SU430385A1 - THE MULTIPLICATIVE ELECTROMECHANICAL DEVICE - Google Patents

Description

one

This invention relates to analog computing.

Replicating-dividing electromechanical devices are known, which contain two magnetically insulated U-shaped magnetonowoods with input field windings associated with displacement sources, a measuring winding that has expanded the base of the first U-shaped magnetic circuit, and a Hall sensor installed in a gap made along the entire base length. a second I-shaped magnetowire, alternating and direct current sources and switches.

The proposed device is characterized in that in it a direct current source is connected to the input excitation winding of the second U-shaped magnetic recorder, the excitation input winding of the first U-shaped magnetic conductor is connected to the fixed contacts of the first switch, one fixed contact of this switch is connected to a non-active current source , and another of the non-moving contacts - with the first pair of gene () dvnzh1-: kyh kongaktog; iviopoio switch, a pair of unpowered1 contacts are connected to the measuring winding, the moving coitacts of the second switch are connected to the current terminals of the Hall sensor, and the output terminals of the sensor are connected to the output device.

This allows you to extend the range of input signals and increase the reliability of the device.

Diagram of the device shown in the drawing. The device contains magnetically insulated U-shaped magnetic cores / and 2, input windings 3 and 4 of excitation, measuring winding 5, Hall sensor 6, AC source, DC source 8 and switches 9 and 10.

The device works as follows.

When current terminals of the Hall sensor 6 are connected to the input winding 3 of the excitation of the magpit line 1, the output voltage is proportional to the quotient of the division of two movements - input windings 3 and 4. Excitation current /: that is applied to the input winding 3 of the excitation is defined as

and

20

/,

x, L

where is ianr-gei, but on the winding 25 is extruded;

wl is the number of turns of obsm) exci tcn, L is the inductance.

When moving the input winding 3 of the excitation and the value of Xi, the inductance changes from 30 in proportion to the displacement

L W 2 gx

Moving the same input winding 4 excitation by the value of Xz with the number of turns of the excitation W2 causes a change in the flow penetrating the Hall sensor, and hence the change in induction

h igxz B, .s

JOCH

Ed with. the output of the Hall sensor is determined from an expression that takes into account the movement of the input windings 3 and 4 of the excitation,

hw2gUHg

E, kB, / 1 feX,

 axes

about with

X2

get E,. -. /

k

SocH W 3

Xi

When current clamps are connected, the Hall sensors to the measuring winding 5 of the magnetic conductor 1 output voltage is proportional to the product of two movements of the input windings to 3 excitations, namely

 .

Thus, the device performs the operation of dividing or multiplying two displacements.

Subject invention

A multiplier-separating electromechanical device containing two magnetically insulated U-shaped magnetic conductors with an input winding of the measuring winding located on the base of the first U-shaped magnetic circuit, and a Hall sensor installed in the gap made but the entire length of the base of the second U-shaped magnetic core, sources AC and DC current and switches, characterized in that, in order to broaden the range of variation of input signals and increase reliability, in it a constant source This current is connected to the input winding of the second U-shaped magnetic circuit, the input winding of the first U-shaped magnetic circuit is connected to the fixed contacts of the first switch, one pair of fixed contacts of which is connected to the AC source, and the other fixed contacts are connected to the first pair the fixed contacts of the second switch, the second pair of fixed contacts. Which is connected to the measuring winding, and the movable contacts of the second switch are connected to Hall sensor current clips, output clips

which is connected to the output device.