DE1277901B - TV adapter tube - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

LIBRARY

OF THE GERMAN

PATEHTAMrES

Int. CL:

HOIj

H04n

German class: 21 al-32/35

Number: 1277 901

File number: P 12 77 901.0-31 (N 27855)

Filing date: January 7, 1966

Opening day: September 19, 1968

The invention relates to a television pickup tube for converting imaging radiation in the visible part of the spectrum in electrical signals that a translucent glass front wall Contains, on the inside of which a photosensitive layer is applied. The invention is particular here important in relation to vidicon-type pick-up tubes; H. Pick-up tubes where the photosensitive layer is a photoconductive layer, the surface of which is facing away from the end wall can be scanned by an electron beam from an electron gun mounted in this tube is produced.

When viewing color television pictures one often sees that certain areas of the picture make one feel have an unnatural hue, that of the color of an adjacent, differently colored area with not too small dimensions. This effect that is most easily related to flesh-colored areas are noticeable is all the more disturbing, the more the color reproduction of the image increases closer to reality. With black and white television, a similar effect in the form of "graying" can occur. can be found, but this effect is generally less disturbing when there are no spots are available with a high level of light. The perceptibility can be increased by increasing the black level reduce this discoloration effect, but this is at the expense of the reproduction of the white areas.

The fact that when using Vidicon tubes with an essentially lead oxide, in particular photoconductive ones consisting to a considerable extent of its tetragonal, red modification Layer such an unnatural dyeing apparently occurred to a greater extent while such tubes are moreover particularly suitable for true-to-life color reproduction Color television technology, led the inventors to suggest that this effect was due to halation could be returned, d. H. to stray light caused by internal reflections in the glass front wall of the tube. In this case, the fact that the tinting effect could occur a vidicon with a photoconductive layer of lead oxide emerged more clearly, easily explained by this that such a lead oxide layer, if you pass it through the glass front wall of the tube underneath Considered normal daylight conditions, a more or less intense orange-red sight offers, which indicates that this layer is particularly effective in this region of the visible spectrum TV pickup tube

Applicant:

N. V. Philips' Gloeilampenfabrieken,

Eindhoven (Netherlands)

Representative:

Dr.-Ing. H.-D. Zeller, patent attorney,

2000 Hamburg 1, Mönckebergstr. 7th

Named as inventor:

Edward Fokko de Haan,

Johan Haantjes, Eindhoven (Netherlands)

reflects a not inconsiderable part of the light received by it.

Halation is well known in photographic and it was 20 or more years ago also with cathode ray tubes for image reproduction, in which an electron scanning beam is aimed at one strikes a fluorescent screen attached to a glass front wall of the tube, perceived in the Shape that the light of the resulting light spot where it is at angles that approximate equal to the critical angle of total reflection or even greater than this, on the outer surface of this Wall falls, is reflected to the screen and a circle of light surrounding the light spot, which as Haloring is called, generated. At the time, several pointers were made to overcome halation made with such cathode ray tubes, but if not all, then most have found no entry into the practice. One of these suggestions was optical thickening the glass front wall, either by making the tube with a sufficiently thick Front wall was provided, or in that on the outside of the front wall a relatively thick layer of a material that has a low refractive index Dimensions differ from that of the glass from which the front wall is made. Such an additional Layer could be made of a translucent liquid or a plate or the like made of solid translucent Material, e.g. B. glass or plastic exist.

809 617/374

3 4

The aforementioned presumption of the invention has been found to be correct in the form of a pick-up tube according to the invention, and the invention consists of the tube of the Vidicon type shown.
correspondingly in that the halo effects in the The in the single figure of the drawing dargläsernen front wall of television recording tubes provided television tube has a vented on what is in this case for practice completely an- 5 cylindrical glass bulb 1, which at one end through acceptable way a sufficient increase is a glass bottom 2 and is closed at the other end by one of the thickness of the front wall 4 made of glass, which is flat in front of the photosensitive layer. Are reduced in the located optical material. Electrical connection pins 3 are located on the bottom 2

According to the invention, a television recording is taken which, within the tube with the various tubes of the type mentioned at the outset, draws elements of an electron beam generation characterized in that the outside of the end wall is connected in a known manner to a cemented, connected to an electrode structure 6. are light. The system 5 consists of an indirectly permeable solid body, the heated cathode 7, a control electrode 8 and a refractive index of the solid material and the perforated anode 9. The electrode structure 6, cement in a manner known per se, approximately 15 that forms a second anode , consists of that of the end wall and wherein the fixed hollow, essentially cylindrical part 11, the body in the projection, covers a considerable part of the end facing the end wall 4 with a photosensitive layer, with conductive ring 12 being provided to which a wire of this body is attached to the periphery with a light-absorbing mesh electrode 13. The various EIerenden material is provided, while the overall ao elements of the electron gun 5 and thickness of the end wall and the body is so large, the second anode 11 are aligned by glass support members that light passing through this body and this end 10 in relation to each other ,
wall enters the tube and on the photosensitive The inner surface of the end wall 4 is reflected with a thin layer, then when it is provided under a transparent electrode 15, which forms the angles that form the critical angle of the total signal electrode of the tube . Approach this electrode reflection, again on that of the end wall 15, which falls in a known manner from a thin layer facing away surface of this body, can consist of conductive tin oxide, is reflected in such directions that there is a connecting wire 16 made of platinum which is intercepted by the peripheral surface of the body and passing through the cylindrical part 1 of the tube. 30 extends through. Outside the tube is the wire

The invention is particularly advantageous for over- 16 with a conductive ring-like coating 17 twisting unnatural color effects in the case of the bound, z. B. a burned-on silver coating, the use of receiving tubes with a half-mounted on the TeE of the tube, on which the conductive storage electrode made of lead oxide. Therefore, the end wall 4 merges into the cylindrical part 1,
According to the invention, in a preferred embodiment 35 Inside the tube is a signal electrode surface of the glass end wall of a tube from the electrode 15 which extends over the guide shape of the body on the outer and inner surface of the end wall 4. Type attached, this tube being brought on that can be photo-scanned by an electron beam 19 on the inner surface of this end wall with a focus-guiding layer provided on this layer 18, which is essentially 40 siert and generated by the beam generating system 5, consists of tetragonal red lead oxide, and this The scanning movement and the focusing of the elec-layer in normal daylight an orange-red electron beam 19 takes place through the tube 1 to show its appearance. giving focusing and scanning, not shown

Furthermore, the circumferential surface of the body can coil.

45 The photoconductive layer 18 consists essentially of absorbing material Material attached to it is a borrowed from lead oxide (PbO), which becomes a considerable matted Show appearance. borrowed part in the form of the red, tetragonal modifications

According to a further development of the invention, the cation can be present. The proportion of this red tetravon The gonal modification in the impact layer 18 facing away from the aforementioned glass front wall can Surface of the body with an anti-reflective 50 should be close to 90 ° / o. Layer 18, the one the coating can be provided. uniform thickness on the order of 5

For a television tube with a circular end wall up to 30 microns, preferably 20 microns, can be formed according to a configuration that can, preferably by condensation, is the invention of the vaporized lead oxide cemented centrally on the end wall onto the inside of the forehead solids from a circular Disk formed 55 wall 4 applied. When the layer 18 is seen through the diameter between that of the end wall 4, it has an orange-red knife below the end wall and two-thirds of the end wall through normal daylight conditions, the peripheral surface of this disc appearing, which means that for this part des and the part of the outer surface of the end wall, the visible spectrum, the layer 18 is not covered by this pane to a considerable extent, with a 60 borrowed part of the light falling on it is reflected. Layer of a light-absorbing material The television tube described is covered, while the total thickness of the forehead is essentially the same as that of the wall under the brand name "Plumbicon" and of the disk-shaped solid body from NV Philips' Gloeilampenfabrieken, at least one third of the diameter Disk hoven, the Netherlands, is manufactured and marketed. ~ ':. ~' .. ■ - .. 65 brought tube. ".""

The invention is described below with reference to the above-mentioned relatively high level

Drawing explained in more detail, in which schematically a reflectivity of the photoconductive layer 18 Longitudinal section through an example of a television can at the. usual thickness of about 1.2mm the

End wall 4 bring about a halo effect in the image, which is made with the help of this recording tube signals obtained is reproduced is clearly noticeable. This halo effect is due to that on the photoconductive layer 18 reflected light when it is at angles that are the Approach critical angle of total reflection, falling on the outer surface of the end wall 4, to the photoconductive Layer 18 is reflected. The radius of the halo ring is known to be

ίο

R = 2 / itgsin- ¹

where h is the thickness of the glass front wall and η is the refractive index of the glass. When η «ί 1.5, is

sur

45 °

and thus R ? » 2h. For the mentioned wall thickness of about 1.2 mm, R is about 2.4 mm, so that a large amount of the light totally reflected on the front surface of the end wall reaches the photoconductive layer again within the image area, ie within the area scanned by the electron beam 19 photoconductive layer 18, which is 16 x 12 mm in the tube described.

In order to avoid such a disruptive halo effect at least to a considerable extent, the tube is provided with a circular disk 20 made of transparent glass with a refractive index of approximately 1.5. This disc 20 is centrally located with respect to the end wall 4 and is cemented to the front surface of the end wall by means of a thin layer 21 of clear, translucent cement of a type generally used for cementing the components of an optical lens system. The layer 21 is preferably made of a material manufactured and marketed under the trademark "Lensbond type M 62" by Summers Laboratories Inc., Fort Washington, Pennsylvania, V. St. A. B. occur when the tube is transported by air across the North Pole, maintains a desired compliance. The peripheral surface of the disc 20 and the part of the front surface of the end wall 4 which is not covered by the disc 20 and the opaque ring-like coating 17 are provided with a layer 22 of light-absorbing material, e.g. B. with blackboard lacquer or a lacquer commonly used to blacken the inner parts of photo cameras. Preferably, the peripheral surface of the disc 20 is matted, e.g. B. by etching. The front surface of the glass pane 20, ie the surface facing away from the end wall 4, is provided with a conventional anti-reflective coating 23 which preferably maximally reduces the reflection of the light originating from the scene to be recorded. The coating may be such that maximum reflection reduction is achieved in the red, green and blue portions of the spectrum for pick-up tubes for receiving the red, green and blue television signals. The diameter D of the disk 20 must of course be so large that the disk effectively covers the area of the photoconductive layer 18 which has to be scanned by the electron beam 19 and which, as mentioned, is 16 × 12 mm in the case described. In the embodiment described, the diameter D is about 22 mm (but it can of course be larger) and is thus equal to about three quarters of the inner diameter of the tube 1. The total thickness d of the disc 20, the cement layer 21 (whose thickness is normally negligible) and the The glass end wall 4 is such that the greater part of the light reflected from the image surface of the photoconductive layer 18 and then on the front surface of the pane 20 does not reach the photoconductive layer again because this light is intercepted and absorbed by the peripheral surface of the pane 20.

In the exemplary embodiment described, the thickness of the glass pane 20 is 6 to 7 mm, but it can of course be made slightly larger. It has been found that a thickness of 6 mm is very satisfactory in practice. Since the thickness of the end wall 4 is approximately 1.2 mm, the total thickness d is approximately 7.5 mm, which means that the radius of the halo ring is approximately 15 mm, ie almost equal to the length of the scanned area of the photoconductive layer 18.

The pane 20 is preferably made of clear, i.e. colorless, glass. However, it should be recognizable be that the disc can optionally consist of colored glass, so that the as an optical filter that only allows a certain part of the spectrum to pass.

In the exemplary embodiment described, the glass pane 20 is circular. Obviously one can other shape can be used, provided that the pane in the projection at least part of the photoconductive layer 18 covered, which is scanned by the electron beam 19. The disc 20 can, for. B. from the Rectangular, hexagonal, or any other suitable shape when viewed from the front.

Claims (5)

Patent claims: 1. Television pick-up tube for converting image-forming radiation into the visible Part of the spectrum in electrical signals with a translucent glass front wall on top of which inner surface a photosensitive layer is attached, characterized in that that the outside of the end wall (4) in a known manner with a cemented, translucent solid body (20) is provided, wherein the refractive index of the solid material (20) and the cement (21) in a manner known per se is approximately the same as that of the end wall (4) and wherein the solid covers a considerable part of this photosensitive layer (18) in the projection, this body (20) being provided on the periphery with a light-absorbing material (22), while the total thickness of the end wall (4) and the body (20) is so great that light that passes through this body and this end wall enters the tube (1) and on the photosensitive layer (18) is reflected when it is at angles which are the critical angle of total reflection approach, falls back onto the surface of this body (20) facing away from the end wall this is reflected in such directions that it is through the peripheral surface of the body (20) is intercepted. 2. television pickup tube according to claim 1, characterized in that the body (20) on the outer surface of the glass end wall (4) of a tube of the Vidicon type is cemented, this Tube (1) provided with a photoconductive layer (18) on the inner surface of this end wall (4) , which consists essentially of tetragonal, red lead oxide, and this layer (18) in the normal Daylight shows an orange-red appearance. 3. television pickup tube according to claim 1 or 2, characterized in that the peripheral surface of the body (20) is slightly roughened, so that before the light-absorbing material (22) is attached to it, shows a matted appearance. 4. TV recording tube according to one of the preceding claims, characterized in that that the from the glass front wall (4) the surface of the body (20) facing away from it is provided with a reflection-reducing coating (23) is. 5. Television pick-up tube according to claim 2 with a circular end wall, characterized in that the solid body (20) cemented centrally on the end wall (4) is formed by a circular disc, the diameter (D) of which is between that of the end wall (4) and two thirds of the end wall diameter, the peripheral surface of this disc and the part of the outer surface of the end wall which is not covered by this disc being coated with a layer (22) of a light-absorbing material, while the total thickness {d) of the end wall (4) and of the disk-shaped solid body (20) is at least one third of the diameter of the disk. 1 sheet of drawings