SU1167684A1 - Device for charging storage battery by asymmetric current - Google Patents

Abstract

A BATTERY CHARGE DEVICE ASIM-, METRIC CURRENT, containing output terminals for connecting a battery, a network transformer, one secondary winding of which is connected to a charge rectifier, another connected to a stabilized power source of a multivibrator, a charging circuit connected between the harness a terminal and output terminals, a discharge circuit with an adjusting resistor, one output connected to the output terminal, and a switching node of the charging and discharging circuits on the thyristors, characterized in that To simplify and increase the reliability of the device, the charging rectifier is controlled, and the control unit is additionally inserted into the control unit of the charging rectifier connected to the third secondary winding of the transformer and the protection node on the transistor whose collector is connected to the output of the control unit of the rectifier, the base is connected to the collector of the transistor inserted into the switching node, and through one resistor to the charging circuit, and the emitters of the transistors of the protection node and switching node are connected to the charging circuit, and the equalizing electrodes of the thyristors of the switching node are connected to the multivibrator via pulse circuits, their cathodes are connected to the rectifier charging circuit, and the anode of one of the thyristors is connected to the capacitor single side, to the base of the switching node transistor and to another output the adjusting resistor, the anode of the other thyristor is connected to the other plate of the capacitor and through the third resistor to the charging circuit. O) O) 00

Description

The invention relates to electrical engineering, in particular, to the problem of forced charge of a battery as a prophylactic agent for restoring the structure of the active mass of battery electrodes by an asymmetric current. The purpose of the invention is to increase the reliability of the device and reduce the material consumption of the product by simplifying the control circuit. The drawing shows the electrical circuit of the device for charging the battery with an asymmetric current. The device contains a power supply, represented by a single-phase network transformer 1, one of the secondary windings of which is connected to the full-wave rectifier 2, and the other two windings of the transformer are connected to the phase-pulse control unit 3 connected to the rectifier 2 through transistor 4 of protection node 5, in turn connected to the switching node 6. The switching node consists of a transistor switch 7, a thyristor switch 8, forming a transistor-thyristor stage, auxiliary thyristor 9 and a switching terminal Sensor 10. The control electrodes of thyristors 8 and 9 of switch node 6 are connected by pulsed circuits through transistor switches 11 and 12 with multivibrator 13. Multivibrator 13 is made on bipolar transistors 14 and 15. For control over a wide range of period and duty cycle at small the values of the clock capacitances 16 and 17 with stable temperature stability, independent of the choice of the clock resistances of the resistors 18 and 19, field-effect transistors 20 and 21 are additionally introduced into the multivibrator circuit, the drain circuits of which are connected to the negative supply circuit of the multivibrator, and the source circuits to the bases of bipolar transistors. The gate circuits of the field-effect transistors are connected to the timing capacitors 16 and 17 and the resistors 18 and 19 of the multivibrator 13. The multivibrator is powered by a stabilized power source 22 connected to the respective secondary winding of the mains transformer 1. The magnitude of the discharge current is set by the adjusting resistor 23. Battery charge 24 asymmetric current occurs due to the automatic switching of the device into charge and discharge modes with a certain ratio of the time of the current pulse to p forward and reverse direction. The device works as follows. When voltage is applied to the mains transformer 1, a charging current pulse flows until the moment when the pulse from the multivibrator 13 arrives at the base of transistor 11, which, opening, sends a pulse to the control electrode of the thyristor 8, putting it into the open state, as a result, the negative potential is supplied to the transistor 7, which, when opened, closes the transistor 4, switching the thyristors of the controlled rectifier 2 to the closed state, disconnecting it from the charging circuit. Through the resistor 23 a pulse of discharge current flows and at the same time a charge of the switching capacitor 10 occurs. When the multivibrator 13 is transferred to another state, the pulse is fed to the base of transistor 12, which opens a pulse to the control electrode of the auxiliary thyristor 9, resulting in A positive potential from the switching capacitor 10 is supplied to the anode of the thyristor switch 8, bringing it to the closed state. With the transistor switch 7, the transistor 4 opens and the rectifier 2 is connected to the charging circuit, applying a charging current pulse to the battery 24. The self-oscillations of the multivibrator occur when the power supply to the multivibrator is supplied. At the moment of charging the capacitor 16, the charging current flows through the resistor 19, as a result of which the voltage drop with the minus sign appears on the latter, and the gate of the transistor 21 is directly conducive to the pn junction of the field-effect transistor. The input impedance of transistor 21 drops sharply, so the further charge of the capacitor is made through the input impedance of the saturated transistor 15 and the direct p-n junction of the field-effect transistor 21. At the same time as the charge of the capacitor 16, the capacitor 17 is slowly discharged through A single resistor 18 and a saturation transistor 15. The discharge current flows through the resistors, creating a voltage drop with a plus sign on the gate of transistor 20, which maintains the locked state of the transistor. During the discharge of capacitor 17, its potential tends to zero. When the gate potential of the transistor 20 reaches the threshold voltage, the transistor opens, causing the transistor 14 to open. An avalanche-like circuit breaks out process, which ends by closing the transistors 21 and 15, which causes the capacitor 17 to discharge and the capacitor 17 to charge. 14 or 15 causes the saturation of the transistors 11 or 12, which drive control pulses to the thyristors 8 or 9. At the time of the closure or entanglement of the polarity of the charging circuit during connecting to battery 24, a positive potential is applied to the base of transistor 4. Transistor 4, when closed, shuts off the pulse circuit of control unit 3 and rectifier 2 is disconnected from the charging circuit.

Claims (1)

DEVICE FOR CHARGING A BATTERY WITH AN ASYMMETRIC CURRENT, containing output terminals for connecting the battery, a network transformer, one secondary winding of which is connected to a charging rectifier, the other is connected to a stabilized multivibrator power supply, a charging circuit connected between the rectifier and the output terminals with the output terminals a resistor, one output connected to the output terminal, and a node for switching the charge and discharge circuits on thyristors, characterized in that, in order to simplify To increase the reliability of the device, the charging rectifier is made controllable, and the charger rectifier control unit connected to the third secondary winding of the transformer and the protection node on the transistor, the collector of which is connected to the output of the rectifier control unit, are additionally inserted into the device, the base is connected to the collector of the transistor introduced to the switching unit, and through one resistor to the charging circuit, and the emitters of the transistors of the protection unit and the switching unit are connected to the charging circuit, and the control elec genera thyristors node of switching over the pulse circuit connected to a multivibrator, cathodes them _and connected to the charging circuit the rectifier, SS and the anode of a thyristor connected to one plate of the capacitor, via another limiting resistor - to the base of switching node of the transistor and the other terminal of the adjusting resistor, an anode another thyristor is connected to another capacitor plate and through a third resistor to the charging circuit. SU „„ 1167684