SU413502A1 - - Google Patents

Description

one

This invention relates to the field of computing.

A digital-to-analog functional converter contains an input register, one output of which is connected to the first input of the power source, another output to the second input of the code analyzer, voltage converter - a code whose output is connected to the second input of the adder, and the output of the adder - to the first input output register, keys, logical element OR, first converter code - voltage.

The proposed device differs from the known one in that it includes a reference voltage sensor, a code converter, a second code converter is a voltage, and a second matrix memory device. The input of the second memory device is connected to the input of the first matrix memory device, and the output is connected to the first input of the first converter code - voltage, its second input is connected to the reference voltage sensor, and the output of the first converter code - voltage to the first input of the second converter code - voltage, the second input of which is connected to the output of the “OR. The output of the second converter code - the voltage is connected to the input of the converter voltage-code, the outputs of the code analyzer - to the second input

output register and unrapl cmin key inputs, signal inputs of which are connected to the second output of the input register. The output of the nerve key is associated with the nerve input of the logical element OR, the second input of the latter through the code generator is connected with the output of the second key.

The drawing shows the schelga nifro-analog functional Converter.

It contains an input register 1, the outputs of the older bits of which are connected to the inputs of the first 2 and second 3 tabular storage devices and an analogue 4 code, and the outputs of the younger bits of the register 1-s

the code analyzer inputs and through keys 5 and b, the code converter 7 (direct to full), the element “OR 8 — with the inputs of converters 9 code — is nann ered. The output of the storage device 3 is connected to

one of the inputs of the converter 10 is a code voltage, the other input of this converter is connected to the sensor 11 of the reference voltage. The output of the converter 10 is connected to another input (reference voltage) of the converter 9, the output of the latter is connected to the input of the converter 12. Nairee is a code whose output is connected to one of the inputs of the adder 13. The other input of the key adder to the output of the tabular memory device

2, and the output of the adder - to the input of the output register 14, the sign input of which is connected with the sign output of the analyzer 4 code. The operation of a functional converter with positive values of the function of the derivative of the function, as well as with negative values of the function and its production function, can be described by the formula Y Up + Y or Op, 1) () Y II n + where g / is the value of the function, corresponding to the value of the argument Xp, r / ,, + 1 is the value of the function, corresponding to the value of the argument Xn + Xn-the value of the argument, expressed by the higher bits of the code; X is a complete reduction of the argument, expressed by the higher and lower bits of the code; w - interpolation step. t (x "-, 1 - x".) (2) Ziacheii Yn, Yn +,, zaisaiy in the tabular storage device 2, the values Yn + 1 - UE - in the tabular zaomineyamgem device 3, X - x-, 1 - value , expressed by the lower bits of the argument code; The interpolation step t is selected depending on the accuracy of the transducer. The operation of the functional converter with a positive value of the function and a negative value of the derivative of the function, as well as a negative value of the function and a positive value of the derivative function can be described with an analogous formula, and in order to eliminate the operation of subtracting from Yn - Dg /, (3) According to the formula g / - y «q + Dudop- (4) The increment of the function in this case is calculated by the formula. (Lm1-3nZh 1-l) The code value corresponding to Xn + i - x can be obtained by converting the direct code of the least significant bits of the argument to additional. The code of the most significant bits of the argument x from the input register falls on the input of the table storage device 2, and the last outputs the main code corresponding to the value of the pack or r / n + i function, which is replaced by one of the inputs of the adder 13. The value of the code Xn also passes To the input of the tabular memory device 3, which outputs the values of the functions IJn + l / p. The parallel function increment code sends to one of the inputs of the converter 10, to the other input a reference voltage is applied from the sensor 11 to the reference voltage. As a result, the voltage is chosen depending on the step and the alternation of m. At the output of the converter 10, a voltage is formed corresponding to the dependence Y, 11-1-G, which, as a reference, is fed to the input of the converter 9. Pa The other input of this converter gets the parallel code of the youngest The bits of the argument is x - Xn, my or additional. The younger bits code passes through the key 5 and the element "PLI 8 or the key 6, the converter 7 is a direct code into an additional, element" PLP 8. Pa output of the converter 9 are set to the voltage corresponding to the magnitude (UP, 1 UP} (x-- x ") t (Pack + 1 -Up) (Xp, 1 X) The control with keys 5 or 6 is carried out by the analyzer 4 codes, and the input of which receives the codes of the high and low bits of the argument from the input register 1. The voltage from the output of the converter 9 is given on the input of converter 12, where it is converted into a code of values of Dg / function, which is supplied to the sum p 13. The latter summarizes the overflow of the function corresponding to the code of the higher-order bits of the argument with the interpolation code, corresponding to it1, and the code of the lower-order bits of the argument. From the output of the adder 13, the overhead of the function enters the output register 14, which also includes the sign of the function with code analyzer. A function code is read from the output register. SUMMARY OF THE INVENTION A pyro-analogue functional converter containing an input register, one output of which is connected to the first input of the analyzer. code and through the first table storage device to the first input of the adder, another output of the input register is connected to the second input of the code analyzer, the converter voltage is the code whose output is connected to the second input of the adder, and the output of the adder is connected to the first input of the output register, keys, The logical element "IDU and the first converter code is a voltage, characterized in that, in order to increase the speed of the converter, a reference voltage sensor, a code converter, the second converter A coded voltage code and a second matrix memory; 1, its device, the input of which is connected to the input of the first matrix storage device, and the output and connection to the first input of the first converter, is a virile, the second

the input is connected to the reference voltage sensor, and the output of the first code converter is connected to the first input of the second converter, the code is the voltage, the second input of which is connected to the output of the logic element OR, and the output of the second converter is the voltage voltage code, code analyzer outputs are connected to the second input of the output register and to the control inputs of the keys, the signal 1 INPUTS of which are connected to the second output of the input register, the output of the first key is connected to the the input of the logic element “OR, the second input of which is connected to the output of the second key through the code converter.

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