SU152026A1 - Device for measuring electrical cable capacitance - Google Patents

Description

One of the known methods for measuring the capacitance of an electrical cable is to periodically switch a cable from a charge circuit from a direct current source to a discharge circuit containing an electrical measuring device.

The disadvantage of this method is the use of a manual switch that does not provide sufficient measurement accuracy.

A feature of the device for measuring the capacitance of a cable according to this known method is the use in it of a continuously operating relay switch or vibrator transformer that switches the cable from the charge circuit to the discharge circuit and back. This provides an increase in the accuracy of measurements in the presence of even very significant leaks in the cable being measured, since during the quick response time the measured cable capacitance does not have time to noticeably switch through bypassing leakage resistance.

In addition, the introduction of automatic switching allows the use of a conventional magnetoelectric galvanometer as an indicating instrument and to obtain a static indication, which makes the measurement process simpler and more convenient.

In the drawing, depicting the circuit diagram of the proposed device, the following notation is adopted: fi-relay switch, powered by rectangular pulses, with the following frequency / 10-30 Hz; P-switch measurement limits; P2-installation switch; Ri-charge resistance; discharge resistance; C-measured cable capacitance; C-sample capacitor; R-resistance of cable insulation; U-power supply; I-indicating measuring device of the magnetoelectric system.

No. 152026-2 -

Through the relay switch Pj, the capacitance is periodically charged to the voltage U and discharged to the device P. When the conditions are met, i.e., i.e., at sufficiently small charge and discharge resistances, the device integrates the discharge pulses acting on it and the average value of the current corresponding to the static deflection of the indicator, and is expressed by a simple linear relationship:

I ,, C, Uf, where L is the coefficient depending on the degree of shunting of the device.

The measurement order is as follows. Switch I} is set to B the position corresponding to the selected measurement limit.

After that, the switch Ya is set to position 2, and a readout is made on the scale of the instrument.

As the experiments show, it is possible to measure fairly small sections of the cable (capacity) with degraded insulation with practically acceptable accuracy of ± (1-2%). A reduction in the error is achieved by reducing the charge and discharge time, as well as the transfer time of the switching contacts.

Subject invention

A device for measuring the capacitance of an electrical cable, containing a direct current source for charging the cable, an electrical meter connected to the discharge circuit, and a switch serving to switch the cable from the charge circuit to the discharge circuit, characterized in that accuracy of measurements; a continuously operated relay switch or vibrator transducer is used as the specified switch.