SU448515A1 - Device for charging battery with asymmetric current - Google Patents

Description

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The invention relates to the electrical industry.

The known device for charging a battery with an asymmetric current, containing a three-phase alternating current source, a three-phase magnetic amplifier, capacitance and a rectifier, does not provide a sufficiently wide range of charge mode changes and requires the use of special switching devices discharge current.

In the proposed device, in order to eliminate these drawbacks, an electrical capacitance is included in one of the phases of an alternating current source in series with two working windings of a three-phase magnetic amplifier connected counter-parallel to each other, one third of which is connected to the second phase of the source through a valve, and the battery The battery is connected between the third phase of the source and the junction point of the capacitance and the cathode of the valve in the circuit of the working winding of the magnetic amplifier of the second phase Shl.

The drawing shows the scheme of the proposed device for charging a battery with an asymmetric current.

The device consists of a three-phase current source 1 with phases A, B, C, a charging circuit valve 2, an electrical capacitance 3 and a three-phase magnetic amplifier 4 with self-magnetization, including three operating windings Wp, control winding wy, gates 5 and 6 to provide self-magnetization of cores, (Valve 7 and rheostat 8 in the control circuit.

The device works as follows.

The average value of the charging current is determined by the current of the valve 2, and the amplitude of the discharge current is determined by the current of the capacitor circuit 3. By selecting the phase angles between the voltages of these circuits, the currents tc and / y relative to each other can be shifted, thus changing the forward and reverse current batteries.

The amplitudes of the charge and discharge current are controlled by a magnetic amplifier. It is controlled by a rheostat, which changes the value of the control current iy, due to the Wy emf induced in the winding. mutual induction.

When powering the device for charging from a three-phase current source, it is possible to connect to a source with a direct phase order (A-B-C) or with a reverse order (A-C-B).

When connecting the phases of the source, respectively ABC, in part of the current shaft of the valve 2, the capacitance current is discharged and

in the predominant part of the closed state, the valve 2 is charged. The higher the ratio between the amplitude of the voltage of the capacitor circuit and the emf. batteries, the greater the duration of the charge current relative to the discharge current.

When the source phases, respectively BA-C, are connected in the current interval of the valve 2, the capacitance current to is also charging, and in the predominant part of the closed state interval of the valve 2, it is a discharge. Therefore, the ratio of the duration of the charge current to the length of the discharge current is lower here than in the case of the direct order of the phases.

The magnitude of the charge current and the amplitude of the discharge current are regulated by a magnetic amplifier. The change in the magnetic state of the cores is effected by applying a rheostat 8 to the magnitude of the current ty. due to induced in the winding Shu emf mutual induction: the smaller the resistance value of the rheostat 8, the greater the current r. and, therefore, to a greater extent, the mode of operation of the magnetic amplifier is shifted to the region of saturation of the magnetization curve of the cores. An increase in the magnetic saturation of the cores causes an increase in the currents in the circuits of the valves 2, 5 and 6.

The regulation of the charge mode of battery batteries in the proposed device can be implemented by all types of three-phase serial magnetic amplifiers.

Subject invention

A device for charging a battery with an asymmetric current, containing a three-phase AC source, a three-phase magnetic amplifier, capacitance and a rectifier, characterized by

the fact that, in order to provide a wide range of variation of the charging mode and contactless control of the parameters of the charging and discharge currents, the electrical capacitance is included in one of the phases

an alternating current source in series with two working windings of a three-phase magnetic amplifier, which are counter-parallel to each other, between windings, one third of which is winding

through the valve is connected to the second phase of the source, and the battery is connected between the third phase of the source and the junction point of the electrical capacitance and the cathode of the valve in the working winding circuit of the magnetic amplifier of the second phase.

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