RU1545833C - Input window of two-signal photoconductive camera tube - Google Patents

Abstract

FIELD: image transmission devices. SUBSTANCE: color filter of input window has transparent strips which are positioned between color strips and separated from latter with solid opaque strip. Transparent strips are joined with one signal plate and color strips with another one. EFFECT: increased functional capabilities. 7 dwg

Description

 The invention relates to photovoltaic converters, and in particular to a cathode-ray transmission tube used in a single-tube camera for applied and broadcast color television.

 The aim of the invention is the expansion of functionality by obtaining a luminance signal.

 Figure 1 schematically shows a transmitting tube with an inlet window; in FIG. 2, 3 placement of the color filter with respectively vertical and horizontal arrangement of strips; figure 4, 5 design of the signal plates; 6, 7, the process of generating luminance and chrominance signals.

 The transmitting tube (Fig. 1) contains an electron gun 1, forming a beam 2 inside the bulb 3, connected by semicircular conclusions 4 and 5 of the brightness and color signals, respectively, with a transparent faceplate 6, on the inner surface of which a color filter 7 is placed, signal plates 8 and 9 of brightness and color, respectively, and the photosensitive layer 10.

 The color filter 7 (FIGS. 2, 3) is formed by an opaque strip 11 separating the transparent part of the face of the faceplate 6, forming transparent stripes 12 of the color filter and acting as a filter of Y color, from a color one made up of alternating filter bands 13 and 14, for example, R colors and B color, and can be performed by lithography with the application of color or color-selective films.

 The signal plates 8 and 9 (Figs. 4, 5) are formed of a transparent conductive layer deposited on top of the color filter 7, electrically connected to the terminals 4, 5, by changing the conductivity of the layer along the opaque strip 11, for example, by doping or removal by an appropriate energy source.

 The following is a photosensitive layer 10 made of poly- or single-crystal coatings, on which (6, 7), proportionally to the illuminated areas, bands 15-17 of the corresponding potential reliefs are formed: Y colors, R colors, B colors, aperture 18 is used for their alignment beam 2 of the electron gun 1 when it is moved in the first 19 and second 20 fields of the frame.

 An opaque dividing strip with a width of 0.05-0.1 filter bandwidths predetermines a rigid connection between the filter cavity and the signal plates, so the number of bands is limited by the parameters of the photosensitive layer and the aperture of the electron gun beam.

 The transfer tube operates as follows. When the optical system projects the color image of the camera onto the faceplate 6 (FIG. 1), the color filter 7 distributes the illumination in the interior of the photosensitive layer 10 into the bands 12-14 of the color filter 7 (FIG. 2, 3), for example, white, red and blue . At the same time, in the outer parts of the photosensitive layer 10 (Fig.6, 7), bands of 15-17 potential reliefs are formed, in accordance with the distribution of illumination. When the aperture 18 of the beam 2 of the electron gun 1 is moved line by line (Fig. 1), potential reliefs are aligned on the signal plates 8, 9 (Fig. 4), and therefore, image signals are also formed on the terminals 4, 5 in the form of a signal of brightness Y of color and color signals R, B colors formed by alternating sequences of signals in each line of the frame. When the color filter bands are horizontally arranged (Figs. 3, 5, 7), the line-by-line movement of the aperture 18 aligns the potential relief simultaneously of the sections of two bands 15 , 16 or 15, 17, respectively, for the rows (Fig. 7) of the first 19 and second 20 fields of the frame. Therefore, to increase the horizontal resolution, it is desirable to use an electron gun 1 with a "ribbon" (Fig. 7) beam aperture 18. The image signals generated on the signal plates 8, 9 (Fig. 5) and terminals 4, 5 are continuous along the line and contain a luminance signal Y of color in each line of the frame, while the color signals R, B alternate through the line, i.e. R, B, R, B, etc.

 The invention improves the quality of color image signals, since when placing color bands between transparent, separated by an opaque strip, the influence of light fluxes in the color filter and potential reliefs on the target of the tube does not affect the color and can only reduce color saturation. The production of signal plates that are strictly interconnected with the color filter bands and their connection with the signal terminals is simplified, and the camera channel of applied television via the SECAM system is simplified by switching the color signals inside the tube. The parameters of the camera signals with one given vidicon correspond to the parameters of the signals of a two-tube camera with a vertical arrangement of filter bands and a three-tube camera SECAM with a horizontal one.

Claims (1)

 DOUBLE SIGN VIDEO INPUT window containing a layer sequentially arranged on a transparent faceplate with a strip color filter in the form of a regular structure having alternating bands of two different colors, a layer with two signal plates in the form of interpenetrating combs and a photosensitive layer, characterized in that in order to increase the expansion of functionality by receiving a luminance signal, the color filter contains transparent bands located between adjacent color bands and separated from a continuous strip of opaque, with transparent stripes aligned with the audio signal plate and the other color bars.

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