Active joystick with optical position sensor
First Claim
1. A basic actuator structure comprising a stator formed by at least three pairs of opposing magnetic assemblies, each of said pairs of opposing magnetic assemblies defining a gap therebetween, a floater formed by at least three non-coplanar flat actuating coils positioned in fixed relationship relative to each other, one of said actuating coils being positioned in each of said gaps, each said gap having a width d and each said flat coil having a thickness dc measured parallel to said width d of its said gap and the ratio of coil thickness dc to gap width d is at least ⅓
- (dc/d≧
⅓
) such that said floator can move in directions perpendicular to said flat coils and thereby to provide a larger rattle space without sacrificing force applied between each of said flat coil and its said pair of opposed magnets.
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Abstract
A joystick composed of a stator formed by an outer cage forming an inner cubic compartment containing an inner cube oriented with its wall spaced from and substantially parallel corresponding wall of the compartment. Opposed magnets are position in cooperating relationship on opposed walls of the compartment and cube and define a gap therebetween. A floater formed by a plurality of flat actuating coils, one positioned in each gap and each thinner than the width of the gap in which it is received. Preferably the ratio of coil thickness to gap width is at least 1:3. Preferably an optical position sensor is used to monitor the relative position of the flotor and stator and is composed of at least one linear light position sensor mounted on one of the stator and flotor and a plurality of planar light beams arranged at an angle to each other on the other of the stator and flotor and directed to the linear light position sensor(s) so that the light beams traverse the linear light position sensor(s).
23 Citations
6 Claims
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1. A basic actuator structure comprising a stator formed by at least three pairs of opposing magnetic assemblies, each of said pairs of opposing magnetic assemblies defining a gap therebetween, a floater formed by at least three non-coplanar flat actuating coils positioned in fixed relationship relative to each other, one of said actuating coils being positioned in each of said gaps, each said gap having a width d and each said flat coil having a thickness dc measured parallel to said width d of its said gap and the ratio of coil thickness dc to gap width d is at least ⅓
- (dc/d≧
⅓
) such that said floator can move in directions perpendicular to said flat coils and thereby to provide a larger rattle space without sacrificing force applied between each of said flat coil and its said pair of opposed magnets. - View Dependent Claims (2)
- (dc/d≧
- 3. An optical position sensor comprising at least one linear light position sensor mounted on one of a floater and a stator and a plurality of multiplexed planar light beam projectors on the other of the stator and floater, said multiplexed planar light beam projectors each projecting a planar light beam and being oriented to project said planar light beams at an angle to each other, said angle being greater than zero and said planar light beam projectors and said at least one linear light position sensor are relatively positioned when in a field of operation of said optical position sensor so that said planar light beams traverse said at least one light position sensor at a plurality of spaced locations and so that detection of intersection of said planar light beams with said at least one linear light position sensor permits calculation of the relative position and orientation of said stator and floator.
- 5. An optical position sensor comprising a plurality of one dimensional light position sensors all of which extend along and detect light in the same plane and are mounted on one of a floater and a stator, a plurality of planar light beam projectors on the other of the stator and floater, said planar light beam projectors being oriented to project planar light beams at an angle to each other, said angle being greater than zero and said planar light beam projectors and said plurality of one dimensional light position sensors are relatively positioned when in a field of operation of said optical position sensor so that said planar light beams project towards said plane and traverse said plurality of one dimensional light position sensors at a plurality of spaced locations and so that detection of intersections of said planar light beams with said one dimensional position sensors permits calculation of the relative position and orientation of said stator and floator.
Specification
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- Resources
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Current AssigneeNiall R. Parker, Septimiu E. Salcudean
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Original AssigneeNiall R. Parker, Septimiu E. Salcudean
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InventorsSalcudean, Septimiu E., Parker, Niall R.
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Primary Examiner(s)Hjerpe, Richard
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Assistant Examiner(s)Eisen, Alexander
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Application NumberUS09/756,524Publication NumberTime in Patent Office462 DaysField of Search345/161, 345/156, 356/615, 356/622, 356/623, 356/141.3, 356/141.5, 356/144, 356/147, 463/36-39, 250/208.6US Class Current345/161CPC Class CodesG05G 2009/04759 Light-sensitive detector, e...G05G 9/047 the controlling member bein...G06F 3/011 Arrangements for interactio...G06F 3/0346 with detection of the devic...G06F 3/0383 Signal control means within...G06F 3/0421 by interrupting or reflecti...
