DE2849749A1 - Operating procedure for electro=optical converter - uses rectangular matrix of elements with piezoelectric, magnetostrictive or electrostrictive components viewed by lens - Google Patents

Abstract

The procedure relates to the row and/or column pick-up of electro-optical data. The electro-optical converter (1) consists of a matrix of piezo-electric, magneto-strictive or electro-strictive component elements fitted into a rectangular outer frame (5). The optical system is based on an object plane, with light beams passing through a lens system, which focusses the beam onto the converter plate (1). A scanning system is used to move a light spot along rows and columns, the movements causing electrical signals to be produced which may activate hydraulic, pneumatic or electromechanical elements.

Description

Method for operating electro-optical converters and

Arrangement for this purpose The invention relates to a method as it is the The preamble of claim 1 can be found, and an arrangement for this.

Electro-optical converters are in manifold designs for the Image processing used. So serve signal plates, containing one with a Semiconductor layer coated surface for use in television pickup tubes and light valve arrays for projection images by using a suitable Coordinate control by electrical address signals area areas more or are less darkened or lightened, so that z. B. over this guided light rays produce a corresponding image on a projection screen. But also Flat screens serve as electro-optical converters that are used to display z. B. graphic Representations as well as symbols and signs can be operated. With all of these Embodiments of electro-optical converters, it is of particular importance that the exposed surfaces are homogeneous and have no defects. In the case of signal plates, this means that z. B. the individual receiver elements, in particular for the representation of gray values, a uniform over the entire surface area Behavior or

show the same characteristic to be reliable at all To be able to guarantee use. But that means that during production a special effort must be made to completely error-free signal plates obtain.

Even with flat screens as electro-optical converters, the z. B. in the form of gas discharge devices are manifold sources of error possible, such as B. interruptions and short circuits in the coordinating cables.

In this situation it is now extremely obstructive, if only a few defective surface areas of an electro-optical converter of the type mentioned at the beginning Kind of suffice to classify the electro-optical converter in question as scrap to have to, which leads to a corresponding reduction in the yield.

An increase in the manufacturing yield can only be achieved by using of processes bring about a correspondingly higher effort, which then in turn the finished product is correspondingly increased in price.

The object of the invention is therefore to provide a method for operation of electro-optical converters of the type described above and to provide a product, that ensures operational reliability even when using electro-optical converters, which can have defects in their exposed surface areas, so that accordingly an economical one without great effort and / or increase in cost Use is guaranteed.

According to the invention, the object is achieved as it is the characteristics of the Claim 1 can be found.

So if with an electro-optical converter individual surface areas a sensitivity or sensitivity that differs significantly from the rest of the

have different and defective properties, the electro-optical converter, so that these errors are not caused by annoying bright or make dark spots noticeable, e.g. B. twenty-five times per second relative to the Object level or with regard to the projection screen with a corresponding change of address shifted by z. B. one or two rows or columns, so that the Point of failure is smeared to a certain extent over a larger area. For this purpose, the address of each scanned resp.

addressed picture element is increased or decreased, so that during image synthesis or in the case of projection, a stationary image is built up, which means that the influence a defective pixel location is so greatly reduced - in the example mentioned so to 1/25 -, so that practically no effect can be recorded. Same thing Of course, a corresponding modification also applies to coordinate-addressed flat screens.

When the invention is used, it is therefore also possible to date to manufacture discarded as unusable electro-optical image converters still for reliable operation use, so that thanks to the invention, a better utilization of the corresponding Manufacturing capacities results.

In the case of signal plates, there is a shift in an advantageous development of the invention with the help of piezoelectric, electrostrictive and magnetostrictive Components, since the required changes in path are very small (about 5 pm) and In addition, the shift times (approx. 10 ms) are technically easy to implement are. For larger arrangements, such as. B.

Gas discharge screens can also be used in a manner known per se electromechanical, pneumatic or hydraulic units for this purpose can be used.

The method according to the invention can be carried out in a relatively simple manner use for one-dimensional scanning and addressing methods, since here only linear or ring-shaped arrangements are to be provided.

The method according to the invention can advantageously be used with Carry out the help of an electro-optical converter, its tabular embodiment is slidably mounted in a hollow frame. This is additional according to the invention the hollow frame is designed in such a way that it accommodates both the components and units to move the electro-optic converter as well its return elements, preferably leaf springs, allowed. With such a compact structural unit can then easily be used for the various applications realize.

In addition, when using the electro-optical converter according to the invention as a signal plate or light valve matrix also moves the light beam be, in which case the electro-optical converter is firmly mounted in its position. The light beams can either be moved or tilted Objective or by means of a swivel mirror over the signal plate.

Advantageous refinements of the invention are detailed in the subclaims refer to.

The invention will then be described on the basis of an exemplary embodiment explained in more detail with the help of the drawings listed below.

The figures show: FIG. 1 a diagram for the beam guidance during the process According to the invention, FIGS. 2A-2E different views of the position of an illuminating one Beam with respect to a defect on the electro-optical converter, Fig. 3 a Raw cross-sectional view of an electro-optical converter assembly with indicated Control and actuation units, Fig. 4 is a perspective view of a compact electro-optical assembly according to the invention.

The beam guidance shown in Fig. 1 applies to a method in which the object plane 2 by means of that shown by Main levels indicated Lens arrangement 7 is imaged on a signal plate 1. On object level 2 incident light rays 9 are reflected there, so that the rays 8 over the lens arrangement 7, e.g. B. a lens on the different points of the signal plate 1 can be steered when either the signal plate is relative to the object plane 2 is shifted, the lens 7 is shifted or pivoted or the rays 8 can be steered onto the signal plate 1 by means of a swivel mirror. While at apply In principle, the same scheme applies to the invention on a light valve matrix, when used on a flat screen, it can be assumed that the coordinate addressing brought the various picture elements on the screen surface to light up can be.

The process according to the invention can be used for all of these purposes on the basis of the position overviews in FIG. 2 as a dynamic error correction method on best explain.

Here is an electro-optical one that serves as a signal plate or light valve matrix Converter 1 is illuminated in area 12.

The electro-optical converter 1 contains a defective pixel point 11. To explain the invention, the illuminated area 12 becomes a picture element 13 singled out. When used as a signal plate z. B. should be the electro-optical Converter to be read out completely 25 times per second, namely pixel point for Pixel location. Reading is done by sequential addressing, depending on the design all pixel locations electronically, e.g. B. by electron beam.

When training as a flat screen are successively to the light output excited the predetermined coordinate intersection points, of course here there is no illumination area, but only through appropriate addressing the picture element 13 is excited for emission.

In all cases, by moving the electro-optical converter, at least by one column and one row, that instead of only one picture element or only one pixel point, which may be faulty can be, a plurality of pixel locations or picture elements per picture element get excited. The present example is of clarity and simplicity for the sake of purpose only directed to the shift by one column and one row.

Since the pixel locations or picture elements are extremely small, leave at least when used as signal plates and light valve matrix assemblies also apply shifts by several columns and rows without impermissible ones Dimensions of the overall arrangement would be feared. When applied to larger ones Gas discharge screens, however, can only be shifted to two columns and delimit two lines.

In detail, the mode of operation goes from the representations according to Fig. 2 as follows: In FIG. 2A, the light spot 13 falls on a defective pixel location 11 or a defective picture element 11. By relative displacement of the electro-optical Converter 1 to light spot 13 by one column, the beam path is released, so that the light spot 13 becomes effective. In Fig. 2C there is a relative shift by one column and one line, so that the beam path is also released here and the light spot 13 is effective. In Fig. 2D the relative displacement is by one Line indicated, also a beam release and thus the effectiveness of the light spot 13 to allow. In FIG. 2E, however, the light spot falls again 13 on the defective pixel position 11, so that as a result there is no effect whatsoever is recorded.

When reading out the pixel locations, of course, each the addresses read out electronically by one column and / or accordingly Line are implemented accordingly, so that the later image synthesis Partial images of different image runs cover again and so a standing one 'Image yields. It can therefore be said that for each image pass the electro-optical Converter 1 relative to the image by whole four times the column or Line spacing is shifted so that a different pixel position with each image cycle is effective for each picture element. The same naturally also applies to the application with a flat screen.

Whereas in the exemplary embodiment according to FIGS. 2A-2E only one pixel position matrix is shown by 2 x 2, can - as said - also a pixel position matrix of 5 x 5, which is already so effective that in an extreme case 100 % of the brightness scale, the influence of a defective element is limited to 100: 25 = 4%. The different brightness of a picture element is thus smeared onto an area 25 times larger, so that the conditional error is practically negligible.

An embodiment for the application of the method according to the invention is evident from FIG. 6. Here the electro-optical converter 1 is as in a hollow frame 5 shown arranged displaceably in both coordinate directions. Stuck with that Hollow frame 5 connected and arranged therein are piezoelectric, magnetostrictive or electrostrictive, here only schematically indicated structural units 4, which on Adjacent sides of the electro-optical converter 1 act so that a displacement is possible in both coordinate directions. At the, these structural units 4 opposite On the sides of the electro-optical converter 1, leaf springs 6 are arranged, on the one hand ensure that the electro-optical transducer 1 is firmly supported in the hollow frame 5 and on the other hand have such a spring force that on the one hand the electro-optical Converter 1 can be moved easily due to the effect of the structural units 4, on the other hand, however, if the units 4 are not activated, the electro-optical converter 1 can take place. Instead of the leaf springs 6 shown other known suspension measures can also be used.

Furthermore, a control unit 14 is provided, which on the one hand the actuation of piezoelectric, magnetostrictive or electrostrictive components 4 is able to trigger, on the other hand but on the one in the control unit 14 contained address decoder acts so that the reading out of the as electro-optical Converter 1 serving signal plate synchronous with the displacement of the signal plate he follows. In other words: it can be in the area of an error when reading out on the signal plate by moving the read-out address synchronously with the signal plate perfect image reproduction can be guaranteed thanks to the invention.

A compact version of the to carry out the method according to Invention as a light valve matrix and electro-optical usable as a signal plate Converter 1 is shown as a structural unit in FIG. The representation of FIG. 3 leaves look at this as a sectional view of the top view of this structural unit.

As can be seen, the frame 5 is designed as a hollow frame, which includes the electro-optic converter 1 so that it can slide therein. The hollow frame 5 is designed so that it has the components 6 and units shown in FIG 4 can accommodate. In addition, connecting lines 16 are connected to the piezoelectric or electrostrictive components 4 are provided to their excitation from the control unit 14 to be able to make.

An appropriately modified hollow frame design can be used of the method according to the invention on gas discharge screens, with then however, to move the actual flat screen in relation to the hollow frame electromechanical, hydraulic or pneumatic components arranged therein must be.

When applying the method according to the invention to light valve matrix arrangements or signal plates for television pick-up tubes are the required paths with about 5 #m per picture element is very small, so that the frame dimensions in the are not significantly affected. Result in gas discharge screen applications There are displacement distances in the order of 0.1 mm and less, so that here too the required frame dimensions do not become too large.

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Claims (5)

PATENT CLAIMS 1. \ Method for column and / or line by line Scanning or addressing of planar, electro-optical converters, like signal plate, light valve matrix on the one hand and screen on the other hand selected time unit to ensure freedom from flicker, characterized in that that when scanning or addressing picture elements a column and / or line by line Back and forth shift either relatively between electro-optical converter (1) and the object plane (2) or the electro-optical converter (1) is carried out. 2. The method according to claim 1, characterized in that a respective Shift by one column or row synchronously after complete or at least column or line scanning of the electro-optical converter (1) carried out will. 3. Arrangement for performing the method according to claim 1, characterized characterized in that for column and / or line-wise shifting one as a signal plate or light valve matrix formed electro-optical converter (1) accordingly excitable piezoelectric, magnetostrictive or electrostrictive components (4, 5) serve. 4. Arrangement for performing the method according to claim 1 and / or Claim 2, characterized in that for column and / or line-wise shifting an electro-optical converter (1) designed as a screen at the same time according to the address shift of the screen matrix coordinates hydraulic pneumatic or electromechanical components are used. 5. Arrangement according to claim 3 or claim 4, characterized in that that the electro-optical converter (1) in a hollow frame (5) in the direction of its plane is slidably mounted and that the hollow frame (5) also for receiving both the components or units (4, 5) for moving the electro-optical converter (1) and its return elements (6), in particular spring elements, set up is.