A liquid crystal display includes gate lines, data lines intersecting with the gate lines to define sub-pixels, and a transmission part including transmission lines connected with the data lines to transmit data signals, where at least one pair of the transmission lines are arranged to cross each other, some of the transmission lines cross each other so that a sequence of data signals applied to the data lines can be changed, any of the transmission lines is opened at a crossing point of the transmission lines and the opened portion is connected by a separate conductor, thereby insulating the transmission lines crossing each other from each other, and an additional process for connecting the opened portion is not needed, thereby simplifying a fabrication process for the liquid crystal display.
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0. 21. A display device comprising:
a plurality of gate lines disposed on a substrate, wherein the plurality of gate lines extend in a first direction;
a plurality of data lines which extends in a second direction and crosses the plurality of gate lines;
a plurality of main pixels, each main pixel of the plurality of main pixels comprising four sub-pixels;
a first transmission part which receives first input signals from a data driver, wherein the first input signals have a first data order wherein a first input data, a second input data, a third input data and a fourth input data are sequentially disposed along the first direction, wherein the first transmission part changes the first data order of the first input signals into a second data order wherein the second input data, the first input data, the fourth input data and the third input data are sequentially disposed along the first direction, and wherein the first transmission part transmits signals having the second data order into the plurality of data lines; and
a second transmission part which receives second input signals from the data driver and transmits the second input signals as received by the second transmission part into the plurality of data lines,
wherein the first transmission part and the second transmission part are repetitively arranged in the first direction with respect to each main pixel.
0. 1. A liquid crystal display comprising:
a plurality of gate lines formed on a substrate;
a plurality of data lines formed on the substrate and intersecting with the gate lines to define a plurality of sub-pixels; and
a transmission part including a plurality of transmission lines connected with the data lines to transmit a data signal, at least one pair of the transmission lines being arranged to cross each other.
0. 2. The liquid crystal display of
0. 3. The liquid crystal display of
0. 4. The liquid crystal display of
0. 5. The liquid crystal display of
0. 6. The liquid crystal display of
0. 7. The liquid crystal display of
0. 8. The liquid crystal display of
0. 9. The liquid crystal display of
0. 10. The liquid crystal display of
0. 11. The liquid crystal display of
0. 12. The liquid crystal display of
0. 13. The liquid crystal display of
0. 14. A method of fabricating a liquid crystal display, the method comprising:
forming a plurality of gate lines on a substrate;
forming a plurality of data lines crossing the gate lines on the substrate; and
forming a plurality of transmission line connected with the data lines, at least one pair of the transmission lines being arranged to cross each other.
0. 15. The method of
0. 16. The method of
0. 17. The method of
forming an insulating layer on the data lines and the transmission lines;
depositing a transparent conductive layer on the insulating layer; and
patterning the deposited transparent conductive layer to form a pixel electrode.
0. 18. The method of
0. 19. The method of
0. 20. The method of
0. 22. The display device of claim 21, wherein the second input signals have a third data order wherein a fifth input data, a sixth input data, a seventh input data and an eighth input data are sequentially disposed along the first direction, wherein the second transmission part transmits the second input signals having the third data order into the plurality of data lines.
0. 23. The display device of claim 21, wherein the plurality of main pixels comprises a first main pixel connected to the first transmission part and a second main pixel connected to the second transmission part.
0. 24. The display device of claim 23, wherein a polarity of the first main pixel and a polarity of the second main pixel have a symmetric polarity structure with each other along the second direction.
0. 25. The display device of claim 24, wherein a polarity sequence of sub-pixels in the first main pixel and the second main pixel comprises (+)(−)(+)(−)(−)(+)(−)(+) in a first frame.
0. 26. The display device of claim 25, wherein a polarity sequence of sub-pixels in the first main pixel and the second main pixel comprises (−)(+)(−)(+)(+)(−)(+)(−) in a frame which is subsequent to the first frame.
0. 27. The display device of claim 25, wherein each main pixel includes four sub-pixels,
wherein each sub-pixel of the four sub-pixels of each main pixel comprises one of a first color, a second color, a third color, and a fourth color,
wherein each sub-pixel of the four sub-pixels of each the main pixel has a different color, and
wherein the first color, the second color, the third color and the fourth color are different from one another.
0. 28. The display device of claim 27, wherein the first main pixel and the second main pixel are repetitively arranged in the first direction corresponding to the first transmission part and the second transmission part.
0. 29. The display device of claim 28, wherein a first sub-pixel of the first main pixel has the first color and a first sub-pixel of the second main pixel has the first color, and
wherein a polarity of the first sub-pixel of the first main pixel and a polarity of the first sub-pixel of the second main pixel are different from each other.
0. 30. The display device of claim 29, wherein each main pixel of the plurality of main pixels comprises four sub-pixels arranged in the first direction.
0. 31. The display device of claim 30, wherein the first transmission part comprises a first transmission line and a second transmission line,
wherein the first transmission line is one of a pair of transmission lines which cross each other, and second transmission line is one of a pair of transmission lines which do not cross each other, and
wherein the first transmission line has a width which is different from a width of the second transmission line.
0. 32. The display device of claim 23, wherein a first sub-pixel of the first main pixel has a first color and a first sub-pixel of the second main pixel has the first color, and
wherein a polarity of the first sub-pixel of the first main pixel and a polarity of the first sub-pixel of the second main pixel are different from each other.
0. 33. The display device of claim 32, wherein each main pixel of the plurality of main pixels comprises four sub-pixels arranged in the first direction.
0. 34. The display device of claim 33, wherein a plurality of sub-pixels arranged in a second direction substantially perpendicular to the first direction have a same color.
0. 35. The display device of claim 33, wherein adjacent sub-pixels of the plurality of sub-pixels arranged in the second direction have different polarities from each other.
0. 36. The display device of claim 21, wherein the plurality of gate lines comprise at least one of chromium, aluminum, copper, molybdenum and alloys thereof.
0. 37. The display device of claim 36, wherein the plurality of gate lines comprise a multi-layered structure including at least two metal layers, and wherein at least two of the at least two metal layers have different physical properties from each other.
0. 38. The display device of claim 37, wherein the plurality of data lines comprise a multi-layered structure including at least two metal layers, and wherein at least two of the at least two metal layers have different physical properties from each other.
0. 39. The display device of claim 38, wherein the plurality of data lines comprise at least one of chromium, aluminum, copper, molybdenum and alloys thereof.
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narrow wide line width.
Hereinafter, a method of fabricating an LCD having the above construction will be described.
Referring to
Referring to
A semiconductor layer of an amorphous silicon layer is formed at a crossing point between the gate line 20 and the data line 30 before the data line 30 and the like are formed. In addition, a gate electrode extending from the gate line 20 and a source electrode extending from the data line 30 are formed below and above the semiconductor layer, respectively, so that a thin film transistor is completed.
Referring to
Referring to
Thereafter, the transparent conductive layer 50′ is patterned to form a conductor 45 connecting the pixel electrode 50 and a conductor 45 connecting the opened portion of the opened transmission line 40a, so that the resultant substrates shown in
An exemplary method of fabricating the LCD according to the present disclosure has been described with reference to the accompanying drawings. Since the above method is one of a variety of methods for fabricating the LCD shown in
As described above according to exemplary embodiments of the present disclosure, in an LCD having four color sub-pixels, a data signal having the alternate positive polarity and negative polarity can be uniformly applied to sub-pixels with the same color by using transmission lines crossing each other. Accordingly, the picture quality can be prevented from being lowered due to a concentration of the same polarities on a specific portion.
In addition, in forming the transmission lines crossing each other, any of the transmission lines is opened at a crossing point, and the opened portion is electrically connected during the formation of the pixel electrode. Thereby, an additional process for connecting the opened portion is not needed, so that the fabrication process is simplified.
It will be apparent to those of ordinary skill in the pertinent art that various modifications and variations can be made in the exemplary embodiments of the present disclosure. Thus, it is intended that the present invention covers all such modifications and variations that come within the scope of the appended claims and their equivalents.
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