SU394735A1 - DEVICE FOR RESEARCH OF ELECTROPHYSICAL PARAMETERS OF MATERIALS - Google Patents

Description

one

The invention relates to laboratory devices for electrical research of high-resistance materials.

A device for studying the electrophysical parameters of materials is known, which contains two current electrodes connected via a current indicator to the power supply terminals and two potential electrodes, each of which is connected to a compensating voltage source through a corresponding balance indicator.

To improve the measurement accuracy in the proposed device, a variable resistor is connected to the terminals of the power supply, the midpoint of which is connected to one of the terminals of the compensating voltage source.

The drawing shows the scheme of the described device.

The device contains current / and 2 and potential 3-6 electrodes, indicators 7 and S of the moment of compensation of the measured signal and leakage currents, respectively, current meter 9, voltage compensating source 10, resistor // leakage current balance, resistors 12 and 13 between the current and potential parts of the circuit, the battery 14 pitapi and the switch 15.

In the electrical circuit of the device, we use the warm method of measuring signals that correspond to the studied effects with a com- pectation. Current electrodes 1 and 2 of sample 16 are powered by battery 14 through current meter 9. The signal that occurs between any two potential electrodes, such as electrodes 3 and 4, is compensated for by the voltage from source 10 connected to them through a zero current indicator. Resistor // together

with sample 16 it forms a single bridge, in which the zero current indicator 8 (electrometer) is switched on in the diagonal between the midpoint of the resistor and one of the potential electrodes of the sample. Other potential

The electrode, the signal at which it is necessary to measure, is connected to the same midpoint of the resistor through the source 10 of the compensating voltage n and the indicator 7 of the zero current. Electrometer 9 is an example for measuring current.

flowing through the sample.

The compensation technique for measuring signals requires that the resistance of the sample between the potential electrodes is small compared with the resistance of the entire sample. Otherwise, the feedback of the compensating source with the current path occurs, which leads to positive results. At the same time, in practice, sample sizes are often limited, due to which

said requirement to provide very labor