Liquid Crystal Display Device and Backlight Control Method

US 20110057961A1
Filed: 05/21/2010
Published: 03/10/2011
Est. Priority Date: 09/07/2009
Status: Abandoned Application

First Claim

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1. A liquid crystal display device having a liquid crystal panel for controlling the transmittance of pixels in accordance with the gradation level of input video signals and a backlight for illuminating the liquid crystal panel at the back thereof, in whichthe liquid crystal panel is divided for the pixel on the panel into sub-regions comprising a plurality of pixel groups and the backlight includes a plurality of light source blocks corresponding to the sub-regions and the light source blocks are controlled individually by a backlight control circuit, and the control circuitdetermines in each of the sub-regions, a first maximum gradation level from the input video signals in the boundary portion with an adjacent sub-region and a second maximum gradation level of the input video signals in the portion other than the boundary portion or the sub-region, andcalculates a control data for each of the light source blocks by using a higher one of the first maximum gradation level and the second maximum gradation level, and controls the brightness of each of the light source blocks individually.

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Abstract

In a liquid crystal device, an in-region gradation value detection section detects gradation levels of input video signals on every sub-region, removing gradation levels of pixels within a predetermined upper range (m %) from the brightest gradation level in the sub-region to detect the maximum in-region gradation level Pa. A boundary gradation value detecting section removes gradation levels for pixels within a predetermined upper range (n %) from the brightest gradation level for pixel groups belonging to the region boundary portion in the sub-region to detect the maximum boundary gradation level Pb. A backlight control value deciding section selects higher one of the level Pa and the level Pb as the maximum gradation level Pc in the sub-region, and decides a backlight control value K based on the ratio between the level Pc and the upper limit value Pmax of the gradation level.

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8 Claims

1. A liquid crystal display device having a liquid crystal panel for controlling the transmittance of pixels in accordance with the gradation level of input video signals and a backlight for illuminating the liquid crystal panel at the back thereof, in whichthe liquid crystal panel is divided for the pixel on the panel into sub-regions comprising a plurality of pixel groups and the backlight includes a plurality of light source blocks corresponding to the sub-regions and the light source blocks are controlled individually by a backlight control circuit, and the control circuitdetermines in each of the sub-regions, a first maximum gradation level from the input video signals in the boundary portion with an adjacent sub-region and a second maximum gradation level of the input video signals in the portion other than the boundary portion or the sub-region, andcalculates a control data for each of the light source blocks by using a higher one of the first maximum gradation level and the second maximum gradation level, and controls the brightness of each of the light source blocks individually.
- View Dependent Claims (2)
- - 2. The liquid crystal display device according to claim 1, wherein each of the first and the second maximum gradation levels are determined respectively by removing the maximum gradation level of the pixels within the predetermined upper range in the boundary portion and the portion other than the boundary portion or the sub-region.

3. A liquid crystal display device having a liquid crystal panel for controlling the transmittance of pixels in accordance with the gradation level of input video signals and a backlight for illuminating the liquid crystal panel at the back thereto, in whichthe liquid crystal panel is divided for the pixels on the panel into sub-regions comprising a plurality of pixel groups, and the backlight includes a plurality of light source blocks corresponding to the sub-regions and has;
- an in-region gradation value detection section which detects the gradation level of input video signals on every sub-region, removes gradation levels of pixels within a predetermined upper range (m %) from the brightest gradation level in the sub-region and detects the maximum in-region gradation level Pa,a boundary gradation value detection section which removes gradation levels of pixels within a predetermined upper range (n %) from the brightest gradation level and detects the maximum boundary gradation level Pb for the pixel groups belonging to the region boundary portion in the sub-region,a backlight control value deciding section which selects higher one of the in-region maximum gradation level Pa and the maximum boundary gradation level Pb as a maximum gradation level Pc for the sub-region, and decides the backlight control value K based on the ratio between the maximum gradation level Pc and the upper limit value Pmax of the gradation level, anda backlight control section which controls lighting at a backlight luminance based on the backlight control value K to the light source block for illuminating sub-region.
- View Dependent Claims (5)
- - 5. The liquid crystal display device according to claim 3, having a boundary gradation value comparison section which compares the gradation level for the pixel groups belonging to the region boundary portion as an detection object of the boundary gradation value detection portion with the gradation level for the opposing pixel groups in the adjacent sub-region, and removes pixels having a difference value larger than a threshold value from the detection object.

4. A liquid crystal display device having a liquid crystal panel for controlling the transmittance of pixels in accordance with gradation levels of input video signals and a backlight for illuminating the liquid crystal panel at the back, in whichthe liquid crystal panel is divided for the pixels on the panel into sub-regions comprising a plurality of pixel groups and the backlight includes a plurality of light source blocks corresponding to the sub-region and has;
- an in-region gradation value detection section which detects the gradation levels of the input video signals on every sub-region, removes the gradation levels of pixels within two types of predetermined ranges (m1%, m2%) from the brightest gradation level in the sub-region and detects two types of in-region maximum gradation levels Pa1, Pa2,a boundary gradation value detection section which removes gradation levels of pixels within a predetermined upper range (n %) from the brightest gradation level for the group of pixels belonging to the region boundary portion in the sub-region and detects the maximum boundary gradation level Pb,a backlight control value deciding section which selects higher one of the maximum in-region gradation levels Pa1, Pa2 as the maximum gradation level Pc of the sub-region based on the maximum boundary gradation level Pb and decides the backlight control value K based on the ratio between the maximum gradation level Pc and the upper limit value Pmax of the gradation level, anda backlight control section which controls lighting at a backlight luminance based on the backlight control value K to the light source block for illuminating the sub-region.

6. A method of controlling a backlight of a liquid crystal display device having a backlight for illuminating the liquid crystal panel at the back thereof, in whichthe liquid crystal panel is divided for the pixels on the panel is divided for the pixels on the panel into sub-regions comprising a plurality of pixel groups, and the backlight has a plurality of light source blocks corresponding to the sub-regions, the method including;
- detecting gradation levels of input video signals on every sub-region, removing the gradation levels for pixels within a predetermined upper range (m %) from the brightest gradation level in the sub-regions, and detecting the in-region maximum gradation level Pa,removing gradation levels for the pixels within a predetermined upper range (n %) from the brightest gradation level for the pixel groups belonging to the region boundary portion in the sub-region and detecting the maximum boundary gradation level Pb,selecting a higher one of the maximum in-region gradation level Pa and the maximum boundary gradation level Pb as the maximum gradation level Pc in the region,deciding the backlight control value K based on the ratio between the maximum gradation level Pc and the upper limit value Pmax of the gradation level, andcontrolling lighting at a backlight luminance based on the backlight control value K to the light source block for illuminates the sub-region.
- View Dependent Claims (8)
- - 8. The backlight controlling method according to claim 6, wherein, the method includescomparing the gradation level of pixel groups belonging to the region boundary portion with the gradation level of opposing pixel groups of an adjacent sub-region upon detecting the maximum boundary gradation level Pb, and removing pixels having difference value greater than a threshold value from the detection object.

7. A method of controlling the backlight of a liquid crystal display device having a backlight for illuminating a liquid crystal panel at the back thereof, in whichthe liquid crystal panel is divided for the pixels on the panel into sub-regions comprising a plurality of pixel groups and the backlight has a plurality of light source blocks corresponding to the sub-regions, the method including;
- detecting gradation levels of input video signals on every sub-region, removing the gradation levels for the pixels within two types of predetermined ranges (m1%, m2%) from the brightest gradation level in the sub-region and detecting two types of maximum in-region gradation levels Pa1, Pa2,removing gradation levels for the pixels within a predetermined upper range (n %) from the brightest gradation level for the pixel groups belonging to the region boundary portion in the sub-region, and detecting the maximum boundary gradation level Pb,selecting higher one of the maximum in-region gradation levels Pa1, Pa2 as the maximum gradation level Pc in the sub-region based on the maximum boundary gradation level Pb, and deciding the backlight control value K based on the ratio between the maximum gradation level Pc and the upper limit value Pmax of the gradation level, andcontrolling lighting at a backlight luminance based on the backlight control value K to the light source block for illuminating the sub-region.

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Current Assignee
Hitachi Consumer Electronics Company Limited (Hitachi, Ltd.)
Original Assignee
Hitachi Consumer Electronics Company Limited (Hitachi, Ltd.)
Inventors
Tsuru, Yasutaka, Ogi, Yuya, Tanaka, Kazuhiko

Application Number

US12/785,242
Publication Number

US 20110057961A1
Time in Patent Office

Days
Field of Search
US Class Current

345/690
CPC Class Codes

G09G 2310/0232   Special driving of display ...

G09G 2320/0233   Improving the luminance or ...

G09G 2320/0271   Adjustment of the gradation...

G09G 2320/064   by time modulation of the b...

G09G 2320/0646   Modulation of illumination ...

G09G 2330/021   Power management, e.g. powe...

G09G 3/342   using several illumination ...

Liquid Crystal Display Device and Backlight Control Method

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Liquid Crystal Display Device and Backlight Control Method

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Abstract

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