SU744933A1 - Device for charging capacitive power accumulator - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used in high-intensity power devices. SOURCE of light, used in light-signal equipment, for pumping lasers, and so on.

A device for charging bone energy storage devices is known, which comprises a variable voltage circuit with a throttle included.

A disadvantage of the known device is the large value of the consumed current. At the same time, the installed powers of the key, elements and transformers significantly exceed the average power.

The closest technical solution to this invention is a device for charging a capacitive energy storage device containing a constant voltage source, a voltage converter, whose current is connected to a constant voltage source, and the output to a bridge rectifier, current limiting transistor and capacitive energy storage.

A disadvantage of the known device is that under certain modes of calculating the BT, the power, weight and dimensions of the transformer increase, in addition, the presence of N electronic switches, N switching diodes and current-limiting droplets in the circuit increases the weight and dimensions of the charging device of a capacitive energy storage device.

CEUCHY invention is to reduce the weight and size of the device.

Claims (1)

This DCL is achieved by the fact that in a device for charging a capacitive energy storage device containing a constant voltage source, a voltage converter whose input is connected to a constant voltage source and an output to a bridge rectifier, current-carrying transistor and a capacitive storage device. energy, voltage converter and bridge rectifier & l are made in the form of Vi converting and rectifying circuits, the input terminals of the converting 11 cascades are connected in parallel, and the output clips are connected to the input of the corresponding rectifying cascade, the outputs of all the rectifying cascades of the connectors are connected in series through the current limiting transistor of the connecting transformer. to capacitive energy storage. FIG. 1 shows a circuit diagram of the device that is proposed; in fig. 2 - time diagrams of the voltage at the output of the transducers, the voltage at the capacitive energy storage (UQ) and the current-limiting transistor (b The device contains a source of constant voltage 1, And the transducer of the cascades 2-1. .., 2 P, Y rectifier 3-1, the capacitive energy storage 4 and the current-limiting transistor 5 (Fig, 1), the device operates as follows. After the next discharge of the capacitive energy storage 4 at the time (fig, output voltage rectifying cascades 3-1 ,,., 3- i for some time Then there is a voltage equal to the time bW NnQKC where I. is the number of charge stages. At the moment-t., accumulate capacitive 4 Engy of the voltage and the entire voltage BV.ay.c txvtv and. is applied to the current-limiting transistor 5, then as the capacitive energy 4 is charged, the voltage on the current-limiting transistor 5 kills, becoming equal to O at time -tj. At this point, the output voltage of the rectifying stages 3-1 .. ,, 3- 7 7 4 is increased by and this voltage is again applied to the current limiting 11. its transistor 5. py processes are repeated at increasingly increasing values of voltage on the capacitive storage device 4, and DC power voltages output rectifying stages OJJJ,). However, the difference of these voltages does not exceed. Art. At the moment -fe., The capacitive energy storage 4 is discharged to the load and pro-; The process in the device is repeated. The implementation of a device for charging a capacitive energy storage device makes it possible to reduce the weight and size by simplifying as well as reducing the installed power of the transformers and converter keys. Apparatus of the Invention A device for charging a capacitive energy storage device containing a constant voltage source, a voltage converter whose input is connected to a constant voltage source, and a voltage input to a bridge rectifier, a current-limiting transistor and a capacitive energy storage device differing from In order to reduce the mass of the n dimensions, the voltage converter and the bridge rectifier are made in the form of h converter and capacitor stages, the input terminals of the converter stages are connected in parallel The output terminals of all the rectifying stages are connected in series and through the current-limiting transistor to the sub-capacitive drive are energized.