DE742087C - Procedure for eliminating interference signals from storing image catcher tubes - Google Patents

Description

Procedure for eliminating interference signals from storing image capture tubes The invention relates to television transmission systems with image capture tubes and relates in particular to; eüi method to compensate for the use of storing Image interferences occurring.

It is known that in image transmissions. The normal use of storing image capture tubes in the received image. This phenomenon of the non-uniform distribution of the H # elli, -, 1, dts is particularly clear when the photosensitive layer is illuminated everywhere with the same brightness II. It is also known to eliminate these disturbing image errors by adding or subtracting auxiliary signals to the signals supplied by the image scanner, which compensate for the disturbing effect. This purely additive acting devices for interference signal bringing Although ge # genüber the plants Ehne interference compensation a significant advance, but they point loading in reality only a stopgap measure.

It is also known to use the mosaic windows in image storage tubes if necessary, frame appropriately pretensioned wires that are drawn from the scanning beam be painted over. Here I-lilfssi "-n-al, e can arise in the wires, which, after amplification, serve to compensate for interference signals. Through this guideline, of the wires, however, the internal structure of the image mirror tube becomes undesirable Way complicated and the number of passages through the glass bulb increased. Besides Even with this arrangement, the Störsi-2hal could only be reduced to a certain extent reduce, but never fully compensate.

It is also known to tension individual parts of the mosaic electrode in terms of DC voltage ZD 0 ZD differently from VGr and thereby compensate for the interference signal. However, in order to achieve a reasonably useful interference signal compensation, it is necessary to subdivide the mosaic electrode into many different prestressed areas, whereby the number of leads and thus the number of bushings increases, so that the manufacture of the tube is very difficult.

Finally, the proposal has become known to compensate for the interference signal in that the storage electrode is scanned in the image and / or line directions at a controllably variable speed, while a line is scanned. or an image required time so that it remains unchanged. This procedure bring., But t necessarily distortions of the image geometry with it originally used in the soft, relatively few lines containing images which, moreover, with strong other geometric "bar errors affected calves, -maren neglected. However, these are among the GeometTieverzerrungen In particular, high-line images used in television technology, which show a good image resolution and a thoroughly satisfactory image geometry, are no longer permissible.

The invention aims to solve the difficulties mentioned above to avoid and to achieve an interference signal compensation with minimal effort and an image signal free of interference signals at the output of the image catcher tube to obtain, so that the arrangement of a special compensation: mixer stage itself unnecessary.

According to the invention, for Störsig., Nalbe -seiti-uDg with storing Image capture tubes used a method in which the scanning electron beam an intensity control acting in the opposite, opposite sense of the interfering signal is experienced. It is useful to measure the modulation of the electron beam scanning the storage electrode with the help of a control electrode, preferably by means of the Wehnelt cylinder, to stir, - gn. For this purpose, the beam modulation electrode is supplied with a modulation voltage, which is advantageously generated with the aid of signal generators, their outputs are mixed with each other via control elements.

The method according to the invention is particularly advantageous in the case of image storage tubes with secondary emission, which has a built-in multi-stage secondary emission control stronger contained, at the output of which image signals of large amplitude are picked up. Since the interfering signals in the secondary emission amplifier are also amplified vde the actual image signals, auxiliary signals would have to be used to compensate for the interference signal superimpose very large amplitude in opposite phase. So it would be necessary to use these auxiliary signals only in special multi-stage amplifiers to the required high amplitude to bring before a compensation of the interference signal is possible.

In the following, the invention is described with reference to the figure representing an embodiment. The object to be remotely transmitted is optically imaged with the aid of optics 2 on the memory, dktrcid.e3 of an image capture device4 and an electrical charge image corresponding to the brightness distribution of the object is produced there. The charge stored on the storage electrode is removed with the help of an electron beam which is generated by a beam generating system consisting of the cathode 5, the Wehnelt cylinder 6 and the anode 7 and is moved line by line over the storage electrode under the action of the deflection voltages applied to the pairs of electrodes, e8 and e . The Wehnelt cylinder 6 is supplied via the line io or a mixing device ii connected to it, possibly also serving for coupling, with signal-C, of suitable shape and frequency. their phase position and amplitude like this. are dimensioned so that the interfering signals usually occurring at the output of the image capture tube disappear as a result. The auxiliary signals are generated with the help of small generators 12, 13, 14 and 1 5 , which z. B. generate sawtooth curves of line frequency "alternating frequency e according to KuTvei2a and line frequency ge-according curve 13" as well as half sine waves of line frequency according to curve i4a and line frequency alternating frequency according to curve 15a. Furthermore, a controllable modulation device 16 is provided in order to modulate the amplitude of the sawtooth oscillations generated by the generator 13 in the rhythm of the line train alternation frequency, that is to say proportionally to the amplitude of the signals shown in curve 12a.

In. certain cases, especially when the interfering signal has a large amplitude possesses, so that to compensate for the interference effect of the scanning Eldk-tronenstrahl must be modulated relatively strongly, it is advisable to use at least one im In the course of the image amplification path, the amplifier stage can be regulated and trained the gain # as a function of the level of the compensation voltage required in each case to control. This ensures that the gradation curve of the received image practically the same for all places in the image field and independent of the one in question Position of the image characteristic interference signal amplitude or that for compensation required amplitude, which is the modulation voltage.

The causes of the disruptive efect have not yet been fully clarified; It is presumably caused by an irregularity in the space charge population developing in the vicinity t 't' of the storage electrode 3. This uneven distribution is likely due to the heavy field. of the earth as well as of the discharge of each one. Memory elements arising from potential leaps. Often there is an interference effect - as shown in FIG. 2 d. H. with evenly exposed Speech electrode z. B. the area in, near the left and the upper edge of the image field is illuminated brighter than the area (ch in the vicinity of the other two edges. Z-around Au% -equ mixed and pressed onto the Wehnelt cylinder 6.

Claims (2)

PATENT CLAIMS: i. Procedure for interfering signal detection with storing Image capture tubes, characterized in that the scanning electron beam is a undergoes intensity control acting in the opposite sense of the strength signal. 2. The method according to claim i, characterized in that the amplification of at least one amplifier stage serving for the transmission of the image signals is controlled in such a way as a function of the amplitude of the respective compensating modulus spamun #, - that the gradation curve for the received image is practically independent of is the level of the respective a% -elegated compensating madulation tension. 3. Arrangement to perform the method according to Claims and 2, characterized in that the compensating modulation voltages used for modulating the scanning beam are supplied to an electrade used for beam concentration, preferably the so-called Wehnelt cylinder. In order to distinguish the subject of the application from the state of the art, the following publications have been considered in the assessment procedure: German patent specification ....... No. 5 12 644, 665 701, 681 002, 665 700; French patent 834 768; British 454 486.