SU875287A1 - Device for contact-free measuring of pulse currents - Google Patents

Description

(54) DEVICE FOR CONTACTLESS MEASUREMENT OF PULSE CURRENTS

Claims (1)

 t.; The invention relates to a measurement technique and can be used to measure pulse currents with the aid of electromagnetic sensors. A device for measuring current is known, containing a measuring coil (as per Rogowski), an integrator, an additional short-circuited coil, an amplifier, a matching cable, resistors, and a capacitor J. The disadvantage of the device is the low accuracy of measuring the pulse current. The closest technical solution to the present invention is a device for contactless measurement of spooled currents containing an electromagnetic sensor mounted on a current-carrying bus included in the circuit under study and an electronic integrator with a capacitor in the feedback circuit, and the input of the electronic integrator is connected to the output electromagnetic sensor | 23. The drawback of the device is the low accuracy of current measurement in a wide range of measured value. The purpose of the invention is to increase the accuracy of measuring the magnitude of the pulse current. The goal is achieved by the fact that the device for contactless measurement of pulse currents, containing an electromagnetic sensor, the output of which is connected to an electronic integrator with a capacitor in the feedback circuit, additionally introduces a capacitor connected to the feedback circuit of the integrator, two electronic to; connected in series with capacitors, as well as a comparator and a source of stabilized voltage, with the first input of the comparator connected to the output of the electronic integrator, and the second to the source ku stabilized voltage. and the comparator output is connected to the control inputs of the electronic keys. The drawing shows a functional diagram of a device for contactless measurement of pulse currents. The device contains an electromagnetic sensor 1, an electronic integrator including an input resistor 2. DC amplifier 3, capacitors 4 and 5, switches 6 and 7, comparator 8, voltage-controlled source 9. The operation of an electronic integrator is described by the expression Kxd RC I / O where R is the integrator input resistance; - integrator capacity. sensitivity. From the expression it can be seen that a change in the value of the integrating capacitor leads to a change in sensitivity and, as a result, to a change in the measurement limit. . For the case when the measured current value 1 (t) changes according to the law Kt) C where Ifj is the initial current value, t is the time, T is the constant of the charging time (Г RG). The voltage produced by the electro-magnetic sensor is equal to {n dl (t) M, -L / C RF, where M is the inductance of the sensor. The voltage at the output of the integrator formed by the input resistor 2, amplifier 3 of direct current, capacitor 4 has the form ti. 41, 1. 1 OUT RC J B at the point in time when the voltage is reached (reaches the threshold UcftSB of the comparator 8, set with high accuracy, the output signal of the comparator U ..,. Enters ISLJntNI on the keys o and 7, which leads to switching capacitors L and 5, therefore, to a change in the sensitivity of the integrator. The measurement accuracy of the voltage p, mu (determined by the accuracy of the voltage setting U (.YOI & which can be quite high. The implementation of the proposed device will allow to increase the accuracy of measurement of pulse currents in a wide range non-measurable quantities. The increase in accuracy in general terms is determined by the ratio of the limit values of the measurable value in the first and second ranges. Formula for non-contact measurement of impulse currents containing an electromagnetic sensor whose output is connected to an electronic integrator with a capacitor in the feedback circuit distinguishing, in order to increase the measurement accuracy, a capacitor included in the feedback circuit of the integrator, two electronic switches, are additionally introduced into it nennye series with the capacitor and the comparator, and the constant-voltage, the first input of the comparator is connected to the output of an electronic integrator, and the second - to a source of stabilized voltage, and the comparator output is connected with the control inputs of the electronic switches. Sources of information taken into account in examination 1. USSR author's certificate No. 632959, cl. G 01 R 19/00 1976. 2, NE Perch. Measurement of discharge currents by Rogowski themselves. - Instruments and Experimental Technique, 1968, No. 6 (prototype). U6. JU UKonn. eight