JPS602985A - Apparatus having image display element - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

TECHNICAL FIELD The invention relates to a device having an image display element of the type stated in the preamble of claim 1. The image display element then includes an image screen and/or a display panel.

It is known from the prior art to provide a visual display unit image screen with a selective supplementary plate.

Such a visual display unit produces a self-luminous display or image reproduction in a defined color on its image screen. Selective supplementary plates are envisaged to improve the visibility of these self-generated displays and image reproductions in the event of superimposed interfering light. Ideally, this would be selectively transparent to the color of the self-luminous display, so that any unwanted light would match the color of the display on the image screen, or
The display is only affected by a certain spectral part.
1, while the different colored parts of the interfering light have little influence on the reproduction. Such exclusion of unwanted light incident on the image screen is possible only if the viewing screen is Reproducing the display in color is no longer possible. In such cases, a medium density gray filter is placed in front of the image screen, which acts as an optical contrast filter plate, so that the interfering light incident on the filter plate is attenuated as it passes through the filter plate, and thus undesired. The desired light is made substantially attenuated before being incident on the image screen, so that the portion of the undesired light that is reflected by the image screen has only a slight disturbing effect on the image screen. It has been known.

Therefore, unwanted light whose luminous flux is much more intense than the luminous flux of the self-luminous display on the picture screen can only be removed by a contrast filter plate with a correspondingly strong optical damping effect. However, this also considerably reduces the useful fraction of the light, which must be compensated for by correspondingly increasing the amount of light displayed on the image screen.

Proportionally and as a result of the higher beam current required in the case of picture tubes (and due to the associated defocusing of the beam current, there is a loss in the sharpness of the beam on the image screen. If the device is to be operated with a stronger incidence of unwanted light, and if the screen display is to be perceived fairly well, the degree of attenuation of the contrast filter plate and the display device or screen reproduction device should be The light intensity must be constantly adjusted to account for such disturbances.

However, compared to the setting in the normal case, setting the device in the case of such disturbances is considerably disadvantageous both with respect to the functioning of the device and the operating life of the picture tube.

OBJECTS OF THE INVENTION It is an object of the present invention to adjust a display device or a screen reproduction device to an optimum state under normal conditions, that is, when only a slight shadow U is caused by interference light, and to adjust the image screen or The preamble of claim 1 is such that, in the case of strong interfering light incident on the display device, the information on the image screen and/or the display panel is adjusted such that it is still sufficiently well recognized. To design a device having an image display element of the type described in .

According to the invention, this object is achieved by the technical features stated in the characterizing part of claim 1.

And according to the invention, for example an image screen and/or
or an image display element, such as a display panel, comprising an image display element in which the amount of light of the displayed information depends on the magnitude of an electrical quantity, such as voltage, current or frequency, acting on the image display element. and further comprising an adjustment circuit having a control input for adjusting the amount of electricity acting on the image display element by a control signal, and an optical contrast filter plate placed in front of the image display element. The optical contrast filter 1 is controllable depending on the luminous flux of the light rays (8) incident on the optical contrast filter plate from the outside, decreasing as the luminous flux increases and further increasing the optical contrast filter plate (3). ) is provided with at least one optical sensor (9) of a photoelectric converter 00) for measuring the flux of the incident light, which measures the flux of the incident light as the flux of the incident light increases. , the adjustment circuit (4) sends a control signal (UL) to change the amount of electricity (beam current) (i) acting on the image display element so as to increase the amount of light.
4) A device is provided having an image display element characterized in that it occurs as a control input (12).

For example, in the case of a clock radio, an optical sensor measures incident unwanted light, and this optical sensor controls the voltage applied to, for example, a display device via a photoelectric converter, and further controls the amount of light of the display device. It is known that the amount of light in the clock display can be changed without affecting the clock display. In this case, in contrast to the present invention, the contrast in the amount of light is only compensated as a function of the time of the day in relation to the surrounding light conditions.

The present invention is particularly suitable for cases where there is no or only slight interference light.
Reproduction or display on an image screen provides a relatively small amount of light and generally provides the advantage of sharper reproduction. Moreover, in the case of a picture tube, the power consumption by the picture tube is substantially lower, so that less heat is generated in the device implementing the picture tube. On the other hand, in the case of a strong incidence of interfering light, a sufficiently good reproduction of the visible screen or display information is still guaranteed, which means that the unwanted light that passes twice through the contrast filter plate is highly attenuated. On the contrary, a useful display cannot be reproduced without the use of such a contrast filter plate.

Advantageous embodiments of the invention are indicated in the dependent claims.

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following, the invention will be explained in more detail with reference to preferred embodiments shown in the accompanying drawings.

The drawing shows, in simplified block diagram form, a display stage of a visual display unit, such as a television receiver. In front of the image screen 1 of the picture tube 2 is a contrast filter plate.
ate ) 3 is arranged, the light transmission of which can be controlled by the voltage IJF acting on the filter plate. The video signal vS passes through a contrast adjustment circuit 4 and is subsequently applied to an array of image processing circuits 5, by which the video signal vS is converted together with a beam current S which produces a light intensity on the image screen. Deflection of the beam current is not specifically shown in the accompanying drawings. The information displayed on the image screen 1 is transmitted from the image screen to the observer's eye by means of useful light rays 6. These useful rays 6 are attenuated by a contrast filter s3. The beam current is, for example, controlled 11 by the contrast control means 7 of the contrast adjustment circuit 4 in such a way that the beam current produces a sharp image on the image screen 1 with sufficient contrast to ensure good recognizability. be done.

Furthermore, in the illustrated embodiment, strong unwanted light rays 8 from interfering light sources, not particularly shown, are present on the image screen 1 and on the optics of the photoelectric converter 10, which is arranged in close proximity to the contrast filter plate 3. i on the target sensor 9
h hit. The bundle of unwanted light rays 8 is directed to the image screen 1
The intensity is such that the flux of the unwanted rays 11 reflected by is of the same order of magnitude as the flux of the useful rays 6 transmitted by the image screen. The information displayed on the image screen can therefore no longer be fully perceived by the viewer. The photoelectric converter 10 measures the luminous flux of the unwanted light ray 8 impinging on its optical sensor 9 and produces an output signal corresponding to the measurement signal, i.e. a control imprinted as a control power 12 of the contrast adjustment circuit 4. Generates voltage UL. By means of this control signal UL, the contrast adjustment circuit has a less attenuating effect on the video signal VS passing through it, as the luminous flux acting on the optical sensor 9 increases, and therefore the image processing circuit 5 is adjusted to increase the amount of information displayed on the image screen l as it generates a higher beam current and as a result the flux of the unwanted light rays 8 increases. However, the increase in beam current, apart from the increased power consumption of the picture tube, results in a slight loss in sharpness of the information displayed by the beam current on the image screen, resulting in a reduction in contrast due to the incident interference light. Additionally, there is a further reduction in the sharpness of the reproduction on the image screen. To this end, the output signal UL is simultaneously supplied as a control input to a second adjustment circuit 14 for adjusting the light transmission of the contrast filter plate 3 . The adjustment circuit 14 of this whip 2 is configured to reduce the light transmission of the contrast filter plate as the light flux acting on the optical sensor 9 increases, i.e. to make the contrast filter plate less transparent to light. It is designed to adjust the voltage UP acting on the filter 3. In this way a fairly high proportion of the luminous flux of the interference ray 8 is absorbed by the contrast filter plate,
Therefore, even if the flux of the undesired light rays 8 affecting the image screen display device is strong, the beam current increases beyond a non-sharp degree in order to still achieve sufficient perceptibility of the information displayed on the screen. There is no need to be done.

In another embodiment of such a device, the light transmission of the optical contrast filter plate placed in front of the image screen 1 or the display panel is directly dependent on the luminous flux of the light source impinging on the contrast filter plate. In this way, as the luminous flux increases, the contrast I
- The light transmission of the filter plate can be directly controlled by this light flux so as to be reduced. In this case, the second adjustment circuit 14 as provided in the embodiment shown in FIG. 1 for adjusting the light transmission of the optical contrast filter plate 3 can be omitted.

[Brief explanation of the drawing]

The drawing is a block diagram of an apparatus having an image display element as an embodiment of the invention. (Explanation of symbols) l... Image screen 2... Picture tube 3... Contrast filter plate 4... Contrast adjustment circuit 5... Image processing circuit 6... Useful light ray 7... Contrast Control means 8... Unwanted light beam 9... Optical sensor 10... Photoelectric converter 14... Margin below second adjustment circuit

Claims (1)

[Claims]! 8 image display element, comprising an image display element in which the amount of light of displayed information depends on the magnitude of an amount of electricity acting on the image display element, and further comprising an amount of electricity acting on the image display element according to a control signal. and an optical contrast filter plate placed in front of the image display element, the light transmission of the optical contrast filter plate (3) is such that the optical Light rays incident on the contrast filter plate from the outside (
8) of a photoelectric transducer 00) which is controllable depending on the luminous flux of the photoelectric transducer 00), which decreases as the luminous flux increases, and further measures the luminous flux of the incident light on or beside the optical contrast filter plate (3). At least one optical sensor (9) is provided, the photoelectric converter being arranged such that the regulating circuit (4) adjusts the amount of electricity acting on the image display element as the flux of the incident light increases. A control input (1) of the adjustment circuit (4) is used to input a control signal (U, L) that changes the
2) A device comprising an image display element characterized in that it occurs as follows. 2. Device according to claim 1, characterized in that the light transmission of the optical contrast filter plate (3) can be directly controlled by the flux of the incident light (8). 3. The light transmission degree of the optical contrast filter plate (3) can be controlled by the electric fi (OF) acting on the optical contrast filter plate, and further the control of the electric fi (OF) acting on the optical contrast filter plate. signal(
UL) controls the second adjustment circuit so that when the luminous flux of the incident light (8) increases, the adjustment circuit changes the amount of electricity acting on the optical contrast filter plate to 2. A device according to claim 1, characterized in that the degree of light transmission is varied to reduce it. 4. The first adjustment circuit (4) is a controllable contrast adjustment stage for adjusting the magnitude of the beam current (IS) of the cathode ray picture tube (2). The device according to any one of items 1 to 3.