DE3933950A1 - DEVICE FOR GRID CORRECTION IN A TELEVISION - Google Patents

Abstract

It is known for grid correction, e.g. convergence correction, to measure and store correction values for certain pixels. The aim is to reduce the amount of storage for different operating modes with divergent correction values. For each operating mode which differs from a basic operating mode, only the difference between the respective measured correction value and that of the basic operating mode is stored. Application in particular to convergence correction in a projection television set.

Description

The invention relates to a device for grid screen rectification in a television set according to the preamble of the An saying 1.

For a correction of the deflection grid on a television set it is known on the image surface with a grid pattern with horizontal and vertical lines a variety of Define pixels. Cor correction values for certain parameters of the deflection grid tted, saved and in the image playback for the individual the pixels one after the other for the respective correction steering means supplied. A special area of application is the dynamic convergence correction in a television project tion device. Such a correction can also be made for other deflection parameters such as B. North / South, East / West errors, Pillow errors, linearity errors and other geometry errors of the written distraction grid.

On the other hand, it is known to use televisions in different ways operating modes with different deflection parameters float. For example, the deflection grid for the display different image formats, z. B. in a ratio of 4: 3 or 16: 9, to display different images on one Image area and the like. With different amplitudes of the ver  tical deflection or horizontal deflection are operated. There the deflection grid changes, must for the additional other correction values are determined and be saved. This eliminates the effort of saving or Storage locations according to the number of different Operating modes increased.

The invention has for its object in a Einrich device of the type described with different operating modes ten the amount of storage resources for the individual Operating mode determined correction values to keep low.

This object is achieved by the inven in claim 1 solved. Advantageous developments of the invention are specified in the subclaims.

The invention is based on the following considerations and findings nits. Basically, it can be assumed that the correction values for the pixels defined by a grid of Operating mode are different from operating mode and therefore must be saved separately for each operating mode. It However, it has been shown that for the individual pixels the deviations of the correction values in a certain Be mode of operation of those of a basic operating mode relatively low are compared to the absolute value of the correction values. If thus not the absolute values determined in each operating mode Correction values are saved, only the respective one Deviation from the correction values of a basic operating mode, can significantly reduce the amount of memory will. For storing the absolute correction values ei ner basic mode must z. B. correction values with each 8 bits are saved while for the difference correction values only save values with fewer bits enough. The amount of storage for the additional  Operating modes are therefore only a fraction of the effort for the basic operating mode.

The invention is based on the drawing using the example of a Convergence correction for a projection television set explained tert. Show in it

Fig. 1 is an image area with a grid pattern and

Fig. 2 is a simplified block diagram for storing the convergence correction values.

Fig. 1 shows the image area 1 , on which by three separate picture tubes for the primary colors R, G, B, a grid pattern of horizontal white stripes SH and vertical white stripes fen SV is shown. The stripes SH, SV have approximately the width of a line and each form crossing points K, for which convergence correction values are determined and stored in each case. These correction values are retrieved from the memory for the successive intersection points K and are separately supplied to the three picture tubes for dynamic convergence correction. In different operating modes, there are different correction values for the crossing points K, e.g. B. by changing the amplitude of the horizontal deflection or the Ver tikalablenkung or a shift in the grid pattern.

In FIG. 2, the convergence correction values for all crossing points K of the entire image surface are stored in the main memory HS for a basic operating mode. The memory HS is controlled by the processor 8 . The digital correction values retrieved one after the other for the individual crossing points K from the memory HS during the image reproduction are transmitted via D / A converters 9-14 for additional converters RH, GH, BH for horizontal convergence and additional coils RV, GV, BV of the three for vertical convergence Picture tubes 15 , 16 , 17 leads.

For a second load deviating from the basic operating mode drive type are corresponding for the crossing points K Kor correction values determined. The absolute data of this correction however, values are not saved. Instead, ever because the difference between the determined correction values and those the basic operating mode determined and in a difference cher DS1 filed. The storage capacity of the difference memory chers DS1 is much smaller than that of the main memory HS. When displaying images in the second mode for each pixel the sum is formed from the im Main memory HS stored correction value and that in the dif limit memory DS1 stored difference correction value.

The same applies to others from the basic loading Operating modes differing operating modes. There too will be because only difference correction values compared to the correction evaluate the basic operating mode in differential memories DS2, DS3 filed and combined with the absolute correction values of the main memory HS for the correction of the converters brought effect.

Claims (3)

1. Device for raster correction in a television set, in which for a first operating mode for certain pixels of the image area ( 1 ) correction values are determined and stored in a memory (HS), characterized in that for a second operating mode with different deflection parameters Difference between the correction values determined for the pixels (K) and those of the first operating mode is saved. 2. Device according to claim 1, characterized in that for a variety of different modes because the differences between the correction values and the absolute correction values of a basic operating mode be saved. 3. Device according to claim 1, characterized in that for the grid correction the saved one Correction value of the first operating mode with the difference Combined correction value of the current operating mode becomes.