SU486407A1 - Device for charging battery with direct current - Google Patents

Description

one

The invention relates to the charge of accumulator batteries with a current of constant magnitude.

The known device for charging a battery with direct current, containing an alternating current source, an inductive-capacitive converter connected between the source and the full-wave bridge rectifier, the output diagonal of which is connected to the battery, is not reliable enough in operation, because eliminates the possibility of overvoltage in the circuit and does not provide the necessary current stabilization, especially in the case of using a source with a rectangular form of voltage.

In the proposed device, in order to eliminate these disadvantages, an inductor-capacitor converter choke is connected between one of the source terminals and the terminal of the diagonal of the bridge rectifier, the other terminal of which is connected to the second terminal of the source through a converter capacitor, and the capacitor reactance at the source frequency four times the resistance of droplets.

FIG. 1 shows the scheme of the proposed device; in fig. 2 and 3 - variants of the device; in fig. 4 - graphs of currents and voltages on various circuit elements in relative values (for the base value the received amplitude of the voltage source OO E, and for the base current / d / csr is the average value of the converter current in the short circuit mode of its output). The battery 1 is charged with a continuous current from an alternating current source (terminals 2 and 3) through a dual frequency converter, since the linear choke 4 has a reactance that is four times less than the resistance of the capacitor 5, and a two-period rectifier 6, the diodes 7-10 of which are connected under the bridge scheme.

FIG. 2 shows a device variant with a simplified (half bridge) rectifier.

(Diodes 7 and 8 form a bridge together with two sections of battery 1) for a pulsed charge AB.

FIG. 3 shows a circuit with a controlled rectifier (diodes 8, 10 and thyristors 11,

12), the charge in which can be terminated at any time by removing the signal from the controlled electrodes of the thyristors 11, 12.

Consider the operation of the device in steady state. The diagrams of current and voltage changes on individual elements of the charging device are shown in FIG. 4. The abscissa axis represents the phase angle values & - (jikt, where sol is the angular frequency of natural oscillations of the LC circuit

twice the frequency of the source.