Multi-axial position sensing apparatus
First Claim
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1. A multi-dimensional position sensing apparatus, comprising:
- (a) concentric inner, intermediate and outer gimbal rings;
(b) means for pivotally coupling said gimbal rings;
(c) first and second magnets;
(d) first and second magnetic sensors, said first sensor opposing said first magnet, said second sensor opposing said second magnet; and
(e) means for coupling said magnets and said sensors to said gimbal rings wherein said first sensor and said first magnet pivot in relation to each other and wherein said second sensor and said second magnet pivot in relation to each other.
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Abstract
A multi-axial position sensor assembly for a joystick in which sensor/magnet pairs are positioned orthogonally on concentric gimbal rings such that each sensor and corresponding magnet pivot in relation to each other as a result of joystick movement. The sensors produce a reference output voltage when the joystick is centered and the sensors are aligned with the magnets. As a magnet rotates in relation to a sensor, the sensor produces an output voltage which is proportional to the angle of rotation and which has a polarity dependent upon the direction of rotation relative to the centered position.
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Citations
15 Claims
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1. A multi-dimensional position sensing apparatus, comprising:
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(a) concentric inner, intermediate and outer gimbal rings; (b) means for pivotally coupling said gimbal rings; (c) first and second magnets; (d) first and second magnetic sensors, said first sensor opposing said first magnet, said second sensor opposing said second magnet; and (e) means for coupling said magnets and said sensors to said gimbal rings wherein said first sensor and said first magnet pivot in relation to each other and wherein said second sensor and said second magnet pivot in relation to each other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A position indicating apparatus for a joystick, comprising:
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(a) concentric inner, intermediate and outer gimbal rings; (b) means for pivotally coupling said gimbal rings wherein said inner gimbal ring pivots in relation to said intermediate gimbal ring about a first axis, wherein said outer gimbal ring pivots in relation to said intermediate gimbal ring about a second axis, wherein said first and second axes are orthogonal, and wherein said first and second axes intersect at the center of concentricity of said gimbal rings; (c) first and second magnets; (d) first and second magnetic sensors, said first sensor opposing said first magnet, said second sensor opposing said second magnet; and (e) means for coupling said magnets and said sensors to said gimbal rings wherein said first sensor and said first magnet pivot in relation to each other and wherein said second sensor and said second magnet pivot in relation to each other. - View Dependent Claims (10, 11, 12, 13, 14)
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15. An apparatus for indicating direction of motion of a joystick, comprising:
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(a) concentric inner, intermediate and outer gimbal rings; (b) means for pivotally coupling said gimbal rings wherein said inner gimbal ring pivots in relation to said intermediate gimbal ring about a first axis, wherein said outer gimbal ring pivots in relation to said intermediate gimbal ring about a second axis, wherein said first and second axes are orthogonal, and wherein said first and second axes intersect at the center of concentricity of said gimbal rings; (c) first and second magnets, said first magnet coupled to said inner gimbal ring, said second magnet coupled to said outer gimbal ring; and (d) first and second magnetic sensors, said first sensor opposing said first magnet, said second sensor opposing said second magnet, said first and second sensors coupled to said intermediate gimbal ring, said first magnet and said first sensor positioned along said first axis, said second magnet and said second sensor positioned along said second axis; (e) wherein said first magnet pivots in relation to said first sensor and wherein said second magnet pivots in relation to said second sensor, each said sensor outputting a voltage signal proportional to angle of rotation, said output signal having a polarity dependent upon direction of rotation, each said sensor producing a zero reference voltage when said sensor is aligned with the magnet opposing said sensor.
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Specification