COMMON BUS DESIGN FOR A TFT-LCD DISPLAY
First Claim
1. A display having a substrate assembly, the substrate assembly comprising:
- a transparent conducting common electrode;
a plurality of opaque display elements; and
a plurality of common bus lines made from a non-transparent conductor, the non-transparent conductor having a lower resistance than the transparent conducting common electrode, the common bus lines connected to the common electrode and positioned at a different layer in the substrate assembly than the opaque display elements such that, despite the existence of the common bus lines, an aperture of the display can be maintained at any reference aperture that would have been possible in the absence of the plurality of common bus lines such that the opaque display elements and the common bus lines substantially overlap one another at least in areas used for a display functionality of the display; and
wherein the substrate assembly further includes a pixel electrode positioned in proximity to the common electrode, and a voltage between the pixel electrode and the common electrode determines a display functionality of a particular pixel; and
wherein the plurality of opaque display elements includes at least a plurality of gate lines or data lines and wherein the at least the plurality of gate lines or data lines overlap substantially the entirety of the common bus lines.
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Abstract
Embodiments of the present invention provide for a FFS TFT LCD with a high refresh rate without limiting the aperture of individual pixels. More specifically, embodiments of the invention provide for the use of common bus lines to reduce the effective resistance of the common electrode and to therefore allow for higher refresh rates of the display. Furthermore, the common bus lines can be positioned in such a manner so that they do not further reduce the aperture of the display. More specifically, the common bus lines can be positioned above or below existing elements of the display that are already opaque. Thus, adding the common bus lines need not reduce the aperture. The above can be achieved by, for example, placing the common bus lines above or below existing non-transparent lines, such as gate lines or data lines.
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Citations
24 Claims
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1. A display having a substrate assembly, the substrate assembly comprising:
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a transparent conducting common electrode; a plurality of opaque display elements; and a plurality of common bus lines made from a non-transparent conductor, the non-transparent conductor having a lower resistance than the transparent conducting common electrode, the common bus lines connected to the common electrode and positioned at a different layer in the substrate assembly than the opaque display elements such that, despite the existence of the common bus lines, an aperture of the display can be maintained at any reference aperture that would have been possible in the absence of the plurality of common bus lines such that the opaque display elements and the common bus lines substantially overlap one another at least in areas used for a display functionality of the display; and wherein the substrate assembly further includes a pixel electrode positioned in proximity to the common electrode, and a voltage between the pixel electrode and the common electrode determines a display functionality of a particular pixel; and wherein the plurality of opaque display elements includes at least a plurality of gate lines or data lines and wherein the at least the plurality of gate lines or data lines overlap substantially the entirety of the common bus lines. - View Dependent Claims (2, 3, 4)
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5. A display including a substrate assembly, the substrate assembly comprising:
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a transparent conducting common electrode; a plurality of opaque display elements; and a plurality of common bus lines made from a non-transparent conductor, the non-transparent conductor having a lower resistance than the transparent conducting common electrode, the common bus lines connected to the common electrode and positioned at a different layer in the substrate assembly than the opaque display elements such that the opaque display elements and the common bus lines substantially overlap one another at least in areas used for a display functionality of the display; and wherein the plurality of opaque display elements includes at least a poly-silicone layer. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. A mobile telephone including a display having a substrate assembly, the substrate assembly comprising:
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a transparent conducting common electrode; a plurality of opaque display elements; and a plurality of common bus lines made from a non-transparent conductor, the non-transparent conductor having a lower resistance than the transparent conducting common electrode, the common bus lines connected to the common electrode and positioned at a different layer in the substrate assembly than the opaque display elements such that the opaque display elements and the common bus lines substantially overlap one another at least in areas used for a display functionality of the display; and wherein the plurality of opaque display elements includes at least a poly-silicone layer. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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19. A method for producing a display including manufacturing a substrate assembly by:
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forming a transparent conducting common electrode on a substrate; forming a plurality of opaque display elements on the substrate; forming on the substrate a plurality of common bus lines made from a non-transparent conductor, the non-transparent conductor having a lower resistance than the transparent conducting common electrode, by positioning the common bus lines at a different layer in the substrate assembly than the opaque display elements such that the opaque display elements and the common bus lines substantially overlap one another at least in areas used for a display functionality of the display, and connecting the common bus lines to the common electrode; and wherein the plurality of opaque display elements includes at least a plurality a poly-silicone layer. - View Dependent Claims (20, 21, 22, 23, 24)
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Specification