DE2110505A1 - Input circuit for three-phase overcurrent relay - Google Patents

Description

Singing circuit for three-phase overcurrent relays

The invention relates to an input circuit for three-phase overcurrent relay.

A three-phase overcurrent relay should have the same functional relationship regardless of whether the fault occurs in a single phase, e.g. a primary fault, or in three phases, e.g. a three phase, fault to earth. The input circle to one Relay of the type mentioned contains a rectifier bridge for each phase, which is connected to the secondary winding of a current transformer is fed. In the case of a single-phase fault, the rectifier bridge emits a pulsating signal in the faulty phase Direct current with a fundamental wave frequency equal to twice the network frequency and with a certain rectified middle word away. 23 oi a three-phase fault with the same overcurrent as in the former case, the three rectifier bridges together give a pulsating direct current of three times • o high fundamental wave frequency and with a higher equal

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109840/1140

BATH ORIGINAL

trued mean. So the ilelais reacts to you single-phase fault with a certain overcurrent is different from a three-phase fault with the same overcurrent.

The input circuit of an overcurrent relay according to the mistake has a current transformer for each phase with a rectifier bridge connected to the secondary winding of the current transformer. The three rectifier bridges are connected in series on the DC side and the series connection is on

ψ connected to the output terminals of the input circuit. The invention is characterized in that a coil and a resistor connected to the output terminals are connected to the output terminals, and the coil and resistor are so dimensioned that the sum of the voltage across the resistor that occurs on the DC side of the rectifier bridge Direct current is generated, and the voltage that appears across the coil and resistor due to the alternating current superimposed on the direct current, for single-phase and three-phase faults

^ is essentially the same.

The above-mentioned dimensioning of the coil and the resistor thus determines the voltage that occurs across the output terminals proportional to the size of the overcurrent, regardless of whether the fault causing the overcurrent is single-phase or three-phase. jiin overcurrent protection connected to the output terminals So it has the same requirements for single-phase and three-phase faults.

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1ÜÜÜ4IJ / 1 UO

§ÄD ORIGINAL

According to the invention is also another resistor with the Series connection of coil and resistor connected in parallel. The adjustment of the mashed value for the row circle facilitated.

In the drawing. Is a circuit diagram for an input circuit according to of the invention shown.

Each of the phases R, S, T in the three-phase network has a current transformer Tl ₁ TS or TT. The secondary winding of the current transformer can be connected in parallel with a high-resistance impedance RR, RS or RT and also connected to one. Rectifier bridge LR, LS, LT must be connected. The three rectifier bridges are connected in Heine on the direct current side, and the series circuit is connected to an impedance consisting of a coil 1 and a resistor 2 in series and possibly a resistor 3 in parallel with 1 and 2 to facilitate adjustment. The output terminals 4 and 5 are connected to the ends of the circuit.

In the case of a single-phase fault, there is the one from the rectifier bridge current drawn from a direct current superimposed with an alternating current with a basic wave frequency equal to twice that Iletzfrequency and with a relatively high amplitude. That has the consequence that the superimposed voltage is relatively high. For three-phase faults, the current is from the three Rectifier bridges made of a relatively large direct current superimposed with an alternating current, the fundamental frequency of which

109840/1140

is six times as high as the mains frequency, but the amplitude of which is significantly lower, which means that the superimposed voltage is lower here than in the case of single-phase faults. On the other hand, the rectified mean value of the current is lower for single-phase faults than for three-phase faults, provided that the overcurrent is the same in both cases. This makes it possible that the voltage across the impedance 1, 2 is essentially proportional to the overcurrent WiI ¹ Q, regardless of whether it is a single-phase or three-phase fault.

109840/1140

Claims (2)

-J patent claims: 1.) Input circuit for three-phase overcurrent relays, dor for each Phase a current transformer with one connected to the secondary winding of the relevant current transformer Rectifier bridges which are connected in series on the direct current side, this lending circuit to the Output terminals of the input circuit is connected, characterized in that a coil is connected to the output terminals (4, 3) (1) and a resistor connected in series with this (2) connected and coil (1) and! resistor (2) are dimensioned so that the sum of the occurring across the resistor Voltage generated by the direct current occurring on the direct current side of the rectifier bridges, and the voltage across the coil (1) and the resistor (2) due to the alternating current superimposed on the direct current occurs with single-phase and three-phase faults in the borrowed is equal to. 2. Input circuit according to claim 1, characterized in that a resistor (3) is connected to the series connection of Spulο (1) and resistor (2) pare ' ¹ ","". • 08840/1 HG (ο Blank page