DE691425C - Saving image catcher tubes - Google Patents

Description

Storing Image Capture Tube It is already a television scanning tube has been proposed in which a mosaic line of p capacitance elements as a storage electrode is used. Furthermore, a tube has become known in which one of a line-shaped Electron beam emanating from the photocathode onto a line-shaped storage electrode is thrown: With these tubes there is the disadvantage that the amount of electricity stored because of the much shorter storage time compared to flat storage electrodes is generally too low to generate sufficiently strong image signals, if the primary electron beam is directed directly onto the storage electrode is.

According to. the present invention avoids this disadvantage. that.that of :. The electron bundle emanating from the Phötbkathode is shown in one plane in which a secondary emitting electrode corresponding to an image line is arranged whose Sekilndärdmission- is transferred to the Speirh: erelekirode.

The plane on which the photoelectrons are imaged can contain an electrode, -the. has a slit the size of an image line so that the electrons fall through this slit onto the secondary emitting electrode. Another possibility is that the electrons hit a secondary emission electrode, the dimensions of which already correspond to an image line. The electron beam emanating from: the photocathode is preferably deflected across the slit or the S.ekwdäremissions@eleldrode at an image frequency, so that one after the other all image. lines are transferred. Appropriate t @ r @ i @ l- between photocathode and secondary emission 13% one electrode with an opening made of ferromagnetic material », Diaphragm arranged to shield the electrons emanating from the secondary electrode from the deflection fields.

The invention is explained in more detail with reference to the drawing, in which the FIGS. I and 2 each represent an exemplary embodiment. Inside the tube i of Fig, r is designated with 2 the photocathode on which an image of the object to be transferred or 'process is thrown. The electrons generated there are against an electrode 3 accelerated from suitable highly permeable material -and by not shown Medium focused so that an electron image is created in the plane of electrode 3, which corresponds to the optical image on the photocathode. The electrode 3 has a slot-shaped opening q. on. The electrons passing through them are noticeable an electron permeable; secondary-emitting electrode 5: those produced there Secondary electrons are applied to the storage electrode by means not shown 6 bundled <When the tube is in operation, that generated in the plane of the electrode 3 is generated Electron image by means not shown in the direction across the slit q. diverted; so that one after the other the electrons of each picture line of the photocathode 2. fall on the secondary electrode 5 and the intensity of the on the storage electrode '6- control the generated charge image. The storage electrode is connected to the cathode system 7 originating cathode ray scanned. The image signals can be in Way to be derived.

In the case of the tube according to FIG. Z, the width of the opening q: is significantly greater than that of an image line. Some of the electrons penetrating through the opening fall on the secondary electrode 5, which is arranged precisely in the opening and has a width corresponding to a line. The slow secondary electrons are mapped onto the storage electrode 6 which, as in FIG > -tthodenstrai: l is cut off. The fast ones i the opening q. flying primary elec- en are made by the electron optics in h en part of the tube is not affected and -8c t do not hit the storage electrode.

With both arrangements, one can be at a certain potential Grid between cathode 7 and storage electrode 6 close by. the - the latter arranged are to avoid disturbances of the charge image on the storage electrode by the scanning beam to prevent. The scanning beam then scans through the openings of this grid. away. '

Claims (1)

PATENT CLAIMS i: Storing image capture tube in which the to be sent The picture as a whole is thrown onto a photocathode and the one corresponding to this picture Emission distribution is mapped into a second level, characterized in that that in each case one line of this electron image on a line-shaped, a multiplication causing secondary emission electrode hits; of which then the greed triggered Secondary electrons impress the storage electrode. 2: device according to claim r, characterized in that the imaging plane is one with one of the image lines represents the corresponding opening provided electrode, behind which the secondary emission electrode is located. 3., device according to claim 2, characterized in that. the opposite the imaging plane arranged on the photocathode an electrode made of magnetomagnetic, is highly permeable metal. q ,. Device according to claims t to 3, characterized in that that the axis of the imaging system of the photocathode coincides with the axis of the imaging system the storage electrode forms such an angle that the secondary emitting Electrode missing electrons fly past the storage electrode.