SU1112319A1 - Device for measuring voltage and current of direct and reverse sequence - Google Patents

Abstract

A DEVICE FOR MEASURING VOLTAGE AND CURRENT DIRECT AND REVERSE SEQUENTIAL for a three-phase electric network, consisting of input terminals for each phase separately and a symmetric component filter containing two symmetrical arms, each of which is connected between adjacent phases in series with a capacitor and a pole that have two symmetrical arms in each of which are connected between adjacent phases in series a capacitor and a pole and a capacitor and two symmetrical arms in each of which are connected in series between adjacent phases in series a capacitor and a post-capacitor and a symmetrical component filter containing two symmetrical arms, in each of which between adjacent phases there is a capacitor and a capacitor and a postman connected to two symmetrical arms in each of which are connected between adjacent phases in series a capacitor and a pole and a capacitor and a capacitor and postmultiply in the filter are two symmetrical arms in each of which are connected between adjacent phases in series a capacitor and a postman of a capacitor and a postman of a capacitor and a pole of a symmetrical component containing two symmetrical arms, in each of which between adjacent phases there is a capacitor and a capacitor and a postman of a symmetrical component and a capacitor and fixed active resistance, characterized in that, in order to increase the accuracy of the frequency error error, it is equipped with two variable resistances, each of which is included after with a constant resistance, as well as series-connected differential voltage converter into a control signal and execute. the telny unit, included by ykhsdu input terminals of the two phases and the movable contacts of both variables (L resistance.

Description

The invention relates to the field of electrical measurements, namely, a device for measuring voltage and current of direct and inverse sequence, which can be used in a three-phase electrical network. A device is known for measuring voltages and currents in circuits operating on relatively large groups of loads, where the latter can be powered from both the two and three phases of the electric network C1J. This device has a fairly high versatility and small size, but its accuracy is not always consistent with the requirements imposed on the output parameters of the electrical network. The device closest to the invention is a device for measuring voltage and current of forward and reverse sequence for three-phase electric network consisting of input terminals for each phase separately and from the filter of symmetric components, containing two symmetrical arms, each of which is between their phases are connected in series a capacitor and a constant resistance of C23. The known device works quite reliably, but the accuracy of the readings does not satisfy modern requirements for the measuring apparatus used for three-phase circuits, namely, when it is necessary to compensate for frequency errors. The aim of the invention is to improve the accuracy of frequency error compensation. The goal is achieved by the fact that the device is equipped with two variable resistances, each of which is connected in series with constant resistance, as well as serially connected by a differential voltage converter into a control signal and an executive unit, connected between the input terminals of the two phases and the moving contacts of both variable resistances . The drawing shows a diagram of the device. Input terminals 1-3 are three phase network circuits. Each terminal refers to a separate phase. Between terminals 3-2, a series electric circuit is included, consisting of a capacitor 4, a constant 5 and variable 6 resistances, and between terminals 2 and 1, a different circuit is included, consisting of a capacitor 7, a constant 8 and variable 9 resistances. The coherent resistors 6 and 9 can generally be controlled active resistors having control inputs 10 and 11, respectively (indicated by arrows). Resistances 5 and 8 may in a particular case be purely active resistances. An impedance unit 12 is connected to the resistors 6 and 9, to the input of which the differential voltage converter 13 is connected to a control signal. The latter is essentially a converter for exceeding the magnitude of the mains voltage period over the magnitude of the reference voltage period into a control signal. In total, the capacitors 4 and 7, the constant resistances 5 and 8, and the variable resistances 6 and 9 constitute the filter of the symmetrical components of the voltage of the three-phase network. During operation, the frequency error correction device is achieved by adjusting the values of the resistances 6 and 9 using signals for this, which are proportional to the period of the network. Such a signal is formed in converter 13. In turn, the converter operates when the supply voltage to it comes from input terminals 1 and 2, and only then the signal goes to the executive unit 12. Thus, the voltage applied to the input terminals 1-3, It comes not only to lines 14-16, but also to the converter 13, which makes it possible to correct the frequency errors in an automatic mode using an adjustable value in almost all of its range. The invention allows to increase the efficiency of using not only local electric networks, but also the efficiency of using networks.

311123194

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Claims (1)

DEVICE FOR MEASURING VOLTAGE AND CURRENT DIRECT REVERSE SEQUENCE for a three-phase ¹ electrical network, consisting of input terminals for each phase separately and a filter of symmetrical components containing two symmetrical arms, in each of which a capacitor and a constant active resistance are connected between adjacent phases in series , characterized in that, in order to improve the accuracy of the compensation of frequency errors, it is equipped with two variable resistances, each of which is included next atelno constant resistance, as well as series connected inverter voltage difference in the control signal and the execution unit included two phases yezhdu input terminals and movable contacts both variable resistors. about .SU. about "1112319 1 1112319