RU1781767C - Device for charging of cell with asymmetrical current - Google Patents

Abstract

Usage: for charging asymmetric current batteries used in motor vehicles. SUMMARY OF THE INVENTION: The device consists of a diode and a resistor connected in series. The diode is shunted by a series-connected capacitor and resistor. The resistors are made in the form of incandescent lamps, the operating modes of which are selected so that they act as current stabilizers. 1 s.p. f-ly, 1 ill.

Description

A device for charging batteries with an asymmetric current is known, comprising an alternating current source, a half-wave rectifier, a series resistor and a capacitor connected in parallel with the rectifier.

The disadvantage of this device is the need to use large capacitances to provide the required current amplitude at a low voltage source, which leads to an increase in the overall dimensions of the device.

The proposed downsizing device is further provided with a resistor. The resistor is connected in series in the circuit of the shunt capacitance.

The drawing shows a schematic diagram of the described device.

The device consists of an AC source U1, a diode VD capacitance C. resistors R1 and R2. The alternating voltage is connected to the contacts X1 and X2, and the rechargeable battery G to X3 and X4 in compliance with the indicated polarity.

In the half-cycle of the voltage corresponding to the conductivity of the diode VD, the charging current is determined by composing the resistor R1, the magnitude of the AC voltage U1, and the degree of charge of the battery G, i.e. his emf.

In another half-cycle, the battery current, which is discharged, is determined by the total value of the resistance of the resistors R1 and R2 and the reactance of the capacitor C.

Thus, an alternating current with different amplitudes during the period flows in the battery circuit.

By selecting voltage U1, capacitance ratings C, and resistors R1 and R2, the relationship between the positive and negative current amplitudes can be adjusted to obtain the optimum charge mode.

Joint venture

WITH

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 About vj

The introduction of the resistor R2 in the circuit of the capacitor C provides a reduction in the ripple of the variable component on the capacitor C, which allows the use of capacitors with a lower operating voltage. This leads to a decrease in the overall dimensions of the device and an increase in the reliability of its operation.

In addition, taking into account that the values of the resistors R1 and R2 are selected from the condition RKR2, it is possible to change the resistor R2 to independently regulate the amplitude of the discharge eye.

To improve the performance of the charge-discharge device, current stabilization is used. In the proposed device for stabilizing the amplitude of the charging current is carried out due to the well-known dependence of the resistance of the conductor on temperature, for which the resistors R1 and R2 are made in the form of incandescent lamps, while the rated voltage of the alternating current supply is chosen so that the lamp operating current corresponds to the temperature of their heating in the range of 800-1000 ° С. The fact is that for

conventional incandescent lamps (evacuated with a tungsten filament) non-linear dependence has a maximum slope in this temperature range.

Claims (2)

1. A device for charging a battery with an asymmetric current, comprising input terminals for connecting an alternating current source, output terminals for connecting a battery, and resistors and a half-wave rectifier shunted by capacitance connected in series between the input and output terminals, characterized in that, for the purpose of downsizing, a resistor is connected in series in the capacitance circuit. 2. The device according to claim 1, with the fact that, in order to improve the quality of the charging process, the resistors are made in the form of incandescent lamps, while the parameters and voltage of the ac the incandescent lamps are selected from the condition of heating the filaments to a temperature in the range of 800-1000 ° C.