SU610226A1 - Arrangement for protection of single-phase transformers of traction substations - Google Patents

Description

(54) USGUSGVO FOR PROTECTION OF SINGLE-PHASE TRANSFORMATS

Claims (2)

TRACTOR SUBSTITUTES of the transformer 4 and current transformers 5 and 6 I in the circuit of the winding 7 of the lower voltage of the transformer 4, additional relay 8 of the current with braking, designed to protect the winding 3 of the higher voltage of the transformer 4 from ground faults, the operating winding of the relay is included in the sum of the currents the beginning and the end of the winding of the higher pump voltage, which is formed in block 9, and the brake winding of the relay is switched to the phase current. In the power transfer mode, with short circuits and magnetizing current surges, the current in the operating winding of the relay is equal to the unbalance current due to the TT error, and in the event of damage in the zone, the short circuit current (SC) is determined. The protection does not need to be rebuilt from the inrush of the magnetizing current when the transformer is energized, and its inaction from unbalance currents due to external damage is provided by the presence of percent braking, which ensures high sensitivity of protection. The main differential relay 10 is connected to the CT through the blocks AND and 12, which form the difference in the currents of the beginning and end of the windings, respectively, of the highest and lowest voltages of the transformer. If the signals generated in blocks 11 and 12 differ in modulus or phase, which characterizes the damage in the protected area, the device acts to turn off the transformer. The prevention of excessive device operation from unbalance currents caused by the error of the transformer current is ensured by the selection of the appropriate settings of the switch or by the implementation of percentage deceleration. The use of the latter is more preferable, since it allows to increase the sensitivity of the device in case of short-circuit in the zone. Taking into account the above equation, the device operation can be presented in the form, e) H - (() - GN- | 1, „: / 1d-1 -kt / 1A / 1sgo1) where i, iu are the currents of the beginning and end of the high voltage winding . 1e, the currents of the beginning and end of the low voltage winding KB is the equalization coefficient, learning the transformation of currents KT — the coefficient determining the magnitude of the percentage braking | (1 t) —a function that determines the inrush of the magnetizing current of the CTN — the braking rate from the current surge of the magma-iver. processing currents of the device, determined in the absence of braking ... By using the time of the pulse relay as the main differential relay, it is possible to implement protection with a setpoint of 0.6 nom. single-phase transformers of the traction substations, containing a current transformer in the circuit of each winding of the protected transformer and a current differential relay with braking, characterized in that, in order to increase the sensitive, type and selectivity of the base, it is additionally equipped with two current transformers, Sum and difference forming blocks the currents of the beginning and end of the windings, respectively, of the highest and lowest voltages of the protected transformer and the current relay with braking, while the block forming the sum of the currents of the beginning and end o the high voltage windings are connected between current transformers installed in the high voltage winding circuit and additional current with braking, and the units for forming the current difference between the beginning and end of the windings of the higher and lower voltages of the IR transformer are connected between the current transformers installed in these circuits windings and the main differential relay with braking. Sources of information taken into account in the examination: 1. USSR author's certificate number 78926, H 02 H 3/28, 1950. 2. Fedoseev, A. M. Relein, protection of electr. chescic systems, LEG, M., 1976, one hundred. 314.