DE901447C - Discharge tubes with discharge bundled to form an electron beam - Google Patents

Description

Discharge tube with a discharge focused to form an electron beam The invention relates to a discharge tube which is bundled to form an electron beam Discharge, including in particular Braun tubes for television purposes, cathode ray oscillographs, Electron microscopes, photocells and fluorescent tubes include.

It is assumed that such a discharge tube has a an electrode consisting of a current-permeable resistance layer. According to According to the invention, it is proposed that the current-carrying layer be on the inner wall of the discharge vessel. By such an arrangement, the occurrence of uncontrollable and annoying wall charges, which arise when a Set tube wall made of insulating material, prevents. So far such Wall charges can only be prevented by making the walls conductive but with the equipotential surface connected to this layer, the course of the field was co-determined inside the tube.

If the tube wall is made of insulating material, it can can even be used as a carrier of the layer. The desired course of the field lines can either by spatial variability of the sheet resistance or by suitable Shaping of the resistance carrier or the layer carrier can be achieved.

To the potential of the electrode body in two or more places determine, this has a corresponding number of power supply lines. For practical purposes% earth the current-carrying electrodes to the current itself To keep them small, they must have a high resistance. So either bodies come made of a material of high resistance or conductive layers on an insulating Material in question.

With Braun tubes, cathode ray oscillographs and electron microscopes it is generally important to produce a field curve, the electron lens represents. This lens has the task of an electron source, e.g. B. the cathode or an object irradiated by electrons or ions onto a fluorescent screen or map a catcher. In the case of the electron microscope, an enlarged one, in the case of Cathode ray oscillographs produce a reduced image. At the For the latter, this image is used to generate a sharp focal point.

Such a field course in which it primarily depends on the presence approximately spherical potential surfaces arrives, can be with the help of current-carrying Electrodes which are attached to the inner wall of the discharge vessel according to FIG Realize the invention easily. The course of the field concentrating the electron beam is expedient by appropriate shaping of the inner wall of the Braun tube or by making a layer of locally variable resistance. A layer of locally variable resistance can be created by adding a reach suitable concentration body.

In the same way, to produce the field of the deflection plates, in which there is an exactly homogeneous field or a field of such a form that strict Proportionality is guaranteed, according to current-carrying electrodes apply the invention.

The invention can also be used in high voltage technology, when it comes down to it, precisely defined fields at certain points in the isolation to obtain. This is not the case when using materials that are as highly insulating as possible Quite possible, since undefined charges occur along these substances sets the course of the field that cannot be foreseen, which may lead to rollover can lead. However, the use of conductors of very low conductivity allows the course of the field at certain points on the insulator or on its entire surface to define and in particular to keep high electric fields from such places, where flashovers are feared.

Now if you have a body with high resistance, for example a thin metallic layer applied to the insulating wall of a tube, so the voltage drop is thus continuously distributed along the tube; to a Such a tube can then be applied with very high voltages.

Claims (3)

PATENT CLAIMS: i. Discharge tube with an electron beam bundled discharge (Braun tube, cathode ray oscillograph, electron microscope), which contains an electrode consisting of a current-permeable resistance layer, characterized in that the current-carrying layer on the inner wall of the Discharge vessel is attached. 2. Discharge tube according to claim r, characterized in that that the layer is applied to the insulating wall in such a way that the voltage drop is continuously distributed along the pipe. 3. discharge tube with baffles, characterized in that the deflection plates are resistive bodies through which current flows or resistance layers are formed.