DE863824C - Arrangement for operating a television image splitting tube - Google Patents

Description

863

They are television disassembling tubes of very high sensitivity known in which a first transformation of the to a translucent photoelectric Cathode thrown optical image in an electron image takes place on a very thin Semiconductor plate is produced. The potential of the different points on this plate decreases positive value that depends on the brightness of the image depends. The other side of this plate is through

ίο a · concentrated bundle of slow electrons scanned, the potential of each screen point to a, fixed, the potential of the emission cathode of the bundle returns an approximate value. The one for this neutralization of the screen unused electrons return; Z. to their Origin or are for the most part taken up by a collector, who acts as an input serves to an electron multiplier. The change in this return flow then corresponds of photoelectric modulation. This modulation is generally not very deep and the current is at the black parts of the picture highest.

The background noise proportional to this current intensity, which in the transmitted image appears as restless Background appears disadvantageously, is therefore approximate on the dark and gray areas constant and can become a nuisance.

It would be desirable to use only the modulated part of the beam, as in the Disassembling according to the type of isoscope or orthiconoscope is the case where only the change in charge the mosaic particles generate the modulation current, which is capacitive through the insulating substrate of the mosaic is removed through.

With the arrangement mentioned, this solution is not possible because neither side of the Shield can be made conductive without preventing work. A very fine one, close to the umbrella Lattice arranged on the side of the electron image could possibly serve as an organ for the capacitive coupling with an external impedance would serve, however, the transmission would the low-frequency components of the image signal at a disadvantage.

The invention makes it possible to use such a mesh electrode without thereby entering the low frequency To introduce distortion into components of the image signal, and even to transmit the direct current component of the image. According to the Finding the cathode ray beam is modulated by a voltage that has a high frequency with respect to the frequency that the limit

_v corresponds to the frequency of the image signal. The cathode beam all over the screen is accordingly modulated at the same time by the potential of the element concerned (depending on the brightness) and by the high-frequency voltage.

The result is an oscillating discharge of the element P under consideration until the potential of the surface hit disappears; this potential is calculated from the cathode of the Zefleger bundle F. For the sake of simplicity, it is assumed that, because of its conductivity and its small thickness, the volume P of the screen located under the surface affected follows these changes in potential as a whole. The grid G, which has a capacitance γ compared to P , accordingly takes on a current of high frequency which is modulated by the photoelectric effect and acts on a tuned circuit LC which has the required bandwidth and leads to a suitable amplifier.

This improvement in the operation of slow electron image decomposers allows Application of the new embodiments with scanning an electron image without the occurrence of a constant disturbing background noise, an advantage which is added to the advantages inherent in the use of high frequency are known in decomposers.

Claims (1)

PATENT CLAIM: Arrangement for operating a television image decomposition tube in which one of a photocathode electron image transferred to a screen is scanned by a beam of slow electrons, characterized in that that the one side of the having the potential relief of the electron image The electron beam scanning the screen is modulated by a high carrier frequency, while that caused by the scanning Discharge currents of the differently charged according to the brightness of the image Points of the potential relief capacitively from one arranged in the vicinity of the other side of the screen conductive mesh electrode to a connected to this, tuned to the carrier frequency Impedance are transmitted from which the output signal is picked up.