DE1514825A1 - Cathode ray tube - Google Patents

Description

". Cathode Ray Tube" The invention relates to a cathode ray tube with a glass front panel forming part of the vacuum wall, a phosphor layer is arranged on the inner surface and for the purpose of achieving it an increase in contrast in extraneous light one that increases the absorption capacity Has coloring, it is known to consist of glass, and the fluorescent layer The supporting front pane, also called picture window, can be colored in a gray tone in order to reduce the light transmission of the windshield to generally about 50%. Such colored windshields have a contrast-enhancing effect, what on it is based on the fact that incident from the outside must pass through the windshield twice and is thus absorbed more strongly than that emanating from the phosphor screen Radiation. So far you have one for the windshield. colored glass used in the The top view had about a gray color and its absorption curve at wavelengths of about 450 and about 570 m / u showed higher values than other "Iellenlangens The usual phosphors have radiation maxima when excited with an electron beam at about 450 and at about 5'70 m / u on "That means that the colored glass the windshield in its .Absorptionskurve has its maxima there, where also the radiation curve of the phosphor has its maxima. 'becomes disadvantageous enpfund that to achieve a sufficient brightness of the luminescent screen relatively large beam currents are required, whereby on the one hand the sharpness of the reproduced image and, on the other hand, the life data is reduced will.

The task for. present invention is a novel To provide a cathode ray tube with an improved front panel made of glass. According to the invention, it is proposed that the front panel in the wavelength ranges in which the phosphor layer an increased radiation emission has a lower absorption capacity than in the wavelength ranges lower radiation emission of the phosphor layer.

It has been shown that if, according to the invention, the absorption curve of the image window is formed in such a way that in the area of the radiation maxima the Phosphors give absorption minima, only a slight deterioration in the Contrast occurs. In general: 1.nen has the disturbing extraneous light, opposite which contrast is to be achieved, a very broad spectrum. A lesser one Absorption of external light in special, narrow-band areas leads to datier Contrast deterioration that is not significant.

In contrast, a cathode ray tube designed according to the invention is obtained a much greater brightness of the screen image, because especially in the wave ranges in which the phosphor of the luminescent screen emits an increased amount of radiation, the absorption of the glass in front of the luminescent material is lower is. This gives you.

an increased service life of the tube as the electron beam current is reduced can be. The reduction of the 3-beam current also has a reduction in the Spot diameter result in what turns out to be improved image sharpness makes noticeable.

Based on the diagrams shown in Figures 1 and 2, the : The invention is explained in more detail below.

FIG. 1 shows the emission curve of a conventional phosphor. The emission strength E is on the ordinate and the wavelength X in m fu is on the Abssiese applied.

FIG. 2 shows the absorption curve of a front pane according to the invention, which is adapted to the emission curve of the phosphor according to FIG. On the The abscissa is again the wavelength X in mju and the ordinate is the absorption capacity applied to the colored glass of the windscreen.

As can be seen from FIG. 1, the emission curve has the Two fluorescent. pronounced maxima, which are around 450 and 570 mlu. In In the other areas, the phosphor has a significantly lower radiation emission. The two luminous maxima are 3. generally coordinated with one another in such a way that there is a mixed light, that is perceived as white value: The FIG. 2 shows the absorption curve of a front window colored according to the invention a picture tube. This curve is based on a conventional phosphor according to FIG. Voted. That means that in the areas at 450 mau and at 570 mau result in pronounced absorption minima. In other words, that means that the The front panel of the picture tube is more permeable, especially in the areas of the length of the light in which the phosphor has its emission maxima. That of the viewer perceived impression of such a combination of fluorescent material and windshield consists of a much greater brightness with a comparable beam current strength: The slight decrease in contrast that occurs is, as in practice revealed, barely noticeable. The absorption of the extraneous light with its usual broad spectrum takes place in the areas outside the wavelengths of 450 and 570 mau takes place in a sufficient manner.

Claims (2)

P atentans u rü che mr @@ r @ 1) Cathode ray tube with a glass front panel forming part of the vacuum wall, on the inner surface of which a layer of hypoxic substance is arranged and which has a coloring that increases the absorption capacity in order to achieve a contrast increase in external light , characterized in that the front panel has a lower absorption capacity in the wavelength ranges in which the phosphor layer has increased radiation emission than in the wavelength ranges of lower radiation emission of the phosphor layer. 2) cathode ray tube according to claim 11, characterized in that the phosphor layer has increased radiation emission in the wavelength ranges of 450 mau and 570 m / u.