Organic electroluminescent display with integrated resistive touch screen
First Claim
1. An organic electroluminescent display with integrated touch screen, comprising:
- a) a transparent substrate having two faces;
b) a transistor switching matrix and a light emitting layer forming an active matrix electroluminescent display located on one face of the substrate for emitting light through the substrate;
c) touch sensitive elements of a touch screen located on the other face of the substrate;
d) components of a touch screen controller located on the one face of the substrate; and
e) an electrical connector for connecting the components of the touch screen controller on the one face of the substrate to the touch screen elements on the other face of the substrate.
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Abstract
An organic electroluminescent display with integrated touch screen, includes: a transparent substrate having two faces; a transistor switching matrix and a light emitting layer forming an active matrix electroluminescent display located on one face of the substrate for emitting light through the substrate; touch sensitive elements of a touch screen located on the other face of the substrate; components of a touch screen controller located on the one face of the substrate; and an electrical connector for connecting the components of the touch screen controller on the one face of the substrate to the touch screen elements on the other face of the substrate.
132 Citations
18 Claims
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1. An organic electroluminescent display with integrated touch screen, comprising:
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a) a transparent substrate having two faces;
b) a transistor switching matrix and a light emitting layer forming an active matrix electroluminescent display located on one face of the substrate for emitting light through the substrate;
c) touch sensitive elements of a touch screen located on the other face of the substrate;
d) components of a touch screen controller located on the one face of the substrate; and
e) an electrical connector for connecting the components of the touch screen controller on the one face of the substrate to the touch screen elements on the other face of the substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
a) a voltage application circuit responsive to signals present for control of the light emitting elements, and b) a multiplexing circuit for selection of voltage application to the touch sensitive elements and for routing the measured voltage gradient in analog form to the electrical connector for computation by an external controller.
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11. The display of claim 10, wherein the components of the touch screen located on the one face of the substrate, further comprise an analog-to-digital converter for converting a measured analog voltage to digital format for transmission over to the electrical connector for computation by an external controller.
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12. The display of claim 11, wherein the components of the touch screen located on the one face of the substrate, further comprise a computation circuit for computing the coordinate of a touch.
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13. The display of claim 1, further comprising means for generating a periodic signal for synchronizing the electroluminescent display operations and the touch screen controller.
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14. The display of claim 13, wherein the periodic signal is a clock signal.
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15. The display of claim 14, where the clock signal is a pixel clock.
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16. The display of claim 13, further comprising a divider circuit located in the touch screen controller to produce a lower periodic frequency signal for synchronizing the touch screen controller.
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17. The display of claim 13, where the periodic signal is a horizontal synchronization signal.
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18. The display of claim 13, where the periodic signal is a vertical synchronization signal.
Specification