Two-layer touch tablet
First Claim
1. A multi-layer passive touch tablet comprising:
- a first insulative layer having a first resistive coated bar extending along a first edge of said layer and a first series of conductive spaced parallel pathways extending orthogonally from said bar across said layer;
a conductive strip extending along a second edge of said layer opposed to said first edge and a second series of conductive spaced parallel pathways extending from said strip toward said bar and interdigitated with said first series of pathways;
a second insulative layer normally spaced from said first layer, said second layer having a second resistive coated bar extending along a first edge of said second layer orthogonally opposite said first bar and a third series of conductive spaced parallel pathways extending from said second bar toward an opposed second edge of said second layer, wherein said third series of pathways are orthogonal with and facing said first and second series of pathways;
means for applying an electrical potential to a location on each of said bars, an end of each of said bars displaced from said location being connected to a reference potential;
means for simultaneously bringing a discrete area of said first and second series of pathways into contact with said third series of pathways when one of said layers is pressed by a force against the other layer; and
means for simultaneously outputting voltage or resistance readings representative of a linear distribution of potential or resistance along each of said bars indicating x-axis and y-axis coordinates of the area pressed.
4 Assignments
0 Petitions
Accused Products
Abstract
A touch tablet (10) for determination of x-axis and y-axis coordinates of point touched includes a two-layer operating structure, each layer (11,21) containing a resistive bar (12,22) at an edge portion of an insulative substrate and a series of interdigitated conductive pathways (14,15) extending toward and away from the bar and an opposed conductive strip (13,33,43) on at least one of the layers. The bars and conductive pathways are orthogonally with respect to one another on each layer and further are orthogonal on one layer with respect to those bars and pathways on the other layer. A potential typically of 5 V is impressed on either one end of each of the resistive bars or on the interdigitated pathways.
The two layers (11,21 or 31,41) are normally spaced from each other by insulative dots (6) on one facing surface or by an embossed peripheral ridge (56) on the top surface. Pressing of a point or small area of the top layer by a user'"'"'s finger or hand-operated stylus makes a contact between the respective conductive pathways and simultaneously outputs an x-axis and y-axis coordinate voltage variously dependent on the point pressed and the resistance of the linear length of the bar from the point of connection of the voltage to the bar and the intersection of contacted orthogonal pathways. The resultant 0-5 V output may be picked-off in either a potentiometric or rheostatic mode and conducted to a CRT or computer port for processing and display.
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Citations
7 Claims
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1. A multi-layer passive touch tablet comprising:
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a first insulative layer having a first resistive coated bar extending along a first edge of said layer and a first series of conductive spaced parallel pathways extending orthogonally from said bar across said layer; a conductive strip extending along a second edge of said layer opposed to said first edge and a second series of conductive spaced parallel pathways extending from said strip toward said bar and interdigitated with said first series of pathways; a second insulative layer normally spaced from said first layer, said second layer having a second resistive coated bar extending along a first edge of said second layer orthogonally opposite said first bar and a third series of conductive spaced parallel pathways extending from said second bar toward an opposed second edge of said second layer, wherein said third series of pathways are orthogonal with and facing said first and second series of pathways; means for applying an electrical potential to a location on each of said bars, an end of each of said bars displaced from said location being connected to a reference potential; means for simultaneously bringing a discrete area of said first and second series of pathways into contact with said third series of pathways when one of said layers is pressed by a force against the other layer; and means for simultaneously outputting voltage or resistance readings representative of a linear distribution of potential or resistance along each of said bars indicating x-axis and y-axis coordinates of the area pressed. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification