Method and apparatus for sensing the force with which a button is pressed
First Claim
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1. A combination force-sensing button and switch, comprising:
- a first conductive plate having a first shape,wherein the first conductive plate is coupled to a capacitance measuring circuit,wherein an insulating layer is formed on a surface of the first conductive plate,wherein the capacitance measuring circuit is configured to measure a first capacitance value in response to a press on the surface by an actuator having a conductive deformable surface, andwherein a force of actuation is generated in accordance with the measured first capacitance value;
a second conductive plate having a second shape,wherein the second conductive plate is coupled to a detection circuit; and
a third conductive plate having a third shape,wherein the third conductive plate is coupled to a reference voltage,wherein the first, second, and third conductive plates are electrically isolated from each other and arranged in proximity to one another, andwherein the detection circuit is configured to detect an electrical connection between the second and third conductive plates to indicate a switch activation when the second and third conductive plates are pressed by the actuator,wherein the first shape is a substantially semicircular shape, and wherein the second and third shapes each are a substantially quadrant shape.
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Abstract
Disclosed is an apparatus for sensing a force, comprising an actuator having a conductive deformable surface, a substrate having a first conductive trace and a second conductive trace, a housing coupled to the actuator and to the substrate, holding the actuator in proximity to the substrate, and a circuit for measuring a capacitance value.
308 Citations
16 Claims
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1. A combination force-sensing button and switch, comprising:
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a first conductive plate having a first shape, wherein the first conductive plate is coupled to a capacitance measuring circuit, wherein an insulating layer is formed on a surface of the first conductive plate, wherein the capacitance measuring circuit is configured to measure a first capacitance value in response to a press on the surface by an actuator having a conductive deformable surface, and wherein a force of actuation is generated in accordance with the measured first capacitance value; a second conductive plate having a second shape, wherein the second conductive plate is coupled to a detection circuit; and a third conductive plate having a third shape, wherein the third conductive plate is coupled to a reference voltage, wherein the first, second, and third conductive plates are electrically isolated from each other and arranged in proximity to one another, and wherein the detection circuit is configured to detect an electrical connection between the second and third conductive plates to indicate a switch activation when the second and third conductive plates are pressed by the actuator, wherein the first shape is a substantially semicircular shape, and wherein the second and third shapes each are a substantially quadrant shape. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A combination force-sensing button and switch, comprising:
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a first conductive plate having a first shape, wherein the first conductive plate is coupled to a capacitance measuring circuit, wherein an insulating layer is formed on a surface of the first conductive plate, wherein the capacitance measuring circuit is configured to measure a first capacitance value in response to a press on the surface by an actuator having a conductive deformable surface, and wherein a force of actuation is generated in accordance with the measured first capacitance value; a second conductive plate having a second shape, wherein the second conductive plate is coupled to detection circuit; and a third conductive plate having a third shape, wherein the third conductive plate is coupled to a reference voltage, wherein the first, second, and third conductive plates are electrically isolated from each other and arranged in proximity to one another, and wherein the detection circuit is configured to detect an electrical connection between the second and third conductive plates to indicate a switch activation when the second and third conductive plates are pressed by the actuator, wherein the arrangement of the first, second, and third shapes of the first, second, and third conductive plates, respectively, forms a substantially geometric shape, wherein the geometric shape comprises a circle, wherein the first shape is a substantially semicircular shape, and wherein the second and third shapes each are a substantially quadrant shape.
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10. A method of combining button force-sensing and switch activation, comprising:
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forming an insulating layer on a surface of a first conductive plate having a first shape, arranging the first conductive plate, a second conductive plate having a second shape, and a third conductive plate having a third shape in proximity to each other such that the arrangement of the first, second, and third shapes forms a substantially geometric shape, wherein no insulating layer is formed on the second and third conductive plates, wherein the first, second, and third conductive plates are electrically isolated from each other, and wherein the third conductive plate is coupled to a reference voltage; measuring a first capacitance value in response to a press on the surface of the first conductive plate by an actuator having a conductive deformable surface; determining a force of actuation in accordance with the measured first capacitance value; and detecting an electrical connection between the second and third conductive plates to indicate a switch activation when the second and third conductive plates are pressed by the actuator, wherein the first shape is a substantially semicircular shape, and wherein the second and third shapes each are a substantially quadrant shape. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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Specification