SU1187087A1 - Apparatus for measuring pulse voltages across grounded object relative to earth zero potential - Google Patents

Abstract

A DEVICE FOR MEASURING PULSE VOLTAGES ON A GROUNDED OBJECT OF A SAME WITH A GROUND OF ZERO POTENTIAL OF THE EARTH, containing, for example, in the form of two series-connected resistors, a voltage divider, one of the extreme outputs of which is connected to a sample of a sample of a template. Voltage divider output, characterized in that, in order to increase the measurement accuracy, a long line is introduced into it, made in the form of a group of long parallel lines isolated from the ground conductors placed at a height unchanged along the entire length of the probes, the input of which is connected to the other extreme voltage divider. SL 00 o about 00

Description

The invention relates to electrical measuring equipment, namely, measuring devices used in determining the parameters of earthing devices under the conditions of a pulsed voltage, in estimating the distribution of potentials on grounding elements and along their length. The aim of the invention is to improve the measurement accuracy by reducing the effect of transients on the ground connection to a voltage divider. The figure shows schematically the proposed device for measuring pulse voltages. The device is connected to object 1 with grounding, which is represented by an equivalent resistance 2. The device includes a voltage divider 3 connected to object 1 and mounted on an insulating device 4, a measuring device 5 with an independent power supply 6, a group of long parallel conductors 7 insulating from the ground supports 9 at a height ti, unchanged along the length of the conductors, and the connection of the group of conductors with divider 3, made by a bundle of wires 8. Insulating device 4 reduced shunt effect of the device 5 and the power source 6 by eliminating direct contact and reducing the capacitive coupling between their bodies, the earth's surface and the object under study 1. The use of an autonomous power source 6 eliminates the influence of the capacitive coupling with the supply line and its capacity to the ground. A group of long conductors 7, isolated from the ground, parallel to each other and placed at a constant b in their longitudinal height b, form a line with parameters of the same length as the ground. The connection of the stress body with a group of prog-shishes 7, does not require direct contact, divide with the earth through the elements located in the earth at its specific point. The device works as follows. When a pulse is applied to an object 1, grounded through a resistance 2, the voltage through the divider 3 and the conductor beam 8 acts on a group of long conductors 7. When a voltage pulse propagates along a group of conductors 7 with wave parameters constant relative to the ground, grounding with a constant impulse impedance. Until the appearance at the output of the tel 3 body of a voltage pulse reflected from the opposite end of the line, the measuring circuit of the device includes a voltage divider 3 and its wave impedance constant in time. In this case, the meter 1, the device 5 registers the voltage pulse on the object 1 with respect to the earth potential, corresponding to the division ratio of the measuring circuit (taking into account the line resistance), which is also constant in this time interval. The time of occurrence at the output of the divider 3 of the reflected pulse of the divider, etc, is the length of the group of conductors 7 and is the limit of the measurement time interval, which is free from distortion. The length of the time interval until the appearance of a pulse reflected from the end of the line is determined by double the time it takes the wave to reach the end of the line and back. Considering that the wave propagation velocity is approximately equal to the speed of light, the measurement interval determines the required length of the conductors of the line 7 N (m) as follows, where i is the upper value of the measurement time interval, μs. The device allows to obtain voltage measurements with higher accuracy in the microsecond range, since in a given time interval with respect to the earth potential the device has constant resistance and there are almost no reflections in the connection between the divider and the line. The division factor by voltage in the proposed device has a constant value, which facilitates registration registration, allows the use of measuring instruments with low sensitivity, as well as low-power pulse voltage generators. This provides high noise immunity of the device. The line, which is the equivalent of grounding with constant parameters relative to the earth, has no elements laid for direct contact directly in the ground. This facilitates research in cases where grounding is difficult or uneconomical, for example, in areas with high soil resistivity and in the presence of solid rock formations. A similar situation is possible when taking measurements on objects located on a limited land area surrounded by wax. In this case, it can be laid on the floats. 3. Ignore the codes. Structurally, the ground of the ush line is easily realizable, since the insulating properties of the surrounding objects can be used as insulating, 11870874 stands: in the form of pedestal racks, trees, etc.

Claims (1)

DEVICE FOR MEASURING PULSE VOLTAGES ON GROUNDING - A NEW OBJECT WITH RESPECT TO THE ZERO EARTH POTENTIAL OF THE EARTH, containing, for example, in the form of two series-connected resistors, a voltage divider, one of the terminal leads of which is connected to the output of the object, and a measuring device connected between the output of the object and the middle output of the voltage divider, characterized in that , in order to improve the measurement accuracy, a long line is introduced into it, made in the form of a group of long parallel conductors isolated from the earth, placed at a height unchanged along the entire length of water workers, the input of which is connected to the other extreme terminal of the voltage divider.