CS243337B1 - High voltage and extra high tension measuring current transformer's transformation simultaneous measuring connection with principal frequency and its arbitrary multiple - Google Patents

Abstract

The connection is usable in bulk remote control in power and measurement harmonics in networks. It's being measured the size of tonal streams in high networks and very high voltage. Two identical ones are measured current transformers using two on each other independent sources, both with the network with the selected frequency. Both transformers current is flowing through the same current 50 Hz, but tonal current one current transformer being measured is against the other in antiphase.

Description

(54) Wiring for simultaneous measurement of the conversion of high and very high voltage current transformers at base frequency and any multiple thereof

The wiring is useful for mass remote control in power engineering and for measuring harmonics in networks. It measures the magnitude of tonal currents in high and very high voltage networks. Two identical current transformers are measured using two independent sources, both mains and selected frequency. Both current transformers are flowing through the same 50 Hz current, but the tonal current of one measured current transformer is counter-phase to the other.

BACKGROUND OF THE INVENTION The present invention relates to circuitry for simultaneous measurement of the conversion of high and very high voltage current transformers at base frequency and any multiple thereof.

At present, a mass remote control is being introduced in the energy sector, which uses energy networks to transmit tone pulses superimposed on the fundamental harmonic with a frequency of 50 Hz. The amplitude of this applied voltage at a higher frequency should not exceed 5% of the fundamental harmonic value, but must always be higher than the start-up value of the ripple control receivers.

The magnitude of tonal currents in low-voltage networks can be measured by selective instruments directly, the detection of these values in high-voltage and very high-voltage networks can only be ensured by transforming the measured values with current transformers.

For this purpose, the actual transmissions or errors of the measuring transformers at the tone frequencies must be known, and it is desirable to calibrate them simultaneously with the basic mains frequency for correct measurements. Performing these measurements encounters considerable difficulties for both manufacturers and users of measuring transformers, so it is practically only performed at 50 Hz and the same conversion is assumed for higher frequencies.

Said drawbacks are substantially eliminated by wiring for simultaneous measurement of the conversion of the high and very high voltage current transformers at the fundamental frequency and any multiple thereof according to the invention.

Its essence is that the 50 Hz power supply is connected in parallel to the input winding of the boost current transformer, the output winding of which is divided into two electrically identical parts, and its middle outlet is connected in series with the output winding of the auxiliary current transformer. whose input winding is connected to a current source of tone frequency.

The output winding of the boost current transformer is connected in series with both measured current transformers. The secondary windings of the two current transformers are connected to two parallel circuits, the first parallel circuit in the same and the second parallel circuit in the opposite sense.

A second ammeter is connected in parallel to the first parallel circuit and a third ammeter is connected in parallel to the second parallel circuit. Each of the parallel circuits is grounded at one point.

The main advantage is the fact that the measurement is practicable in practically every test room, but also in already installed transformers with arbitrarily adjustable ratio of the given quantities for tone and operating frequency. The measurement can also be extended for measurements with different loads, which are connected to the secondary terminals of the measuring transformers.

Examples of wiring for simultaneous measurement of the transformers of high and very high voltage current transformers at basic frequency and any multiple thereof according to the invention are schematically illustrated in the attached drawing.

The 50 Hz power supply is connected to the input winding terminals of the step-up current transformer 12. Its output winding is divided into two electrically equal parts and the grounded middle outlet '17 'is connected via a first ammeter' 161 to the output current auxiliary current winding. transformer '14.

Its input winding is connected to a current source 15 of the tone frequency. The output winding of the boost current transformer 12 is connected in series with the two current transformers 13 being measured so that one of its terminals is connected to the first terminal K of the primary winding of one current transformer 13, the other terminal L of which is through the output winding terminal1. the auxiliary current transformer 14 is connected to the first terminal K of the primary winding of the second current transformer 13, whose second terminal L is connected to the second terminal of the output winding of the boost current transformer 12.

The current transformers 13 have, after two secondary windings, which are connected to two parallel circuits 18, 19 of identical windings. The first parallel circuit 18 is connected in a consistent manner, that is, its first terminals are connected to its second terminals.

A second ammeter 162 is connected in parallel to the circuit.

The second parallel circuit 19 is connected in the opposite sense, that is, its first terminals kj are connected to each other as well as its second terminals 11. The third T63 ammeter is connected in parallel to the circuit. Each of the parallel circuits 18, 19 is grounded at one point.

The principle of the invention is the fact that two identical current transformers 13 are measured using two independent sources 11, 15 with both mains and selected frequencies, both current transformers 13 flowing through the same 50 Hz current but a tone current one measured current transformer 13 is converted in counter-phase to the other.

This is measured at the terminals kp, lj ,. k ₂ ,. .1 ₂ parallel windings connected in parallel with terminals 3 ?. .T ^ values with tone frequency only, if terminals k _{2 are} not matched. , 1 ₂ values “at the frequency of 50 Hz and measurement by non-selective measuring instruments is possible.

The invention has been tested. It is supposed to be used for mass remote control in power engineering and for measurement of higher harmonics in networks.

Claims (1)

OBJECT OF THE INVENTION · Circuit for simultaneous measurement of the conversion of measuring transformers of high and very high voltage current at basic frequency and any multiple thereof, characterized in that the power supply (11/50 Hz) is connected in parallel to the input winding of the boost current transformer (12) whose output winding is divided into two electrically identical parts and its middle terminal (17) is connected via a first ammeter (161) in series with the output winding of the auxiliary current transformer (14), whose input winding is connected to a current source (15) of tone frequency, the boost current transformer (12) is connected in series with both measured current transformers (13), the secondary windings of both current transformers (13) being connected to two parallel circuits (18, 19) of the same windings and the first parallel circuit (18) matching and second parallel circuit (19) in opa In the same sense, a second ammeter (162) is connected in parallel to the first parallel circuit (18) and a third ammeter (163) is connected in parallel to the second parallel circuit (19) and each of the parallel circuits (18, 19) is grounded in one place .