DE721910C - Gas-filled discharge tubes for rectifying alternating currents - Google Patents

Description

Gas-filled discharge tube for rectifying alternating currents Der The invention is based on the object of a discharge vessel for rectifying To create alternating currents with a very low internal resistance, which is still very high Frequencies working properly. This condition is made possible by the well-known rectifier not fulfilled. The high vacuum equalizers have a high internal resistance while the well-known mercury vaporisation devices fail at high frequencies.

It is known that gas-filled discharge tubes with an auxiliary discharge as a cathode and a main discharge path with electrode spacings smaller than the free electron path have a low internal resistance and also at High frequency can be used. Such tubes, e.g. B. the so-called head current amplifier tubes, but always had a control grid. You have the distance between the electrodes Main discharge only made so small that no ions arise in the room could, as with. Presence of positive ions the necessarily negative Control grid wrapped with a layer of these ions and its controllability loses.

This motive does not apply to rectifiers without a control electrode away. As a result, the known gas-filled rectifiers have electrode gaps greater than the free electron path. That happened because the Arrangement of the electrodes at such a small distance is known with constructive There are difficulties associated with it that are not exposed to without cause.

The invention is based on the knowledge that the initially set Task can be solved with gas-filled discharge tubes, where in the room a rectifier path with only anode and cathode no ionization occurs. According to the invention, the distance between the two rectifier electrodes is gas-filled discharge tube made small compared to the mean electron free path and as an electron source for the rectifier path between an outside the rectifier section lying further electrode and the openwork Kaihode the rectifier path uses continuously passing gas discharge.

The arrangement according to the invention results in an extremely steep slope with low internal resistance. Nevertheless, the discharge in the rectifier path in all respects the character of a high vacuum discharge, so that the rectifying effect is maintained up to the highest frequencies.

In the figure, an embodiment of the invention is shown. Between the hot cathode r and the perforated electrode 2 there is a gas discharge above. The actual rectifier system consists of the electrode 2 as the cathode and the anode 3, which are in a relative to the mean free electron path length small spacing from each other so that ionization occurs between them not taking place. The discharge between electrodes z and 2 supplies the electrons for the rectifier path 2, 3. The electrons pass through the openings of electrode 2 in the rectifier path. The distance between the cathode 2 and the anode 3 is in a certain ratio to the density of the gas filling Tube. The higher the gas pressure, the smaller the mean free path becomes of electrons and thus the distance between electrodes 2 and 3. The one to be rectified AC voltage is applied to terminals q., 5.

Claims (1)

PATENT CLAIM: Gas-filled discharge tube for rectifying Alternating currents with a rectifier path with only anode and cathode, in particular for the purposes of high frequency rectification, characterized in that that the distance between the two rectifier electrodes over their entire effective area is small compared to the mean free electron path and that as an electron source for the rectifier section one between an outside of the rectifier section lying further electrode and the broken cathode of the rectifier path continuously transient gas discharge is used.