DE739882C - Opposite television arrangement using the light spot on the screen of a Braun tube for scanning - Google Patents

Description

Opposite television arrangement using the light spot on the screen a brown eyed tube for palpation. to the Light beam scanning method; worked. The movement of the point of light comes z. B. comes about by the fact that the tube on the screen of a Braunscheu tube according to the usual Abtasts.chema moved light spot of constant brightness by means of an optical System is mapped to the level of the person to be transferred. At this scan there is now the inconvenience that the person never looks at the screen of the scanning tube looks like it for a look that really is the. personal impression of the Televised interviewer should be required, but their gaze must point at the special receiving tube, because it only drags the other caller able to see. Both of the most common up to now: the person became. Therefore always seen obliquely from the side or from below or above. Same downside exists in the case of light beam scanning carried out by mechanical means.

It is already known to direct the beams of the image splitting device past the receiving device onto the object to be recorded in order to avoid this disadvantage. Such an arrangement, however, has proven itself in the case of counter-viewing systems with brown shyness. Tubes because of the relatively large length of the tubes not.

Ice is also known to be caused by controlled (gas discharges in e.g. Meandering curved fluorescent tubes combined to form a screen in opposite viewing systems to generate a received image and the same arrangement after switching; as a constant Light source for. -to use the scanning of the person to be transferred. This transmission method but has the disadvantage that the transfer always only in one direction: can be done so that the person whose image is transmitted not at the same time the image of the other television talk bucket can see.

The above-mentioned disadvantages are eliminated with the invention. this happens because the screen is a single Bra.lmschen tube both for image construction of the received image as well as to generate light for scanning. For this purpose, zones, in particular lines, alternate on the screen for scanning and the image structure. By means of optical aids, for example a subdivided one Optics with different focal lengths, on the one hand, the scanner becomes sharp depicted in the level of the person to be transferred, on the other hand an equal-> early observation of what is written on the other strip of the fluorescent screen Received image made possible by the same person.

An example of this solution is described in the following: The The luminescent screen is subdivided into numerous strips i (vg1. The drawing, which alternate have different lighting properties. If, for example, 9o lines are to be used, so: the luminescent screen receives i So stripes, 9o of which are used for the composition of the image, the remaining 9o are used for scanning. So every stripe of one group is from two strips from the other group!

With this arrangement it is possible to use two cathode rays, one of which produces the constant light spot on the 90 scanning lines, while the other produces the received image in the other 90 lines. However, the same beam can also be used both for recording the received image and for scanning. In this case, the beam alternately receives a constant intensity for the scanning in interruptions at a pixel frequency, while the pulses of the received transmission are fed to the Wehnelt cylinder in the intermediate pauses. In order to then always direct the constant light spot onto the light strips provided for scanning and the modulated spot onto the light strips provided for image construction, the image change deflection is superimposed on a pixel or higher frequency deflection acting perpendicular to the line direction. The beam then oscillates back and forth during its path along the lines at a very high frequency over two adjacent strips.

A certain difficulty arises: from: that the constant Light spot must be imaged in the plane of the person 2 to be sent. The need a real image requires the insertion of an optical system between person and Tube, the distance between them must be at least four times the focal length f be. On this, however, a viewing of the received image through the scanned one is quiet Person no longer possible without further ado, as either a real picture at least 25 cm distance or the reception image viewed directly or through a magnifying glass must become. With both possibilities: the condition is that the real image is in the plane of the person and at least 4 f from the fluorescent screen, not compatible.

This difficulty is caused by a combined optics that are two different Has focal lengths, fixed. Either two legends next to each other, beispi, elscveise semicircular lens systems are used, or the two systems «-grounds Strips into one another, as shown in the optics 3 of the drawing is. One of the two systems serves as a viewing lens, the other as Image Lingsoptik.

Another solution to the problem is that of projection Optics that are separate from the Braunsehen tube are not used, but rather: a Lens grid, which is in the immediate vicinity of the piston, conveniently directly on the Piston crown, is attached. This grid consists of numerous, e.g. B. circular, square or preferably hexagonal small individual lenses, each of which is the closest Point of the luminescent screen and its surroundings real in the plane of the scanned Person depicts. The images of the points of light depicted by the individual lenses form then in turn a grid lying in the imaging plane. Since now never all of the light emanating from the lenses of this luminescent screen in the associated Pixels is united, but part of the light is lost as scattered light, the scattered light can be used according to the invention for this purpose, your viewer that to make the received image visible.

A modification of this arrangement is that the lenticular is replaced by numerous lens strips, each in front of the one for scanning provided light strips are located. The strips lying between them for the image structure are not provided with: an optics.

Instead of a screen with different luminous properties for the different purposes of image reproduction or scanning, a uniform luminous layer can also be used, in front of which a light filter consisting of numerous strips is placed. For the scanning, for example, a little disturbing to the eye, z. B. blue or ultraviolet light can be used, while the received image appears white or m a clearly visible color. The image impression is then not disturbed by the scanning light.

It may also be possible to use different colors for the scan and the image structure with the same luminous substance by changing the image point frequency to generate the jet speed. Because it is known; that some phosphors change in luminous color when the beam speed changes. The change the jet speed can be changed by changing the anode voltage or at Use of a tube with post-acceleration also by controlling the fluorescent screen potential be effected. In the case of bursting, @es will generally be required, too to change the deflection fields with the same frequency, since these are now unevenly Electron speed are traversed. The electron optics (concentration voltage) may have to be adjusted at high frequencies.

So that the scanning process is not caused by the received image: diffuse lighting; is disturbed, it is expedient in relation to the reproduced Image used with very bright scanning light spot. On the other hand, this can be used when viewing the image can cause significant interference. In this case one would leash in proportion Use weak scanning light spot for image brightness and as compensation: the Change the sensitivity of the photocells in time with the corresponding frequency these are insensitive during the recording of the received pixels. to for this purpose a z. B. rectangular suction voltage used, the the photocell releases when the beam is scanned and it blocks when the image is taken is being built. The secondary photocell can also be modulated in time with the switching pulses be made.

Claims (9)

PATENT CLAIMS: i. Opposite television arrangement using the light spot on the screen of a Braunschein tube for scanning, characterized in that; measured the luminescent screen of the Braunscheu tube both for building up the received image and , also serves to generate light for scanning by creating zones on this screen, in particular lines, for - the scanning and the image recording alternate and through optical means, for example optics divided into different focal lengths, on the one hand, the light grid used for scanning is sharp in the plane of the Bieoba: chters , is shown, on the other hand, attention to the other strips of Luminous screen written image is possible by the observer eTm @. 2. Arrangement according to claim i, characterized in that the zones or lines of the luminescent screen alternately have different light properties or that with the same light properties all zones or lines are arranged according to subdivided light filters. 3. Arrangement according to claims i and 2, characterized in that, ß the same Beam both generates the scanning spot and reproduces the received image, by @er in time with the switching to display the image through a perpendicular frequency acting on the line direction, e.g. B. with pixel frequency, is controlled, which moves him back and forth between two adjacent stripes, and that he corresponds calculating, alternating with constant intensity brightness, controlled or with is modulated according to the image brightness values. q .. Counter television arrangement using of the light spot on the screen of a Braunscheu tube for scanning, characterized in that that the luminescent screen of the Braunische tube is used both to build up the received image as well as to generate light for the scanning by placing the Luminous substance in its color, e.g. B. by changing the jet speed, in the cycle of switching from scanning to image construction and changed by optical Means. On the one hand, the light grid used for scanning is sharp in the plane of the Observer is depicted, on the other hand, Leine contemplation of what is written on the screen Image is made possible by the observer. 5. Arrangement according to claim i to q., characterized in that the optics consists of two lens halves lying next to one another Insufficient focal length exists. 6. Arrangement according to claim i to 4, characterized characterized in that two lens systems of different focal lengths @ correspondingly the division of the luminous iris are inserted into one another in strips. 7. Arrangement according to claims i to q., characterized in that in the immediate vicinity of the screen or on the screen wall itself as imaging optics Lenticular lens is arranged, of which each individual lens is a point of the luminescent screen images in the Abtas, t level, while the scattered light is used for image reproduction. B. Arrangement according to Claims 1 to 7, characterized in that ß the scanning light spot has a low brightness in relation to the reproduced image, for this but the sensitivity of the photocells in time with the switching from scanning to Playback is changed. 9. Arrangement according to claims i to 8, characterized by two cathode rays, one of which generates a constant light spot for scanning, while the other reproduces the image to be received. To distinguish the subject of the application from the state of the art, the following were considered in the granting procedure: German patent specification ...... No. 61o 943; British - ...... - 371612; "Television and sound film" 1931, p. 67.