RU94012519A - Device for testing high-voltage potential transformers - Google Patents

Abstract

FIELD: electric measurement technology; testing high-voltage potential transformers. SUBSTANCE: device for testing potential transformers has capacitive voltage divider in the form of measuring circuit set up of capacitors series-connected through coaxial connectors, each capacitor being provided with two working electrodes in the form of shells of different height mounted on capacitor case and electrically connected to capacitor leads so that first of them is arranged around one of capacitoir leads and plates and other sleeve is around other capacitor lead, and also it has two pairs of shielding electrodes in the form of shells of different height arranged around working electrodes of capacitor and isolated from each other and from working electrodes by means of insulators; ends of working and shielding electrodes are separated by means of insulating ring. Device also has two equipotential shielding circuits of which the first is set up of capacitors series-connected through coaxial connectors, each provided with two working and two shielding electrodes similar in design to those of measuring circuit, each capacitor of first shielding circuit being connected to first pairs of measuring-circuit shielding electrodes so that shielding and working electrodes are placed at equal potentials. Second shielding circuit is built up of series-connected capacitors with trimming capacitors connected in parallel to them; each capacitor of second shielding circuit is connected to second pairs of measuring-circuit shielding electrodes and to shielding electrodes of first shielding circuit so that working and shielding electrodes are placed at equal potentials. Null-indicator with high input resistance is used to determine equality of potentials across working and shielding circuits; null-indicator input is connected during device verification in turn to all capacitors of measuring and second shielding circuits and its case, to respective capacitors of first shielding circuit; capacitors of second shielding circuit are selected by means of trimming capacitors considering the effect of stray capacitance on ground so that balance null-indicator reads zero. EFFECT: improved accuracy in measuring transformation ratio of instrument transformers due to metrological verification of device on site of operation by using two independent methods; step-by-step shorting-out of part of divider capacitors and off-line testing.

Claims (1)

The invention relates to electrical engineering and is intended for calibration of high voltage measuring voltage transformers. The device allows to increase the accuracy of measuring the transformation coefficient of measuring transformers due to its metrological certification at the site of operation by two fundamentally independent methods from each other - stepwise shorting of part of the divider’s capacitors and autonomous verification. To solve this problem, in the device for checking transformers, the capacitive voltage divider is made in the form of a measuring circuit, which consists of capacitors connected in series through coaxial connectors, each of which is equipped with two working electrodes in the form of glasses of different heights, which are mounted on the capacitor housing and are electrically connected to the capacitor leads so that the first one covers one of the terminals and the capacitor plates, and the second - the capacitor terminal, and two pairs of screen electrodes in ide glasses of varying heights, which cover the working electrode of the capacitor and separated from each other and from the working electrode by means of insulators, and the ends of the working and display electrodes are separated from an insulating material ring. The device also contains two shielding equipotential circuits, the first of which consists of capacitors connected in series through coaxial connectors, each of which is equipped with two working and two screen electrodes, which are made similar to the working and screen electrodes of the measuring circuit. Each capacitor of the first screening circuit is connected to the first pairs of screen electrodes of the measuring circuit so that the potentials of the working and screen electrodes are the same. The second shielding circuit consists of series-connected capacitors, in which trimming capacitors are connected, each capacitor of the second shielding circuit is connected to the second pairs of screen electrodes of the measuring circuit and to the screen electrodes of the first screen circuit so that the potentials of the working and shield electrodes are the same. To determine the equality of potentials in the measuring and shielding circuits, a zero indicator with a large input impedance was used, the input of which during metrological certification of the device is alternately connected to all capacitors of the measuring and second shielding circuits, and the indicator housing is connected to the corresponding capacitors of the first shielding circuit, the capacitors of the second shielding circuit at the help of tuning capacitors are selected taking into account the influence of stray capacitance on the ground so that a zero equilibrium indicator is shown zero shaft.