SU539354A1 - Condenser Battery Charger - Google Patents

Description

To control the thyristors 5 and 8, a control unit 13 is used which produces pulses that are offset from each other in time.

Parallel to the capacitor battery 3, a load 14 is switched on - a pulsed light source.

A device for charging capacitor batteries works as follows.

When the thyristor 5 is turned on by a control pulse coming from the control unit 13, an oscillatory process occurs in the charging circuit consisting of inductance 4 and first thyristor 5, capacitor battery 3, and the capacitor battery 3 begins to be charged with a sinusoidal current. This current is maintained by an intermediate storage capacitor 2 charged from a constant voltage power source 1.

When the voltage on the capacitor battery 3 reaches a predetermined value, the comparison device 12 generates an impulse to turn on the thyristor 9. When the thyristor 9 is turned on, the bypass capacitor 6 begins to charge with a sinusoidal current due to the charge of the oscillating circuit, and the potential of the thyristor anode 5 relative to its cathode becomes negative and maintained for the time required to turn off, whereby the thyristor 5 is turned off, and the charge of the capacitor battery 3 is stopped for this level.

At the end of the charge of the bypass capacitor 6, the direction of the charging current is reversed, whereby the thyristor 9 is turned off, and the shunt capacitor is charged to a voltage, the level of which is determined by the capacitance value of the shunt capacitor, the energy accumulated in the inductor 4 to the moment lock the thyristor 5, and the voltage on the intermediate storage capacitor 2.

An ignition pulse is then applied to the control electrode of the load 14 of the pulsed light source, and the capacitor bank 3 is discharged to the load 14.

From the control unit 13 a pulse is turned on to turn on the thyristor 8.

When the thyristor 8 is turned on, an oscillating discharge of the shunt capacitor 6 to the intermediate storage capacitor 2 occurs.

When discharging a shunt capacitor 6 charged before a voltage greater than the double voltage of intermediate storage capacitor 2, diode 10 eliminates the occurrence of a voltage with opposite polarity on the shunt capacitor 6 and creates a circuit for the current maintained by the energy stored in the inductor 7 in the process of discharging the shunt capacitor 6. Thus, by the beginning of the next charge cycle of the capacitor battery 3, the shunt capacitor 6, regardless of the magnitude of the excess voltage, does not , Compared with double the voltage of the intermediate storage capacitor 2 is fully discharged on it and returns to the starting circuit state.

Claims (2)

1. Auth. swith USSR № 280569, M. C H N 02M 3/04, 10/03/73 g, (equivalent). 2. Auth. swith USSR № 430454, M. Kl. H 02J 7/10, 10.11.74, the (prototype).