SU610283A1 - Arrangement for proportional distribution of load between parallel-operating converters - Google Patents

Description

The device consists of current transformers 1-3, current sensors 4-6, total current sensor 7, comparison blocks 8-10, control circuits 11-13 and I-16 converters.

The secondary winding of each current transformer is connected in series with the corresponding TOKai sensor, and together with the primary winding of sensor 7, winding n sensors 4-6 form a parallel group. The outputs of current sensors 4-6 are connected to the input of comparison units 8-10, and the output of sensor 7 through the normally open contacts of load-breaker repeaters to another input of comparison units. The outputs of the comparison units are connected to control circuits AND, 12, 13, which affect the change in the output voltage of the converters 14-16.

The voltage at the outputs of the current sensors 4, 5, 6 is proportional to the load of each parallel operating converter, since the sensors are connected in series with the secondary windings of the current transformers. The voltage at the output of the sensor 7, which is the load for a group of current transformers connected in parallel through current sensors, is proportional to the load coming to the converter in the case of a uniform or proportional division of the total load between the parallel-working converters. Comparative blocks 8, 9, 10 are configured so that, with equal voltages arriving at their inputs, from the outputs of dB 4-7, the voltage at their output is zero.

The device works as follows.

If for any reason the load of the substation increases on AE and this increase only takes on converter 14, resulting in an increase in the secondary current of transformer 1, this will result in a proportional increase in voltage at sensor output 4 by K. AJ, where K - coefficient of proportionality. The voltage at the output of sensor 7 will also increase, but by an amount n times smaller, where n is the number of comparison blocks, equal to the number of parallel converters operating. As a result, at the output of the comparison blocks, acting on the control circuits, the voltages of opposite sign and equal to tc are in the mains: at the output of the block 8 - the voltage - ff - - / С-А, and at the output of the blocks 9, 10 - wives -.

As a consequence, when the substation operates in an inverter mode, the I control circuit by increasing the voltage at the converter output and, in rectifying mode, by reducing the voltage will reduce the load on the converter 14, and the control circuit 12, 13 will increase the load on the converters 15, 16. As a result, the overall increase in the load of the substation is distributed evenly among all the converters. If the load currents are equal, the voltage converters at the output of the comparison units are zero and no load redistribution occurs.

When the number of parallel converters is changing, the number of closed contacts of the repeaters will also change. In connection with this, the voltage at the output of sensor 7 will increase or decrease, since it is inversely proportional to the number of transducers connected. The voltage at the outputs of current sensors 4, 5, 6 will change by the same amount, if the included transducers evenly distribute the load of the substation among themselves.

The use of the device at the traction substations of electric railways of constant current makes it possible to ensure uniform distribution of the load of the substation between parallelly working converter units with output voltage regulation with a small number of current measuring transformers.

Claims (3)

1. USSR Author's Certificate No. 68113, cl. H 02 J 3/46, 1966. 2. USSR author's certificate number 81227, cl. H 02 J 3/46, 1966. 3.Bazhenov S.P., Benin V.L. Automatic control in power systems. M., “Technique, 1966, p. 266-268, fig. 127.