DE4128628A1 - Moving colour image generator - has luminance screen for sequential lighting in basic colour, red, green and blue - Google Patents

Abstract

A diffusion screen, fitted over the luminance surface, has a layer switchable into a transparent state in a punctiform manner. Pref. each basic colour lights up 20 to 40 times per second. The transparently switchable layer may consist of points, arranged in a raster and transparently switchable. Typically the transparently switchable layer is formed by a liq. crystal screen. The frequency of the basic colours may be variable. USE/ADVANTAGE - For TV, video recorders, computer monitors, and commercial displays, with simple design based on optical retina retension.

Description

The invention relates to a novel arrangement for generation moving color images.

The application of the proposed imaging unit is in TV and video technology, computer monitors and display systems gene, e.g. B. for advertising, possible. There can be screens with very small or very large dimensions and different Molds are made.

The development of cinematography and television is founded focus on the use of the physiological deficit of the eye, the retinal optical retentivity. This weakness has two characteristics:

• 1. The impossibility of perceiving the frequency of a Light signal with more than 20 pulses / sec. amount Frequency.
• 2. The impossibility of perceiving the color of a Light pulse within a light signal when the Light pulses each other in the 3 primary colors with one frequency over 20 pulses / sec. alternate. In the case where the Light pulses have the same intensity and frequency, that is Result the perception of a continuous and white color towards the light. By varying the intensity and frequency of the Light pulses within certain limits (between 20 and 40 Pulses / sec. / Color) under the conditions of compliance the same emission regulations (red-green-blue) is any color achievable.

The classic color television systems are based on the first Characteristic of retinal optical retentivity. The color composition is based on a grid of different points according to the 3 basic colors are arranged. The optical recording of the composite colors is done over the weak resolutions by force of the human eye. The youngest sophisticated Systems use the same well-known principle, but try to the number of light points per surface unit to below that Limit of distinctive perception of two very approximate points to increase. For teletransmission systems that means at least a doubling of the size of the data to be transmitted or to drawing signal information.

It is the object of the invention to create an arrangement specify moving color images based on the second feature of the optical retinal retentivity based.

According to the invention the object is achieved in that a Luminous surface is present, which are successively in the Basic colors red, green and blue illuminated, above this Luminous area arranged a diffusion screen and above there is a layer that can be switched translucent at points is.

A certain, precisely delimited, arbitrarily small point on the luminous surface is successively made with a certain one Frequency and an equal sequence in a given eye view (1 / 20-1 / 40 sec.) one of the basic colors (red, green or blue) show. These features are the light source for every point area equal. The dots can be arranged in a grid be.

Ultimately, the entire illuminated area becomes that given Instant one color regardless of size to have. So one is created in the three basic colors a frequency of 20 to 40 pulses / sec. / color, at one Total of 60 to 120 pulses / sec. alternating Luminous area. This illuminated area is technically one of the  classical processes like electronic emission, fluorescence, Realize plasma discharge or other processes. over this luminous surface becomes a diffusion screen for uniform Design of colors attached. The use of this classic Color generation systems only has the task of an alternati ve to create luminous area. The sequence, intensity and Frequency of light emission is controlled by an electronic system regulated with certain parameters, which then remain stable and work automatically.

The diffusion screen does not create an image, but an alternative colored light background, which is successively by means of a screen with liquid crystals or another light-dark polar system is dimmed.

In this way, the generation of light and color is needed less information through a teletransmission system as there is is a stereotypical automatic process.

For example, in the current teletransmission system stem the creation of a white dot on the television screen the transmission of three different information signals for every color. In the proposed system creation is needed of a white point or a white surface is not a transmitting one Information or control signal because the transparency of the Polari screen is sufficient. The telecommunication information is necessary to differentiate each of the three from Dim the diffusion screen emitted colors. So be monochrome images in the primary colors. What the eye but perceives is a color image with great brightness and Contrast and with a very high resolution. The generation of a Such an image requires a processor unit for the remotely transmitted signals that separate them into the primary colors and on the liquid crystal screen the opacity or the Transparency of a particular point on the screen with respect to controls a certain basic color.  

For example, the design of an image runs a Red brick house on a green hill and with a represents the blue background as follows: The red Color pulse of the diffusion screen is from the liquid crystal screen dimmed across the entire surface, except for the Section that represents the red brick house - a Neckline that remains transparent so that the red light shines through can get him. The following impulse of the diffusion screen with green color appears from the liquid crystal screen all over Dimmed area, except for the part in which the hill lies so that through it the green color of the diffusion screen can reach. The blue pulse of the diffusion screen turns on the entire area is dimmed, except for the part in which the background is shown with a blue sky - a Section that will remain transparent to the blue through it Color. Would use these phases of the picture at a lower frequency would be the house in turn Perceive hills and the sky. Because the frequency, however is significantly higher (20 to 40 Hz), a single unit perceived image.

Mixed colors are created by varying the Transparency of the liquid crystal screen or its anti-glare quenz.

In realizing this screen system, the electronic control for analysis, separation, division and of great importance for the reproduction of the images. in the Basically, this screen is a display of one to the Remote transmission systems connected computer system. The The main advantage of this system is the high savings Control signals. This lower need for control signals can digitizing video information or stereo scopic transmission.  

Due to the technological difficulties in building Large-sized liquid crystal screens become images units with small dimensions. This picture unit ten are so mosaic that the contact zones are imperceptible between them. The imaging units can built in any shape and for stereoscopic transfer be used on large areas. Each imaging unit is included a processor part. These computing units receive the necessary information from a central computer and deploy them on their imaging unit. The main processor Components for the picture are preferably via signal cables transferred to the imaging units.

The cameras are analyzed directly by the image and its simplified transmission easier. But you can too in the three-dimensional system with the same amount of information work as is currently the case.

The proposed arrangement allows color reproduction a specially developed black and white film, so that the Viewer practically sees a color film. Its advantages for the cinematography are: cheaper film reel, great advantages the preservation and archiving of color films Copy on a black and white film, for example, none organic substances.

Claims (6)

1. Arrangement for the production of moving color images, characterized in that a luminous area is present, which in turn successively illuminates the basic colors red, green and blue, a diffusion screen is arranged above this luminous area and there is a layer above which the light can be switched at certain points is. 2. Arrangement according to claim 1, characterized in that each Basic color lights up 20 to 40 times per second. 3. Arrangement according to claim 1, characterized in that the translucent switchable layer in a grid arranged translucent switchable points. 4. Arrangement according to claim 1, characterized in that the selectively translucent switchable layer a liquid crystal stall screen is. 5. Arrangement according to claim 1, characterized in that everyone Point of the translucent switchable layer in its Transparency is controllable. 6. Arrangement according to claim 1, characterized in that the Frequency of the individual primary colors is variable.