Position measurement apparatus for capacitive touch panel system
First Claim
1. In a display system including a display surface positioned adjacent an optically transparent, electrically conductive layer having a first resistivity and first and second opposed side margins of preselected lengths, a position address encoder for generating an address signal indicative of a location on the conductive layer in contact with a stylus that is electrically connected to a reference potential, comprising:
- time-varying position measurement signal of substantially constant frequency and preselected magnitude;
first and second bar electrodes positioned along the lengths of the respective first and second opposed side margins and receiving the position measurement signal generated by the signal generating means, the resistivity of the conductive layer establishing an effective total resistance between the first and second bar electrodes; and
current measuring means for measuring currents corresponding to the position measurement signal and drawn through the first and second bar electrodes whenever a stylus contacts the conductive layer, whereby the stylus contacting the conductive layer divides the total resistance into first and second resistances that cause currents to be drawn through the respective first and second bar electrodes in proportion to the separation between the bar electrodes and the location.
1 Assignment
0 Petitions
Accused Products
Abstract
A capacitive touch panel system (10) having a faceplate (14) with an electrically conductive layer (20) of a consistent resistivity employs a position measurement apparatus (12) to generate an address signal indicative of a position (46) on the faceplate in contact with a stylus (48). The position measurement apparatus includes a position measurement signal source (62) that generates a square-wave measurement signal of substantially constant frequency and a preselected magnitude. The position measurement signal is applied to a first pair of opposed electrodes (36) and (40) and a second pair of opposed electrodes (38) and (42) positioned along respective side margins (26, 30, 28, and 32) of the faceplate. The resistivity of the conductive layer establishes effective resistances of Rx and Ry between the respective first and second pairs of electrodes. Position measurement subcircuits (60a-60d) measure currents drawn through the electrodes whenever the stylus contacts the conductive layer, thereby to form an address signal indicative of the location at which the stylus contacts the faceplate.
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Citations
25 Claims
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1. In a display system including a display surface positioned adjacent an optically transparent, electrically conductive layer having a first resistivity and first and second opposed side margins of preselected lengths, a position address encoder for generating an address signal indicative of a location on the conductive layer in contact with a stylus that is electrically connected to a reference potential, comprising:
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time-varying position measurement signal of substantially constant frequency and preselected magnitude; first and second bar electrodes positioned along the lengths of the respective first and second opposed side margins and receiving the position measurement signal generated by the signal generating means, the resistivity of the conductive layer establishing an effective total resistance between the first and second bar electrodes; and current measuring means for measuring currents corresponding to the position measurement signal and drawn through the first and second bar electrodes whenever a stylus contacts the conductive layer, whereby the stylus contacting the conductive layer divides the total resistance into first and second resistances that cause currents to be drawn through the respective first and second bar electrodes in proportion to the separation between the bar electrodes and the location. - View Dependent Claims (2, 3, 4, 5, 8, 9, 10)
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6. In a display system including a display surface positioned adjacent an optically transparent, electrically conductive layer having a first resistivity and first and second opposed side margins of preselected lengths, a position address encoder for generating an address signal indicative of a location on the conductive layer in contact with a stylus that is electrically connected to a reference potential, comprising:
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signal generating means for generating a time-varying position measurement signal of substantially constant frequency and preselected magnitude; first and second electrodes positioned along the lengths of the respective first and second opposed side margins and receiving the position measurement signal generated by the signal generating means, the resistivity of the conductive layer establishing an effective total resistance between the first and second electrodes; and current measuring means for measuring currents corresponding to the position measurement signal and drawn through the first and second electrodes whenever a stylus contacts the conductive layer, whereby the stylus contacting the conductive layer divides the total resistance into first and second resistances that cause currents to be drawn through the respective first and second electrodes in proportion to the separation between the electrodes and the location, the current measuring means including means for generating a first potential difference proportional to a current drawn through the first electrode, and a first differential amplifier having first and second inputs across which the first potential difference is applied, the first differential amplifier forming on a first output a signal representing the current drawn through the first electrode. - View Dependent Claims (7)
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11. In a display system including a display surface positioned adjacent an optically transparent, electrically conductive layer having a first resistivity and first and second opposed side margins of preselected lengths along which are positioned respective first and second bar electrodes, the resistivity of the conductive layer establishing an effective total resistance between the first and second bar electrodes, a method for generating an address signal representing a location on the conductive layer in contact with a stylus that is electrically connected to a reference potential, comprising:
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applying to the first and second bar electrodes a time-varying position measurement signal of substantially constant frequency and a preselected magnitude; and measuring currents drawn through the first and second bar electrodes and corresponding to the measurement signal whenever a stylus contacts the conductive layer, whereby the stylus contacting the conductive layer divides the total resistance into first and second resistances that cause currents to be drawn through the respective first and second bar electrodes in proportion to the separation between the electrodes and the location.
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12. A touch panel system having an optically transparent, electrically conductive surface positioned adjacent a display screen upon which an image is rendered in response to an image signal, the conductive surface including first and second side margins of preselected lengths and receiving an electrical noise a component of the image signal, comprising:
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signal generating means to generate a timevarying position measurement signal of a substantially constant frequency and a preselected magnitude; first and second bar electrodes positioned along the lengths of the respective first and second side margins and receiving the position measurement signal generated by the signal generating means, the resistivity of the conductive layer establishing an effective total resistance between the first and second bar electrodes; current measuring means to measure currents corresponding to the position measurement signal and drawn through the first and second bar electrodes whenever a stylus contacts the conductive layer, whereby the stylus contacting the conducting layer divides the total resistance into first and second resistances that cause currents to be drawn through the first and second bar electrodes in proportion to the separation between the bar electrodes and the location; and noise compensating means to compensate for the component of the image signal received by the conductive surface as electrical noise. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25)
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13. A touch panel system having an optically transparent, electrically conductive surface positioned adjacent a display screen upon which an image is rendered in response to an image signal that includes a periodic timing pulse, the conductive surface including first and second side margins of preselected lengths and receiving as electrical noise the periodic timing pulse, comprising:
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signal generating means for generating a time-varying position measurement signal of a substantially constant frequency and a preselected magnitude; first and second electrodes positioned along the lengths of the respective first and second side margins and receiving the position measurement signal generated by the signal generating means, the resistivity of the conductive layer establishing an effective total resistance between the first and second electrodes; current measuring means for measuring currents corresponding to the position measurement signal and drawn through the first and second electrodes whenever a stylus contacts the conductive layer, whereby the stylus contacting the conductive layer divides the total resistance into first and second resistances that cause currents to be drawn through the first and second electrodes in proportion to the separation between the electrodes and the location; and noise compensating means for compensating for the periodic timing pulse received by the conductive surface as electrical noise, the noise compensating means including interrupting means to interrupt the address signal in response to such a timing pulse. - View Dependent Claims (14, 15, 16)
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Specification