SU586446A1 - Device for supplying single-phase active loads - Google Patents

Description

The invention relates to the field of electrical engineering and can be used to supply single-phase resistive loads of neipemeny current, in particular electrothermal installations.

Devices are known for supplying single-phase electropro | installations from a three-phase AC network, containing for each phase of a load a capacitor battery and a choke C equal to the network impedance at the frequency of the power supply connected to M, and with the primary winding of the matching transformer IB star il.

The disadvantage of these devices is the inability to control the current of the transformer. This imbalance is eliminated in the known device 2, which is closest to the invention and contains for each phase of the load a capacitor battery and a choke with equal at the frequency of the supply network reactive resistances connected to the primary winding of the matching transformer in the star.

These devices are hiring wide applications in (Industry for powering electrical installations that require a high degree of current stabilization. However, these devices provide a symmetrical loading of the phases of the supply network only in the nominal mode and do not provide power stabilization in the wide range of load variation.

The purpose of the invention is to expand the range of load balancing of the phases of a three-phase mains supply and to stabilize the power released in the load over the entire range of variation of the load resistance.

This goal is achieved due to the fact that the device for supplying single-phase resistive loads from a three-phase network is additionally equipped with a zero-potential sensor, a comparison unit, a reference unit and a block 5

control of the transformation ratio, where the output of the zero-potential sensor is connected to one of the inputs of the comparison unit, the second input of which is connected to the reference unit, and the output of the comparison unit is connected to

the input of the transformer ratio control unit, the output of the matching transformer connected to the kits;

In the case of a three-phase network with a neutral line, a zero-potential sensor is connected between the neutral of the supplying three-phase network and the zero point of the Star of the source.

In the case when there is no neutral three-phase supply network, or it is not possible to connect a zero sensor to it

potential, the latter is connected by a pair of al3 winding of the primary matching transducer of the transformer. The drawing shows a circuit diagram for supplying single-phase resistive loads. The device contains a matching transformer 1, a capacitor battery 2, a choke 3, a source star zero point potential sensor 4, a block is compared 5, a task block 6, a Uiravlein block 7 by a transformation transformer ratio, a resistive load 8, a switching device 9. The block 6 is connected with one of the inputs of the comparison unit 5, the second input of which is connected, with the sensor 4 of the potential of the zero point of the source star. The output of the comparator unit 5 is connected to the input of the transformation ratio control unit 7, and its output is connected to the switching device 9 of the matching transformer 1. The source star point zero potential sensor is an isolation transformer, the comparison unit 5 can be performed on series-connected resistors, the unit task 6 is in the form of a DC source, the transformer ratio control unit 7 of the transformer is a power amplifier, switching device 9 is known standard switch with an optional drive motor, ocyniectllyuyu switching current levels. The device works as follows. By connecting the sensor 4 of the potential of the zero point of the source star between the neutral three-phase supply network and the zero point of the source star, task block 6 generates a signal equal to twice the phase voltage. This signal is fed to one of the inputs of the comparison unit 5, and to the other its input is supplied the output signal of the sensor 4 of the potential of the zero point of the source star. In the case of the equality of these signals to the comparison unit, at its output a signal equal to zero is obtained. When the load resistance 8 is changed, the error signal from the output of the comparator unit 5 is fed to the input of the transformer control unit 7 of the transformation coefficient, which acts on the switching device 9, which changes the transformation ratio to the equal position of the two signals: the comparator unit 5. In the second case, when sensor 4 P0 | zero-point potential of the star of the brush is connected in parallel to the primary winding of transformer 1, the device operation is similar to that described, however, the signal from the output of the task block setpoint, equal to three times the value of the phase voltage. Thus, both in the first and in the second case of connecting the sensor 4 to the zero potential of the star's zero point of the source, in a wide range of variation of the load resistance 8, the amplitudes of the linear currents of the supply network are constant, and the output power of the IB load is constant 8. Formula and 3 Ib and 1. A device for supplying single-phase resistive loads from a three-phase network, containing a star-connected choke, a capacitor battery and a matching transformer with taps, characterized in that Measuring the operating mode of the power supply when the load resistance changes, it is additionally equipped with a zero potential sensor, a comparison unit, a task unit and a transformation ratio control unit, the output of the zero potential sensor connecting to one of 1 inputs of the control unit, the second input of which is connected to the unit task, and the output of the comparison unit is connected to the input of the transformation ratio control unit, the output of which is connected to the tapes of the matching transformer. 2. The device according to claim 1, characterized in that the zero potential sensor is included between the neutral of the three-phase network and the zero point of the indicated star. 3. The device according to claim 1, characterized in that the zero potential sensor is connected parallel to the primary winding in accordance with loop-1, its transformer is a torus a.