JP6668046B2 - Image display device burn-in prevention method and image display device burn-in prevention circuit - Google Patents

Description

  The present invention relates to a method and a circuit for preventing burn-in of a video display device for the purpose of protecting a screen of a display device or the like and extending the life thereof.

  2. Description of the Related Art Conventionally, as a means for preventing a trouble caused by continuing to display the same screen for a long time on a display screen, for example, as shown in FIG. ), And then a technique such as a screen saver (c) for moving some mark has been used. However, with such a technique, the displayed image up to that time cannot be confirmed at all, and thus may not be accepted by the user.

  Therefore, for example, Japanese Patent Application Laid-Open No. H11-163873 discloses a screen burn-in prevention method for preventing screen burn-in that occurs when the same image is continuously displayed at the same place on a screen of a display device for a long time. A screen burn-in prevention method for a display device characterized by processing an image smaller than the display area of the display device and moving the image within the screen, or occurring when the same image is continuously displayed in the same place on the display device screen for a long time. The screen burn-in prevention device for preventing the burn-in of a screen includes a means for processing an image currently in operation to make an image smaller than the display area of the screen, and a means for moving the image within the screen. A screen burn-in prevention device for a display device characterized by the above is disclosed.

  According to this technology, it is not only possible to prevent the screen from being burned, but when the user looks at the screen, the image that has been operating up to that time has been reduced or has been operating up to that point. It is said that since a part of the image is displayed on the screen, it is possible to confirm the operation state performed so far.

  Patent Document 2 discloses that a liquid crystal display panel and, among a plurality of pixels constituting a display screen of the liquid crystal display panel, a predetermined percentage of pixels at positions that are evenly distributed are changed every time a predetermined time elapses. In addition, a selection unit that changes and selects the evenly distributed positions in a predetermined order, and among the images displayed on the display screen, the color of an image displayed on a pixel selected by the selection unit is set to black. A liquid crystal display device characterized by including display control means for displaying is disclosed.

  According to this technique, only pixels that are evenly dispersed among the pixels constituting the display screen are sequentially moved to black display, so that the after-image phenomenon is performed in a state where the display content of the entire screen can be always determined. It is said that it can be prevented.

JP-A-8-286647 JP 2009-134188 A

  However, the technique disclosed in Patent Document 1 can prevent screen burn-in and can confirm the operation state performed up to that point, but the display content is small and it is difficult to confirm. There's a problem. Further, the technology disclosed in Patent Document 2 is said to prevent the after-image phenomenon and always determine the display content of the entire screen. It can be said that it is difficult to confirm the displayed contents.

  The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a method for preventing burn-in of a video display device and a circuit for preventing burn-in of a video display device, which can accurately confirm display contents while preventing burn-in of a video display device. To provide.

In order to cope with the above problems, the present invention employs the following technical means.
That is, the invention according to claim 1 is a method for preventing burn-in of a video display device, wherein an area of a color inversion area in the video display device is defined based on count values of an input horizontal synchronization signal and a vertical synchronization signal, Receiving the input video signal and performing color inversion processing on the area of the defined color inversion area, mixing the input video signal with the color inverted video signal, and causing the video display device to display the mixed video signal , The count value of the horizontal synchronization signal is used to count the number of lines in the color inversion area in the video display device, and the count value of the vertical synchronization signal shifts the start position line of the color inversion area in the video display device. a seizure prevention method of the image display device according to claim be used in actual timing.

  Next, a second aspect of the present invention is the display screen burn-in prevention method according to the first aspect, wherein the video signal subjected to the color inversion processing is multiplied by a gain corresponding to the deterioration characteristic of each of RGB element colors. After performing the matching process, the input video signals are mixed and displayed on the video display device.

According to a third aspect of the present invention, in the method for preventing burn-in of an image display device, the step of counting an input horizontal synchronization signal by a first counter means and the step of counting an input vertical synchronization signal by a second counter means. Counting, a color inversion in the video display device based on the count value of the horizontal synchronization signal counted by the first counter means and the count value of the vertical synchronization signal counted by the second counter means. A color inversion area defining step of defining an area of an area, a gain adjusting step of adjusting a gain of an input video signal, and receiving the video signal whose gain has been adjusted by the gain adjusting step; A color inversion processing step of performing color inversion processing on an area of the color inversion area defined by the inversion area defining means; A degradation compensation step of receiving a video signal that has undergone color inversion processing in the color reversal processing step and multiplying by a gain corresponding to the degradation characteristic of each of the RGB element colors; and a video signal processed in the degradation compensation step. , look containing a video signal mixing step of mixing the video signal gain adjusted by the gain adjustment step, the color inversion region definition step, the count value of the counted horizontal synchronizing signal in said first counter means Timing for shifting the start position line of the color inversion area in the video display device by using the count value of the vertical synchronization signal counted by the second counter means, while counting the number of lines in the color inversion area in the video display device. To define the color inversion area of the video display device. A seizure prevention method of the image display apparatus, characterized by.

Further, in the invention according to claim 4 , in the burn-in prevention circuit of the video display device, a color defining an area of a color inversion area in the video display device based on count values of the input horizontal synchronization signal and vertical synchronization signal. Inversion area defining means, color inversion processing means for receiving an input video signal, and performing color inversion processing on an area of a color inversion area defined by the color inversion area definition means in the video signal, and the color inversion processing means And a video signal mixing unit that mixes the input video signal with the video signal. The inversion area defining unit sets the count value of the horizontal synchronization signal to a color inversion area in the video display device. And the count value of the vertical synchronization signal is used as the start position line of the color inversion area in the video display device. By using the timing of shifting a prevention circuit seizure of the image display device according to claim you to define a region of color reversal areas in the video display device.

According to a fifth aspect of the present invention, in the burn-in prevention circuit of the video display device, a color defining an area of a color inversion area in the video display device based on count values of the input horizontal synchronization signal and vertical synchronization signal. Inversion area defining means, color inversion processing means for receiving an input video signal, and performing color inversion processing on an area of a color inversion area defined by the color inversion area definition means in the video signal, and the color inversion processing means And a video signal processed by the deterioration compensating means for receiving the video signal subjected to the color inversion processing according to the above and multiplying by a gain corresponding to the deterioration characteristics of the respective component colors of RGB, and the video signal processed by the deterioration compensating means. and a video signal mixing means for mixing the video signal, the inversion region definition means, count value of the horizontal synchronizing signal to said video display device By using the count value of the vertical synchronizing signal for the timing of shifting the start position line of the color inversion area in the video display device, the color inversion area in the video display device is used. a prevention circuit seizure of the image display device according to claim you to define the area.

According to a sixth aspect of the present invention, in the burn-in prevention circuit of the video display device, the first counter means for counting the input horizontal synchronizing signal and the second counter means for counting the input vertical synchronizing signal. A color inversion area in the video display device based on the count value of the horizontal synchronization signal counted by the first counter means and the count value of the vertical synchronization signal counted by the second counter means. Color inversion area defining means for defining, gain adjusting means for adjusting the gain of the input video signal, receiving the video signal whose gain has been adjusted by the gain adjusting means, and in the video signal, the color inversion area defining means Color inversion processing means for performing color inversion processing on an area of a color inversion area defined by A deterioration compensating means for receiving a signal and multiplying the gain in accordance with the deterioration characteristic of each of the RGB component colors, a video signal processed by the deterioration compensating means, and a video whose gain has been adjusted by the gain adjusting means. Video signal mixing means for mixing signals , wherein the color inversion area defining means counts the count value of the horizontal synchronizing signal counted by the first counter means into a line count of a color inversion area in the video display device. And using the count value of the vertical synchronizing signal counted by the second counter means at the timing of shifting the start position line of the color inversion area in the video display device, so that the color inversion area in the video display device is used. a prevention circuit seizure of the image display device according to claim you to define the area.

  According to the present invention, since the color inversion processing is performed in a fixed screen area and time on the display screen, it is possible to accurately confirm the display content (video), and to display the same screen continuously. Obstacles such as burn-in caused can be avoided. Further, in addition to the usual color inversion, a burn-in phenomenon can be completely avoided, especially in a self-luminous device such as an organic EL display, since the ratio is multiplied by a ratio corresponding to the degradation characteristic of each of the RGB component colors. Becomes

1 is a flowchart showing a first embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention. 1 is a block diagram illustrating a first embodiment of a burn-in prevention method and a prevention circuit of a video display device according to the present invention. 6 is a flowchart showing a second embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention. FIG. 5 is a block diagram showing a second embodiment of a burn-in prevention method and a prevention circuit of the video display device according to the present invention. FIG. 9 is a block diagram showing a third embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention. 1 is a schematic diagram illustrating an example of an image displayed on a video display device according to an embodiment of a burn-in prevention method and a prevention circuit of the video display device according to the present invention. This shows a display screen using a conventional screen saver, where (a) shows a work screen, (b) shows a black display state, and (c) shows a state where a mark is moving on the black display.

  A first embodiment of a burn-in prevention method for a video display device and a burn-in prevention circuit of the video display device according to the present invention will be described with reference to the drawings. FIG. 1 is a flowchart showing a first embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention, and FIG. 2 is a flowchart showing a method and a circuit for preventing burn-in of a video display device according to the present invention. FIG. 6 is a schematic diagram illustrating an example of an image displayed on a video display device according to an embodiment of a burn-in prevention method and a prevention circuit of the video display device according to the present invention.

  As for the reference numerals, 10 is a burn-in prevention circuit of a video display device, 12 is a horizontal synchronizing signal input unit, 14 is a vertical synchronizing signal input unit, 20 is a color inversion area defining means, 22 is a video signal input unit, and 26 is a color signal input unit. Inversion processing means, 30 is a video signal mixing means, and 32 is a color inversion area.

  First, the image display device burn-in prevention method and the image display device burn-in prevention circuit according to the present embodiment are particularly for suppressing “burn-in” which is a phenomenon peculiar to the organic EL display. A screen as shown in FIG. 6 is displayed as a screen saver function when no operation or a still image is continued for a certain period of time on a device using the EL display.

  In other words, as shown in FIG. 6, a band-shaped area in which the color is inverted in a certain section is moved on the screen, whereby the deterioration degree of each element color (RGB) of each pixel in the organic EL display is averaged, Reduces seizure. Here, since the organic EL display is a self-luminous device in which the pixel itself shines, the organic EL display deteriorates (decreases in brightness) for each pixel in accordance with the luminous intensity and time of the pixel. In particular, when a still image is displayed for a long time, a specific color of a specific pixel deteriorates, and a luminance difference from peripheral pixels is likely to occur. Note that “burn-in” of the organic EL display indicates a state in which such a luminance difference between pixels can be visually recognized.

  Next, a method for preventing burn-in of the video display device and a burn-in prevention circuit of the video display device according to the present embodiment will be described. As shown in FIG. 2, the burn-in prevention circuit 10 of the video display device according to the present embodiment first includes a horizontal synchronization signal input from a horizontal synchronization signal input unit 12 and a vertical synchronization signal input from a vertical synchronization signal input unit 14. There is provided a color inversion area defining means 20 for counting signals and defining an area of a color inversion area in the video display device based on these count values.

  Further, a color inversion processing unit 26 that receives a video signal input from the video signal input unit 22 and performs a color inversion process on a color inversion area defined by the color inversion area definition unit 20 in the video signal; A video signal mixing unit 30 for mixing the video signal subjected to the color inversion processing by the processing unit 26 and the video signal input from the video signal input unit 22 is provided. In the present embodiment, the portion to which this circuit is applied is a portion of the drive circuit of the organic EL display which is closest to the display-side video output stage. In addition, if the gain of the video signal input from the video signal input unit 22 is adjusted (for example, about ２) before being received by the color inversion processing unit 26, the color inversion area other than the color inversion area on the video display device can be obtained. Area can be protected.

  Subsequently, the burn-in prevention method of the video display device and the burn-in prevention circuit of the video display device according to the present embodiment will be described in more detail with reference to FIG. First, the count value obtained by counting the horizontal synchronization signal input from the horizontal synchronization signal input unit 12 and the count value obtained by counting the vertical synchronization signal input from the vertical synchronization signal input unit 14 are respectively represented by a color inversion area. It is used for defining the color inversion area in the definition means 20.

  In the present embodiment, the count value of the horizontal synchronizing signal is used for counting the number of lines in the color inversion area by the color inversion area defining means 20. That is, for example, when the color inversion area is 200 lines, the count value of the horizontal synchronization signal is used to count the 200 lines.

  The count value of the vertical synchronizing signal is used for the timing for shifting the start line of the color inversion area in the color inversion area defining means 20. For example, when the count value reaches a predetermined value or when the count value is reset, control is performed so that the start line of the color inversion area is incremented to define the color inversion area. With such a definition, in the above example, the 200 lines, which are the color inversion areas, repeat the movement of shifting from top to bottom. Note that the shift from the bottom to the top may be performed by the control of the decrement.

  Subsequently, the video signal input from the video signal input unit 22 is subjected to color inversion processing in a color inversion processing unit 26 in a color inversion area defined by the color inversion area definition unit 20. Further, the video signal subjected to the color inversion processing and the video signal input from the video signal input unit 22 are mixed by the video signal mixing means 30, and based on the mixed signal, as shown in FIG. The video and the color reversal area 32 having a screen saver function can be displayed. If the gain of the video signal input from the video signal input unit 22 is adjusted (for example, about ２) before being received by the color inversion processing unit 26, the color inversion area other than the color inversion area on the video display device can be obtained. Area can be protected.

  Next, a second embodiment of a burn-in prevention method for a video display device and a burn-in prevention circuit of the video display device according to the present invention will be described with reference to the drawings. FIG. 3 is a flowchart showing a second embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention. FIG. 4 is a flowchart showing a method and a circuit for preventing burn-in of a video display device according to the present invention. FIG. 11 is a block diagram showing a second embodiment. The codes are the same as those in FIG. 2 except that 28 is a deterioration compensating means.

  First, the method for preventing burn-in of a video display device and the burn-in prevention circuit of a video display device according to the present embodiment are also particularly for suppressing “burn-in” which is a phenomenon peculiar to an organic EL display. A screen as shown in FIG. 6 is displayed as a screen saver function when a device using an organic EL display has not been operated or a still image has been kept for a certain period of time.

  In other words, as shown in FIG. 6, a band-shaped area in which the color is inverted in a certain section is moved on the screen, whereby the deterioration degree of each element color (RGB) of each pixel in the organic EL display is averaged, Reduces seizure. Here, since the organic EL display is a self-luminous device in which the pixel itself shines, the organic EL display deteriorates (decreases in brightness) for each pixel in accordance with the luminous intensity and time of the pixel. In particular, when a still image is displayed for a long time, a specific color of a specific pixel deteriorates, and a luminance difference from peripheral pixels is likely to occur. Note that “burn-in” of the organic EL display indicates a state in which such a luminance difference between pixels can be visually recognized.

  Next, a method for preventing burn-in of the video display device and a burn-in prevention circuit of the video display device according to the present embodiment will be described. As shown in FIG. 4, the burn-in prevention circuit 10 of the video display device according to the present embodiment first includes a horizontal synchronization signal input from a horizontal synchronization signal input unit 12 and a vertical synchronization signal input from a vertical synchronization signal input unit 14. There is provided a color inversion area defining means 20 for counting signals and defining an area of a color inversion area in the video display device based on these count values.

  Further, a color inversion processing unit 26 that receives a video signal input from the video signal input unit 22 and performs a color inversion process on a color inversion area defined by the color inversion area definition unit 20 in the video signal; A deterioration compensating unit 28 that receives the video signal subjected to the color inversion processing by the processing unit 26 and performs a process of multiplying the gain according to the deterioration characteristic of each of the RGB component colors, a video signal processed by the deterioration compensating unit 28, A video signal mixing unit 30 for mixing video signals input from the video signal input unit 22 is provided. If the processing by the deterioration compensating means 28 is performed, it is possible to prevent the easily degraded color from shining too much, and as a result, the effect of protecting the video display device and extending the service life is further obtained.

  In the present embodiment, the portion to which this circuit is applied is a portion of the drive circuit of the organic EL display which is closest to the display side video output stage. In addition, if the gain of the video signal input from the video signal input unit 22 is adjusted (for example, about ２) before being received by the color inversion processing unit 26, the color inversion area other than the color inversion area on the video display device can be obtained. Area can be protected.

  Subsequently, the burn-in prevention method of the video display device and the burn-in prevention circuit of the video display device according to the present embodiment will be described in more detail with reference to FIG. First, the count value obtained by counting the horizontal synchronization signal input from the horizontal synchronization signal input unit 12 and the count value obtained by counting the vertical synchronization signal input from the vertical synchronization signal input unit 14 are respectively represented by a color inversion area. It is used for defining the color inversion area in the definition means 20.

  In the present embodiment, the count value of the horizontal synchronizing signal is used for counting the number of lines in the color inversion area by the color inversion area defining means 20. That is, for example, when the color inversion area is 200 lines, the count value of the horizontal synchronization signal is used to count the 200 lines.

  The count value of the vertical synchronizing signal is used for the timing for shifting the start line of the color inversion area in the color inversion area defining means 20. For example, when the count value reaches a predetermined value or when the count value is reset, control is performed so that the start line of the color inversion area is incremented to define the color inversion area. With such a definition, in the above example, the 200 lines, which are the color inversion areas, repeat the movement of shifting from top to bottom. Note that the shift from the bottom to the top may be performed by the control of the decrement.

  Subsequently, the video signal input from the video signal input unit 22 is subjected to color inversion processing in a color inversion processing unit 26 in a color inversion area defined by the color inversion area definition unit 20. Then, the video signal subjected to the color inversion processing is received by the deterioration compensating means 28, and is subjected to a process of multiplying by a gain corresponding to the deterioration characteristics of the respective component colors of RGB.

  Further, the video signal processed by the deterioration compensating unit 28 and the video signal input from the video signal input unit 22 are mixed by the video signal mixing unit 30, and based on the mixed signal, as shown in FIG. The image and the color inversion area 32 having the screen saver function can be displayed on the display device. If the gain of the video signal input from the video signal input unit 22 is adjusted (for example, about ２) before being received by the color inversion processing unit 26, the color inversion area other than the color inversion area on the video display device can be obtained. Area can be protected.

  Next, a third embodiment of a burn-in prevention method for a video display device and a burn-in prevention circuit of the video display device according to the present invention will be described with reference to the drawings. FIG. 5 is a block diagram showing a third embodiment of a method and a circuit for preventing burn-in of a video display device according to the present invention. The codes are the same as those in FIG. 4 except that 16 is a horizontal synchronizing signal counter, 18 is a vertical synchronizing signal counter, and 24 is a gain adjusting means.

  First, the method for preventing burn-in of a video display device and the burn-in prevention circuit of a video display device according to the present embodiment are also particularly for suppressing “burn-in” which is a phenomenon peculiar to an organic EL display. A screen as shown in FIG. 6 is displayed as a screen saver function when a device using an organic EL display has not been operated or a still image has been kept for a certain period of time.

  In other words, as shown in FIG. 6, a band-shaped area in which the color is inverted in a certain section is moved on the screen, whereby the deterioration degree of each element color (RGB) of each pixel in the organic EL display is averaged, Reduces seizure. Here, since the organic EL display is a self-luminous device in which the pixel itself shines, the organic EL display deteriorates (decreases in brightness) for each pixel in accordance with the luminous intensity and time of the pixel. In particular, when a still image is displayed for a long time, a specific color of a specific pixel deteriorates, and a luminance difference from peripheral pixels is likely to occur. Note that “burn-in” of the organic EL display indicates a state in which such a luminance difference between pixels can be visually recognized.

  Next, a method for preventing burn-in of the video display device and a burn-in prevention circuit of the video display device according to the present embodiment will be described. As shown in FIG. 5, the burn-in prevention circuit 10 of the video display device according to the present embodiment firstly includes a horizontal synchronization signal counter which is a first counter unit for counting the horizontal synchronization signal input from the horizontal synchronization signal input unit 12. 16, a vertical synchronization signal counter 18 serving as second counter means for counting the vertical synchronization signal input from the vertical synchronization signal input unit 14, a count value of the horizontal synchronization signal counted by the horizontal synchronization signal counter 16, A color inversion area defining means 20 for defining a color inversion area on the display screen based on the count value of the vertical synchronization signal counted by the vertical synchronization signal counter 18 is provided.

  Further, a gain adjusting means 24 for adjusting the gain of the video signal input from the video signal input unit 22 (for example, to about ２) and a video signal whose gain has been adjusted by the gain adjusting means 24 are received. A color reversal processing unit 26 is provided for performing a color reversal process on a signal in a color reversal area defined by the color reversal area defining unit 20. Note that by adjusting the gain by the gain adjusting means 24, it is possible to protect an area other than the color inversion area on the video display device.

  Then, the video signal subjected to the color inversion processing by the color inversion processing means 26 is subjected to the processing by the deterioration compensating means 28 for performing a process of multiplying the gain in accordance with the deterioration characteristics of the respective component colors of RGB and the deterioration compensating means 28. A video signal mixing means 30 for mixing the video signal and the video signal whose gain has been adjusted by the gain adjusting means 24 is provided. In the present embodiment, the portion to which this circuit is applied is a portion of the drive circuit of the organic EL display which is closest to the display-side video output stage. Further, as described above, if the processing by the deterioration compensating means 28 is performed, it is possible to prevent the easily deteriorated color from shining much, and as a result, the effect of protecting the video display device and extending the service life is further produced. Become.

  Next, the burn-in prevention method of the video display device and the burn-in prevention circuit of the video display device according to the present invention will be described in more detail. First, the horizontal synchronization signal input from the horizontal synchronization signal input unit 12 is counted by the horizontal synchronization signal counter 16 and the vertical synchronization signal input from the vertical synchronization signal input unit 14 is determined by the vertical synchronization signal counter. The count values counted by 18 are used for defining a color inversion area in the color inversion area definition means 20, respectively.

  In the present embodiment, the count value counted by the horizontal synchronization signal counter 16 is used for counting the number of lines in the color inversion area by the color inversion area defining means 20. That is, for example, when the color inversion area is 200 lines, the count value of the horizontal synchronization signal counter 16 is used to count the 200 lines.

  The count value counted by the vertical synchronizing signal counter 18 is used for the timing for shifting the start line of the color inversion area in the color inversion area defining means 20. For example, when the count value reaches a predetermined value or when the count value is reset, control is performed so that the start line of the color inversion area is incremented to define the color inversion area. With this definition, in the above example, the 200 lines, which are the color inversion areas, repeat the movement of shifting from top to bottom. Note that the shift from the bottom to the top may be performed by the control of the decrement.

  Subsequently, the gain of the video signal input from the video signal input unit 22 is adjusted by the gain adjustment unit 24. Then, the video signal whose gain has been adjusted is subjected to color inversion processing in the color inversion area defined by the color inversion area defining means 20 in the color inversion processing means 26. Further, the video signal subjected to the color inversion processing is subjected to a processing of being multiplied by a gain in accordance with the deterioration characteristics of the respective component colors of RGB in the deterioration compensating means 28.

  Next, the video signal processed by the deterioration compensating means 28 and the video signal whose gain has been adjusted by the gain adjusting means 24 are mixed by the video signal mixing means 30, and based on the mixed signal, as shown in FIG. Thus, the image and the color reversal area 32 having the screen saver function are displayed on the display screen.

  ADVANTAGE OF THE INVENTION According to the burn-in prevention circuit and the display screen burn-in prevention method of the video display apparatus which concern on this invention, it can be used conveniently for avoiding the burn-in phenomenon which is caused in the self-luminous device including the organic EL display.

DESCRIPTION OF SYMBOLS 10 Image burn-in prevention circuit 12 of video display apparatus 12 Horizontal synchronizing signal input unit 14 Vertical synchronizing signal input unit 16 Horizontal synchronizing signal counter 18 Vertical synchronizing signal counter 20 Color inversion area defining means 22 Video signal input unit 24 Gain adjusting means 26 Color inversion processing means 28 Deterioration compensation means 30 Video signal mixing means 32 Color inversion area

Claims (6)

In a method for preventing burn-in of a video display device,
Based on the count values of the input horizontal synchronizing signal and vertical synchronizing signal, a color inversion area in the video display device is defined, and the input video signal is received, and the defined color inversion area is colored. Inverting, the color-inverted video signal and the input video signal are mixed and displayed on the video display device, and the count value of the horizontal synchronizing signal is a line of a color inversion area in the video display device. with use in count of the number, the count value of the vertical synchronizing signal, seizure prevention method of the image display device according to claim be used in actual timing to shift the starting position line of the color reversal areas in the video display device.   After performing a process of multiplying the video signal subjected to the color inversion process by a gain corresponding to the degradation characteristic of each of the RGB component colors, mixing the input video signal with the input video signal and displaying the mixed video signal on the video display device. The method for preventing burn-in of a video display device according to claim 1. In a method for preventing burn-in of a video display device,
Counting the input horizontal synchronization signal by a first counter means;
Counting the input vertical synchronizing signal by a second counter means;
An area of a color inversion area in the video display device is defined based on a count value of a horizontal synchronization signal counted by the first counter means and a count value of a vertical synchronization signal counted by the second counter means. A color inversion area defining step
A gain adjustment step of adjusting the gain of the input video signal,
A color inversion processing step of receiving a video signal whose gain has been adjusted by the gain adjustment step and performing a color inversion processing on an area of a color inversion area defined by the color inversion area defining means in the video signal;
A deterioration compensation step of receiving a video signal subjected to the color inversion processing in the color inversion processing step and multiplying the video signal by a gain corresponding to the deterioration characteristic of each of RGB component colors;
The video signal processed by the deterioration compensation step, and a video signal mixing step of mixing the input video signal,
Only including,
The color inversion area defining step uses the count value of the horizontal synchronizing signal counted by the first counter means to count the number of lines in the color inversion area in the video display device, and counts by the second counter means. Video display characterized by defining a region of the color inversion area in the video display device by using the count value of the vertical synchronization signal thus obtained at a timing of shifting a start position line of the color inversion area in the video display device. A method for preventing device burn-in. In the image display device burn-in prevention circuit,
Color inversion area defining means for defining an area of a color inversion area in the video display device based on count values of the input horizontal synchronization signal and vertical synchronization signal,
Color inversion processing means for receiving an input video signal and performing color inversion processing on an area of a color inversion area defined by the color inversion area defining means in the video signal;
A video signal subjected to color inversion processing by the color inversion processing unit, and a video signal mixing unit that mixes the input video signal;
Wherein the inversion area defining means uses the count value of the horizontal synchronization signal for counting the number of lines in a color inversion area in the video display device, and uses the count value of the vertical synchronization signal in color inversion in the video display device. by using the timing of shifting the starting position line of the area, seizure prevention circuit of the image display device according to claim you to define a region of color reversal areas in the video display device. In the image display device burn-in prevention circuit,
Color inversion area defining means for defining an area of a color inversion area in the video display device based on count values of the input horizontal synchronization signal and vertical synchronization signal,
Color inversion processing means for receiving an input video signal and performing color inversion processing on an area of a color inversion area defined by the color inversion area defining means in the video signal;
Degradation compensation means for receiving a video signal subjected to color inversion processing by the color inversion processing means and performing a process of multiplying by a gain corresponding to the degradation characteristic of each of the RGB component colors;
A video signal processed by the deterioration compensation means, and a video signal mixing means for mixing the input video signal,
Wherein the inversion area defining means uses the count value of the horizontal synchronization signal for counting the number of lines in a color inversion area in the video display device, and uses the count value of the vertical synchronization signal in color inversion in the video display device. by using the timing of shifting the starting position line of the area, seizure prevention circuit of the image display device according to claim you to define a region of color reversal areas in the video display device. In the image display device burn-in prevention circuit,
First counter means for counting an input horizontal synchronization signal;
Second counter means for counting the input vertical synchronization signal;
An area of a color inversion area in the video display device is defined based on a count value of a horizontal synchronization signal counted by the first counter means and a count value of a vertical synchronization signal counted by the second counter means. Means for defining a color reversal area,
Gain adjustment means for adjusting the gain of the input video signal,
Color inversion processing means for receiving a video signal whose gain has been adjusted by the gain adjustment means, and in the video signal, performing color inversion processing on an area of a color inversion area defined by the color inversion area defining means,
Degradation compensation means for receiving a video signal subjected to color inversion processing by the color inversion processing means and performing a process of multiplying by a gain corresponding to the degradation characteristic of each of the RGB component colors;
A video signal processed by the deterioration compensation means, and a video signal mixing means for mixing the input video signal,
Wherein the color inversion area defining means uses the count value of the horizontal synchronization signal counted by the first counter means for counting the number of lines in the color inversion area in the video display device, and the second counter by using the count value of the counted vertical synchronizing signal by means of the timing for shifting the starting position line of the color reversal areas in the video display device, characterized you to define a region of color reversal areas in the video display device A burn-in prevention circuit for a video display device.