Reduced noise touch screen apparatus and method
First Claim
1. Apparatus for sampling signals from a Cathode Ray Tube (CRT) touch screen configured for receiving touch input from a human finger, said CRT having at least a first exterior display surface and an interior surface, comprising:
- at least a first touchscreen electrode placed directly on said first exterior display surface, located substantially near or over an edge of said first exterior display surface of said touch screen and in the absence of any touchscreen electrode being positioned on said interior surface;
a driver, coupled to said touch screen, which provides a voltage to a first region of said touch screen such that the potential at said first touchscreen electrode changes from a first value to a second value when said touch screen is touched in said first region;
a filter, coupled to said first touchscreen electrode, for passing frequencies greater than about 100 kilohertz, to provide a filtered electrode output; and
an analog-to-digital converter, coupled to said filter, for converting said filtered electrode output to digital signal samples at a rate of at least about 1000 samples per second.
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Accused Products
Abstract
A touch screen having a high or fine resolution at relatively low cost is provided. In one embodiment, electrodes are placed directly on the surface of a CRT screen without the need for an electrode positioned on the rear surface. The touch screen may include a conductive coating and a protective coating which are preferably provided in a single vacuum chamber step. A high gain system including a high-frequency sampling bandpass filter provide discrimination of the desired signal over noise. A screen calibration technique is used to achieve linearization in order to convert the electric signals obtained from the screen into data indicative of the position of a touch on the screen.
188 Citations
10 Claims
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1. Apparatus for sampling signals from a Cathode Ray Tube (CRT) touch screen configured for receiving touch input from a human finger, said CRT having at least a first exterior display surface and an interior surface, comprising:
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at least a first touchscreen electrode placed directly on said first exterior display surface, located substantially near or over an edge of said first exterior display surface of said touch screen and in the absence of any touchscreen electrode being positioned on said interior surface;
a driver, coupled to said touch screen, which provides a voltage to a first region of said touch screen such that the potential at said first touchscreen electrode changes from a first value to a second value when said touch screen is touched in said first region;
a filter, coupled to said first touchscreen electrode, for passing frequencies greater than about 100 kilohertz, to provide a filtered electrode output; and
an analog-to-digital converter, coupled to said filter, for converting said filtered electrode output to digital signal samples at a rate of at least about 1000 samples per second. - View Dependent Claims (2, 3, 4, 5)
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6. A method of determining the position of a user'"'"'s touch on a screen comprising:
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providing a touch screen for controllably displaying indicia on said screen and for outputting at least a first electrical variable, the location of said indicia being a function of control signals provided to said touch screen;
outputting a first value, being an indication of said first electrical variable in the absence of a touch on said touch screen;
displaying, on said touch screen, a first indicium, at a first screen location in response to a first set of control signals;
touching said touch screen at the location of said first indicium, and outputting a second value, being an indication of said first electrical variable when said screen is touched at the location of said first indicium;
displaying, on said touch screen, a second indicium, at a second screen location in response to a second set of control signals;
touching said touch screen at the location of said second indicium and outputting a third value, being an indication of said first electrical variable when said screen is touched at the location of said second indicium;
calculating, using at least said first, second and third values, parameters which define a function of said first electrical variable which, within a first predefined tolerance, provides a first indication of said first screen location when said first electrical variable is equal to said first value, and provides a second indication of said second screen location when said first electrical variable is equal to said second value; and
using said function to provide a third indication of a screen location, different from said first screen location and said second screen location, in response to a touch at a third screen location, different from said first and second screen locations, wherein said third indication is within a second predefined tolerance of said third screen location. - View Dependent Claims (7, 8, 9, 10)
where VL and VR represent voltages at said left and right electrodes, respectively.
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9. A method, as claimed in claim 7, wherein said touch screen includes top and bottom electrodes and wherein said touch screen outputs a second electrical variable:
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where VT and VB represent voltages at said top and bottom electrodes.
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10. A method, as claimed in claim 9, wherein said parameters include values, represented by a0, a1, a2, a3, b0, b1, b2 and b3, and wherein said function is defined by the following relationships:
Specification