DE720886C - Braun tubes, especially for television purposes - Google Patents

Description

Braun tube, particularly for television use The invention relates to .A Braun tube, especially for television purposes, provided in what means are, for the purpose of intensity control, the beam initially parallel to itself move, at one point of the part of the track that has been shifted parallel to the Norinal track to a fraction dependent on the control voltages: fade out and then to steer back into normal orbit.

The per se known principle of light control on which the invention builds up, is that a located between the cathode and baffles Part of the beam shifted parallel to itself, at one point on the beam path, which has a parallel shift against the normal path, by masking devices controlled in its intensity and then steered back into normal orbit and that the double parallel displacement using purely electrostatic Means done. The normal path is understood to mean that beam path which the beam would describe if no special means of moving it would be provided. The standard, alb'ahn can expediently as in the known arrangements coincide with .the tube axis. Such a light control allows. control the point brightness from deep darkness to the maximum achievable brightness, without changing the position of the pixel.

Similar types of deflection systems are already known, however If the beam experiences either an angular deflection instead of a pure parallel shift, or a greater number of baffles are required for the same purpose.

The invention relates to a Braun tube of the type indicated above Kind in which for the parallel displacement and the return deflection of the electron beam an electrostatic three-plate system is provided, the middle plate of which an opening for the beam to pass through,. and at what means provided are to connect the .two outer plates with a potential, that of the speed corresponds to the electrons at the location of the three-plate system, as well as means to the middle Plate a positive bias voltage compared to the outer plates and the control voltages to feed.

The masking device itself can in one embodiment of the Tube according to the invention within a concentration field, for example in one at negative voltage compared to the last electrode passed through by the beam lying cylinder. The entire control arrangement thus consists of three elements, the one generating the first parallel shift three-plate system, the masking device expediently arranged in a concentration field and the three-plate system generating the second parallel displacement (return steering system). All of these elements can be placed in a single tubular container which has shields at both ends as well as inside, which are provided with the smallest possible openings at the points where the beam passes through are. By assembling the lighting control system in this way into a single component the technical structure of the tube is made much easier. In addition, the Lichtsteueranordnun; g at the same time that the direct cathode light from the luminescent screen is kept away.

In the figures are two embodiments of the invention Tube shown, namely Fig. I shows a tube system in which the parallel displacement generating three-plate systems with a flat middle plate. are formed while in Fig. 2 the three-plate systems have a cranked middle plate.

In Fig.i i means the broken-off drawn glass vessel of the Braun tube, 2 a cathode with a hollow cone-shaped emission surface, 3 the for example metallic tubes forming the container of the light control device, q. and 5 the three-plate systems, T8 the masking device consisting of a diaphragm with a triangular opening, for example. Due to the shape of the aperture As is known, the control characteristic can be given a desired shape will. 17 is the one that generates the concentration field, at a negative potential, for example Zoo Volt, opposite the last electrode through which the beam passed located cylinder, which is isolated from the tube 3 and for example can be held in it by means of a holder i9. The triplet systems q. and 5 consist of the two on the one corresponding to the speed of the beam electrons Plates 6 and 7 or 6 'and 7' as well as the middle plate 8 or 8th'. These middle plates have a wide passage opening marked with a dashed line and have a positive bias e.g. B. from 15o to zoo volts against the outer panels which can be generated by means of the battery 22, for example. In series with the battery 22 is the control voltage symbolically represented as a generator 23. It is sufficient for the complete control of the tube with the appropriate training and dimensioning the masking device i8 a voltage of about 10 to 20 volts full the end.

Around the plias reversal tube required in some cases for generation Being able to omit a positive image can, as it is also known, the passage opening of the diaphragm i8 symmetrically to an axis perpendicular to the deflection direction of the beam.

The three-plate systems are by means of the shielding plates 9, 1o, 15 and 16, which are provided with the beam passage openings 12, 11, r and 14 and are insulated against the middle plates 8 and 8 ', against each other and against the rest System parts shielded so that edge field effects are completely avoided. At the same time, these shielding plates shield the direct cathode light causes.

In Fig. 2, the middle plates 8 and 8 'are cranked plates educated. In this way it is possible to increase the system width without reducing the Significantly reduce sensitivity and achieve that the beam without the smallest stripes through the systems q. and 5 can pass through. The corresponding Parts are labeled accordingly in Fig. 2. 2q. and 25 are the downstream ones Baffles.

The level of the required pretensioning of the middle plate depends on the design of the three-plate system as well as on the anode voltage. In any case, it can easily be determined experimentally. Particularly expedient has a bias voltage of 150 to 200 volts result in an anode voltage of about 2000 volts, when the three-plate systems do Fig i as follows are measured. Panel length 1 of 5 mm, width of the center plate slit 5 mm, plate distance: 2 mm, distance of the systems from each other 10 mm, total length of the light control system 40 mm, length of the concentration cylinder 6 to 8 mm.

In the arrangement with cranked plates as shown in Fig Distance between the cranked: middle plate and the one outer plate to i mm and the distance between the middle plate and the other outer plate should be measured at 2 mm.

It is essential that both systems are completely symmetrical and that the corresponding plates of the two systems are at the same voltages. When dimensioning the panel systems, it is always advisable to use the panels if possible to be kept short as the control sensitivity, i.e. H. the Size of Beam shift, from the »Light« setting to the »Dark« setting at Increase in system length .decreases.

The mode of operation of the arrangement according to the invention is as follows: The coming from the .Kathode 2 and expediently by a relatively low Potential pre-anode pre-accelerated beam occurs on the normal orbit through the opening 12 of the shield 9 into the space between the plates 7 and 9 of the first displacement system, is due to the positive bias of the Plate 8 through the opening in the middle plate into the space between the plates 8 and 6 bent in and leaves this space parallel to the normal path through the opening ii of the shield io, then passes through the concentration cylinder 17 and the Masking device 18 through and through the opening 13 into the space between the Plates 6 'and 8' of the system 5, is here due to the positive bias of the plate 8 'through the opening of this plate into the space between the Plates 8 'and 7' bent in and leaves the room through opening 14 of the shield 16. Since the systems 4 and 5 are arranged in a mirror-inverted manner and symmetrically in the field are - d. H. So, the plate spacings and lengths are the same and on the two Middle plates 8 and 8 'are the same tension and the outer plates 6 and 7 or 6 'and Y are also at the same voltage - the Beam the system 5 on a path that is the extension of the entry path in the system 4 represents. But since it all depends on the plates 8 and 8 '- with otherwise the same conditions - are at the same potential and the absolute size of this potential is the direction of beam exit in is not affected in any way, it is readily apparent that a ray shift does not occur, regardless of whether the in series with the positive bias of the Plates 8 or 8 'lying additional light control voltage is o or ao volts. By the control voltage applied to the plates 8 or 8 '. is therefore only causes the distance between the part of the ray that is shifted parallel to the normal path 26 opposite the middle plate 8 depending on the light control voltage changes. If a masking device is arranged in this path 26, it is shifted the beam changes when the light control voltage changes as a function of the same along the masking device, so that different sized parts of the same through the Masking device can be passed through. The tube according to the invention can on can be provided with one or more anodes in a manner known per se, for example such that an anode between the cathode and the light control arrangement and the second, appropriately located at a higher potential anode between the light control device and baffles are located.

Claims (1)

. PATENT CLAIMS: i. Braun tube, especially for television purposes, in which means are provided to initially shift the beam parallel to itself for the purpose of intensity control, to mask it out at a point on the part of the path that is parallel to the normal path to a fraction dependent on the control voltages and then to direct it back into the normal path, - characterized in that an electrostatic three-plate system is provided for the parallel displacement and the return movement, the middle plate of which has an opening for the beam passage, and that means are provided to connect the two outer plates to a potential equal to the speed of the electrons corresponds at the location of the three-plate system, as well as means for supplying the middle plate with a positive bias voltage compared to the outer plates and the control voltages. z. Braun tube according to Claim i, characterized in that the masking device consists of a diaphragm provided with a beam passage opening, the opening of which is designed according to the desired control characteristic. 3. Braun tube according to claim 2 characterized in that the opening of the diaphragm is symmetrical to an axis perpendicular to the deflection direction of the beam. 4. Braun tube according to one or more of the preceding claims, characterized by such a design and arrangement of the masking device and the adjacent electrodes and such a choice of the electrode voltage that the masking device is operationally within .eines concentration field. 5. Braun tube according to claim 4, characterized in that the masking device is arranged within a cylinder and that means are provided to give the cylinder a negative bias against the electrode last traversed by the beam. 6. Braun tube according to one or more of the preceding claims, characterized in that the two systems causing the displacement are provided with shielding plates which have passage openings for the beam. 7. Braun tube according to one or more of the preceding claims, characterized in that the two systems effecting the displacement and the masking system arranged between them are combined to form a structural unit. S. Braun's tube according to claim, characterized in that the given systems are also used with the systems mentioned. if the existing 1-axis concentration system is combined to form a structural unit. 9. Braun tube according to one or more of the preceding claims. characterized in that the two systems causing the displacement, the blanking device and the concentration cylinder are arranged in a common holding tube. zo. Braun tube according to one or more of the preceding claims, characterized in that the masking device is provided with heat-dissipating means, for example with a solid metal holder with ribs or the like.