Baton and X, Y, Z, position sensor
First Claim
1. A position sensor, comprising:
- a moveable positioning member that generates a signal at a specified position in space, the position being specifiable with respect to X, Y and Z axes;
antennae comprising a flat support member having a first surface with at least two pairs of electrodes mounted on the first surface of the flat support member, a first pair of the electrodes comprising complementary wedge shaped electrodes positioned adjacent to each other so that capacitive coupling between the moveable positioning member and the first electrode pair corresponds to the position of the moveable positioning member with respect to the X axis and does not depend on the position of the moveable positioning member with respect to the Y axis, and a second pair of the electrodes comprising complementary rectangular shaped electrodes positioned adjacent to each other so that capacitive coupling between the moveable positioning member and the second electrode pair corresponds to the position of the moveable positioning member with respect to the Y axis and does not depend on the position of the moveable positioning member with respect to the X axis; and
a computation module for receiving signals from the electrodes, for computing X and Y position values of the moveable positioning member, and for computing a Z position value which is inversely proportional to the sum of the received signals.
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Accused Products
Abstract
A position sensor is used in conjunction with one or more batons, each baton having a transmitter that transmits a distinct radio frequency signal at a position in space. The position sensor determines the current position of each baton transmitter in terms of X, Y, and Z coordinates. The position sensor includes a tablet having a flat support member, with at least two pairs of electrodes coupled to the flat support member. Each of the electrodes is a separate antenna. A first pair of the electrodes is shaped so that the amount of capacitive coupling between each baton transmitter and the first pair of electrodes corresponds to the position of the baton transmitter with respect to the X axis. A second pair of the electrodes is shaped so that the amount of capacitive coupling between each baton transmitter and the second pair of electrodes corresponds to the position of the baton transmitter with respect to the Y axis. The regions forming the first pair electrodes are preferably interleaved with the regions forming the second pair of electrodes. The X, Y position of the baton can be computed with uniform accuracy anywhere in the X-Y plane by measuring the capacitance values between the baton and the four antennae.
159 Citations
20 Claims
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1. A position sensor, comprising:
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a moveable positioning member that generates a signal at a specified position in space, the position being specifiable with respect to X, Y and Z axes;
antennae comprising a flat support member having a first surface with at least two pairs of electrodes mounted on the first surface of the flat support member, a first pair of the electrodes comprising complementary wedge shaped electrodes positioned adjacent to each other so that capacitive coupling between the moveable positioning member and the first electrode pair corresponds to the position of the moveable positioning member with respect to the X axis and does not depend on the position of the moveable positioning member with respect to the Y axis, and a second pair of the electrodes comprising complementary rectangular shaped electrodes positioned adjacent to each other so that capacitive coupling between the moveable positioning member and the second electrode pair corresponds to the position of the moveable positioning member with respect to the Y axis and does not depend on the position of the moveable positioning member with respect to the X axis; and
a computation module for receiving signals from the electrodes, for computing X and Y position values of the moveable positioning member, and for computing a Z position value which is inversely proportional to the sum of the received signals. - View Dependent Claims (2, 3, 4, 5)
the first pair of electrodes develop a first pair of signals, S1 and S2, in response to the signal generated by the moveable positioning member, and the second pair of electrodes develop a second pair of signals, S3 and S4, in response to the signal generated by the moveable positioning member; - and
the X position value is a function of the ratio of S1 to S2, and the Y position value is a function of the ratio of S3 to S4.
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4. The position sensor of claim 3, wherein the X position value corresponds to the value of
and the Y position value corresponds to the value of -
5. The position sensor of claim 4 wherein the wedge shaped regions and the rectangular shaped regions each span substantially across a width of the first surface.
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6. A position sensor, comprising:
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antennae comprising a flat support member having a first surface with at least two pairs of electrodes mounted on the first surface of the flat support member, a first pair of the electrodes comprising complementary wedge shaped electrodes positioned adjacent to each other so that capacitive coupling between a moveable positioning member and the first electrode pair corresponds to the position of the moveable positioning member with respect to the X axis and does not depend on the position of the moveable positioning member with respect to the Y axis, and a second pair of the electrodes comprising complementary rectangular shaped electrodes positioned adjacent to each other so that capacitive coupling between the moveable positioning member and the second electrode pair corresponds to the position of the moveable positioning member with respect to the Y axis and does not depend on the position of the moveable positioning member with respect to the X axis; and
a computation module for receiving signals from the electrodes, for computing X and Y position values of the moveable positioning member. - View Dependent Claims (7, 8, 9, 10)
the first pair of electrodes develop a first pair of signals, S1 and S2, in response to a signal generated by the moveable positioning member, and the second pair of electrodes develop a second pair of signals, S3 and S4, in response to the signal generated by the moveable positioning member; - and
the X position value is a function of the ratio of S1 to S2, and the Y position value is a function of the ratio of S3 to S4.
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9. The position sensor of claim 8, wherein the X position value corresponds to the value of
and the Y position value corresponds to the value of -
10. The position sensor of claim 9 wherein the wedge shaped regions and the rectangular shaped regions each span substantially across a width of the first surface.
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11. A position sensor, comprising:
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a moveable positioning member that generates a signal at a specified position in space, the position being specifiable with respect to X and Y axes;
antennae comprising a flat support member having a first surface, with an array of sensor modules mounted on the first surface of the flat support member, each module of said array including;
a first sensor with a first fixed capacitance along the X axis;
a second sensor with a second fixed capacitance along the X axis;
a third sensor with a capacitance that increases along the X axis; and
a fourth sensor with a capacitance that decreases along the X axis;
wherein the first and second sensors are positioned along the Y axis such that the magnitude of said first fixed capacitance is proportional to the position of the sensor module along the Y axis and the magnitude of said second fixed capacitance is inversely proportional to the position of the sensor module along the Y axis; and
a computation module for receiving signals from the sensors, for computing X and Y position values of the moveable positioning member. - View Dependent Claims (12, 13, 14, 15)
the third sensor and fourth sensor of a sensor module develop a first pair of signals, S1 and S2, in response to the signal generated by the moveable positioning member, and the first sensor and second sensor of a sensor module develop a second pair of signals, S3 and S4, in response to the signal generated by the moveable positioning member; - and
the X position value is a function of the ratio of S1 to S2, and the Y position value is a function of the ratio of S3 to S4.
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14. The position sensor of claim 13, wherein the X position value corresponds to the value of
and the Y position value corresponds to the value of -
15. The position sensor of claim 14 wherein the wedge shaped regions and the rectangular shaped regions each span substantially across a width of the first surface.
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16. A position sensor for use in conjunction with a moveable positioning member that generates a signal at a specified position in space, the position being specifiable with respect to X and Y axes. the position sensor comprising:
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antennae comprising a flat support member having a first surface, with an array of sensor modules mounted on the first surface of the flat support member, each module of said array including;
a first sensor with a first fixed capacitance along the X axis;
a second sensor with a second fixed capacitance along the X axis;
a third sensor with a capacitance that increases along the X axis; and
a fourth sensor with a capacitance that decreases along the X axis;
wherein the first and second sensors are positioned along the Y axis such that the magnitude of said first fixed capacitance is proportional to the position of the sensor module along the Y axis and the magnitude of said second fixed capacitance is inversely proportional to the position of the sensor module along the Y axis; and
a computation module for receiving signals from the sensors, for computing X and Y position values of the moveable positioning member. - View Dependent Claims (17, 18, 19, 20)
the third sensor and fourth sensor of a sensor module develop a first pair of signals, S1 and S2, in response to the signal generated by the moveable positioning member, and the first sensor and second sensor of a sensor module develop a second pair of signals, S3 and S4, in response to the signal generated by the moveable positioning member; - and
the X position value is a function of the ratio of S1 to S2, and the Y position value is a function of the ratio of S3 to S4.
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19. The position sensor of claim 18, wherein the X position value corresponds to the value of
and the Y position value corresponds to the value of -
20. The position sensor of claim 19 wherein the wedge shaped regions and the rectangular shaped regions each span substantially across a width of the first surface.
Specification