SU436365A1 - FUNCTIONAL TRANSFORMER OF TWO VARIABLES - Google Patents

Description

one

The invention relates to analog computing devices and can be used in electrical converters for computerized systems, automatic control systems and control systems, computers, etc.

Functional converters are known for reproducing functions of two variables, containing voltage dividers of n series-connected resistors, the inputs of which are connected to the converter inputs, and the outputs are connected to the output of the converter, n-1 diode-resistive circuits consisting of a diode with a series-connected resistor each and operational amplifiers.

The disadvantage of such converters is the complexity of their change due to the use of operational amplifiers and a large number of elements.

In the proposed two variable transducer, in order to simplify the structure, each diode-resistive circuit is connected between the common point f-t and (t + l) -iro (, 2, ..., n) of the resistors of the first voltage divider, calculated from its input, and common point t-ro and (t + l) -ro resistors of the second voltage divider, counting from its output.

Principles of the converter circuit are shown in the drawing.

It contains two voltage dividers made of series-connected resistors li-U and whose inputs are connected to the first 3 and second 4 inputs of the converter, and the outputs are connected to the output 5 of the converter. Between the common points of the voltage divider are included diode-resistor circuits, consisting of diodes 6i-6n-i and scale resistors 7i-7 „1.

The operation of the converter is carried out as follows.

The inputs to the inputs of the converter are supplied to voltage dividers. With equal voltages at the inputs, all the diode-resistor circuits do not conduct current, since the diodes are locked. As far as

the voltages at one input, the voltages at the other, the diodes begin to open. For example, if the voltage at input 3 becomes less than the voltage at input 4, the voltage at the junction of resistors b and b becomes equal, and then less than the voltage at the junction of resistors 22 and 2h. In this case, the diode bg opens and the resistor circuit 72 and the diode 62 begins to pass current. This current splits and partially flows to

device output through resistors 2i and 22. In

As a result of shunting on input from input 4, the transitional conductivity of input 3 to output from this point decreases. At the same time, on the input 4, the redistribution of currents increases the transverse conduction. With a further decrease in the "alrvni on input 3 relative to the voltage: on the input 4, the 6z-7z diode-resistive circuit opens in the same way, and then the next ones. In this case, respectively, there is an even greater decrease in transient conductivity at input 3 to OUTPUT and an increase in conductivity at input 4. The same, but in opposite circuits, occurs when the voltage at input 3 exceeds the voltage at input 4.

Characteristically, the transfer coefficients over the inputs depend only on the ratio of the input voltages and do not depend on their absolute value. Such a device can form any nonlinear transfer function of two variables that turns linear when proportional

replacing one of the other variables, for example, the function.

f (X, Y) - 1 / -f Y.

Subject invention

Functional converter of two variables, containing two voltage dividers from a series of series-connected resistors each, whose inputs are connected to the first and second inputs of the converter, respectively, and the outputs are connected to the output of the converter, and n-1 diode-resistive circuits consisting of a diode a series-connected scale resistor each, characterized in that, in order to simplify the structure, each diode-resistive circuit is included in it

between the common point i-ro and (t + l) -ro (, 2, ..., e) resistors of the first voltage divider, calculated from its input, and the common point i-TO and (f + l) -ro of the resistors of the second voltage divider, counting from its output.

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