Force sensing semiconductive touchpad
First Claim
1. A touchpad for providing a signal to a computer indicative of the location and applied pressure of an object touching the touchpad, the touchpad comprising:
- a pad having a touch surface;
a first sensor layer;
a first pair of spaced apart conductive traces running across opposite ends of the first sensor layer in a first direction such that a first resistance between the opposite ends of the first sensor layer connects the first pair of conductive traces;
a second sensor layer; and
a second pair of spaced apart conductive traces running across opposite ends of the second sensor layer in a second direction generally perpendicular to the first direction such that a second resistance between the opposite ends of the second sensor layer connects the second pair of conductive traces;
wherein the first and second sensor layers come into contact at a contact point when an object asserts a pressure on the touch surface of the pad, wherein the contact point is connected to each conductive trace by a pressure resistance associated with the first and second sensor layers and position resistances of the first and second sensor layers, wherein the pressure resistance varies as a function of the pressure asserted and the position resistances vary as a function of the distance of the contact point from the conductive traces.
3 Assignments
0 Petitions
Accused Products
Abstract
A touchpad assembly and method for providing a signal to a computer indicative of the location and applied pressure of an object touching the touchpad assembly is provided. The touchpad assembly includes X and Y position and pressure sensitive semiconductor resistance sensor layers. The X and Y sensors have a pair of spaced apart X and Y conductive traces running across opposite ends such that a resistance RX connects the pair of X traces and a resistance RY connects the pair of Y traces. The X and Y sensors come into contact at a contact point when an object asserts a pressure on the touchpad. The contact point is connected to each trace by a variable pressure resistance RZ associated with the X and Y sensors and variable position resistances of the X and Y resistances. First and second pair of timing capacitors are connected to respective ones of the pairs of X and Y traces. A microprocessor controls and monitors charging time of the capacitors to determine the position and asserted pressure of the object touching the touchpad.
367 Citations
22 Claims
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1. A touchpad for providing a signal to a computer indicative of the location and applied pressure of an object touching the touchpad, the touchpad comprising:
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a pad having a touch surface;
a first sensor layer;
a first pair of spaced apart conductive traces running across opposite ends of the first sensor layer in a first direction such that a first resistance between the opposite ends of the first sensor layer connects the first pair of conductive traces;
a second sensor layer; and
a second pair of spaced apart conductive traces running across opposite ends of the second sensor layer in a second direction generally perpendicular to the first direction such that a second resistance between the opposite ends of the second sensor layer connects the second pair of conductive traces;
wherein the first and second sensor layers come into contact at a contact point when an object asserts a pressure on the touch surface of the pad, wherein the contact point is connected to each conductive trace by a pressure resistance associated with the first and second sensor layers and position resistances of the first and second sensor layers, wherein the pressure resistance varies as a function of the pressure asserted and the position resistances vary as a function of the distance of the contact point from the conductive traces. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 21, 22)
a first pair of timing capacitors each connected to a respective one of the first pair of conductive traces; and
a second pair of timing capacitors each connected to a respective one of the second pair of conductive traces.
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3. The touchpad of claim 2 further comprising:
a microprocessor operative with the timing capacitors, wherein the microprocessor controls and monitors charging time of the timing capacitors to determine the position and asserted pressure of the object on the touch surface of the pad.
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4. The touchpad of claim 3 wherein:
the charging time of a timing capacitor is a function of the pressure resistance and the position resistance connecting the contact point to the one of the conductive traces that the timing capacitor is connected.
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5. The touchpad of claim 3 wherein:
the microprocessor drives the first pair of conductive traces to a given voltage so that current flows from the contact point through the pressure resistance, the position resistances, and the second pair of conductive traces to the second pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the second pair of timing capacitors to determine the position of the object along the first direction.
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6. The touchpad of claim 5 wherein:
current flows from the contact point through the pressure resistance, a position resistance connecting the contact point and one of the second pair of conductive traces, the one of the second pair of conductive traces, and then to one of the second pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the one of the second pair of timing capacitors to determine the distance of the object from the one of the second pair of conductive traces along the first direction.
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7. The touchpad of claim 6 wherein:
current flows from the contact point through the pressure resistance, a position resistance connecting the contact poit and the other one of the second pair of conductive traces, the other one of the second pair of conductive traces, and then to the other one of the second pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the other one of the second pair of timing capacitors to determine the distance of the object from the other one of the second pair of conductive traces along the first direction.
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8. The touchpad of claim 3 wherein:
the microprocessor drives the second pair of conductive traces to a given voltage so that current flows from the contact point through the pressure resistance, the position resistances, and the first pair of conductive traces to the first pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the first pair of timing capacitors to determine the position of the object along the second direction.
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9. The touchpad of claim 8 wherein:
current flows from the contact point through the pressure resistance, a position resistance connecting the contact point and one of the first pair of conductive traces, the one of the first pair of conductive traces, and then to one of the first pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the one of first pair of timing capacitors to determine the distance of the object from the one of the first pair of conductive traces along the second direction.
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10. The touchpad of claim 9 wherein:
current flows from the contact point through the pressure resistance, a position resistance connecting the contact point and the other one of the first pair of conductive traces, the other one of the first pair of conductive traces, and then to the other one of the first pair of timing capacitors, wherein the microprocessor monitors the charging time for the current to charge the other one of the first pair of timing capacitors to determine the distance of the object from the other one of the first pair of conductive traces along the second direction.
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11. The touchpad of claim 1 wherein:
the pressure resistance falls within a range having the same order of magnitude of the first and second resistances of the first and second sensor layers when the asserted pressure is between 15 to 100 grams.
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12. The touchpad of claim 1 wherein:
the pressure resistance enables conduction of current when the asserted pressure is around 10 grams.
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13. The touchpad of claim 1 wherein:
each of the sensor layers comprise carbon, resin, filler, and solvent, wherein each of the sensor layers have a 1;
5 ratio of the filler to a blend of the carbon, the resin, and the solvent.
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14. The touchpad of claim 13 wherein:
the filler is stannous oxide.
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21. The touchpad of claim 1 wherein:
the pressure resistance varies inversely as a function of the pressure asserted on the touch surface of the pad.
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22. The touchpad of claim 1 wherein:
the position resistances vary proportionally as a function of the distance of the contact point from the conductive
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15. A touchpad assembly for providing a signal to a computer indicative of the location and applied pressure of an object touching the touchpad assembly, the touchpad assembly comprising:
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a pad having a touch surface;
a first sensor layer;
a first pair of spaced apart conductive traces running across opposite ends of the first sensor layer in a first direction such that a first resistance between the opposite ends of the first sensor layer connects the first pair of conductive traces;
a second sensor layer;
a second pair of spaced apart conductive traces running across opposite ends of the second sensor layer in a second direction generally perpendicular to the first direction such that a second resistance between the opposite ends of the second sensor layer connects the second pair of conductive traces;
the second sensor layer being disposed beneath the first sensor layer such that the first and second sensor layers come into contact at a contact point when an object asserts a pressure on the touch surface of the pad, wherein the contact point is connected to each conductive trace by a pressure resistance associated with the first and second sensor layers and position resistances of the first and second sensor layers, wherein the pressure resistance varies inversely as a function of the pressure asserted and the position resistances vary proportionally as a function of the distance of the contact point from the conductive traces;
a first pair of timing capacitors each connected to a respective one of the first pair of conductive traces;
a second pair of timing capacitors each connected to a respective one of the second pair of conductive traces; and
a microprocessor operative with the timing capacitors, wherein the microprocessor controls and monitors charging time of the timing capacitors to determine the position and asserted pressure of the object on the touch surface of the pad. - View Dependent Claims (16)
the charging time of a timing capacitor is a function of the pressure resistance and the position resistance connecting the contact point to the one of the conductive traces that the timing capacitor is connected.
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17. A touchpad assembly for providing a signal to a computer indicative of the location and applied pressure of an object touching the touchpad assembly, the touchpad assembly comprising:
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a pad having a touch surface;
an X position sensor layer having a pair of spaced apart X conductive traces running across opposite ends of the X sensor layer along a Y direction such that a resistance RX between the opposite ends of the X sensor layer connects the pair of X conductive traces;
a Y position sensor layer having a pair of spaced apart Y conductive traces running across opposite ends of the Y sensor layer along an X direction generally perpendicular to the Y direction such that a resistance RY between the opposite ends of the Y sensor layer connects the pair of Y conductive traces, wherein the Y sensor layer is disposed adjacent the X sensor layer such that the X and Y sensor layers come into contact at a contact point when an object asserts a pressure on the touch surface of the pad, wherein the contact point is connected to each conductive trace by a pressure resistance RZ associated with the X and Y sensor layers and position resistances of the X and Y sensor lavers, wherein the pressure resistance RZ varies as a function of the pressure asserted and the position resistances vary as a function of the distance of the contact point from the conductive traces;
a first pair of timing capacitors each connected to a respective one of the pair of X conductive traces;
a second pair of timing capacitors each connected to a respective one of the pair of Y conductive traces; and
a microprocessor operative with the timing capacitors, wherein the microprocessor controls and monitors charging time of the timing capacitors to determine the position and asserted pressure of the object on the touch surface of the pad.
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18. A method for providing a signal to a computer representative of a position and asserted pressure of an object touching a touchpad having X and Y position sensor layers, wherein the X and Y sensor layers are Z pressure sensitive and come into contact at a contact point when the object touches the touchpad, the method comprising:
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providing a pair of spaced apart X conductive traces running across opposite ends of the X sensor layer along a Y direction such that a resistance RX between the opposite ends of the X sensor layer connects the pair of X conductive traces;
providing a pair of spaced apart Y conductive traces running across opposite ends of the Y sensor layer along an X direction generally perpendicular to the Y direction such that a resistance RY between the opposite ends of the Y sensor layer connects the pair of Y conductive traces;
driving the X conductive traces to a given voltage so that current flows from the contact point through a pressure resistance RZ across position resistances to the pair of Y conductive traces;
determining the position of the object along a Y direction on the Y sensor layer as a function of the current flowing from the contact point to the pair of Y conductive traces, wherein the current varies as a function of the pressure resistance RZ and the position resistances connecting the pair of Y conductive traces to the contact point;
driving the Y conductive traces to a given voltage so that current flows from the contact point through a pressure resistance RZ across position resistances to the pair of X conductive traces;
determining the position of the object along an X direction on the X sensor layer as a function of the current flowing from the contact point to the pair of X conductive traces, wherein the current varies as a function of the pressure resistance RZ and the position resistances connecting the pair of X conductive traces to the contact point; and
determining the Z pressure of the object touching the touchpad from the currents flowing from the contact point to the pairs of X and Y conductive traces. - View Dependent Claims (19, 20)
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Specification