Flat display and driving method thereof
First Claim
1. A flat display, comprising:
- a substrate comprising a pixel array;
a plurality of data lines electrically connected to the pixel array;
a plurality of scan lines electrically connected to the pixel array, wherein the scan lines comprise a plurality of odd-numbered scan lines and a plurality of even-numbered scan lines;
a source driving unit electrically connected to the data lines; and
a gate driving unit comprising a first shift register circuit and a second shift register circuit, wherein the first shift register circuit is used for sequentially enabling the odd-numbered scan lines, and the second shift register circuit is used for sequentially enabling the even-numbered scan lines;
wherein, in a first frame period, the odd-numbered scan lines are sequentially enabled prior to the even-numbered scan lines, and the odd-numbered scan lines and the even-numbered scan lines are alternately enabled;
wherein, in a second frame period, the even-numbered scan lines are sequentially enabled prior to the odd-numbered scan lines, and the odd-numbered scan lines and the even-numbered scan lines are alternately enabled.
1 Assignment
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Accused Products
Abstract
A flat display includes a substrate, multiple data lines, multiple scan lines, a source driving unit and a gate driving unit. The substrate includes a pixel array. The data lines are electrically connected to the pixel array. The scan lines including p groups of scan lines are electrically connected to the pixel array, wherein p is a positive integer. Some of the scan lines in the same group are not adjacent to each other. The source driving unit is electrically connected to the data lines. The gate driving unit includes p shift register circuits respectively enabling the p groups of scan lines. In a first frame period, p groups of scan lines are enabled according to a first sequence of groups, and in a second frame period, p groups of scan lines are enabled according to a second sequence of groups which is different from the first sequence of groups.
62 Citations
21 Claims
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1. A flat display, comprising:
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a substrate comprising a pixel array; a plurality of data lines electrically connected to the pixel array; a plurality of scan lines electrically connected to the pixel array, wherein the scan lines comprise a plurality of odd-numbered scan lines and a plurality of even-numbered scan lines; a source driving unit electrically connected to the data lines; and a gate driving unit comprising a first shift register circuit and a second shift register circuit, wherein the first shift register circuit is used for sequentially enabling the odd-numbered scan lines, and the second shift register circuit is used for sequentially enabling the even-numbered scan lines; wherein, in a first frame period, the odd-numbered scan lines are sequentially enabled prior to the even-numbered scan lines, and the odd-numbered scan lines and the even-numbered scan lines are alternately enabled; wherein, in a second frame period, the even-numbered scan lines are sequentially enabled prior to the odd-numbered scan lines, and the odd-numbered scan lines and the even-numbered scan lines are alternately enabled. - View Dependent Claims (2, 3, 4)
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5. A method for driving a flat display, wherein the flat display comprises a substrate, a plurality of data lines, a plurality of scan lines, a source driving unit and a gate driving unit, the substrate comprises a pixel array, the data lines and the scan lines are electrically connected to the pixel array, the scan lines comprise a plurality of odd-numbered scan lines and a plurality of even-numbered scan lines, the source driving unit is electrically connected to the data lines, the gate driving unit comprises a first shift register circuit and a second shift register circuit, the first shift register circuit is used for sequentially enabling the odd-numbered scan lines, the second shift register circuit is used for sequentially enabling the even-numbered scan lines, the method for driving the flat display comprises:
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alternately enabling the odd-numbered scan lines and the even-numbered scan lines in a first frame period, wherein the odd-numbered scan lines are sequentially enabled prior to the even-numbered scan lines; and alternately enabling the odd-numbered scan lines and the even-numbered scan lines in a second frame period, wherein the even-numbered scan lines are sequentially enabled prior to the odd-numbered scan lines. - View Dependent Claims (6, 7, 8)
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9. A flat display, comprising:
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a substrate comprising a pixel array; a plurality of data lines electrically connected to the pixel array; a plurality of scan lines comprising p groups of scan lines electrically connected to the pixel array, wherein some of the scan lines in the same group are not adjacent to each other, and p is a positive integer; a source driving unit electrically connected to the data lines; and a gate driving unit comprising p shift register circuits respectively used for enabling the p groups of scan lines; wherein, the p groups of scan lines are enabled according to a first sequence of groups in a first frame period, and the p groups of scan lines are enabled according to a second sequence of groups in a second frame period, and wherein the second sequence of groups is different from the first sequence of groups. - View Dependent Claims (10, 11, 12, 13)
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14. A method for driving a flat display, wherein the flat display comprises a substrate, a plurality of data lines, a plurality of scan lines, a source driving unit and a gate driving unit, the substrate comprises a pixel array, the data lines and the scan lines are electrically connected to the pixel array, the scan lines comprise p groups of scan lines, some of the scan lines in the same group are not adjacent to each other, p is a positive integer, the source driving unit is electrically connected to the data lines, the gate driving unit comprises p shift register circuits respectively used for enabling the p groups of scan lines, the method for driving the flat display comprises:
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enabling the p groups of scan lines according to a first sequence of groups in a first frame period; and enabling the p groups of scan lines according to a second sequence of groups in a second frame period, wherein the second sequence of groups is different from the first sequence of groups. - View Dependent Claims (15, 16, 17, 18, 19)
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20. A flat display, comprising:
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a substrate comprising a pixel array; a plurality of data lines electrically connected to the pixel array; a plurality of scan lines electrically connected to the pixel array, wherein the scan lines comprise a plurality of odd-numbered scan lines and even-numbered scan lines; a source driving unit electrically connected to the data lines; and a gate driving unit comprising a first shift register circuit and a second shift register circuit, wherein the first shift register circuit is used for sequentially enabling the odd-numbered scan lines according to a first start pulse signal, a first clock pulse signal and a first delay clock pulse signal, and the second shift register circuit is used for sequentially enabling the even-numbered scan lines according to a second start pulse signal, a second clock pulse signal and a second delay clock pulse signal; wherein, in a first frame period, the phases of the first start pulse signal, the first clock pulse signal and the first delay clock pulse signal are respectively earlier than that of the second start pulse signal, the second clock pulse signal and the second delay clock pulse signal; wherein, in a second frame period, the phases of the second start pulse signal, the second clock pulse signal and the second delay clock pulse signal are respectively earlier than that of the first start pulse signal, the first clock pulse signal and the first delay clock pulse signal. - View Dependent Claims (21)
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Specification