LIQUID CRYSTAL DISPLAY DEVICE
First Claim
1. A normally black mode liquid crystal display device that performs monochrome gradation display, the liquid crystal display device comprising:
- a liquid crystal panel including a plurality of pixels, each constituted by a plurality of subpixels whose transmittances can be controlled independently of each other;
a gradation converting unit that converts a gradation of each pixel included in an input video signal to gradations of a plurality of subpixels; and
a drive circuit that drives the liquid crystal panel based on a video signal obtained by the gradation converting unit, whereincharacteristics of the gradation conversion by the gradation converting unit are obtained by performing, in a case where the gradation of the pixel can be represented by only one minimum-area subpixel, a process in which with setting gradations of other subpixels to their minimum gradations, a gradation of the minimum-area subpixel is determined, and by performing, in other cases, one of a first process in which one subpixel is selected as a first subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the first subpixel is determined so that a ratio of a transmittance of the first subpixel to a transmittance of the pixel is less than a limit value, and when the gradation of the first subpixel cannot be determined to satisfy the condition regarding the transmittances, a plurality of subpixels are selected as second subpixels, and with setting a gradation of a remaining subpixel to its maximum gradation or minimum gradation, gradations of the second subpixels are determined to obtain a gradation higher than or equal to the gradation of the pixel;
a second process in which the gradation of the first subpixel is determined with changing the gradations set to other subpixels; and
a third process in which one subpixel different from the first subpixel is selected as a third subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the third subpixel is determined.
1 Assignment
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Accused Products
Abstract
A pixel of a liquid crystal panel is constituted by three subpixels. When the gradation of the pixel can be represented by only the subpixel, with setting the gradations of the subpixels to their minimum gradations, the gradation of the subpixel is determined. When the gradation of the pixel is represented by the subpixels, with setting the gradation of the subpixel to its maximum gradation and setting the gradation of the subpixel to its minimum gradation, the gradation of the subpixel is determined so that the ratio of the transmittance of the subpixel to the transmittance of the pixel is less than a limit value. When the gradation of the subpixel cannot be determined to satisfy a condition, with setting the gradation of the subpixel to its minimum gradation, the gradations of the subpixels are determined to obtain a gradation higher than or equal to the gradation of the pixel.
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Citations
13 Claims
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1. A normally black mode liquid crystal display device that performs monochrome gradation display, the liquid crystal display device comprising:
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a liquid crystal panel including a plurality of pixels, each constituted by a plurality of subpixels whose transmittances can be controlled independently of each other; a gradation converting unit that converts a gradation of each pixel included in an input video signal to gradations of a plurality of subpixels; and a drive circuit that drives the liquid crystal panel based on a video signal obtained by the gradation converting unit, wherein characteristics of the gradation conversion by the gradation converting unit are obtained by performing, in a case where the gradation of the pixel can be represented by only one minimum-area subpixel, a process in which with setting gradations of other subpixels to their minimum gradations, a gradation of the minimum-area subpixel is determined, and by performing, in other cases, one of a first process in which one subpixel is selected as a first subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the first subpixel is determined so that a ratio of a transmittance of the first subpixel to a transmittance of the pixel is less than a limit value, and when the gradation of the first subpixel cannot be determined to satisfy the condition regarding the transmittances, a plurality of subpixels are selected as second subpixels, and with setting a gradation of a remaining subpixel to its maximum gradation or minimum gradation, gradations of the second subpixels are determined to obtain a gradation higher than or equal to the gradation of the pixel;
a second process in which the gradation of the first subpixel is determined with changing the gradations set to other subpixels; and
a third process in which one subpixel different from the first subpixel is selected as a third subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the third subpixel is determined. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of driving a normally black mode liquid crystal display device that has a liquid crystal panel including a plurality of pixels, each constituted by a plurality of subpixels whose transmittances are controlled independently of each other, and that performs monochrome gradation display, the method comprising the steps of:
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converting a gradation of each pixel included in an input video signal to gradations of a plurality of subpixels; and driving the liquid crystal panel based on an obtained video signal, wherein characteristics of the gradation conversion in the step of performing the gradation conversion are obtained by performing, in a case where the gradation of the pixel can be represented by only one minimum-area subpixel, a process in which with setting gradations of other subpixels to their minimum gradations, a gradation of the minimum-area subpixel is determined, and by performing, in other cases, one of a first process in which one subpixel is selected as a first subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the first subpixel is determined so that a ratio of a transmittance of the first subpixel to a transmittance of the pixel is less than a limit value, and when the gradation of the first subpixel cannot be determined to satisfy the condition regarding the transmittances, a plurality of subpixels are selected as second subpixels, and with setting a gradation of a remaining subpixel to its maximum gradation or minimum gradation, gradations of the second subpixels are determined to obtain a gradation higher than or equal to the gradation of the pixel;
a second process in which the gradation of the first subpixel is determined with changing the gradations set to other subpixels; and
a third process in which one subpixel different from the first subpixel is selected as a third subpixel, and with setting gradations of other subpixels to their maximum gradations or minimum gradations, a gradation of the third subpixel is determined.
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Specification