DE10010964A1 - Plasma display apparatus e.g. for television, personal computer, has different display area of display pixel for each color component of video signal - Google Patents

Abstract

The plasma display apparatus consists of display areas of display pixel which are different for each color component of video signal.

Description

Field of the Invention

The present invention relates to a plasma display device and in particular a plasma display device for use as a display unit a TV or PC.

Description of the prior art

In the manufacture of a conventional plasma display device, the The brightness of the display is usually close to what is possible Maximum value set because - compared to other display elements such as for example a cathode ray tube - sufficient sanctity with one Plasma display device cannot be reached.

In a conventional plasma display device, deteriorates in general the luminous substance, and through long-term use the brightness decreases from. The fact is, however, that the characteristic deterioration in brightness usually with the different colors red (R), green (G) and blue (B) is different. Therefore, with a conventional plasma display, Device through long-term use the problem that the white balance worsens or fails.

To that caused by the deterioration of the luminous substance compensate for insufficient white balance of a plasma display device, proposes a device for adjusting the white balance, for example in Japanese Patent Application 9415/1996, in which the Brightness level is detected by means of a photosensor and the adjustment of the White balance performed based on the detected level of brightness becomes.

Fig. 5 shows a general construction of the white balance adjusting device as known from the above-mentioned document, and Fig. 6 shows a plasma display device including the white adjusting device of Fig. 5. Reference is first made to FIG. 6: The plasma display device shown comprises a plasma display display field 50 , an adaptation signal generator circuit 40 , a photosensor 30 , a video signal processing unit 41 , a white balance adaptation unit 42 , an analog / digital converter. Unit 43 (A / D), a synchronization separation unit 44 , a timer pulse generator unit 45 , a memory control unit 46 , a readout timer unit 47 , an image memory 48 , an output device 49 , an electrode control pulse generator unit 51 and a pixel data pulse generator unit 52 .

Referring to FIG. 5, the photosensor 30 determines the brightness level of the color components red (R), green (G) and blue (B) from the light emitted by the plasma display panel 50 and sends the brightness levels thus determined from the emitted light Adaptation signal generator circuit 40 .

The adaptation signal generator circuit 40 generates a gain adjustment signal for a display drive signal for each color component R, G and B on the basis of the brightness level of the color component determined by the photosensor 30 and supplies the gain adjustment signals thus generated to the plasma display panel 50 in order to adjust the white balance of the Optimize the plasma display field 50 .

However, since the white balance adjustment device with the structure described above does not cope with the deterioration of the plasma display panel 50 itself through an intrinsic change, it has a further photosensor 30 for detecting the brightness levels of the light emitted by discharging pre-charging row electrodes Xp and Yp, which are in addition to the row electrodes X1 to Xn and Y1 to Yn and the column electrodes D1 to Dm are formed by vapor deposition on a display surface of the panel, and the white balance adjustment and the brightness level adjustment of the plasma display panel 50 are based on the determined result of the photosensor 30 performed by the adaptation signal generator circuit 40 .

Therefore, the white balance adjustment device has a problem going on that the brightness level after adjusting a significant Decline shows that the brightness level adjustment is carried out in such a way that on the Basis of the brightness of the luminous substance, which deteriorates the most the brightness levels of the other colors are lowered.  

Summary of the invention

It is an object of the present invention to provide a plasma display Device to deliver, the brightness deterioration of the overall product minimized and the service life can be increased.

In order to solve the above-mentioned task, the present Invention created a plasma display device that a plasma display Unit with display pixels for the different color components of a video Signals includes, the display pixels with different areas for the different color components are formed.

In particular, the display pixels are formed with different areas such that the greater the amount of brightness deterioration due to the deterioration of a luminous substance, the larger the area. More precisely, the areas of the display pixels correspond to the ratio
Display pixels of green <display pixels of blue <display pixels of red.

Where the display pixels are formed in this way is the white balance automatically fine-tuned according to the degree of use of the display unit. Consequently, while the white balance is kept constant, the amount can the drop in brightness can be reduced to a minimum.

The plasma display device preferably also has one Determining device for integrating intensities and display times of the Display pixels for the individual color components to determine the degree of utilization of the To determine luminous substances of the individual color components, as well as a Control device for performing the white balance control on the Based on the results determined by the determining device.

In particular, the control device controls the brightness values of the display pixels of the individual color components due to the intensities of the display pixels of the individual color components. More specifically, the control device limits initially the brightness values of the display pixels for the individual color components in the descending order of intensities.

Furthermore, the control device increases the amplitude values of the individual Components according to the determined results of the investigation device to keep the white balance constant. Hence the White balance compensates according to a characteristic of the luminous substance,  which has the lowest brightness degradation, and therefore the Change in brightness of the plasma display device is reduced to a minimum become.

As a result, the plasma display panel has the advantage that the Brightness deterioration of the entire product significantly reduced and that Life can be increased.

The above and other tasks, features and advantages of present invention go from the following description and the Claims with reference to the drawings, in which like parts or elements are identified by the same reference numerals.

Brief description of the drawings

Fig. 1 is a block diagram showing a construction of a plasma display device according to the invention;

Fig. 2 is a schematic diagram showing an example of a structure of a display panel of the plasma display device shown in Fig. 1;

Fig. 3 is a diagram illustrating an example of a characteristic deterioration of a fluorescent substance;

Fig. 4 is a block diagram showing a structure of another plasma display device according to the invention;

Fig. 5 is a block diagram showing a construction of a conventional plasma display device: and

FIG. 6 is a block diagram showing a detailed structure of the plasma display device shown in FIG. 5.

Description of the preferred embodiment

Reference is now made to FIG. 1: A structure of a plasma display device according to the invention is shown. The plasma display device shown comprises a plasma display control device 10 and a plasma display unit 17 .

The plasma display control device 10 comprises a red / green / blue signal amplifier (RGB signal amplifier) 11 , an analog / digital converter (A / D converter) 12 , a video signal converter circuit 13 , a system control microcomputer 14 , a efficiency determination circuit 15 and three RGB video signal input terminals 16 (only one of which is shown in Fig. 1). It should be noted that, although a signal path between the blocks is shown in FIG. 1, actually three parallel signals for red, green and blue are transmitted along each signal path shown in FIG. 1. This also applies to FIG. 4, in which a further plasma display device according to the invention is shown, which will be described later.

The video signals R, G and B input from the RGB video signal input terminal 16 are applied to the RGB signal amplifier 11 , which adjusts the amplitude values. The amplitude values are then controlled with corresponding white balance control signals 100 output by the system control microcomputer 14 . The white balance depends on a ratio between the amplitude values output by the RGB signal amplifier 11 .

The output signals from the RGB signal amplifier 11 are converted into digital signals by the A / D converter 12 and are then in turn converted by the video signal converter circuit 12 into control signals for the display field of the plasma display unit 17 .

In the plasma display device of the present embodiment, the video signal converter circuit 13 outputs RGB level signals 102 to determine the utilization level of the luminous substances for the individual colors red, green and blue, and the utilization level determination circuit 15 integrates the amplitude levels and the time periods the RGB level signals 102 to determine the degree of utilization.

The usage outputted from the utilization factor detection circuit 15 degrees detection signals 101 are inputted microcomputer control system 14 in which computes the efficiencies and the deterioration amounts of the light-emitting substances from the utilization-detection signals one hundred and first Then, white balance control signals 100 corresponding to the degrees of use are output to the RGB signal amplifier 11 .

FIG. 2 shows an example of a structure of the display field of the plasma display unit 17 from FIG. 1. With reference to FIG. 2, the display field of the plasma display unit 17 is designed such that the display pixels 1 to 3 for R, G and B have non-uniform sizes or areas, so that those pixels that have a higher degree of brightness decrease due to deterioration of the luminous substance have a larger area.

In particular, the size of the pixels is not uniform, so that the following relationship applies to the sizes: display pixels (G: green pixels; 2 ) <display pixels (B: blue pixels; 1 ) <display pixels (R: red pixels; 3 ) . Reference numeral 4 designates a black matrix.

Fig. 3 illustrates an example of a characteristic deterioration of a light-emitting substance. Referring to FIG. 3, a line of initial brightness 34 indicates 100% brightness, with the brightness levels for R, G, and B shown as a percentage of product manufacture. A line of end of life 35 represents an operating time up to a life up to which a replacement should be performed.

Curves 31 , 32 and 33 indicate the degrees in the brightness deterioration of the individual colors R, B and G as a percentage, and the brightness levels on the end of life line 35 are shown with the three points X, Y and Z, respectively. If the ratios of the brightness values for the colors R, G and B on the end of life line 35 are determined with reference to the brightness value of the color R which has the least degree of deterioration of the brightness value, the following results:
R = 1
G = Z / X
B = Y / X (1)

From the ratios, area ratios of the pixels of the colors R, G and B are determined accordingly
R = 1
G = X / Z
B = X / Y (2)

An example according to which the pixels for the individual colors with the area ratios are formed in accordance with the above equations (2) is the construction example shown in FIG. 2. Assuming that the white balance is correct when the output amplitudes for the individual colors output from the R, G and B amplifiers of a plasma display panel in which the areas of the pixels R, G and B are the same as each this is the case with conventional plasma display devices, then the output amplitudes after product manufacture of the plasma display device in the present embodiment have the ratios of the above equations (1). In other words, since the pixels of G and B have larger areas than the pixels of R, the brightness values are set lower in order to carry out the adjustment of the white balance.

In one use of the product, the efficiency determination circuit 15 outputs data corresponding to the operating time indicated on the X-axis of Fig. 3, and the system control microcomputer 14 outputs a white balance control signal 100 so that the amplitude values for B and G can be increased in accordance with the structure shown in Fig. 2 to keep the white balance constant.

Fig. 4 shows a structure of a further plasma display device according to the invention. With reference to FIG. 4, the plasma display device 20 shown comprises a plasma display unit 17 . The plasma display device 20 has RGB video signal input terminals 16 , an RGB signal amplifier 11 , an A / D converter 12 , a video signal converter circuit 13, and a system control microcomputer 21 . The RGB signal amplifier 11 , the A / D converter 12 , the video signal converter circuit 13 and the plasma display unit 17 are similar to the components of the plasma display control device 10 described above with reference to FIG. 1. The plasma display device 20 can therefore be regarded as a modification of the above-described plasma display control device 10 from the first application example, but differs in that it does not comprise a utilization determination circuit 15 and a system control microcomputer 21 instead of the system control microcomputer 14 contains.

The system control microcomputer 21 has A / D conversion input connections 21 a, an A / D converter 21 b and a degree of utilization determination unit 21 c. The degree of utilization determination unit 21 c corresponds to the degree of utilization determination circuit 15 of the plasma display device from the first exemplary embodiment. Accordingly, the plasma display device of the present embodiment has a smaller number of components and a smaller circuit size compared to the plasma display device of the first embodiment described above with reference to FIG. 1.

As the system control microcomputer 21 , a microcomputer with A / D conversion input terminals is used. Since a microcomputer with A / D conversion input terminals is well known in the art, its description is omitted.

In the plasma display device of the present embodiment, analog video signals for R, G and B in the A / D conversion input terminals 21 are of a system control microcomputer 21 inputted. The existing in the system control ungs microcomputer 21 A / D converter 21b converts the analog video signals into digital video signals, and the utilization ratio determining unit 21 c determines the level of the digital video signals and integrates the level and to determine the degree of utilization the times. The further processing of the plasma display device from the present exemplary embodiment is similar to that of the plasma display device from the first exemplary embodiment.

If the pixels for R, G and B are formed with different areas, the different properties in the future brightness deterioration adjustment, the white balance can be adjusted the video signal amplitudes for R, G and B according to the degree of utilization of the Product. Because here the characteristic brightness deterioration Product approximates the characteristic deterioration in brightness corresponds to that luminous substance which has the slightest deterioration in brightness , the deterioration in brightness of the entire product can be significant be reduced.

For example, if the lifespan of the product is defined as a reduction in brightness to half the brightness after product manufacture, the lifespan can be extended by the effect described above. Further, since the brightness deterioration of the phosphors for the individual colors corresponding to the degree of utilization of the product in that the utilization ratio detection circuit 15 or the use degree determination unit 21 is provided c can be compensated, the white balance, which is normally solid can automatically regardless of the Product usage level can be set.

Furthermore, even if the plasma display device is in use during a long time with one-sided video signals, for example red-heavy, blue-heavy etc. is used, an exact compensation of the white balance be performed. This is not because the stimulation times are merely measured by counting the timers not shown, but by that the degree of utilization by integrating the brightness levels for R, G and B and determines the time based on the levels of the actual video signals become.

Although preferred embodiments of the present invention are described in Using specific terms has been described, this description only serves for illustration, and it is clear that changes and modifications in the Can be done within the scope of the invention.

Claims (8)

1. Plasma display device with a plasma display unit, the display pixel for the different color components of a video signal, wherein the display pixels with different areas for the different color combinations components are formed. 2. Plasma display device according to claim 1, wherein the display pixels with different areas are formed, so that the area is larger, depending greater the amount of brightness deterioration due to the deterioration of one Is luminous substance. 3. Plasma display device according to claim 2, wherein the surfaces of the Display pixels the relationship of display pixels for green <display pixels for blue <display meet pixels for red. 4. A plasma display device according to claim 1, further comprising a Determining device for integrating the intensity and display duration of the Display pixels for the individual color components to determine the degree of utilization of the Determine luminous substances of the individual color components, as well as a Control device for performing white balance control on the Basis of the determined results of the determination device includes. 5. Plasma display device according to claim 4, wherein the control device the brightness values of the display pixels of the individual color components controls based on the intensity of the display pixels of the individual color components. 6. Plasma display device according to claim 5, wherein the control device initially the brightness values of the display pixels for the individual Color components limited in the descending order of intensities. 7. Plasma display device according to claim 4, wherein the control device the amplitude values of the individual color components accordingly the determined results of the determining device increased to the white balance to keep constant. 8. Plasma display device according to claim 4, wherein the determination device the amplitude values for the individual color components and the Time integrated to determine the degrees of use.