SU1167534A1 - Conductance measure - Google Patents

Abstract

1. THE CONDUCTIVITY MEASURE, containing the case, resistors and a differential capacitor with the first and second rotor electrodes fixed on the dielectric axis, and the first and second stator electrodes, the rotor electrodes being located between the stator electrodes, in order to increase the accuracy of reproduction of the conductivity value; a third stator electrode located coaxially with the first and second stator electrodes is additionally introduced into the differential capacitor; orpusom and the first stator electrode, and between the housing and the second stator electrode, a rotor electrode disposed on an axis rotated by 180 relative to each other. l from 05 sl cl from 4

Description

2. A measure of conductivity according to claim 1, characterized in that the rotor electrodes are made the same, flat in shape, and their end surfaces are a junction of four circles with three diameters, and the small and large circles are drawn from the center of the rotor axis

electrodes and are interconnected by two circles, the centers of which are located on the diameter of the larger circle symmetrically with respect to its center, while the diameters of two circles are equal to the sum of the radii of the small and large circles.

I

The invention relates to electrical measuring equipment and can be used in bridge and resonant measuring device circuits as an exemplary measure of conductivity in determining the electromagnetic parameters of materials and electrical circuits in the high frequency range.

The aim of the invention is to improve the accuracy of reproduction of the measure of conductivity.

FIG. 1 shows a measure of conductivity; in fig. 2 shows section A-A in FIG. one.

The measure of conductivity includes a housing 1, made in the form of a metal hollow cylinder, the first 2 and second 3 stator electrodes fixed coaxially on the side walls of the housing 1 by means of insulating supports. sleeves 4 and 5. In case 1, the position of the sleeves is fixed by pressure nuts 6 and 7. Inside the sleeves 4 5 between the backs of electrodes 2 and 3 and the ends of the nuts 6 and 7 resistors 8 and 9 are located, which through the collets have electrical contact electrodes 2 and 3 and housing 1 through nuts 6 and 7. Between electrodes 2 and 3, a third stator electrode 10 is coaxially and with a gap, mounted on an insulator between the walls of housing 1 and on

. potential electrode connector 11. Between the side walls of the housing 1

 axis 12 is connected, which interacts with a micrometric rotary device 13. Rotor electrodes -14 and 15 are rigidly fixed on axis 12 in plane 1 and parallel to the plane of arrangement of electrodes 2, 3

and 10 so that when they rotate, they alternately enter the gaps between the electrodes 2, 10 and 3, 10, respectively, and when they rotate by 5 units of angle, the same area of these electrodes comes in or out, which ensures the same size of the capacitance of the measure.

The conductivity measure works as follows.

When the micrometer device 13 rotates, axis 12 together with electrodes 14 and 15 alternately move in space between 15 DU electrodes 2, 10 and 3, 10 respectively. Maximum capacitance between electrodes 2, JC, between electrodes 3, 10 C. Conductivity G between electrodes 2, 10

20 of connector 11 is determined by the values of the resistance R of resistor 8 and capacitance C

p Ri W C2 1

one ,

and the conductivity G between the electrodes 3, 10 of the connector 11 is determined by the values of the resistance Rj of the resistor 9 and the capacitance Cj

g R, u.q

1 + R | m2-Cf

where Lo is the frequency of the flowing current.

The rotation of the rotor electrodes, the intermediate values of the conductivity of the measure are determined by the values of the capacitances C and C at the moment.

To change the range of conductance of the measure, it is possible to replace the resistors with others by unscrewing them. - nuts 6 and 7.

in the proposed construction, only the axial movement of the rotating device 13 of the rotor electrodes 14 and 15 between the electrodes 2, 10 and 3, 10 affects the values of the capacitances C and Cj, and other possible movements between the electrons

11675344

Trodes 2, 10, and 3, 10 have virtually no effect on capacitance values. As a consequence, the requirements for installing rotor electrodes relative to stator and parallelism of their axes are reduced, which improves the accuracy of reproduction of the conductivity of the measure.

Claims (2)

1. A CONDUCTIVITY MEASURE, comprising a housing, resistors, and a differential capacitor with first and second rotor electrodes mounted on a dielectric axis, and a first and second stator electrodes, the rotor electrodes being located between the stator electrodes, characterized in that, in order to increase the reproducibility of the magnitude conductivity, a third stator electrode is added to the differential capacitor, which is located coaxially with the first and second stator electrodes *, while the resistors are installed between the housing the first stator electrode, and between the housing and the second stator electrode, a rotor electrode disposed on an axis rotated by 180 relative to each other ^e. SU „„ 1167534 electrodes and are interconnected by two circles, the centers of which are located on the diameter of the larger circle symmetrically with 2. The conductivity measure according to claim 1, characterized in that the rotor electrodes are identical, flat in shape, and their end surfaces are a pair of four circles with three diameters, and the small and large circles are drawn from the center of the axis of the rotor of its center, this is the diameter of the two circles of the owls. equal to the sum of the radi