Integration design for capacitive touch panels and liquid crystal displays
First Claim
1. A double super twisted nematic (DSTN) liquid crystal display (LCD), comprising:
- an LCD cell comprising first and second transparent plates arranged parallel to each other, first and second transparent conductive layers formed on opposing surfaces of the first and second transparent plates, respectively, the first and second transparent conductive layers comprising a plurality of electrodes, and a first liquid crystal sealed between the first and second transparent conductive layers;
a liquid crystal compensation cell disposed over the LCD cell, the liquid crystal compensation cell comprising a third and fourth transparent plate arranged parallel to each other, third and fourth transparent conductive layers formed on a surface of each of the third and fourth transparent plates, respectively, the third and fourth transparent conductive layers comprising a plurality of electrodes, and a second liquid crystal sealed between the third and fourth transparent conductive layers, wherein the third and fourth conductive layers are formed on a top surface of each of the third and fourth transparent plates, wherein the top surface of each of the third and fourth transparent plates face a common direction;
a front polarizer disposed on the third transparent conductive layer;
a rear polarizer disposed on the second transparent plate, wherein the LCD and the liquid crystal compensation cell are disposed between the front and rear polarizers; and
a touch screen controller communicatively coupled to the plurality of electrodes of at least one of the third and fourth conductive layers to sense a change in capacitance on at least one of the third and fourth conductive layers.
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Abstract
An integrated touch screen and display device includes a polarizer with a layer of transparent conductive material deposited thereon. A touch screen controller is coupled to electrodes of the transparent conductive layer to detect the location of touches by, for example, a finger or stylus. A method for producing an integrated touch screen and display device includes applying a transparent conductive coating to an outer surface of a polarizer of a display device, creating electrodes in the conductive coating, and coupling the electrodes to a touch screen controller. A double super twisted nematic display that includes a capacitive touch panel integrated into a compensation cell of the display is also provided herein.
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Citations
3 Claims
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1. A double super twisted nematic (DSTN) liquid crystal display (LCD), comprising:
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an LCD cell comprising first and second transparent plates arranged parallel to each other, first and second transparent conductive layers formed on opposing surfaces of the first and second transparent plates, respectively, the first and second transparent conductive layers comprising a plurality of electrodes, and a first liquid crystal sealed between the first and second transparent conductive layers; a liquid crystal compensation cell disposed over the LCD cell, the liquid crystal compensation cell comprising a third and fourth transparent plate arranged parallel to each other, third and fourth transparent conductive layers formed on a surface of each of the third and fourth transparent plates, respectively, the third and fourth transparent conductive layers comprising a plurality of electrodes, and a second liquid crystal sealed between the third and fourth transparent conductive layers, wherein the third and fourth conductive layers are formed on a top surface of each of the third and fourth transparent plates, wherein the top surface of each of the third and fourth transparent plates face a common direction; a front polarizer disposed on the third transparent conductive layer; a rear polarizer disposed on the second transparent plate, wherein the LCD and the liquid crystal compensation cell are disposed between the front and rear polarizers; and a touch screen controller communicatively coupled to the plurality of electrodes of at least one of the third and fourth conductive layers to sense a change in capacitance on at least one of the third and fourth conductive layers. - View Dependent Claims (2, 3)
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Specification