SU529523A1 - Battery Charger - Google Patents

Description

The power capacitor is connected to an AC power source and the output diagonal is connected to a chargeable battery f 6, However, they do not provide automatic control of the battery charge process, therefore emergency operation is possible due to overcharging the battery. The aim of the invention is to ensure that the battery is effectively protected from overcharging. This is achieved by the fact that B two diodes of a full-wave bridge rectifier include diodes, and two other of its shoulders include zener diodes, and the anode connection point of the diode B forms a negative output terminal, and the Zener cathode connection point is a positive output terminal of the rectifier. The drawing shows the conventional electrical circuit of the proposed device. It contains a full-wave bridge rectifier, two arms of which include diodes 1, 2, and two other arms of its shoulders - silicon zener diodes 3, 4. The input diagonal of a bridge rectifier, in which the ballast capacitor 5 is connected, is connected to an alternating current source . The connection point of the anodes DIODOB 1, 2 forms the negative output terminal of the device, and the connection point of the cathodes of the Zener diodes 3, 4 forms its positive output terminal. The negative and positive output terminals of the device are connected to the negative and positive electrodes of the rechargeable battery, respectively, i.e. the latter is included in the output diagonal of the CC1 bridge. The capacitance value of the capacitor 5 is chosen based on the required charge current of the battery (3) according to the formula: - (MKF) g / where d is the charge current; LL is the voltage of the AC source. The stabilization voltage of the used zener diodes 3, 4 must correspond to the nominal voltage of the battery. When the alternating current source is turned on, when the capacitor 5 is charged, a direct current is established in the output diagonal of the bridge, the value of which is determined by the resistance of the capacitor 5, the battery 6 is charged with direct current -j oKH, Indeed, the zener diodes 3 4 work on the characteristic section with great resistance, since the stabilization voltage of the zener diodes is chosen according to the magnitude of the large voltage of the discharged battery. Therefore, at a positive voltage half-wave, the entire current is almost closed through the low direct resistance of diode 2, and at a negative half-wave - through the direct resistance of diode 1, battery 6 and the direct resistance of Zener diode 4, the charge current U, practically does not change the entire charge time of the battery. By choosing a capacitor 5, the required currents can be set to a wide range of values (up to several amperes), while the capacitor 5 will not be heated practically, since it is a reactive element that does not dissipate active power. When the battery 6 is charged, the voltage on it recovers and reaches a predetermined level corresponding to the voltage stabilizing the zener diodes 3, 4, the latter will break through. At the same time, the entire current for both the positive and negative half-waves of the power supply voltage passes through the zener diodes 3, 4, the current passing through the battery 6 is almost zero, t, e, the process of charging the battery is automatically interrupted. This ensures that the battery is effectively protected against overcharging. The functions of voltage rectifying and automatic control of the battery charging process are performed by the same elements, which significantly simplifies the design of the device and at the same time ensures the effective automatic control of the charging process. In the specific case of implementation, the proposed device contained diodes 1, 2 of type D 229, zener diodes 3, 4 of type 815E, the capacitance of capacitor 5 was 15 microfarads. The device was used to charge a cadmium-nickel battery at a nominal voltage of 13.5 volts at a charge current of 1a. Testing showed that the proposed device is highly reliable and completely eliminates the possibility of battery recharge. Due to the fact that in the voltage stabilization mode, the mains voltage is eliminated by the zener diodes at a low level (8-15 B), t, e, with the maximum slope of the gusoidal voltage, the stability of the output voltage with a good load capacity is achieved. Therefore, the proposed device can be used not only as a third device, but also as a simple transformer source of low stabilized voltage for power supply.

household electrical and radio equipment and in circuits with varying coagulation of nugrueki.

Claims (6)

1. US Patent No. 368О072, cl. 340-249, 1972. 2. UK patent number I5584O, cl. H 2 H, 1970. 3. US patent No. 3652915, cl. 320-31, 1972. 4. Patent of Great Britain No. 1274756, cl. H 2 H, 1972. 5. Copyright certificate №400936, cl. H 02 J 7/10, 1973 6. Orlov V. А. Small-sized current sources, Voenizdat, p. 192, 197О (prototype). 9 f-h I