SU628481A2 - Digital function generator - Google Patents

Description

Iaoborovets ognosigs for automation, computing and electrical measuring techniques and, in particular, is intended for use in radioisotope coating thickness gauges.

Known digital functional converter auth. St. No. 514285 ij which allows reproducing functions containing extremes.

However, during the formation of extrema, there is no possibility of choosing an approximating direct parallel parallel to the coordinate axis, which in most cases it is not enough to form an extremum.

The purpose of a digital functional design is to increase the efficiency of formulated extremums.

This is achieved by introducing an additional controllable frequency divider, an additional switch, an additional trigger, and two additional AND elements into the proposed digital functional converter, and the control inputs from the additional frequency divider through the additional

the switch is connected to the outputs of the extreme points setting switches, the OUTPUT of the additional controlled frequency dividers is connected to the zero input of an additional trigger, the unit INPUT of which is connected to the input of the sign trigger, the unit output of the additional trigger is connected to the first input of the first additional element AND the controlled frequency divider and the first INPUT of the second element I, the second input of which is connected to the zero output of the additional trigger, the output of the first An additional AND element is connected to the input of an additional controlled frequency divider, and the output of the second additional AND element is connected to a counter INPUT of a reversible counter, groups. On the OUTPUTS of the second decryptor of the torus, it is connected to the inlet group of the INPUTS of the pacti block.

Claims (1)

The functional diagram describing the digital functional transform (simple & l is shown in the drawing. 36 The digital functional converter contains at its input 1 a controlled frequency healer 2, a reversible counter 3, whose bits through the first decoder 4, switches 5 to set the inflection points and the group elements AND 6 connectors with the inputs of the first element OR 7, the output of KOTopoix) is connected to the input of the memory block 8, the outputs of which bits are connected to the control inputs of the controlled frequency divider 2, the second decoder 9, the output the converter Yu, the outputs of the second decoder 9 are also connected to the second inputs of the element group AND 6 and through the switches for setting the extremum points 11 of the other with the inputs of the second element OR 12, the output of which through the trigger of the sign 13 is reversed by the reverse counter 2 and the nut contains an additional controlled frequency divider 14, the control input of which is connected via an additional gel switch 15 to the outputs of the switches for setting the points SKCTpetjijMOB 11, and the output is connected to the second input of the additional ™ trigger 16, the first input of which is connected to the trigger input of sign 13, trigger output 16 is connected to the first input of the first additional element 17, and the inverse output is connected to the first input of the second additional element 18, the second inputs of which are combined; 18 through this input is included Memziy controlled frequency divider 2 and the counting input of the reversible counter 3, and the output element And 17 is connected to the input of an additional controlled frequency divider 14. Digital function converter b works as follows. Before starting work on the reset circuit, which is not shown in the drawing, all the triggers and counters are set to zero. The input pulses from input 1 are fed to a controlled frequency divider 2, where they are recalculated by the coefficient Kj and the reversible counter 3 is fed through the element 18 and up until the number corresponding to the first inflection point of the approximating directors is written. this is the first output of the switches 5 through the VITS signal unit, which through the first one from the group of elements AND 6 and the element OR 7 is fed to block 8. The latter goes from zero to one state and through the decoder 9 1 and block 8 changes the conversion factor .1 dependent frequency divider 2 from K, to K, 1 to Kg, and so on, a linear piecewise approximation of the functional dependence occurs. When the first extremum zigzscheni reaches the block 8 moves to the next position and through the switches 11 and the element OR 12 switches the trigger 13, which reverses the reversible counter 3. At the same time, an additional trigger 16, which closes the element And 18, is stopped, thereby stopping the flow of pulses from the output of a controlled frequency divider 2 to a reversible counter and opens element I 17, connected to the output of a controlled frequency divider 2, an auxiliary controlled frequency suppressor 14, the transducer factor the recalculation of which corresponds to the required at a given extremum is set by the help of switch 15. When the additional controlled frequency divider 14 is filled, the signal from its output translates the additional trigger 16 to the zero state. At the same time, the element And 17 K is closed. The element And 18 opens, i.e., further, the digital functional converter continues the approximation of the functional dependence with the established control conversion factor2 to the next point of the split divider, etc. The proposed digital functional converter allows one to choose for each of each extreme the required section of the approximating straight line parallel to the coordinate axis, which allows more precisely to form the extremes of a complex functional dependence. Invention Digital Functional Converter according to the author. St. N 514285, characterized in that, in order to increase the accuracy of extremum formation, an additional controlled frequency divider, an additional switch, an additional trigger and two additional AND elements are introduced into it, and the control inputs of the additional controlled frequency splitter are connected through an additional switch with the outputs of the installation of switches of points of extrema, the output of an additional controlled frequency splitter soypipep with a zero input of the optional FIELD TRIGGER, whose single input is connected to BX1 562 of the sign trigger, the unit output of the additional tripper is connected to the first input of the first additional element And, the second input of which is connected to the output of the controlled frequency divider and the first input of the second element And, the second input of which is connected to the zero output of the additional trigger, the output of the first additional And is connected to the input of an additional controllable frequency divider, and the output of the second optional1X element is connected to the counting input of a reversible counter, the group of outputs of the second the decoder is connected to the second group of inputs of the memory block. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 514285, cl. Q 06 F 1 / O2, 14.O7.75. W