SU807447A2 - Device for parallel power supply of load - Google Patents

Description

The invention relates to the power supply of electrical circuits and the distribution of electrical energy and can be used in the power supply of three-phase alternating current loads, mainly of the first category, the power supply of which does not allow even short breaks. According to the main author. St. No. 653682 describes a device for parallelly supplying loads from n power sources of three phase currents connected to load buses through an isolation unit that contains n three-phase transformers, the primary windings of which are intended to be connected to thyristor power sources whose cathodes are connected to the terminals of each the phases of the secondary winding of the transformers, and the anodes - to the corresponding load buses, successively connected diodes and resistors, included between the control electrode of each thyristor and rugim terminal of the transformer secondary winding and srugih diodes connected in antiparallel to each thyristor TlJ. However, in this device, when powering large loads, when it is necessary to use high-power thyristors, there is a decrease in the angle of transmission of the thyristor and distortion of the shape of the load current curve due to the delay in unlocking the thyristor by the control necessary for increasing the current to the unlocking value, as well as significant current control, causing a loss of electricity for heating the resistors in the control circuit, which, in turn, requires additional power. costs for their cooling. These disadvantages are interrelated, since an increase in the transmission angle of the thyristor 1 requires an increase in the control current, and a decrease in the control current increases the delay in unlocking the thyristor and reduces the transmission angle. The effect of these disadvantages is the loss of electricity.

The aim of the ionization unit is to reduce the losses of electric energy.

This goal is achieved by haeming that capacitors inserted into the control circuit of each TyrosVopa in series with a resistor, and additional diodes connected between the thyristor cathode and the anode of the diode met the same, are introduced into the system ..

The drawing shows a diagram of a device for parallel power supply of a load from two sources of three-phase alternating current.

 The device consists of two three-phase transformers I, connected to different sources of alternating current, resistors 2 and 3 with diodes 4- and 5 connected to them, which are the control elements of thyristors 6 and 7 of diodes 8, which together with thyristors 6 and 7 uncoupling units, which are connected through the corresponding bars 1 load 10.

Capacitors 11 and 12 provide a low-rise control current, and full-anode 43 and 14 are needed to discharge capacitors.

The device works as follows.

At the beginning of the positive half of the vacuum in each phase, through the condensate 12, the resistor 2, the diode 4 and the control electrode of the thyristor 7, the control lead current flows, which reaches the unlocking value with the minimum voltage across the thyristor 7 and opens it. The load current flows through the cyode 9.

The reverse half-wave of the current capacitor 12 and resistor 2 is passed through an additional diode 13.

At the moment when the voltage passes through zero, the thyristor 7 is locked.

Similarly, the device operates at a negative voltage half-wave. In this case, the control current flows through the capacitor 11, the resistor 3,

the diode 5 and the control electrode of the thyristor 6, which opens, and the load current flows through the diode 8, the reverse half-wave of the current through the capacitor 11 and the resistor 3 is passed through an additional

diode 14.

With the disappearance of the voltage on one or all phases of the major power source, the diodes 8 and 0 are closed, the control current of the thyristors 6 and 7 is absent, and the thyristors do not open, which prevents power from flowing from one source to another voltage in the load from the second source .

As a result of the inclusion of a capacitor and an additional diode in the thyristor control circuit, the control current is accelerated and it reaches the unlocking value at a lower voltage across the thyristor. This

switching on also reduces the average value of the control current and the loss of electricity on the resistors.

Claims (1)

1. USSR author's certificate No. 653682, cl. H 02 J 9 / O6, 1977.