing and is intended for the functional processing of pulse-count information.

The purpose of the invention is to simplify the device.

The drawing shows the block diagram of the device

The device contains a summing counter 1, a subtracting counter 2, reversible counters 3 and 4, groups 5-10 of elements AND, elements OR 11-20, elements 21-24 of delay and synchronization unit 25.

Pulsed-potential elements I are used as elements of AND groups 5-10. The device counters are binary t-bits and have a conversion factor of N.

A device for calculating trigonometric and hyperbolic functions. Works as follows,

In the initial state, the triggers of counter i, subtractive counter 2, and reversible counters 3 and 4 are set to the zero state,.

Mode I. In this mode, in the initial state, the reversible counter 3 is set to the Subtraction mode, and the reversible counter 4 is set to the Addition mode. Frequency pulses f are received at the input of the device, which is the first time of the synchronization unit 25. These pulses pass through the OR element 17 and arrive at the input of counter 1. After receiving n pulses of frequency f and the input of counter 1 in time.

tn

P

a pulse from the discharge output of counter 1 passes the input to the synchronization unit 25, so that, before the block 25 (n + 1) -th frequency pulse arrives at the input, signals from the first, second, third, fourth outputs of block 25 to the counter 1, the subtracting counter 2 and the reversible counters 3 and 4, respectively, are entered by the codes of numbers W (tJ, N (t), Nj {tJ and N (tJ, as well as the output of the reference frequency of the unit 25 and the input frequency pulses fg, starting with (n + 1 ) The -th one passes to the input of the element OR 20, and from its output passes to the input of the reversible counter 4.

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Thus, the following values are formed in the counters:

N ,, (t.) And sh

ten

Njt) N cosech Nj (t) N sech I

N, (t) A oh,

where X.,: N, (tj A sh (2.), n. {tj N cosech (/ A), N, (t)

 T |

 N sechf.YA) and,) A ch (/ D

Mode II. In this mode, in the initial state, the reversible counter 3 is set to the Summation mode, and the reversible counter 4 is set to the Subtraction mode.

The input pulses of frequency f, go through the element OR 17 at the input of counter 1, After the device arrives at the device input, and hence at the counter 1 of the counter Hp frequency f pulses, the pulse from the discharge output of counter 1 goes to the input of block 25, as a result before the device (p + 1) pulse arrives at the frequency f, signals from the first, second, third, fourth outputs of block 25 to counter 1, subtractive counter 2 and reversible counters 3 and 4, the codes of numbers N, (t), Nj (t), Nj (tJ and N (t), as well as the output of the reference frequency of the block 25 and the pulse s input frequency f, starting from the (n + 1) -th pass through Hilti element 20 and are input to down counter 4,

Thus, the following values are formed in the counters

where x, NjtJ (D), NjtJ A cosec D), N (tJ

 A sec

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MIs of the fourth OR element, the outputs of the AND elements of the fourth and fifth groups are connected to the inputs of the fifth and sixth OR elements, respectively, whose outputs are connected respectively to the input of the second delay element and the first input of the seventh OR element, the second input and output of which are connected with exit

A device for calculating a trigon delay element and a countable metric and hyperbolic function-input of the first reversible counter, tions, containing two reversible counts — outputs of the AND elements of the third group with (UA).)

Claims (1)

Invention Formula tick, summing counter, subtracting counter, six groups of elements are united with the inputs of the eighth element OR, characterized by 20 thirty And, eight OR elements, two elements that, in order to simplify the device, that delay and synchronization unit, the outputs of the digits of the summing counter are connected to the first inputs of the corresponding elements And from the first to the third group, the outputs of the bits of the counting counter are connected to the second inputs corresponding elements And the first and second groups, the outputs of the elements And the first and second groups are connected to the inputs of the first and second elements, respectively, the outputs of which are connected respectively to the first input of the third element OR and the input of the first delay element, the output of which is connected to the second input of the third element OR, the output of which is connected to the counting input of the detracting counter, the installation input of which is connected to the first output of the installation impulse 35 of the synchronization unit, the second output of the installation impulses of which is connected to the installation input of the first reversing the counter, the outputs of the bits of which are connected to the first inputs of the corresponding elements of the fourth and fifth rpyiin, the second inputs of which are connected to the outputs of the corresponding times the rows of the second reversible counter and the first inputs of the corresponding elements AND of the sixth group, the outputs of which are connected to the input contains the ninth and tenth OR elements and the third and fourth delay elements, the output of the eighth OR element being connected through the third delay element to the first input In the OR element, the output and the second input of which are connected respectively to the counting input of a summing counter and the output of a continuous series of the synchronization unit, the third and fourth outputs of the setting pulses are connected to with the installation inputs of the summing and second reversing counters, respectively, the net input of the second reversing counter is connected to the output of the tenth OR element, the first and second inputs of which are connected respectively to the outputs of the continuous series of the synchronization unit and the output of the fourth delay element, input which is connected to the output of the fourth element OR, the second inputs of the elements AND of the third and sixth groups are connected to the outputs of the bits of the first reversible and subtractive counters, respectively, the output of the 1st digit of the total sche present snip where n i (n - Bathing fixed number of pulses received on the input for generating initial values) is connected to the start input of a sync block. 40 45 are united with the inputs of the eighth element OR, characterized by that, in order to simplify the device, it contains the ninth and tenth OR elements and the third and fourth delay elements, and the output of the eighth OR element is connected via the third delay element to the first input of the ninth OR element, the output and second input of which are connected respectively to the counting input of the summing counter and the continuous series output the synchronization unit, the third and fourth outputs of the setting pulses of which are connected to the installation inputs of the summing and second reversing counters, respectively, the counting input of the second reversing account snip connected to the output of the tenth OR gate, the first and second inputs connected respectively to the outputs of n sync block output of the fourth element of the continuous series. delays, the input of which is connected to the output of the fourth OR element, the second inputs of the AND elements of the third and sixth groups are connected to the outputs of the bits of the first reversible and subtractive counters, respectively, the output of the 1st bit of the summing counter, where i p (n is a fixed number of pulses, received at the input to form the initial values), is connected to the start input of the synchronization unit.