SU1167509A1 - Method of manufacturing voltage divider - Google Patents

Abstract

A METHOD FOR MAKING A VOLTAGE DIVIDER based on choosing a system of electrodes, fixing them relative to each other, filling the interelectrode space with a homogeneous resistive element ensuring the combination of equal potentials of individual sections of the resistive element and the potentials of the electric field between the electrodes, characterized by the fact that simplify the manufacturing technology and increase the stability of the division factor; an electrically conductive substance is used as a radiation element. o, characterized by a final solid phase resistive composition.

Description

05 Sl

Fig. 1 The invention relates to electrical measuring equipment and is intended for use in measuring voltages of alternating and pulsed currents, including over 1 kV. The aim of the invention is to simplify the technology of producing a voltage divider and to increase the stability of the division factor. FIG. Figure 1 shows a voltage divider manufactured according to the proposed method, a general view and an electrical circuit for testing it; in fig. 2 - frequency response of the division factor. Fig. 1 shows electrodes 1 and 2 and a uniform resistive element (in the solid phase) 3, located in a grounded electrostatic screen 4, a low-voltage resistor 5 connected between electrode 2 and a zero potential bus, a correction capacitor 6 and a voltmeter connected in parallel to the resistor 5, the source 8 of the measured voltage, connected between the electrode 1 and the zero potential bus, a voltmeter-9, connected in parallel to the source 8 "When implementing the proposed method, the screen 4 with the system of electrodes 1 and 2 is filled Blended to a homogeneous state by resistive compositions containing soot, epoxy varnish EF-537 and alkylphosphonic acid as a hardener in the following ways: 6.3 g of carbon black; 68 g of lacquer EF-537; 1.6 g hardener; 6.3 g of carbon black; ; 6j8 g varnish EF-537; 3.2 g hardener; 6.3 g of carbon black; 68 g of lacquer EF-537; 5.0 g of hardener After the solid phase of the resistive element 3 forms, due to its homogeneity, the potentials of the electric field between electrodes 1 and 2 spatially coincide with equal NM by the value of the potentials of the resistive element 3 at all points in the interelectrode space, i.e. This voltage divider is non-distractable (named for each resistive composition, it is possible to experimentally select such a single capacitance capacitance value 6, in which the normalized frequency characteristic of the division factor / & is directly forward (FIG. 2). The proposed method allows To expand the circle of resistive elements that can be used to make a voltage divider by using the best known homogeneous conductive compositions (substances) in the solid phase. The technology of making the divider is simplified, since in this case there is no need to make the screen 4 hermetic. The design of the device is durable, and the resistive element 3 and the whole divider are generally stable in metrological characteristics.In experimental tests it was found that in the frequency range 20-45 kHz the relative change the division ratio of the voltage divider with the homogeneous resistive element 3 in the solid phase does not exceed + 0.5% for 8 hours,

Claims (1)

METHOD FOR PRODUCING A VOLTAGE DIVIDER, based on the choice of the electrode system, fixing them relative to each other, filling the interelectrode space with a homogeneous resistive element, ensuring the combination of equal potentials of individual sections of the resistive element and electric field potentials between the electrodes, characterized in that, for the purpose of simplification of manufacturing technology and increase the stability of the division coefficient, an electrically conductive substance is used as a resistive element, solid phase by a finite resistive composition.