SU30756A1 - Device for converting direct current - Google Patents

Description

The invention relates to a device for converting a direct current of a single voltage p a direct current of a higher voltage using overvoltage on the circuit breaker for charging a capacitor through a rectifier.

Usually, a direct current source is closed through a self-induction, resistance, or without resistance to a special current interrupter. At the moment of current interruption at the terminals, the chopper causes overvoltage. The faster the current interruption, the greater the overvoltage. The interrupter is shunted by a capacitance connected in series and a device passing current only in the direction. When the current in the first circuit (voltage source circuit) is broken, an overvoltage occurs at the terminals of the chopper, which is discharged through the common shunt circuit: through the device passing current only in one direction and capacity, resulting in charging the shunt capacitor to the voltage equal to or slightly lower than the surge voltage. The plates of this capacitor are a source of overvoltage. In order to avoid wasting energy in the first circuit, we need to make current breaks in the first circuit more often and more sharply.

The essence of the invention is

(225)

In that, in order to increase the speed of the opening and use the incremental increase in voltage due to a decrease in the capacitance of the npHi chopper, the ion charge lamp was used as the chopper; with magnetic control.

In the drawing of FIG. 1 shows a schematic of a convertible device; FIG. 2-another performance of it.

The low voltage source is connected through a jet coil L. and the resistance R (they may in some cases be absent) at the clamps, the chopper R. One clamp of the chopper is directly connected, and the other through the rectifier V to the plates of the capacitor C, charging . high voltage V-, From these plates, increased voltage V-i is removed for use (e.g., to supply X-ray tubes, etc.).

As a current breaker P, an ion discharge tube with two cylindrical coaxial electrodes placed in a coil L-i. ,, serving to create an alternating magnetic field H is used. The principle of operation is the same as in already known devices of this type. The difference in. Its effect is to use the suitable features of the discharge: ion tube as a breaker.

The peculiarity of the operation of an ionically operated magnetic control device is that the overvoltage arising upon the cessation of a current has its source not only the energy stored in the self-induction of the circuit, but also the energy of the volume charge, which changes at the time of the current termination, since the capacitance of the presetter itself varies. These changes in capacitance are of a very rapid nature, since the velocities of motion of new and electrons are very large in a rarefied space at high voltages, which one has to deal with: the case. The experience with the ion tube showed that when the tube was supplied with a constant voltage source of up to 2000 6, voltages occurred at the tube clamps corresponding to a spark gap of 6-7 cm, which indicates a large overvoltage, in all cases more 10 -20 short.

In some cases, in order to obtain a possible rapid rise, the magnetic field is switched on between points, an additional coil L in series with the chopper tube P. so that when current flows through the tube, the magnetic field of coil 4 increases the magnetic field of coil LI and thereby rather interrupts through the tube. In this case, in the coil L there may be direct current, not alternating current, since the change of the magnetic field will occur due to the change of current in the coil L. The tube is placed in the magnetic field of both cat: Z.2 and Li necks.

When it is desirable to obtain the most abrupt cessation of current and to minimize the time during which tube P conducts current, a switching circuit is possible, as shown in FIG. 2, in which two ion tubes P and P3 are connected in series, and the magnetic control is carried out by the coil 3 A series connection of gas gaps aims to further increase the overvoltage, which will take place with an appropriate selection of magnetic fields and their phase due to the fact that the individual elements of a complex tube will have a higher voltage; this will cause a greater speed of electrons and ions and will lead to a more abrupt cessation of current, and, consequently, to an even greater overvoltage.

The subject matter of the invention.

Claims (2)

1. A device for converting a direct current of a single voltage into a direct current of a higher voltage using overvoltage at the terminals of the chopper for charging a capacitor through a rectifier, characterized in that in order to increase the speed of opening and use an incremental increase in voltage due to a decrease in the capacity of the chopper when current is stopped, an ion discharge lamp with a magnetic control is used as the chopper. 2. In the device according to claim. 1 the sequential inclusion of two interrupters. Fig2