SU951663A1 - Device for charging reservoir capacitor - Google Patents

Description

one

The invention relates to a pulsed technique and can be used to power high-powered pulsed power consumers.

A device for charging a storage capacitor is known, which contains a low-voltage DC voltage source that is connected through a switching element to the primary winding of a transformer, the secondary winding of which is connected through diodes to a My storage unit Cl

The disadvantages of this device are the difficult working conditions of the switching element, due to the high and amplitude of the voltage arising on it, which is especially noticeable when using the device - with a large stored energy, part of which is dissipated in the switch 20.

The closest in technical essence to the invention is a device for charging a storage capacitor,

containing a source of constant voltage, a two-winding inductively connected energy source, the primary winding of which is connected to the source of additional voltage through a switching element, and the secondary winding to a storage capacitor. To facilitate the operating conditions of the switching element, reactive and active elements 2 are included in the primary circuit of the inductive energy storage device.

The disadvantage of this device is the presence of additional energy losses in the primary circuit, as well as increased weight and dimensions due to the need to use additional elements in the primary circuit.

The purpose of the Invention is to improve efficiency and reduce the size of the device.

The goal is achieved by the fact that in a device containing a constant voltage source, in parallel with which are connected in series the primary winding of the inductance pinch51 and kszhmutiruyushshiy element, and the secondary winding of the inductive storage accumulator is connected via a rectifying diode to the voltage – disconnecting device. which is connected between the pop-up pole of the power source and the junction point of the storage capacitor and the secondary winding vnogo accumulator which s, with the cathode dopsgashtepnogo diode, the anode of which is connected to the junction of the primary winding of the inductive storage element and kommutiruyuschegche.

The drawing shows the electrical circuit of the proposed device.

The device contains a source of constant voltage 1, a switching element 2, an inductive drive 3 with a primary winding 4 and a secondary winding 5, a step-down diode 6, a storage capacitor 7, an additional storage capacitor 8, an additional diode 9.

The device works as follows.

When a constant voltage source 1 is connected to the primary winding 4 of the inductive storage device 3 by the switching element 2, the primary winding 4 begins to increase the current flowing through the power supply: the source pole 1, the primary winding 4 of the inductive storage device 3, the switching element 2, the source minus one.

After disconnecting the primary winding 4 of the inductive capacitor 3 by means of the switching element 2, the energy stored in the primary winding 4 of the inductive storage device 3 is transferred to the additional storage capacitor 8 by depi: primary winding 4, additional diode 9, additional storage capacitor 8, primary winding 4 and electromagnetic way in dakogshtelny capacitor 7 through the secondary winding 5 and diode 6.

The maximum voltage at the commutation element 2 is determined by the magnitude of the voltage on the additional storage capacitor 8, and all the energy stored in the primary winding 4 of the inductive storage device 3 is transferred to the storage capacitors 7 and 8.

In order to provide the possibility of the full return of the energy of the storage capacitors 7 and 8, the consumer needs to ensure the equality of their electrical contamination, which is achieved by appropriately selecting the parameters of the device.

Thus, the proposed device ensures the full utilization of the energy of the inductive storage device 3 and limits the voltage growth at the switching element 2, which leads to an improvement in the mass-energy characteristics of the device.

Claims (2)

1. The patent of Germany No. 1933535, cl. H 03 K 3/53, 1972. 2. The patent of Germany M (2O34148, cl. N OZ K 3/53, 1974. (prototype). J s W