DE940417C - Powerless controlled gas discharge tubes - Google Patents

Description

It is known; for the generation and amplification of, vibrations as Frequency converters, as rectifiers and inverters and for other technical purposes to use grid-controlled gas discharge tubes. Your advantage is there. in one low voltage requirement with large current output, their main disadvantage in a considerable Stress on the control voltage source, which makes wattless control impossible. The inertia resulting from the slow ion migration often has a disruptive effect the end.

Arrangements are already known in which in a glass flask there are several partitioned rooms. These are either orders in which metered amounts of gas are poured into an evacuated vessel during operation to be introduced into the actual discharge space in an adjoining space, or to arrangements in which a rectifier tube has a small-area anode and to The purpose of a full path rectification has several cathodes. There are also orders known in which gas discharge tubes are controlled by electron tubes, wherein Gas discharge tube and electron tube with the interposition of a larger number are connected to each other by switching elements.

According to the invention, the gas discharge is carried out directly via a high vacuum discharge controlled, with the anode of the high vacuum discharge the cathode of the gas discharge can form. In this case, both discharge spaces are expediently shared Tubular piston housed. Although the cathode of the gas discharge part is already through the electron stream of the high voltage discharge is heated, it can come from a special Source to be heated.

The invention gives rise to the known general properties apart from the controlled gas discharge - a powerless control of great steepness (because the control voltage increased by the Dekfironenstrom of the high vacuum discharge and the heating of the cathode of the gas charge space, which is also caused by it interact), high power output and low internal resistance, for reasons of adaptation is desired on various occasions (e.g. for power amplifiers). It just can't - as with tilt tubes - an electric surge can be triggered, but it is also one continuous control possible.

The figure shows an embodiment of the invention. The tube i contains an evacuated and a gas-filled discharge space. In the high vacuum discharge space are located, the indirectly heated cathode 2 and the control grid 3 (if necessary several grids), the anode 4 in the gas discharge space and one which may be dispensed with Grid 5. The boundary between the two spaces forms a center electrode 6, the thus at the same time as the anode of the high vacuum discharge and as the cathode of the gas discharge serves.

This center electrode can also come from its own voltage source be heated. In this case it is expediently divided into two electrically connected, however, thermally insulated electrodes are divided, one of which is heated works as the cathode of the gas discharge, the unheated one as the anode of the high vacuum @ discharge; whereby a harmful anode backheating is avoided. In the schematic illustration the external heating is omitted.

The center electrode 6 is grounded via a resistor 7. A source of direct voltage 8 between cathode 2 and earth provides the required anode voltage in the high vacuum part. The AC control voltage 9 is applied in the usual way to the grid 3; the required grid prestress is supplied by a capacitor-bridged resistor io in the cathode line.

If the grid 5 is built into the gas discharge space, it can depending on the intended use, be connected to direct or alternating voltage. Likewise can the anode 4 .from the source i i are fed with direct or alternating current. At the Anode resistor 12, the useful voltage is removed.

Claims (3)

PATENT CLAIMS: - i. Powerless - controlled gas discharge tube, characterized in that the gas discharge is continuously controlled via a high vacuum discharge which is directly connected in series with it and built into the same casing. 2. Gas discharge tube according to claim i, characterized in that the anode of the high vacuum discharge forms the cathode of the gas discharge. 3. Gas discharge tube according to claim. i, characterized in that the "cathode of the gas discharge part is externally heated. Cited publications: German Patent Nos. 532 296, 627 079, 658 48o, 7o8 54o, 589 83o, 5o6 663; Austrian Patent No. 119 78o.