JP2006113309A - Method for controlling display brightness and display apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To change a display brightness only by a processing on a display apparatus side in accordance with a screen to be displayed. <P>SOLUTION: When an image is displayed on the basis of color display signals d, a designated color discrimination circuit 10 discriminates whether colors in the whole display pixels constituting one screen include designated colors or not, and a microcomputer 7 changes brightness of a backlight 2 to change the display brightness depending on the discrimination result that an undesignated color is included or an undesignated color is not included. Therefore, by establishing rules that colors used in a screen-saver screen are regarded as designated colors and that the brightness is decreased when a picture does not contain a undesignated color, the display brightness of a screen-saver screen can be decreased to save electric power. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a display luminance control method and a display device, and more particularly to a display luminance control method and a display device that can change the display luminance only by processing on the display device side according to a screen to be displayed.

Conventionally, a technology in which a host computer sends a brightness adjustment signal to a display device by DDC (Display Data Channel) communication at the time of a screen saver, and the display device that has received the brightness adjustment signal reduces display brightness and saves power consumption at the time of the screen saver. It is known (for example, refer to Patent Document 1).
JP 2003-271107 A

The prior art has a problem that both the DDC communication processing on the host computer side and the luminance control processing on the display device side are required in order to obtain the effect of reducing the power consumption during the screen saver.
Therefore, an object of the present invention is to provide a display luminance control method and a display device that can change the display luminance only by processing on the display device side in accordance with the screen to be displayed.

In a first aspect, the present invention discriminates whether or not a color other than a designated color is included in the colors of all display pixels constituting one screen of a color video signal when displaying a video based on the color video signal. Then, a display luminance control method is provided, in which the display luminance is changed depending on whether it is determined that a color other than the designated color is included or not.
In the display luminance control method according to the first aspect, for example, all colors used in the screen saver screen are designated as designated colors, and the designated colors are used as the colors of all display pixels constituting one screen of the color video signal. If it contains a non-designated color, the brightness set for normal display is used. If it is determined that a non-designated color is not contained, the display brightness is set to be lower than the normal display brightness. Can save power consumption during screen saver.
The screen is not limited to the screen saver screen. The displayed video may be either color or monochrome. The display device may be a liquid crystal panel or a CRT.

In a second aspect, the present invention provides a display brightness when it is determined in the display brightness control method according to the first aspect that no non-designated color is included from the display brightness when a non-designated color is included. Provided is a display luminance control method characterized by lowering.
In the display brightness control method according to the second aspect, for example, all colors used in the screen saver screen are designated as designated colors, and the designated colors are used as the colors of all display pixels constituting one screen of the color video signal. If it contains a non-specified color, the brightness is set for normal display. If it is determined that the specified color is not included, the display brightness is set lower than the normal display brightness. Can save power consumption during screen saver.

In a third aspect, the present invention provides a display brightness when it is determined in the display brightness control method according to the first aspect that no non-designated color is included from the display brightness when a non-designated color is included. A display luminance control method characterized by increasing
In the display brightness control method according to the third aspect, for example, white is designated as the designated color, and when the colors of all the display pixels constituting one screen of the color video signal include colors other than white, normal display is performed. Therefore, if it is determined that the display brightness is not included and the display brightness is higher than the normal display brightness, the white screen can be suitably used as the screen for the shaucusten.

In a fourth aspect, the present invention provides a display device that displays video based on an input color video signal, and a color that is not a designated color as the color of all display pixels constituting one screen of the input color video signal. Display brightness that changes display brightness between the case where it is determined that the specified color determination means includes a color other than the specified color and the case where it is determined that the color other than the specified color is not included A display device characterized by comprising a changing means.
In the display device according to the fourth aspect, for example, all colors used in the screen saver screen are designated as designated colors, and the colors of all display pixels constituting one screen of the color video signal are not designated colors. If the display brightness is included, the brightness set for normal display is set. If it is determined that the specified color is not included, the display brightness is set lower than the normal display brightness. Power consumption can be saved.
The screen is not limited to the screen saver screen. The displayed video may be either color or monochrome. The display device may be a liquid crystal panel or a CRT.

In a fifth aspect, the present invention provides the display device according to the fourth aspect, wherein the display brightness changing means determines that the display brightness does not include a color that is not the specified color from the display brightness when it is determined that the color does not include the specified color. Provided is a display device characterized by lowering the display brightness in the case of the above.
In the display device according to the fifth aspect, for example, all the colors used in the screen saver screen are designated as designated colors, and the colors of all the display pixels constituting one screen of the color video signal are not designated colors. If the display brightness is included, the brightness is set for normal display. If it is determined that the specified color is not included, the display brightness is set lower than the normal display brightness. Power consumption can be saved.

In a sixth aspect, the present invention provides the display device according to the fourth aspect, wherein the display luminance changing means determines that the display luminance does not include a color that is not the specified color from the display luminance when it is determined that the color does not include the specified color. There is provided a display device characterized by increasing the display brightness in the case of the above.
In the display device according to the sixth aspect, for example, white is designated as the designated color, and when the color of all display pixels constituting one screen of the color video signal includes a color other than white, for normal display When it is determined that the set brightness is not included and a color other than white is not included, the display brightness is set higher than the normal display brightness, so that the white screen can be suitably used as the screen for the shaucus ten.

  According to the display luminance control method and the display device of the present invention, the display luminance can be changed only by processing on the display device side according to the screen to be displayed.

  Hereinafter, the present invention will be described in more detail with reference to the embodiments shown in the drawings. Note that the present invention is not limited thereby.

FIG. 1 is a block diagram illustrating a liquid crystal display device 100 according to the first embodiment.
The liquid crystal display device 100 includes a liquid crystal panel 1, a backlight 2, an inverter 3 for driving the backlight 2, a connector 4 for inputting a color display signal d from a host computer PC, and a DVI (Digital Visual Interface). The receiver 5, the image processing unit 6 that drives the liquid crystal panel 1 based on the color video signal and control signal output from the DVI receiver 5, and displays the video, and the color video signal and control signal output from the DVI receiver 5. From the designated color discriminating circuit 10 for discriminating whether or not the colors of all display pixels constituting one screen include a color other than the designated color based on the control signal output from the DVI receiver 5 and the designated color discriminating circuit 10 A microprocessor 7 that controls the inverter 3 and the image processing unit 6 based on the output discrimination signal C is provided.
Note that hardware other than the designated color discrimination circuit 10 is originally provided in a conventional liquid crystal display device.

FIG. 2 is a circuit diagram illustrating the designated color discrimination circuit 10 according to the first embodiment.
The designated color decoder 11 sets the output X to “0” when the pixel color is “blue” or “yellow”, and sets the output X to “1” when the pixel color is not “blue” or “yellow”. .
The AND gate 12 passes the pixel clock signal P when the data enable signal E is “1”, and stops the pixel clock signal P when the data enable signal E is “0”.
The delay circuit 13 delays the vertical synchronization signal Vs by an extremely short time (for example, about ½ of the period of the pixel clock signal P).

  The D flip-flop 14 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output X of the designated color decoder 11 is read and output at the falling edge of the pixel clock signal P that has passed through the AND gate 12. Therefore, the output Q is set to “0” when the pixel color is “blue” or “yellow”, and the output Q is set to “1” when the pixel color is not “blue” or “yellow”.

The D flip-flop 15 sets the output Q to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output Q is set to “1” at the rise of the output Q of the D flip-flop 14. That is, the output Q is set to “0” immediately before the start of one screen, and the output Q is maintained to “0” when the colors of all display pixels constituting one screen do not include a color other than “blue” or “yellow”. When the color of all display pixels constituting one screen includes even one pixel other than “blue” or “yellow”, the output Q is changed to “1”.
The D flip-flop 16 reads and holds the output Q of the D flip-flop 15 by the vertical synchronization signal Vs.

After all, the designated color discrimination circuit 10 according to the first embodiment sets “1” as the discrimination signal C when the color of all display pixels constituting a screen includes even one pixel other than “blue” or “yellow”. When the next screen is output and it is determined that no color other than “blue” or “yellow” is included, “0” is output as the determination signal C in the next screen.
Therefore, as shown in FIG. 3, when the “message board” is selected in the screen saver screen setting of the Windows OS, “blue” is designated as the color of the background W, and “yellow” is designated as the color of the text T. When the color display signal d from the computer PC is not the screen saver screen SS, the designated color discrimination circuit 10 outputs “1” as the discrimination signal C, and outputs “0” as the discrimination signal C when it is the screen saver screen SS.

FIG. 4 is a flowchart showing the backlight control process according to the first embodiment by the microprocessor 7.
In step S1, it is checked whether the vertical synchronizing signal Vs (or horizontal synchronizing signal) is input from the DVI receiver 5. If not, the process proceeds to step S3. If it is input, the process proceeds to step S6.
In step S3, the inverter 3 is stopped and the backlight 2 is turned off. Then, the process returns to step S1. That is, when the color display signal d is not input from the host computer PC, the display is turned off (non-display mode).

In step S6, it is checked whether the determination signal C from the designated color determination circuit 11 is “0”. If “0”, the process proceeds to step S7, and if “1”, the process proceeds to step S8.
In step S7, the inverter 3 is operated so that the output is lower than normal, and the backlight 2 is made lower in luminance than normal. Then, the process returns to step S1. That is, when the screen saver screen SS is input from the host computer PC as the color display signal d, the screen is darkened (power saving display mode).

  In step S8, the inverter 3 is operated so that the output corresponds to the luminance set for normal display, and the backlight 2 is set to the normal set luminance. Then, the process returns to step S1. That is, when a screen other than the screen saver screen SS is input as the color display signal d from the host computer PC, the screen is set to the normal display brightness (normal display mode).

  According to the liquid crystal display device 100 of the first embodiment, the display luminance can be changed only by processing on the display device side according to the screen to be displayed. For example, the power consumption at the time of the screen saver can be reduced only by the processing on the display device side.

FIG. 5 is a circuit diagram illustrating the designated color discrimination circuit 10 according to the second embodiment.
The designated color decoder 11 has a first output X1, a second output X2, and a third output X3. The first output X1 is set to “0” when the pixel color is “black”, and the first output X1 is set to “1” when the pixel color is not “black”. The second output X2 is set to “0” when the pixel color is “white”, and the second output X2 is set to “1” when the pixel color is not “white”. Further, when the pixel color is “black” “red” “green” “yellow” “blue” “magenta” “cyan” or “white”, the third output X3 is set to “0”, and the pixel color is “black”. The third output X3 is set to “1” when it is not “red” “green” “yellow” “blue” “magenta” “cyan” or “white”.

The AND gate 12 passes the pixel clock signal P when the data enable signal E is “1”, and stops the pixel clock signal P when the data enable signal E is “0”.
The delay circuit 13 delays the vertical synchronization signal Vs by an extremely short time (for example, about ½ of the period of the pixel clock signal P).

The D flip-flop 24 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output X1 of the designated color decoder 11 is read and output at the falling edge of the pixel clock signal P that has passed through the AND gate 12. Accordingly, the output Q is set to “0” when the pixel color is “black”, and the output Q is set to “1” when the pixel color is not “black”.
The D flip-flop 25 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output X2 of the designated color decoder 11 is read and output at the falling edge of the pixel clock signal P that has passed through the AND gate 12. Accordingly, the output Q is set to “0” when the pixel color is “white”, and the output Q is set to “1” when the pixel color is not “white”.
The D flip-flop 26 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output X3 of the designated color decoder 11 is read and output at the falling edge of the pixel clock signal P that has passed through the AND gate 12. Accordingly, when the pixel color is “black”, “red”, “green”, “yellow”, “blue”, “magenta”, “cyan” or “white”, the output Q is set to “0”, and the pixel color is “black” “ The output Q is set to “1” when it is not red, “green”, “yellow”, “blue”, “magenta”, “cyan” or “white”.

The D flip-flop 27 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output Q is set to “1” at the rise of the output Q of the D flip-flop 24. That is, the output Q is set to “0” immediately before the start of one screen, and the output Q is maintained at “0” when the colors of all display pixels constituting the one screen do not include any color other than “black”. The output Q is changed to “1” when the color of all the display pixels constituting the pixel includes a color other than “black”.
The D flip-flop 28 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output Q is set to “1” at the rise of the output Q of the D flip-flop 25. That is, the output Q is set to “0” immediately before the start of one screen, and the output Q is maintained at “0” when the colors of all display pixels constituting one screen do not include any color other than “white”. The output Q is changed to “1” when the color of all the display pixels constituting the pixel includes a color other than “white”.
The D flip-flop 29 sets the output to “0” by the vertical synchronization signal Vs delayed by the delay circuit 13. Further, the output Q is set to “1” at the rise of the output Q of the D flip-flop 26. In other words, the output Q is set to “0” immediately before the start of one screen, and “black”, “red”, “green”, “yellow”, “blue”, “magenta”, “cyan” or “ If no color other than white is included, the output Q is maintained at “0”, and the colors of all display pixels constituting one screen are “black”, “red”, “green”, “yellow”, “blue”, “magenta”, “ When even one pixel includes a color other than “cyan” or “white”, the output Q is changed to “1”.

The D flip-flop 30 reads and holds the output of the D flip-flop 27 by the vertical synchronization signal Vs.
The D flip-flop 31 reads and holds the output of the D flip-flop 28 by the vertical synchronization signal Vs.
The D flip-flop 32 reads and holds the output of the D flip-flop 29 by the vertical synchronization signal Vs.

  After all, the designated color discrimination circuit 10 of the second embodiment outputs “1” as the discrimination signal C1 in the next screen when the colors of all display pixels constituting a screen include a color other than “black”. If it is determined that a color other than “black” is not included, “0” is output as the determination signal C1 in the next screen. If the color of all display pixels constituting a screen includes a color other than “white”, “1” is output as the determination signal C2 in the next screen, and if it is determined that the color other than “white” is not included. “0” is output during the next screen as the discrimination signal C2. Further, when the colors of all display pixels constituting a screen include colors other than “black”, “red”, “green”, “yellow”, “blue”, “magenta”, “cyan” or “white”, “1” is set as the discrimination signal C3. Is output in the next screen, and when it is determined that it does not include any color other than “black”, “red”, “green”, “yellow”, “blue”, “magenta”, “cyan” or “white”, “0” Is output in the next screen.

FIG. 6 is a flowchart showing the backlight control process according to the second embodiment by the microprocessor 7.
In step S1, it is checked whether the vertical synchronizing signal Vs (or horizontal synchronizing signal) is input from the DVI receiver 5. If not, the process proceeds to step S3. If it is input, the process proceeds to step S2.
In step S2, it is checked whether the determination signal C1 from the designated color determination circuit 11 is “0”. If “0”, the process proceeds to step S3, and if “1”, the process proceeds to step S4.
In step S3, the inverter 3 is stopped and the backlight 2 is turned off. Then, the process returns to step S1. That is, when the color display signal d is not input from the host computer PC or when a screen in which all pixels are “black” is input as the color display signal d, the display is turned off (non-display mode).

In step S4, it is checked whether the determination signal C2 from the designated color determination circuit 11 is “0”. If “0”, the process proceeds to step S5, and if “1”, the process proceeds to step S6.
In step S5, the inverter 3 is operated so that the output is higher than normal, and the backlight 2 has higher luminance than normal. Then, the process returns to step S1. That is, when a screen in which all pixels are “white” is input as the color display signal d from the host computer PC, the screen is brightened (high luminance display mode). Thus, as shown in FIG. 7, if the film scissors P placed on the liquid crystal panel 1 is held on the screen of the liquid crystal panel 1 with the films F1 and F2 being sandwiched, the white screen can be suitably used as a screen for the shaukasten. I can do it.

In step S6, it is checked whether the determination signal C3 from the designated color determination circuit 11 is “0”. If “0”, the process proceeds to step S7, and if “1”, the process proceeds to step S8.
In step S7, the inverter 3 is operated so that the output is lower than normal, and the backlight 2 is made lower in luminance than normal. Then, the process returns to step S1. That is, when the screen saver screen SS as shown in FIG. 3 or the color bar screen CB as shown in FIG. 8 is input as the color display signal d from the host computer PC, the screen is darkened (power saving display mode).

  In step S8, the inverter 3 is operated so that the output corresponds to the luminance set for normal display, and the backlight 2 is set to the normal set luminance. Then, the process returns to step S1. That is, when a screen other than “all black screen”, “all white screen”, “screen saver screen SS” and “color bar screen CB” is input from the host computer PC as the color display signal d, the screen is set to the normal display brightness. (Normal display mode)

  According to the liquid crystal display device of the second embodiment, the display brightness can be changed only by processing on the display device side according to the screen to be displayed. For example, the power consumption when the screen saver or the television broadcast is transmitting the color bar screen CB can be reduced only by the processing on the display device side.

  The present invention can also be applied to a CRT display device. In that case, the luminance level may be controlled instead of the backlight control.

  The display brightness control method and the display device of the present invention can be used for power saving.

1 is a configuration diagram illustrating a liquid crystal display device according to Embodiment 1. FIG. 3 is a circuit diagram illustrating a designated color discrimination circuit according to Embodiment 1. FIG. It is an illustration figure of a screen saver screen. FIG. 6 is a flowchart illustrating backlight control processing according to the first embodiment. FIG. 6 is a circuit diagram illustrating a designated color discrimination circuit according to a second embodiment. FIG. 10 is a flowchart illustrating backlight control processing according to the second embodiment. It is an illustration figure of an all-white screen. It is an illustration figure of a color bar screen.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Liquid crystal panel 2 Backlight 3 Inverter 7 Microcomputer 10 Designated color discrimination circuit 11 Designated color decoder 12 AND gate 13 Delay circuit 14-16, 24-32 D flip-flop 100 Liquid crystal display device

Claims (6)

When displaying a video based on a color video signal, it is determined whether or not the color of all display pixels constituting one screen of the color video signal includes a color that is not a specified color, and is determined to include a color that is not a specified color A display luminance control method, wherein the display luminance is changed between the case where it is determined that a color other than the designated color is not included. 2. The display brightness control method according to claim 1, wherein the display brightness when the non-designated color is determined not to be included is lower than the display brightness when the non-designated color is included. Method. 2. The display luminance control method according to claim 1, wherein the display luminance is increased when it is determined that no color other than the designated color is included than the display luminance when it is determined that the color is not the designated color. Method. In a display device that displays video based on an input color video signal, a specified color for determining whether or not the color of all display pixels constituting one screen of the input color video signal includes a color other than the specified color And a display brightness changing means for changing display brightness between the case where it is determined that the specified color determining means includes a color which is not a specified color and the case where it is determined that a color which is not a specified color is not included. Display device. 5. The display device according to claim 4, wherein the display brightness changing means lowers the display brightness when it is determined that no color other than the specified color is included, than the display brightness when it is determined that the color is not the specified color. Display device. 5. The display device according to claim 4, wherein the display brightness changing means increases the display brightness when it is determined that no color other than the specified color is included than the display brightness when it is determined that the color is not the specified color. Display device.

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