SU1536405A1 - Diode function generator - Google Patents

Abstract

The invention relates to analog computing and can be used in analog multiplicating and dividing units. The aim of the invention is to improve the accuracy of the converter. The diode function converter contains the first 1 and second 2 operational amplifiers, the first 3 and second 4 large-scale resistors, N resistor voltage dividers, made on large-scale resistors 5 ₁₁ - 5 _1N , 5 ₂₁ - 5 _2N , first N switching diodes 7 ₁ - 7 _N , third 8, fourth 9, fifth 10, sixth 11 and seventh 12 scale resistors. This goal is achieved by introducing a second operational amplifier and four large-scale resistors into the converter, as well as new connections between the components. 1 il.

Description

ate

with about

four

ABOUT

ate

f

The invention relates to analog computing and can be used in analog multiplicating and dividing units.

The aim of the invention is to improve the accuracy of the converter.

The drawing shows a diagram of a diode function converter.

The diode function converter contains the first 1 and second 2 operational amplifiers (OA), the first 3 and the second U scale resistors, n resistor voltage dividers, made on the scale resistors 5 |, - 5, n, 52l-52l, the first group of n commuting diodes 6, - 6 ", the second group of n commuting diodes 7, - 1p, third 8, fourth 9, fifth 10, sixth 11 and seventh 12 large-scale resistors, connected according to the above scheme.

Diode functional converter operates as follows.

From the source U in using the scale resistor 8 (R3), the mode is set so that, x -Uon / 3, which corresponds to approximately 1/3 of the linear zone of the op-amp. At the output of the op-amp 2, the output voltage is set to -2/3 Uon, equal in magnitude to the sum of Uin and U6bix (provided that the resistances R, R g R4 Rj of the resistors 3, 9, 4 and 1U resistors are equal). In this case, all diodes 6 and 7 are in the closed state. When the input voltage increases before opening the diode 6 or when it decreases before opening the diode 7, the output voltage of the OU 2 remains unchanged, and the increments of the voltages willows) (and U8kl are equal in magnitude and inverse to the sign.

An increase in U in, followed by the opening of diodes b6a ... 6l, leads to a successive increase in the transmission coefficient of opamp 2, which will result in an increasing increase in the slope of the output voltage (in absolute value), which will inversely proportional reducing the slope of the output voltage variation. Conversely, when the input voltage decreases with the successive opening of the diodes

71,7J ... 7n there is a consistent increase in the transmission coefficient of the OS 2 ,. the consequence of which will be an increasing increase in the slope of the change in its output voltage, which will entail a corresponding increase in the slope of the change in the output voltage of the operational amplifier I.

Claims (1)

Invention Formula A diode function converter containing a first operational amplifier, the inverting input of which is connected via the first and second scale resistors respectively to the input of the converter and to the output of the operational amplifier, which is the output of the converter, variable voltage dividers, the first external outputs of which are combined, and the second external the terminals are connected to the bus of the reference voltage, n commuting diodes of the first group, connected by the first terminals to the input of the converter, and the second terminals - to the average terminals of the respective n resistor voltage dividers, the first terminals n of the switching diodes of the second group are combined and connected to the output of the first operational amplifier, characterized in that In order to improve accuracy, a second operational amplifier and the third, fourth, fifth, sixth and seventh scaling resistors are introduced into it, the third and fourth of which are connected between the output of the second operational amplifier and the inverting inputs of the first and second operational amplifiers, the inverting input of the second op-amp connected through the seventh large-scale resistor to the reference voltage bus and with the combined first external pins of the resistor voltage dividers, the average outputs of which connected to the second terminals of the corresponding n switching diodes of the second group, the non-inverting inputs of the first and second operational amplifiers are connected respectively to the fifth and sixth large-scale re Zistors to zero potential bus.