SU1267267A1 - Method of measuring pulse currents in multichannel discharge - Google Patents

Abstract

This invention relates to an electrical measurement technique. It can be used in instruments for measuring the distribution of currents across channels in multichannel discharges. The purpose of the invention, the improvement of accuracy, is achieved by analyzing the pressure that occurs during discharge. The method involves measuring the pressure value in each discharge channel and determining the amplitude of the discharge current from the mathematical relationship given in the claims. The device that implements the method is a six-channel trigatron-type water discharge and contains pressure sensors 1 installed on the spec- trum of triggering discharge 2. These (L electrodes are installed in the openings of the low-voltage electrode 3. The sketch also shows an oscilloscope 4, shunt 5, high-voltage electrode 6, a storage capacitor 7, and a trigger bus Izlp. 2, ill. F

Description

The invention relates to techniques for electrical measurements and can be used in devices for measuring the distribution of currents over channels in multichannel arresters.

The purpose of the invention is to increase accuracy by analyzing the pressure arising from the discharge.

Figure 1 shows the electrical · diagram of a device for implementing the method; figure 2 - experimental dependence of the pressure during an electric discharge on the amplitude of the discharge current.

The method of measuring pulsed currents in a multi-channel discharge consists in measuring the pressure in each discharge channel and determining the amplitude of the discharge current from the relation:

^T -n = <'where I _m is the amplitude of the discharge current, A; P _t - pressure in the discharge channel, Pa;

w - serial number of the discharge channel;

k, η are numerical coefficients. Preliminarily, the calibration curve of the dependence of P ^ on I _m at m = 1 is removed experimentally from which the numerical coefficients of the bale are determined.

The specified curve is obtained by approximating the values of the experimentally obtained pressure values for the given amplitudes of the discharge current by the least squares method.

A device for implementing the proposed method is a six-channel trigatron-type water spark gap and contains pressure sensors 1, for example, of a crash type, which are installed on the discharge initiation electrodes 2 connected to the trigger bus. The discharge initiation electrodes 2 are installed in the openings of the low voltage electrode 3, which is connected to the oscilloscope 4 and through a shunt 5 with a common bus. The high voltage electrode 6 is connected to a common bus via a storage capacitor 7.

As a result of the charge-storage capacitor 7 and the voltage supply to the start bus and to the discharge initiation electrodes 2, a multi-channel discharge in the number of elec

1267267 2 freaks 2 between high-voltage 6 and low-voltage 3 electrodes. Initially, using one of the electrodes 2, shunt 5, oscilloscope 4 and 5 of the pressure sensor 1 connected to the used electrode 2, points are obtained characterizing the dependence of P _t on 1 _hl . A curve is constructed from the points using the least squares method. 10 The shape of the curve determines the numerical coefficients of bales. Then, with a multi-channel discharge, the pressure in each channel is measured using pressure sensors 1 and determined (5 is the current amplitude in each channel of the discharge.

When implementing the method in a liquid multichannel spark gap, the following dependence was experimentally obtained:

-E 0.0

V 25-10 P _m .

Since the pressure in each discharge channel most closely corresponds to the amplitude of the current in the same channel, the measurement accuracy increases.

Claims (1)

t The invention relates to an electrical measurement technique and can be used in instruments for measuring the distribution of currents across channels in multichannel gaps. The purpose of the invention is to improve the accuracy by analyzing the pressure that occurs during discharge. Figure 1 shows the electrical circuit of the device for implementing the method; Fig. 2 shows the experimental dependence of the magnitude of the pressure in the case of electrical discharge on the amplitude of the discharge current. The method of measuring pulsed currents in a multichannel discharge consists in measuring the magnitude of the pressure of each discharge channel and determining the amplitude of the discharge current from the relation: i. kp ;; where 1 is the discharge current amplitude, A; P is the pressure value in the discharge channel. Pa; m is the channel sequence number times k, n - numerical factors. The calibration curve for the dependence of Pj on 1 at m 1 is experimentally experimentally removed, from which the numerical coefficients k and p are determined. The indicated curve is obtained by approximating the values of the experimentally obtained pressure values for the given amplitudes of the discharge current by the least squares method. The device for implementing the proposed method is a six-channel trigatron-type water discharge and contains pressure sensors 1, for example, a kresher type, which are installed on the discharge initiating electrodes 2 connected to the trigger bus. The discharge initiation electrodes 2 are installed in the openings of the low voltage electrode 3, which is connected to the oscilloscope 4 and through the shunt 5 to the common bus. High voltage electrode 6 is connected to a common bus through a storage capacitor 7. As a result of charging the storage capacitor 7 and supplying voltage to the start bus and to the discharge initiating electrodes 2, a multichannel discharge occurs in the number of electrodes 2 between high voltage 6 and low voltage 3 electrodes. Initially, using one of the electrodes 2, shunt 5, oscilloscope D and pressure sensor 1 connected to the electrode 2 used, points are obtained that characterize the dependence of P on 1, „. The points are plotted using the least squares method. The shape of the curve determines the numerical coefficients k and p. Then, for multichannel discharge, the pressure in each channel is measured using pressure sensors 1 and the amplitude of the current in each discharge channel is determined. When implementing the method in a liquid multichannel discharger, the following dependence was experimentally obtained: -e o, g Im 25-10 Pn. Since the pressure value in each discharge channel most closely corresponds to the amplitude of the current in the same channel, the measurement accuracy is improved. The invention The method of measuring pulsed currents in multichannel discharge, which consists in measuring the parameters of the physical phenomenon that occurs during electrical discharge, and calculating the amplitudes of currents from them, characterized in that, in order to improve the accuracy, the calibration curve of pressure is experimentally removed the amplitudes of the discharge current with a single-channel discharge, then measure the pressure in each channel of the discharge and determine the amplitude of the current in each channel of the discharge from the relation: Im P, where 1 - a current amplitude in the discharge channel, A; P is the pressure in the same discharge channel. Pa; m is the sequence number of the bit channel; k, n - the numerical coefficients characterizing the shape of the calibration curve of P „from 1„.  80 120 160 200 ig.2