JP2013025090A - Image display device, control method thereof, and image display system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique which reduces the power consumption of an image display device including a backlight which is divided into a plurality of illumination blocks and turning-on of which can be controlled per illumination block.SOLUTION: Areas on a display panel, which correspond to respective illumination blocks, are defined as divided areas, and illumination blocks corresponding to the divided areas constituting a backlight turning-on region consisting of the same number of divided areas as the number of illumination blocks which can be turned on within such a range that the power consumption of the backlight is equal to or smaller than a threshold are turned on, and the other illumination blocks are turned off, and an image based on an input image signal is displayed in the backlight turning-on region. If there are a plurality of backlight turning-on region candidates, the power consumption of the backlight is acquired for each backlight turning-on region candidate when illumination blocks corresponding to each backlight turning-on region candidate are turned on, and a backlight turning-on region candidate having the lowest power consumption is determined as the backlight turning-on region.

Description

  The present invention relates to an image display device, a control method thereof, and an image display system.

  2. Description of the Related Art Conventionally, there is an image display apparatus that can divide a backlight into a plurality of blocks and control lighting of the backlight for each block. In such an image display device, a method has been proposed in which the backlight lighting area is reduced when the remaining amount of the battery that supplies power to the light source is lower than the threshold value, and the display image is similarly reduced (for example, Patent Document 1). Further, a method has been proposed in which a display image is reduced in accordance with an area where the backlight can be turned on by detecting that a part of the backlight cannot be turned on (for example, Patent Document 2).

JP 2003-156728 A JP 2008-244696 A

  However, in the conventional technology, when the backlight lighting area is reduced, the remaining power of the battery is considered, but the variation of the power consumption for each block of the backlight is not taken into consideration. There was a case that could not be.

  Therefore, an object of the present invention is to provide a technique for reducing the power consumption of an image display device that includes a backlight that is divided into a plurality of illumination blocks and that can be turned on for each illumination block.

The present invention comprises a backlight composed of a plurality of lighting blocks that can be independently controlled for lighting,
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
Power consumption acquisition means for acquiring power consumption of the backlight;
Control means for controlling the backlight and the display panel;
An image display device comprising:
The control means includes
When the power consumption of the backlight exceeds a predetermined threshold, the rectangle on the display panel is composed of the same number of divided areas as the number of illumination blocks that can be lit within a range where the power consumption of the backlight is equal to or less than the threshold. Determining means for determining the area as a backlight lighting area;
Among the plurality of lighting blocks, lighting control means for turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region and turning off the other lighting blocks;
Display control means for displaying an image based on the input image signal in the backlight lighting area of the display panel,
The determining means includes
When a plurality of rectangular areas composed of the same number of divided areas as the number of lighting blocks that can be lit can be set on the display panel, each of the settable rectangular areas is set as a backlight lighting area candidate,
For each backlight lighting area candidate, obtain the power consumption of the backlight when lighting the lighting block corresponding to the backlight lighting area candidate,
An image display device characterized by determining a backlight lighting area candidate having the lowest acquired power consumption as a backlight lighting area.

The present invention comprises a backlight composed of a plurality of lighting blocks that can be independently controlled for lighting,
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
Power consumption acquisition means for acquiring power consumption for each illumination block of the backlight;
Control means for controlling the backlight and the display panel;
An image display device comprising:
The control means includes
When there is a deteriorated illumination block whose power consumption exceeds a predetermined threshold among the plurality of illumination blocks, the rectangular area on the display panel is composed of one or more divided areas not including the divided area corresponding to the deteriorated illumination block Determining means for determining as a backlight lighting area;
Among the plurality of lighting blocks, lighting control means for turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region, and turning off the deteriorated lighting block;
Display control means for displaying an image based on the input image signal in the backlight lighting area of the display panel,
The determining means includes
When a plurality of rectangular areas including one or more divided areas not including a divided area corresponding to the deteriorated illumination block can be set on the display panel, each of the settable rectangular areas is a backlight lighting area. As a candidate,
For each backlight lighting area candidate, obtain the power consumption of the backlight when lighting the lighting block corresponding to the backlight lighting area candidate,
An image display device characterized by determining a backlight lighting area candidate having the lowest acquired power consumption as a backlight lighting area.

The present invention comprises a backlight composed of a plurality of lighting blocks that can be independently controlled for lighting,
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
An image display apparatus control method comprising:
A power consumption acquisition step of acquiring power consumption of the backlight;
When the power consumption of the backlight exceeds a predetermined threshold, the rectangle on the display panel is composed of the same number of divided areas as the number of illumination blocks that can be lit within a range where the power consumption of the backlight is equal to or less than the threshold. A determination step of determining the area as a backlight lighting area;
A lighting control step of turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region among the plurality of lighting blocks, and turning off the other lighting blocks,
A display control step of displaying an image based on the input image signal in the backlight lighting region of the display panel;
Have
The determination step includes
When a plurality of rectangular areas having the same number of divided areas as the number of lighting blocks that can be lit can be set on the display panel, each of the settable rectangular areas is set as a backlight lighting area candidate. When,
For each backlight lighting area candidate, obtaining power consumption of the backlight when lighting a lighting block corresponding to the backlight lighting area candidate; and
Determining a backlight lighting area candidate with the lowest acquired power consumption as a backlight lighting area;
It is a control method of the image display apparatus characterized by having.

The present invention comprises a backlight composed of a plurality of lighting blocks that can be independently controlled for lighting,
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
An image display apparatus control method comprising:
A power consumption acquisition step of acquiring power consumption for each illumination block of the backlight; and
When there is a deteriorated illumination block whose power consumption exceeds a predetermined threshold among the plurality of illumination blocks, the rectangular area on the display panel is composed of one or more divided areas not including the divided area corresponding to the deteriorated illumination block Determining step for determining the backlight lighting area,
A lighting control step of turning on a lighting block corresponding to a divided area constituting a backlight lighting region among the plurality of lighting blocks, and turning off the deteriorated lighting block,
A display control step of displaying an image based on the input image signal in the backlight lighting region of the display panel;
Have
The determination step includes
When a plurality of rectangular areas including one or more divided areas not including a divided area corresponding to the deteriorated illumination block can be set on the display panel, each of the settable rectangular areas is a backlight lighting area. A candidate process;
For each backlight lighting area candidate, obtaining power consumption of the backlight when lighting a lighting block corresponding to the backlight lighting area candidate; and
Determining a backlight lighting area candidate with the lowest acquired power consumption as a backlight lighting area;
A control method for an image display device.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to reduce the power consumption of the image display apparatus provided with the backlight which is divided | segmented into several illumination blocks and can control lighting for every illumination block.

1 is a block diagram illustrating a schematic configuration of an image display apparatus according to a first embodiment. The figure showing the illumination block of a backlight part A graph showing the power consumption of the backlight against the panel brightness The figure which shows the power consumption for every lighting block, and a backlight lighting area | region candidate Diagram showing backlight lighting area The flowchart which shows the process sequence which determines a backlight lighting area | region. Flowchart showing the procedure for determining and displaying the number of pixels of the output image FIG. 7 is a block diagram illustrating a schematic configuration of an image display apparatus according to a second embodiment. The figure which shows the power consumption and backlight lighting area for every lighting block The flowchart which shows the process sequence which determines a backlight lighting area | region.

Example 1
FIG. 1 shows a schematic configuration of an image display system including an image display apparatus 100 and an image output apparatus 101 according to Embodiment 1 of the present invention. In FIG. 1, an image display device 100 includes an image input unit 102, a display pixel number storage unit 103, an external light sensor unit 104, a user operation unit 105, an image display control unit 106, and an image display position correction unit 107. A display panel unit 108, a backlight unit 109, a backlight lighting control unit 110, a backlight power measurement unit 111, and a power consumption threshold storage unit 112.

The image display device 100 is a display device that is connected to the image output device 101 and displays an image output from the image output device 101. The image display device 100 can display an image with a pixel count of up to 1920 pixels × 1080 pixels. Suppose there is. The number of pixels of the displayable image is an example and is not limited to the above value.
The image input unit 102 decodes the image signal input from the image output device 101 and outputs the decoded image signal to the image display position correction unit 107.

The display pixel number storage unit 103 is a memory that stores the number of displayable pixels of the image display device 100. The image output device 101 acquires displayable pixel number information stored in the display pixel number storage unit 103 and outputs an image having the number of pixels that can be decoded by the image display device 100.
The external light sensor unit 104 detects the brightness of ambient light around the image display device 100 and outputs the detected ambient light to the image display control unit 106.

  The user operation unit 105 is an interface that accepts an operation for a user to input an instruction to the image display apparatus 100, and the user uses the user operation unit 105 to instruct a setting value of the brightness of the display panel unit 108, for example. Can be operated. The user operation unit 105 outputs user operation information to the image display control unit 106.

  The backlight unit 109 is a direct-type backlight that is disposed behind the transmissive display panel unit 108 and illuminates the display panel unit 108. The backlight unit 109 includes a plurality of illumination blocks that can be controlled to be turned on independently, and a plurality of white LEDs (Light Emitting Diodes) are arranged in each illumination block. Note that the light source of the backlight unit 109 is not limited to the white LED.

  The configuration of the backlight unit 109 will be described with reference to FIG. FIG. 2 is a conceptual diagram showing the overall configuration of the display panel unit 108 and the backlight unit 109. As shown in FIG. 2B, the backlight unit 109 is composed of 12 illumination blocks that divide the backlight unit 109 into a grid of four horizontally and three vertically. Each lighting block corresponds to each of a plurality of divided areas of horizontal 480 pixels × vertical 360 pixels that divide the entire display region (horizontal 1920 pixels × vertical 1080 pixels) of the display panel unit 108 shown in FIG. . Each lighting block of the backlight unit 109 can independently control lighting on / off and brightness based on information from the backlight lighting control unit 110.

The backlight power measurement unit 111 acquires power consumption of the backlight unit 109 by measurement and transmits the measurement result to the image display control unit 106.
The power consumption threshold storage unit 112 is a memory that stores the power consumption threshold of the backlight unit 109.

  The image display control unit 106 determines which lighting block is to be turned on according to the power consumption of the backlight unit 109. The image display control unit 106 writes information on the number of pixels in the backlight lighting area, which is a set of divided areas of the display panel unit 108 corresponding to the lighting block to be lit, in the display pixel number storage unit 103. The image display control unit 106 further transmits image display region information to the image display position correction unit 107 in order to display an image in the backlight lighting region of the display panel unit 108. The image display area information is information (such as coordinate values) indicating the position of the backlight lighting area.

  The change of the illumination block to be turned on according to the power consumption of the backlight unit 109 and the number of pixels in the backlight lighting region will be described with reference to FIG. Further, image display position correction for displaying an image in the backlight lighting area of the display panel unit 108 will be described with reference to FIGS.

First, FIG. 3 is a graph showing the power consumption of the backlight unit 109 with respect to the luminance setting value of the display panel unit 108. In the present embodiment, there are a total of 12 illumination blocks corresponding to each of the divided area of 480 pixels wide × 360 pixels vertically, which divides the display panel unit 108 into 12 pieces. Each illumination block is composed of a plurality of LEDs (not shown). When the luminance setting value of the display panel unit 108 is 100 cd, the power consumption of each lighting block is assumed to be 10 W on average. When the luminance setting value of the display panel unit 108 is 150 cd, the power consumption of each lighting block is 15 W on average. When the brightness setting value of the display panel unit 108 is 200 cd, the power consumption of each lighting block is 20 W on average. The correspondence relationship between the brightness setting value of the display panel unit 108 and the power consumption per lighting block is stored in a storage unit (not shown). Alternatively, the image display control unit 106 measures the power consumption of the backlight unit 109 by the backlight power measurement unit 111. Then, the value obtained by dividing the measured power consumption by the number of lighting blocks that are lit may be used as the average power consumption per lighting block according to the luminance setting value of the display panel unit 108.

  In FIG. 3, the power consumption of the backlight unit 109 when all the illumination blocks are turned on is represented by a solid line A. The power consumption of the backlight unit 109 when nine lighting blocks are lit is represented by a solid line B. Further, the solid line C represents the power consumption of the backlight unit 109 when the six illumination blocks are turned on. Further, the broken line of the backlight power consumption 150 W represents a power consumption threshold value stored in advance in the power consumption threshold value storage unit 112. The image display control unit 106 determines that the plurality of lighting blocks can be turned on when the total power consumption when the plurality of lighting blocks is turned on is equal to or less than the threshold value. In addition, the specific value of the threshold value of power consumption is an example, and is not limited to the above example. The power consumption threshold value may be a variable value according to an external factor such as a remaining amount of a battery that supplies power to the backlight unit 109, or may be a value that can be designated by the user.

  When the luminance setting value of the display panel unit 108 is 100 cd, as shown in FIG. 3, the power consumption of the backlight unit 109 when all (12) lighting blocks are turned on is 120 W, and does not exceed the threshold value of 150 W. . Therefore, the image display control unit 106 determines that all twelve lighting blocks can be turned on, and the display panel unit 108 is composed of 4 × 3 divided areas corresponding to a set of 12 lighting blocks. Is set as a backlight lighting area. In this case, the number of pixels in the backlight lighting area is 1920 pixels × 1080 pixels.

  Further, when the luminance setting value of the display panel unit 108 is 150 cd, as shown in FIG. 3, the power consumption of the backlight unit 109 when 12 lighting blocks are lit exceeds the threshold, but there are 9 lighting blocks. The power consumption when lighting is 135 W and does not exceed the threshold of 150 W. Therefore, the image display control unit 106 determines that nine lighting blocks can be turned on, and sets the lighting blocks to turn on nine lighting blocks of 3 × 3. Then, the image display control unit 106 sets the display area of the display panel unit 108 composed of 3 horizontal × 3 vertical divided areas corresponding to the set of illumination blocks as a backlight lighting area. In this case, the number of pixels in the backlight lighting area is 1440 pixels wide × 1080 pixels high.

  Further, when the luminance setting value of the display panel unit 108 is 200 cd, as shown in FIG. 3, the power consumption of the backlight unit 109 when 12 lighting blocks are lit and when 6 lighting blocks are lit exceeds the threshold value. However, the power consumption when six lighting blocks are lit is 120 W and does not exceed the threshold value of 150 W. Accordingly, the image display control unit 106 determines that the six illumination blocks can be turned on, and sets the illumination blocks to light up the six illumination blocks 3 × 2 in length. The image display control unit 106 sets a display area of the display panel unit 108 composed of 3 horizontal × 2 vertical divided areas corresponding to the set of illumination blocks as a backlight lighting area. In this case, the number of pixels in the backlight lighting area is 1440 pixels wide × 720 pixels high.

Next, FIG. 4 is a diagram regarding the power consumption and the backlight lighting area of each lighting block when the set value of the luminance of the display panel unit 108 of the image display device 100 is 150 cd.
FIG. 4A shows actual power consumption for each lighting block. The power consumption differs depending on the illumination block because the light emission characteristics of the LED vary depending on the illumination block due to the individual difference of the LED constituting each illumination block and the temperature difference of each illumination block due to the temperature distribution of the backlight unit 109. It is.

  When the luminance setting value of the display panel unit 108 is 150 cd, the image display control unit 106 can be turned on by comparing the power consumption of the backlight unit 109 and the threshold value stored in the power consumption threshold value storage unit 112 described above. It is determined that there are nine lighting blocks. The image display control unit 106 determines a display area of the display panel unit 108 composed of 3 horizontal × 3 vertical areas corresponding to a set of 3 horizontal × 3 vertical illumination blocks as a backlight lighting area candidate. . In this case, the image display control unit 106 determines two backlight lighting area candidates as shown in FIGS. 4B and 4C. That is, the backlight lighting region candidate 1 located on the left side of the display panel unit 108 and the backlight lighting region candidate 2 located on the right side.

  The image display control unit 106 performs lighting of the lighting block corresponding to the backlight lighting region candidate 1 and lighting of the lighting block corresponding to the backlight lighting region candidate 2 to the backlight lighting control unit 110, respectively. Instruct. When the backlight power measuring unit 111 lights the illumination block corresponding to the backlight lighting region candidate 2 and the power consumption of the backlight unit 109 when the lighting block corresponding to the backlight lighting region candidate 1 is turned on The power consumption of the backlight unit 109 is measured. As a result, the power consumption when the lighting block corresponding to the backlight lighting area candidate 1 is turned on is 135 W, and the power consumption when the lighting block corresponding to the backlight lighting area candidate 2 is turned on is 130 W. To do. The image display control unit 106 selects a backlight lighting region candidate whose measured power consumption of the backlight unit 109 is lower as the backlight lighting region. In this case, the image display control unit 106 selects the backlight lighting area candidate 2 as the backlight lighting area.

  FIG. 5 is a diagram relating to image display position correction when the luminance setting value of the display panel unit 108 of the image display apparatus 100 is 150 cd. As described above, the backlight lighting area when the luminance setting value of the display panel unit 108 is 150 cd is the backlight lighting area 2 illustrated in FIG. This backlight lighting area has (horizontal, vertical) = (480,0), (480,1080), (1920,0), (1920,1080) pixels as horizontal 440 pixels × vertical 1080 pixels. It is a rectangular area. These coordinate values are values in a coordinate system in which the upper left pixel of the display panel unit 108 is the origin. Therefore, the image display control unit 106 transmits the coordinate information of the backlight lighting region as the image display region information to the image display position correction unit 107. The image display position correcting unit 107 determines the image display area as an area for displaying an image input from the image input unit 102 in the display panel unit 108 based on the information on the image display area acquired from the image display control unit 106. . As a result, as shown in FIG. 5, the input image (image including the letter “A”) is displayed in the area on the display panel unit 108 corresponding to the lighting block to be lit.

  FIG. 6 is a flowchart illustrating a processing procedure in which the image display control unit 106 determines the backlight lighting area in the first embodiment, and the processing is started when the user turns on the power of the image display device 100. . In the processing of FIG. 6, when the setting value of the image display device (such as the brightness of the display panel) is changed by the user, or the brightness setting value of the display panel unit 108 is changed according to the detection value by the external light sensor unit 104. Or may be performed periodically every predetermined time.

  FIG. 7 is a flowchart for determining the image display area after the number of illumination blocks to be lit by the image display control unit 106 is determined in the first embodiment. The image display control unit 106 determines that the number of illumination blocks has been determined. Processing starts when triggered.

  The operation of the image display control unit 106 in the first embodiment will be described below with reference to FIGS. 6 and 7.

  In step S601, the image display control unit 106 determines whether the luminance setting value of the display panel unit 108 has been changed. When the user changes the brightness setting value of the display panel unit 108 via the user operation unit 105, the image display control unit 106 proceeds to S602. Alternatively, the image display control unit 106 performs luminance control to change the luminance setting value of the display panel unit 108 according to the detection value by the external light sensor unit 104, and the luminance setting value of the display panel unit 108 by this luminance control. Is changed, the process proceeds to S602. For example, when the brightness of the surrounding environment becomes constant and bright, the image display control unit 106 increases the brightness setting value of the display panel unit 108 from 100 cd to 150 cd. If the image display control unit 106 determines that the brightness setting value of the display panel unit 108 has been changed, the image display control unit 106 proceeds to S602. If it is determined that the luminance setting value has not been changed, the image display control unit 106 repeats the process of S601.

  In S602, the backlight power measurement unit 111 measures the power consumption of the backlight unit 109 in a state where all 12 illumination blocks are lit, transmits the measurement result to the image display control unit 106, and proceeds to S603. To do. Here, as an example, it is assumed that the power consumption of the backlight unit 109 when all 12 lighting blocks are lit is 180 W.

  In step S <b> 603, the image display control unit 106 reads the power consumption threshold value from the power consumption threshold storage unit 112 and compares the measured power consumption value of the backlight unit 109 acquired from the backlight power measurement unit 111 with the threshold value. To do. When the measured power consumption value of the backlight unit 109 is smaller than the threshold value, the image display control unit 106 transitions to S604. When the measured power value of the backlight unit 109 is equal to or greater than the threshold value, the image display control unit 106 proceeds to S601. Transition to. Here, since the threshold value is 150 W and the measured power consumption value of the backlight unit 109 is 180 W, the image display control unit 106 transitions to S604.

  In S604, the image display control unit 106 determines the average per lighting block based on the measured power consumption value of the backlight unit 109 and the number of lighting blocks that were turned on when the measured value was obtained. Calculate power consumption. Here, since the power consumption of the backlight unit 109 is 180 W when the number of illuminated lighting blocks is 12, the average power consumption per lighting block is calculated to be 15 W. Then, the image display control unit 106 determines the number of lighting blocks to be turned on so that the power consumption of the backlight unit 109 is lower than the threshold based on the calculated average power consumption per lighting block. Here, since the average power consumption per lighting block is 15 W, the image display control unit 106 determines that the number of lighting blocks to be lit is nine in order to lower the backlight power consumption from the threshold value of 150 W. Then, the process proceeds to S605 and S701.

  In S605, the image display control unit 106 determines a backlight lighting area candidate based on the determined number of lighting blocks to be lit. Here, since the number of lighting blocks to be lit is nine, the image display control unit 106 selects the backlight lighting region candidate 1 and the backlight shown in FIGS. 4B and 4C as the backlight lighting region candidates. Two types of light lighting area candidates 2 are determined, and the process proceeds to S606.

In S606, the backlight power measurement unit 111 measures the power consumption of the backlight unit 109 when the corresponding illumination block is turned on for each determined backlight lighting region candidate, and controls the display of the measurement result. To the unit 106. Here, the backlight power measurement unit 111 transmits two types of power consumption measurement values to the image display control unit 106, and the process proceeds to S607. That is, it corresponds to the measured value 135W of the power consumption when the illumination block corresponding to the backlight lighting area candidate 1 shown in FIG. 4B is turned on and the backlight lighting area candidate 2 shown in FIG. It is a measured value 130 W of power consumption when the lighting block is turned on.

  In step S <b> 607, the image display control unit 106 compares the measurement values of the power consumption of the backlight unit 109 by the backlight power measurement unit 111 and determines the backlight lighting region candidate with the lowest power consumption as the backlight lighting region. The process is terminated. Here, the image display control unit 106 compares the power consumption 135 W of the backlight lighting area candidate 1 with the power consumption 130 W of the backlight lighting area candidate 2, and selects the backlight lighting area candidate 2 with low power consumption as the backlight lighting area. Determine as.

  In step S <b> 701, the image display control unit 106 updates information on the number of display pixels stored in the display pixel number storage unit 103 with the number of pixels in the backlight lighting area corresponding to the determined number of lighting blocks to be lit. Then, the process proceeds to S702. Here, since the number of lighting blocks to be lit is nine, the number of pixels in the backlight lighting region is 1440 pixels wide × 1080 pixels long. The image display control unit 106 updates the display pixel number stored in the display pixel number storage unit 103 to horizontal 1440 pixels × vertical 1080 pixels.

  In step S <b> 702, the image output apparatus 101 acquires display pixel number information from the display pixel number storage unit 103, changes the display pixel number information based on the acquired display pixel number information, and transitions to step S <b> 703. Here, the image output apparatus 101 changes the number of pixels of the output image to horizontal 1440 pixels × vertical 1080 pixels.

  In step S <b> 703, the image display position correction unit 107 displays the image having the number of pixels changed in step S <b> 702 input from the image input unit 102 in the backlight lighting area determined in step S <b> 607 in the display panel unit 108. In addition, the display data is output to the display panel unit 108. Here, the image display position correcting unit 107 outputs an image of horizontal 1440 pixels × vertical 1080 pixels input from the image input unit 102 to the backlight lighting area shown in FIG. 5 in the display panel unit 108.

  According to the first embodiment, the number of lighting blocks to be lit is reduced so that the power consumption of the backlight unit 109 does not exceed the threshold value. If there are multiple backlight lighting area candidates corresponding to the number of lighting blocks to be lit, the power consumption of the backlight unit 109 is measured for each backlight lighting area candidate, and the backlight lighting area with the lowest power consumption is selected. Is done. Thereby, since the dispersion | variation in the power consumption for every illumination block is considered, the reduction effect of the power consumption by reducing the number of the illumination blocks to light is acquired more reliably. In addition, since the image output device outputs an image signal of an image having the number of pixels corresponding to the number of pixels in the backlight lighting area, the visibility of the image in the backlight lighting area is improved. That is, in the prior art, an image input from the image output device is displayed on the display area including divided areas corresponding to the illumination blocks to be lit by the image display device. For this reason, image quality degradation may occur when the aspect ratio of the input image and the display area is different. In the case of the present embodiment, an image signal of an image having the same number of pixels as the number of pixels in the backlight lighting area is input from the image output device, and an image based on this image signal is displayed as it is in the backlight lighting area. Image quality degradation like technology can be suppressed.

In this embodiment, the rectangular area on the display panel having the same number of divided areas as the number closest to the maximum number of lighting blocks that can be lit within a range in which the power consumption of the backlight is equal to or less than the threshold is used as the backlight. The example which determines as a lighting area was demonstrated. That is, when the brightness setting value of the display panel unit 108 is 150 cd, the power consumption per lighting block is 15 W, and thus the lighting blocks that can be lit within the range where the power consumption of the backlight is not more than the threshold value 150 W. The maximum number is 10. Since the number of divided areas that can form a rectangular area with the number closest to the maximum value is 9, a rectangular area including nine divided areas is determined as the backlight lighting area. However, the number of divided areas constituting the backlight lighting area is not limited to the number closest to the maximum number of lighting blocks that can be lit within a range where the power consumption of the backlight is equal to or less than the threshold value. For example, in the case of the above embodiment, a rectangular area composed of six divided areas may be determined as the backlight lighting area.

  Further, in this embodiment, the example in which the image output apparatus outputs an image signal of an image in which both the number of pixels in the horizontal direction and the vertical direction is equal to the number of pixels in the horizontal direction and the vertical direction of the backlight lighting region has been described. However, the image output apparatus is configured to output an image signal of an image in which the number of pixels in the horizontal direction is equal to or less than the number of pixels in the horizontal direction of the backlight lighting region and the number of pixels in the vertical direction is equal to or less than the number of pixels in the vertical direction of the backlight lighting region May be output. For example, when the backlight lighting area is 1440 pixels wide × 1080 pixels high as shown in FIG. 5, the image output apparatus is an image of an image of 1440 pixels wide × 810 pixels high that has the same aspect ratio as in the case of full screen display. A signal may be output. In that case, the image display position correcting unit 107 may display an image based on an image signal input from the image output device at an arbitrary position in the backlight lighting region. In this case, the image display position correction unit 107 may perform black display, GUI display, or the like in an area where an image based on an image signal input in the backlight lighting area is not displayed.

(Example 2)
Next, Embodiment 2 according to the present invention will be described.
In Example 1, the power consumption of the entire backlight unit 109 was measured, and the backlight lighting area was changed. On the other hand, in the second embodiment, power consumption is measured for each lighting block, a lighting block including an LED with a high degree of deterioration that is approaching the lifetime is detected, and a backlight lighting area is determined according to the detection result. This reduces the power consumption of the backlight and prevents the lighting block including the LED with a high degree of deterioration from being turned on except when the user needs a full screen display, thereby reducing the lifetime of the LED. It is characterized by extending.

  In the following, the second embodiment will be described mainly with respect to differences from the first embodiment. In the image display device of the second embodiment, an illumination block power consumption measuring unit 800 that measures the power consumption of each illumination block of the backlight unit 109 is added to the configuration of the image display device 100 of FIG. 1 described in the first embodiment. It is a configuration.

  FIG. 8 is a diagram regarding the backlight unit 109 and the illumination block power consumption measuring unit 800 in the image display apparatus 100 according to the second embodiment. The power consumption of each of the illumination blocks 1 to 12 of the illumination block power consumption measuring unit 800 and the backlight unit 109 is individually measured.

  The illumination block power consumption measurement unit 800 transmits the measurement result of the power consumption for each illumination block to the image display control unit 106. Based on the measurement result of the power consumption for each lighting block, the image display control unit 106 varies the power consumption due to individual differences in LED components and the power consumption variation due to the temperature distribution inside the backlight unit 109 for each lighting block. To get.

In the second embodiment, the power consumption threshold value storage unit 112 stores the power consumption threshold value in units of illumination blocks, not the power consumption threshold value of the entire backlight unit 109. Here, as an example, it is assumed that twice the maximum power consumption of each lighting block at the start of use is set as a threshold value for power consumption. For example, the power consumption of the lighting block at the start of use is the display panel unit 1
It is assumed that when the set value of the brightness of 08 is 100 cd, it is 10 W, when it is 150 cd, it is 15 W, and when it is 200 cd, it is 20 W. In this case, the power consumption threshold value of the illumination block is 20 W when the luminance setting value of the display panel unit 108 is 100 cd, 30 W when 150 cd, and 40 W when 200 cd.

  FIG. 9A is a diagram illustrating an example of power consumption of each illumination block of the backlight unit 109 when the luminance setting value of the display panel unit 108 of the image display apparatus 100 is 150 cd. When the brightness setting value of the display panel unit 108 is 150 cd, the power consumption threshold value of the illumination block stored in the power consumption threshold value storage unit 112 is 30 W as described above. The image display control unit 106 compares the measured value of the power consumption of each lighting block with the threshold value, determines that the lighting block with the higher power consumption is a deteriorated lighting block with a high degree of deterioration, and turns off the deteriorated lighting block. Determine as. In the example of FIG. 9A, the illumination block 4 whose power consumption measurement value is 35 W and exceeds the threshold is determined as a deteriorated illumination block, and is determined as an illumination block to be turned off. The image display control unit 106 determines, as the backlight lighting region, the largest rectangular region including one or more divided areas that does not include the divided area of the display panel unit 108 corresponding to the illumination block to be turned off.

  FIG. 9B is a diagram illustrating a backlight lighting region when a lighting block to be turned off is determined as illustrated in FIG. 9A. Here, the illumination block to be extinguished is the illumination block 4, and the maximum area that does not include the corresponding divided area 4 is an area of 1440 horizontal pixels × 1080 vertical pixels as shown in FIG. 9B. Yes, this is the backlight lighting area. This backlight lighting area is a set of divided areas corresponding to the lighting blocks 1, 2, 3, 5, 6, 7, 9, 10, and 11 among the lighting blocks to be turned on. The image display position correction unit 107 determines the position of the image display area in accordance with the backlight lighting area. The illumination blocks 8 and 12 that are not included in the illumination block corresponding to the backlight lighting area may be turned off together with the illumination block 4. Alternatively, since the power consumption of these lighting blocks is lower than the threshold value, a predetermined image such as a GUI other than the input image may be displayed as the lighting state.

  In the example of FIG. 9, since only one maximum rectangular area that does not include the divided area corresponding to the deteriorated illumination block can be set in the display panel unit 108, the image display control unit 106 directly uses this rectangular area as the backlight. The lighting area was determined. However, when the maximum rectangular area that does not include the divided area corresponding to the deteriorated illumination block can be set in the display panel unit 108 in a plurality of ways, the image display control unit 106 performs the same processing as in the first embodiment. In other words, the image display control unit 106 uses each settable rectangular area as a backlight lighting area candidate, measures the power consumption for each backlight lighting area candidate, and determines the backlight lighting area candidate with the lowest power consumption as the backlight. Determined as lighting area.

  FIG. 10 is a flowchart illustrating a processing procedure in which the image display control unit 106 determines the backlight lighting area in the second embodiment, and the processing is started when the user turns on the power of the image display device 100. . Similar to the processing in FIG. 6, the processing in FIG. 10 is performed when the setting value of the image display device (such as the brightness of the display panel) is changed by the user, When changing a setting value, you may carry out regularly every predetermined time.

  In FIG. 10, the same reference numerals as those in FIGS. 6 and 7 are assigned to the steps for performing the same processes as those in the flowcharts in FIGS. Here, assuming that it is determined in S601 that the luminance setting value of the display panel unit 108 is changed from 100 cd to 150 cd, the operation of the part different from the first embodiment will be mainly described.

  In S1102, the illumination block power consumption measuring unit 800 measures the power consumption of each illumination block, transmits the measurement result to the image display control unit 106, and proceeds to S1103.

  In step S <b> 1103, the image display control unit 106 reads the power consumption threshold value of the illumination block from the power consumption threshold value storage unit 112, and the measurement value and threshold value of the power consumption of each illumination block acquired from the illumination block power consumption measurement unit 800. Compare The image display control unit 106 proceeds to S1104 when there is a measured value of the power consumption of each lighting block that exceeds the threshold value, and proceeds to S601 when the power consumption of all the lighting blocks is lower than the threshold value. Transition. Here, since the power consumption of the illumination block 4 exceeds the threshold value of 30 W, the image display control unit 106 transitions to S1104.

  In step S1104, the image display control unit 106 determines an illumination block whose power consumption is higher than the threshold as a lighting block to be turned off, and the process proceeds to S1105. Here, since the power consumption of the illumination block 4 is higher than the threshold, the image display control unit 106 determines the illumination block 4 to be turned off.

  In step S <b> 1105, the image display control unit 106 determines the largest rectangular area in the display panel unit 108 including one or more divided areas that does not include the divided area corresponding to the determined illumination block to be turned off as a backlight lighting area candidate. Determine as. Here, the image display control unit 106 determines the largest rectangular area including one or more divided areas that does not include the divided area 4 corresponding to the illumination block 4 to be turned off as a backlight lighting area candidate.

  Thereafter, in S606 to S607 and S701 to S703, the power consumption is measured for each backlight lighting area candidate in the same manner as in the first embodiment, and the backlight lighting area candidate having the lowest power consumption is determined as the backlight lighting area. The Then, the number of pixels of the image output by the image output device 101 is changed in accordance with the number of pixels in the backlight lighting area, and an image having the same number of pixels in the horizontal direction and the vertical direction as the backlight lighting area is displayed on the display panel unit 108. It is displayed in the determined backlight lighting area.

  According to the second embodiment, the power consumption is measured for each lighting block, and the lighting block including the LED having a near lifetime is extinguished, so that the power consumption of the backlight can be effectively reduced and the lifetime of the backlight is reached. You can extend the time. Note that when the user inputs an instruction to display an image on the display panel unit 108 on the display panel unit 108 in the user operation unit 105, the image display control unit 106 turns on all the illumination blocks and turns on all the display panel units 108. The display area may be determined as the backlight lighting area. Also in this case, the deteriorated illumination block is turned off except when the user explicitly instructs full screen display, so that the lifetime of the backlight can be extended.

  In the second embodiment, the example in which the largest rectangular area on the display panel including one or more divided areas that does not include the divided area corresponding to the illumination block to be turned off is determined as the backlight lighting area. However, the backlight lighting area is not limited to the largest rectangular area that satisfies the condition, provided that the rectangular area does not include the divided area corresponding to the illumination block to be turned off. For example, in the example of FIG. 9B, a rectangular area composed of the divided areas 1, 2, 3, 5, 6, and 7 may be used as the backlight lighting area. In the second embodiment, the illumination blocks other than the illumination block and the deteriorated illumination block corresponding to the divided areas constituting the backlight lighting area may be turned off or turned on. When lighting, a predetermined image other than the image based on the input image signal is displayed in the divided area corresponding to the illumination block other than the illumination block and the deteriorated illumination block corresponding to the divided area constituting the backlight lighting area. May be.

  The threshold value of the power consumption of the backlight and the threshold value of the power consumption of the lighting block may be a fixed value, or the threshold value is determined such that the threshold value is variable according to the remaining amount of the battery that supplies power to the backlight or the lighting block. The processing may be performed by the image display control unit 106.

100 image display device 106 image display control unit 107 image display position correction unit 108
Display panel unit, 109 backlight unit, 110 backlight lighting control unit, 111 backlight power measurement unit, 112 power consumption threshold storage unit

Claims (15)

A backlight composed of a plurality of lighting blocks that can be independently controlled, and
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
Power consumption acquisition means for acquiring power consumption of the backlight;
Control means for controlling the backlight and the display panel;
An image display device comprising:
The control means includes
When the power consumption of the backlight exceeds a predetermined threshold, the rectangle on the display panel is composed of the same number of divided areas as the number of illumination blocks that can be lit within a range where the power consumption of the backlight is equal to or less than the threshold. Determining means for determining the area as a backlight lighting area;
Among the plurality of lighting blocks, lighting control means for turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region and turning off the other lighting blocks;
Display control means for displaying an image based on the input image signal in the backlight lighting area of the display panel,
The determining means includes
When a plurality of rectangular areas composed of the same number of divided areas as the number of lighting blocks that can be lit can be set on the display panel, each of the settable rectangular areas is set as a backlight lighting area candidate,
For each backlight lighting area candidate, obtain the power consumption of the backlight when lighting the lighting block corresponding to the backlight lighting area candidate,
An image display device characterized by determining a backlight lighting area candidate having the lowest acquired power consumption as a backlight lighting area.   The determining means determines, as a backlight lighting area, a rectangular area composed of the same number of divided areas as the number closest to the maximum value of lighting blocks that can be lit within a range in which the power consumption of the backlight is equal to or less than the threshold value. Item 4. The image display device according to Item 1. A backlight composed of a plurality of lighting blocks that can be independently controlled, and
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
Power consumption acquisition means for acquiring power consumption for each illumination block of the backlight;
Control means for controlling the backlight and the display panel;
An image display device comprising:
The control means includes
When there is a deteriorated illumination block whose power consumption exceeds a predetermined threshold among the plurality of illumination blocks, the rectangular area on the display panel is composed of one or more divided areas not including the divided area corresponding to the deteriorated illumination block Determining means for determining as a backlight lighting area;
Among the plurality of lighting blocks, lighting control means for turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region, and turning off the deteriorated lighting block;
Display control means for displaying an image based on the input image signal in the backlight lighting area of the display panel,
The determining means includes
When a plurality of rectangular areas including one or more divided areas not including a divided area corresponding to the deteriorated illumination block can be set on the display panel, each of the settable rectangular areas is a backlight lighting area. As a candidate,
For each backlight lighting area candidate, obtain the power consumption of the backlight when lighting the lighting block corresponding to the backlight lighting area candidate,
An image display device characterized by determining a backlight lighting area candidate having the lowest acquired power consumption as a backlight lighting area.   The image display apparatus according to claim 3, wherein the determination unit sets a maximum rectangular area including one or more divided areas not including a divided area corresponding to the deteriorated illumination block as a backlight lighting area.   The image display device according to claim 3 or 4, wherein the lighting control unit turns off the lighting blocks other than the lighting blocks and the deteriorated lighting blocks corresponding to the divided areas constituting the backlight lighting region. The lighting control means turns on the lighting blocks other than the illumination block and the deteriorated illumination block corresponding to the divided area constituting the backlight lighting area,
The display control means displays a predetermined image other than an image based on an input image signal in a divided area corresponding to a lighting block other than a lighting block and a deteriorated lighting block corresponding to the divided area constituting the backlight lighting area. The image display apparatus according to claim 3 or 4 to be made.   The image display device according to claim 1, further comprising: a threshold value determining unit that varies the threshold value according to a remaining amount of a battery that supplies power to the backlight. An operation unit that receives an operation for inputting an instruction to the image display device by a user;
In the operation unit, when an instruction to display an image on a full screen is input to the display panel, the lighting control unit turns on all the lighting blocks including the deteriorated lighting block, and the determination unit backs the entire display area. The image display device according to claim 3, wherein the image display device is determined as a light lighting region. Storage means for storing a correspondence relationship between a set value of luminance of the display panel and power consumption per lighting block;
The determining means determines the number of lighting blocks that can be lit within a range in which the power consumption of the backlight is equal to or less than the threshold, based on the power consumption per lighting block according to the brightness setting value of the display panel. The image display apparatus of any one of Claims 1-8 which calculate these.   The determining unit obtains the power consumption by dividing the power consumption of the backlight acquired by the power consumption acquiring unit by the number of lighting blocks that are lit when the power consumption is acquired. The average power consumption per lighting block according to the set value of the brightness of the display panel at the time is calculated, and based on the calculated average power consumption, the power consumption of the backlight falls within the threshold value or less The image display device according to claim 1, wherein the number of illumination blocks that can be turned on is calculated. An operation unit that receives an operation for inputting an instruction to the image display device by a user;
When an instruction to change the setting value of the brightness of the display panel is input in the operation unit, the control unit determines the backlight lighting area and turns on each lighting block according to the backlight lighting area. The image display apparatus according to claim 1, wherein a process for determining turning off is performed.   A sensor that detects the brightness of ambient light around the image display device; and a luminance control unit that changes a setting value of the luminance of the display panel in accordance with a value detected by the sensor. The control means performs a process of determining the backlight lighting area and a process of determining lighting and extinguishing for each lighting block according to the backlight lighting area when a setting value of luminance of the display panel is changed. The image display device according to any one of 1 to 10. The image display device according to any one of claims 1 to 12,
An image output device for outputting an image signal to the image display device;
An image display system comprising:
The image display device includes:
Input means for inputting an image signal from the image output device;
Transmitting means for transmitting information on the number of pixels in the horizontal direction and vertical direction of the backlight lighting area determined by the determining means to the image output device,
The image output device includes:
Obtaining means for obtaining information on the number of pixels in the horizontal and vertical directions of the backlight lighting region from the image display device;
Output means for outputting an image signal of an image in which the number of pixels in the horizontal direction is equal to or less than the number of pixels in the horizontal direction of the backlight lighting region and the number of pixels in the vertical direction is equal to or less than the number of pixels in the vertical direction of the backlight lighting region An image display system comprising: A backlight composed of a plurality of lighting blocks that can be independently controlled, and
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
An image display apparatus control method comprising:
A power consumption acquisition step of acquiring power consumption of the backlight;
When the power consumption of the backlight exceeds a predetermined threshold, the rectangle on the display panel is composed of the same number of divided areas as the number of illumination blocks that can be lit within a range where the power consumption of the backlight is equal to or less than the threshold. A determination step of determining the area as a backlight lighting area;
A lighting control step of turning on the lighting blocks corresponding to the divided areas constituting the backlight lighting region among the plurality of lighting blocks, and turning off the other lighting blocks,
A display control step of displaying an image based on the input image signal in the backlight lighting region of the display panel;
Have
The determination step includes
When a plurality of rectangular areas having the same number of divided areas as the number of lighting blocks that can be lit can be set on the display panel, each of the settable rectangular areas is set as a backlight lighting area candidate. When,
For each backlight lighting area candidate, obtaining power consumption of the backlight when lighting a lighting block corresponding to the backlight lighting area candidate; and
Determining a backlight lighting area candidate with the lowest acquired power consumption as a backlight lighting area;
A control method for an image display device, comprising: A backlight composed of a plurality of lighting blocks that can be independently controlled, and
A transmissive display panel in which a display area is divided by a plurality of divided areas corresponding to each of the plurality of illumination blocks;
An image display apparatus control method comprising:
A power consumption acquisition step of acquiring power consumption for each illumination block of the backlight; and
When there is a deteriorated illumination block whose power consumption exceeds a predetermined threshold among the plurality of illumination blocks, the rectangular area on the display panel is composed of one or more divided areas not including the divided area corresponding to the deteriorated illumination block Determining step for determining the backlight lighting area,
A lighting control step of turning on a lighting block corresponding to a divided area constituting a backlight lighting region among the plurality of lighting blocks, and turning off the deteriorated lighting block,
A display control step of displaying an image based on the input image signal in the backlight lighting region of the display panel;
Have
The determination step includes
When a plurality of rectangular areas including one or more divided areas not including a divided area corresponding to the deteriorated illumination block can be set on the display panel, each of the settable rectangular areas is a backlight lighting area. A candidate process;
For each backlight lighting area candidate, obtaining power consumption of the backlight when lighting a lighting block corresponding to the backlight lighting area candidate; and
Determining a backlight lighting area candidate with the lowest acquired power consumption as a backlight lighting area;
A control method for an image display device.

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