SU404096A1 - FUNCTIONAL TRANSFORMER - Google Patents

Description

one

The invention relates to hybrid computing and can be used in simulating automatic control systems.

The known diode universal converters of one variable are characterized by low accuracy of reproduction of functions.

The proposed converter for improving the accuracy of conversion contains a block of highlight bits and transfer blocks to high bits, the inputs of which are connected via keys to controllable resistor matrices and the output of the highlight discharge block, and the outputs of each transfer block to high bits are connected to the inputs the previous and the next, its summation, of their amplifiers, the outputs of which, starting with a number greater than the number of bits of the input variable, are connected to the inputs of the high-order allocation unit.

The drawing shows a diagram of a device for converting a third-rate variable.

 The device consists of controlled resistor arrays 1–9, summed, their amplifiers 10–14 with resistors in feedback, transfer blocks 15–18 to the high-order bit, keys 19–26, and block 27 of the high-order allocation.

The function intended for the subsequent machine implementation is approximated in a piecewise linear fashion, so that the fracture points have one coordinate each, which have integers in the high order, and zeros in the other bits. We call this coordinate control, it. For the convenience of the next review of the operation of the device, let the manager control your coordinator

is the output lgs value, which is of importance at the fracture points.

xl xim, 4 l} 00

at the corresponding points of another Xi coordinate,

.,. . yl yl, l. yll - vpm vll

 - 13 -

As a result of the approximation, we have the coefficients of the slope of the straight line along the k axis.

KI KuK tKiZ Aa KtiKttKt,

KS

and the displacement of the two straight lines along the x axis.

v.1P - vlIIvIIIj-HI

v-IV - v-IVi-IVi-IV

H, j - ls l H, j3,

Aj - ll, l., The indicated numbers in the machine correspond to stress vectors, and, and. {-and; cf - K,: Vyy ,; l / -1, - UUUg 3.00; - f / i C} 00 The device operates as follows. In the initial state, the keys 19-26 are closed, while the vector of the input voltages and, and, and, and, and,, is fed to the input. The conductivities of the resistor matrices 1, 4, and 7 are set proportionally to the slope of the curve in the first section / Ci 1 - Ap 4 ATia 7 / C, 3 The circuit in this case works like a regular device to multiply the variable x by a constant factor. When the variable l reaches the device output value Xz-l: 100, which corresponds to the output of the voltage vector t / s 00 at the output of the circuit, the keys 19, 21, 23 and 25 are opened. At the same time, the matrices 2 are connected to the resistor arrays, 5 and 8. The conductivities of the matrices 2, 5 and 8 are chosen so that, 7 + 8- / Саз. In this case, the circuit moves to the second section of the approximating curve with the slope / Сз coefficient and displacement along the x axis by xi. When the voltage vector at the output of the circuit of the vector corresponding to the second break point xs d exceeds; the circuit 100 moves to the third section with the slope coefficient Kz and the displacement Xi equal to xi due to the connection of the vector of bias voltages, vyy. keys 22, 24 and 26 and resistor matrices 1, 6 and 9, chosen so that 14-2 + 3 Лз1, 4 + 5- | -6 / (з2, / Сзз, which are connected by keys 20 and so on. So The control signal is removed from the output of the high-order allocation block 27. Subject of the Invention A functional converter containing summing amplifiers with controlled resistor arrays connected to their inputs, characterized in that , in order to increase the accuracy of the conversion, it contains an allocation block of st The higher bit and the transfer blocks to the high bit, whose inputs are connected via keys to controllable resistor arrays and the output of the highlight selection block, and the outputs of each transfer block to the high bit are connected to the inputs of the previous and subsequent summing amplifiers. which, starting with a number greater than the number of bits of the input variable, are connected to the inputs of the high-order selection block.