SU1460705A2 - Device for measuring the intensity of pulsed electric field in three orthogonal directions - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention is to expand the frequency range of measurements to high frequencies. To achieve the goal, each of the six parts of the metal shell is made of two parts isolated from each other, one of which covers the other. Adders are entered between the display units with differential inputs and parts of the spherical surface. , to the inputs of which are connected in pairs parts of a spherical surface located along the same axis of the orthogonal coordinate system. When the own capacitances of the transducers (P) change due to a change in the electrode areas, the cutoff frequency P changes, which makes it possible to separate the passband of the channels, ensure the overlap of the latter and thereby expand the frequency range of measurement of the spectral components of the measured pulse elopol. 2 Il. S (l

Description

one

The invention relates to a measurement technique, can be used to measure the intensity of pulsed electric fields, and is an improvement of the device according to the basic avtoSV. No. 1049833.

The aim of the invention is to extend the frequency range of measurements to high frequencies.

Figure 1 shows the structure of a device for measuring the intensity of a pulsed electric field in three orthogonal directions; figure 2 is a functional diagram of the device.

A device for measuring the intensity of a pulsed electric field in three orthogonal directions contains a measuring transducer made in the form of a metal sphere 1, covered with a dielectric layer 2, onto which a metallic sheath is applied, divided into six identical in shape, insulated from each other, each of which are made in the form of two, isolated from one another parts 3 and 4 of a spherical surface, one 3 of which covers the other 4, and located symmetrically along the axis orthogonal with price coordinate systems

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between the metal sphere 1 and the display unit 5 with differential inputs located inside the metal sphere 1, adders 6 are entered, the inputs of which are connected to parts of the spherical surface, and the outputs to the corresponding differential inputs of the display unit 5, to the common bus which is connected to the metal sphere 1.

The device works as follows about

The signals from the outputs of the capacitive transducers are fed to the inputs of the adder 6, added up, and a potential difference occurs at the output of the adder 6 proportional to the intensity of the electric field. The potential difference from the output of the adder 6 causes the appearance of a current detected by the display unit 5 and is pulsed electric field in three oriental directions.

Claims (1)

15 claims The metal sphere 1 is placed in a pulsed electric field. A potential difference arises on the electrodes of part 3, corresponding to the low-frequency spectral region of the field under study, and on the electrodes the partial potential difference corresponding to the high-frequency spectral region. When the transducers' own capacitances change, the cut-off frequency of the transducer changes, which makes it possible to separate the band. channeling, ensuring the overlap of the latter, and thereby expanding the frequency range of the measurement of the spectral components of the measured pulsed electric field. Vopetrash U Fiyo.1 Compiled by N. Chernikov Tehred A. Kravchuk five 0 A device for measuring the intensity of a pulsed electric field in three orthogonal directions according to the author. 1049833, of which it is due to the fact that, in order to extend the frequency range of measurements to high frequencies, each of the six parts of the metal shell is made of two parts isolated from each other, one of which covers the other, between the unit indications with differential inputs and parts of the spherical surface are entered adders, to the inputs of which are connected in pairs the parts of the spherical surface located along the same axis of the orthogonal coordinate system. $ ue.Z Proofreader M.Samborska