SU555502A2 - Battery Charger - Google Patents

Claims (1)

(54) A BATTERY CHARGER DEVICE and through the switching element 20 are connected to an alternating voltage source 21. In contrast to the known device, the proposed device is provided with an additional group of series-connected primary windings 22-24, which are connected to the source primary windings 17-19. AC voltage 21 through the switching element 2O performed by a two-pin. The control unit of this element is designed as an amplifier-converter 25, connected by its input to the output of the common charging current sensor 26. The ratio of the number of turns of the respective primary windings /) of each transformer is one. The device works as follows. When a control pulse is sent from the amplifier-converter unit 25, the switching element 20 connects one of the groups to the output of an alternating voltage source 21: the primary windings connected in series (either 17, 18, 19, or 22, 23, 24) . Assume that the switching element is in the position shown in the drawing. In this case, primary windings 17, 18, 19 are connected to a source of alternating voltage 21. In this case, the voltage of the power source is added to the additional voltage of the additional voltage created by the windings 17 and 11, 18 and 12, 19 and 13, respectively. On a battery charge current flows. When a control signal is applied to the connection of an additional group of primary windings (22-24), the voltage of the power source is added to the voltage-to-voltage, created by the windings 22 and 11, 23 and 12, 24 and 13, respectively. charge battery flows, the value of which is less (or more) than when connecting the first group of primary windings. By appropriate choice of the number of turns of the primary windings (main and additional), certain values of charge current pulses can be obtained. Which is adjusted depending on the output signal of the total charge current sensor 26. Sensor 26 (for example, schunt) performs a large-scale conversion of the total charge current, for example, to the voltage applied to the converter amplifier 25, which, depending on The signal level of the sensor 26 forms commands to the switching element 20. At the same time, a decrease in the signal of the sensor 26 (total charge current less than the nominal charge current) corresponds to an increase in the duration of the charge current pulses from the primary winding enshim number of turns and vice versa. Thus, depending on the signal level of the sensor 26, the duty cycle of the control pulses of the switching element 20 changes. Such control allows charging with a constant current or, if necessary, charging with a small current. This expands the range of distribution and control of the charging current. During the closure period of the key 20, i.e. at the moment of action of a charge-current pulse (regardless of which group of primary windings is connected to the alternating voltage source), the distribution of charge currents is carried out. Claims of Invention A device for charging an acumulatory battery according to the main auth. No. 512534, characterized in that, in order to expand the distribution range and regulate the charging current, it is equipped with an additional group of series-connected primary windings of transformers connected together with the main primary windings of these transformers to an alternating voltage source through a switching element, filled with two-position unit control of this element is made in the form of a converter converter connected by its input to the output of the common charge current sensor; e the number of turns of the primary windings of each transformer is not equal to unity.