SU1265622A1 - High-voltage divider - Google Patents

Abstract

The invention can be used in the study of high pulse voltage, especially with short pulse fronts. The purpose of the invention is to increase the division accuracy of the pulse voltage and reduce the influence of external fields. When applied to a voltage in a space filled with dielectric 6, an electric field arises. In this case, the potentials of each point of the circuit of the resistor 5 coincide with the potentials of the electric field in SL С o Od sd a 1C 1c

Description

corresponding points of space. The current flowing through the resistor circuit 5 is supplied to the “high voltage divider arm through a coaxial connector, exciting a traveling electromagnetic wave in the measuring high-frequency cable. The capacitive current, which is transmitted through the capacitances of electrodes 3 and 4 connected in series, is not connected to the output of the divider, and is closed at the low-voltage electrode 2 and then onto the common bus. The use of dielectric 6 reduces the capacitive effect of conductors external to the divider on the distribution of the electric field in the axial region. The measurement accuracy is achieved by reducing the shape distortions of the impulse voltage under study. 1 il.

Claims (1)

The invention relates to the technique of electrical measurements and can be used in the study of pulsed voltage, especially with short pulse fronts ... The purpose of the invention is to improve the accuracy of pulsed voltage dividing by ensuring that the potentials of each Divider's high-voltage shoulder resistor circuit coincide with the potential of each POINT electrical field at the surface of resistors and reducing the influence of external fields upon the introduction of a dielectric with high electrical permeability near the surface of resistors high voltage arm. The drawing shows the structure of the high-voltage divider arm. The device consists of high-voltage t and low-voltage 2 electrodes of intermediate electrodes 3 and 4, a circuit of resistors 5, a dielectric 6, a coaxial connector containing a central contact 7 and an external contact 8. A circuit of resistors 5 is connected to the high-voltage end electrode 1, others - to the center contact 7 of the coaxial connector. In this case, the coaxial connector is placed outside the interelectrode space on the low-voltage electrode 2, and its external contact 8 is in direct contact with the low-voltage electrode. All electrodes are placed on the ends of each of the resistors 5 of the circuit. The surfaces of the electrodes facing each other are made flat. It is combined with the end edges of the resistive sections 9 of the resistors 5 of the circuit. The space between the electrodes is filled with dielectric 6. A circuit of resistors 5, identical in type and rating, is aligned with the axis passing through the centers of the electrodes perpendicular to them. A coaxial cable is connected to the coaxial connector, the opposite end of which is connected to the low-voltage resistor. The device works as follows. The applied voltage between the high voltage 1 and low voltage 2 electrodes causes an electric field in the space between the electrodes filled with dielectric 6, the distribution of which in the axial region will be uniform. In this case, the potentials of each point of the resistor circuit 5 coincide with the potentials of the electric field at the corresponding points in space. Due to the use of dielectric 6, the capacitance between the electrodes increases, which reduces the capacitive effect of the external to the divider conductors on the distribution of the electric field in the axial region. The current i flowing through the resistor circuit 5 enters the output of the high-voltage divider arm through a coaxial connector and excites a running electromagnetic wave with the voltage amplitude U ip in the connected measuring high-frequency cable with a characteristic impedance p, matched by the measuring device. The capacitive current of the divider flowing through the series-connected capacitances of the electrodes does not reach the output of the divider, and closes on the low-voltage electrode 2 and then on the common bus. The use of the invention makes it possible to increase the accuracy of measuring high pulse voltages at fronts duration in units of nanoseconds by reducing the distortion of the shape of the pulse voltage being investigated. The invention The high-voltage voltage divider containing a high-voltage arm formed by a resistor circuit, one output of which is connected to a high-voltage electrode, completed in the form of a flat disk, a low-voltage electrode made in the form of a flat disk of equal area and located parallel to the high-voltage electrode from the other output of the resistor circuit so that the output of the resistor circuit is located in the hole in the center of the low-voltage electrode, connected to the common busbar, and the low-voltage shoulder resistor, This means that, in order to increase the accuracy of the transmission of the pulse voltage, intermediate electrodes are additionally introduced, made in the form of discs with holes in the center, equal in area and parallel to the low voltage electrode, so that resistors are placed in holes located along their axis, and the flat surfaces of the intermediate electrodes are aligned with the end edges of the resistive sections of adjacent resistors and are fixed in pairs between each other, the space between the electrodes is filled with a dielectric m, a dielectric constant which is higher than the permittivity of the environment, a central contact introduced coaxial connector is connected to the second terminal of the chain of resistors, and its external contact is fixed in the center of the low-voltage electrode, wherein the coaxial connector is connected to the inserted piece of the coaxial cable is connected to the resistor the low voltage leg.