SU47374A1 - AC rectifier - Google Patents

Description

The proposed AC rectifier uses, as usual, gas discharge between electrodes placed in a rarefied gas or in metal vapors.

Its peculiarity in comparison with similar known rectifying devices is that the valve action is obtained due to the free grid located near one of the electrodes at a distance shorter than the electron mean free path.

In FIG. 1 depicts the scheme of the proposed rectifier; FIG. 2 - cascade connection of rectifiers shown in FIG. 1.

As seen from FIG. 1, the rectifier consists of a glass cylinder 7 in which there are two flat electrodes 2 and 5. At a distance of several millimeters from one of the electrodes 3 there is a grid 4. The rectifier is connected through a load resistance 5 to a transformer 8 of high voltage wives

When the electrode 2 is made cathode, the discharge is ignited unhindered, and the current flows for a half period. When the polarity changes, e. When the electrode 3 becomes a cathode, the current through the rectifier does not flow, since for

The ignition of the discharge in this direction requires an incomparably higher voltage. It must be assumed that the latter is due to the fact that the grid restricts the run-up of electrons directed to the opposite electrode. In this case, the grid is negatively charged and, thus, making it even more difficult for electrons to leave the anode surface (at the instant of time, the cathode). As a result, a valve action is thus carried out.

Turning off the rectifier can be done by connecting grid 4 with a 7h switch. Resistance 6 to electrode 2. In this way, it is easy to stop the current without external voltage applied to the grid.

It is easy to see that the proposed rectifier can also be switched on using a three-phase scheme in the same way as is done in circuits with known ionic rectifiers. However, in this case, the matter is considerably simplified due to the absence of a heat or ignition circuit.

If it is necessary to manufacture a rectifier based on the principle described above, for high voltages, cascade turn-on (Fig. 2) can easily be carried out, since again there is no heat or ignition on duty, usually used in existing rectifiers. It is possible that in this way it was possible to solve the problem of rectifying high voltage alternating current. The uneven distribution of the reverse voltage can be eliminated by applying a voltage divider 9, as shown in FIG. 2. It should be noted that since the electrical strength (reverse ignition voltage) is determined by the space around the anode (anode-grid), the height of the rectifier can be very small and, consequently, the entire cascade with a small overall height.

The subject matter of the invention.

Claims (2)

1. A device for rectifying non-transitory current using a gas discharge between electrodes placed in a rarefied gas or metal vapors, characterized by the use of a free grid located close to one of the electrodes at a distance shorter than m. 2. In the device according to claim 1, the grid is connected to one of the electrodes through a resistance, in order to turn off the rectifier.