SU1198548A1 - Passive function generator - Google Patents

Abstract

A PASSIVE FUNCTIONAL TRANSMITTER, containing an input current-providing resistor, diode-reinforced conductivity and an output scale resistor, the first output current-resistor input being the converter input, the second input of the current resistor input resistor is connected to the first output scaling resistor connected to the first output resistor input resistor, and the second input of the current resistor resistor is connected to the first output resistor input resistor, and the second input resistor resistor is connected to the first output resistor input resistor. to the zero potential bus, the second output of the scaling resistor is the first output of the converter, characterized by for the purpose of expanding the functional capabilities by forming multiple values with adjustable multiplier Mi, to the converter output scale introduced additional $ 6 resistors, first terminals of which are connected to a first output vgoodom scaling resistor, and the second terminals are sootvetstvuyupschmi output transducer. and CO 00 01 4 00

Description

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The invention relates to analog computing and can be used in hybrid circuits and models.

The purpose of the invention is the extension of functionality due to the formation of several values with variable factors.

The drawing shows a functional diagram of a passive functional converter.

The circuit contains the input of the I converter, the input current-carrying resistor 2, the diode-controlled conductivity 3, the output scale resistors 4 (A-4, and the outputs of the converter.

Passive functional converter works as follows.

Input 1 of the converter receives the voltage of the converted signal U, which is converted into an output current in accordance with the law of the diode-controlled

conductivity 3. i

Transducer loads must be amplifier stages whose inputs have zero potentials. Such cascades Owl -c transformer amplifier stages, - operational amplifiers, okhva8548

deep negative feedback.

The output converter is distributed between loads

5 connected to the outputs 5.-5 and

converter The current distribution of the converter between the loads in accordance with the given multipliers M, ..., M is carried out by

10 partitioning of outputs 5. -5 converters into K groups so that the total conductivities of the resistors in the groups have a relation to each other equal to

15 with respect to given multipliers m.,.

..., M,,: M,: M, ...

K-1 Output terminals 5 in each

group mean each other

and with the input of the corresponding load

20 converter.

A necessary condition for the normal functioning of a passive functional converter is the constancy of the total resistance of its load, regardless of the number of connected loads and given multipliers, in accordance with which current is distributed between loads. For this condition, all the free outputs of the converter must be connected directly to the zero potential bus.

Claims (1)

A PASSIVE FUNCTIONAL CONVERTER containing an input current-sensing resistor, diode-controlled conductivity and an output scale resistor, the first output of the input current-sensing resistor being the input of the converter, the second output of the input current-sensing resistor connected to the first output of the output scale resistor and connected to the zero bus potential, the second output of the output scale resistor is the first output of the Converter, characterized in that, in order asshireniya functionalities due to formation of multiple values with adjustable multipliers, introduced to the converter output scale ® additional resistors, first terminals of which are connected to a first terminal of the output resistor № scale, and the second terminals 1 ^ are the respective I converter outputs. 2 _ • f Sri-2 U —..... * —0. 5Nt kN 5N ..... I 1—  —0 I 1 1198548 2