Fiber optic accelerometer
First Claim
1. A sensor comprising:
- a beam member which is cantilevered from a fixed mounting point to a free end, the beam member being configured to flex under selected acceleration to cause the beam free end to move;
an optical fiber extending along a longitudinal length of and supported by the beam member and terminating adjacent the beam free end, the optical fiber being small in cross-section relative to the beam member;
a target means fixedly mounted across an air gap from the optical fiber terminal end, such than an amount of light transmitted between the optical fiber terminal end and the target means changes with sensed acceleration.
1 Assignment
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Accused Products
Abstract
Light from a light source (10) is transmitted along an optical fiber (12) through a sensor (14) to opto-electronics (16). The sensor includes a cantilevered beam (20) that flexes in response to acceleration causing its free end (26) to move. Light from the optical fiber (12) is transmitted along an optical fiber to a terminal end (30) thereof and across a gap (34). Light transmitted across the gap is returned to the optical fiber by a mirror (FIG. 2 ) or received by a free end (36) of a second optical fiber (FIG. 1) and conveyed to the opto-electronics. The beam member is configured with an appropriate stiffness that under acceleration, the beam flexes moving its free end sufficiently to change measurably through transmission of light across the gap to the opto-electronics.
68 Citations
15 Claims
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1. A sensor comprising:
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a beam member which is cantilevered from a fixed mounting point to a free end, the beam member being configured to flex under selected acceleration to cause the beam free end to move; an optical fiber extending along a longitudinal length of and supported by the beam member and terminating adjacent the beam free end, the optical fiber being small in cross-section relative to the beam member; a target means fixedly mounted across an air gap from the optical fiber terminal end, such than an amount of light transmitted between the optical fiber terminal end and the target means changes with sensed acceleration. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A system for sensing acceleration, the sensor system comprising:
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a beam member which is cantilevered from a fixed mounting point extending longitudinally to a free end, such that the beam member flexes under acceleration causing the beam free end to move; an optical fiber attached to and extending longitudinally along the beam member from the fixed mounting point to the beam member free end, the optical fiber terminating adjacent the beam free end, the beam member having a transverse cross section that is larger than a transverse cross section of the optical fiber; a target means fixedly mounted across an air gap from the optical fiber terminal end, such that an amount of light transmitted between the optical fiber terminal end and the target means changes with sensed acceleration. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A sensor comprising:
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an optical fiber for conveying light from a source of illumination to a terminal end thereof; a target means for receiving light from the optical fiber terminal end, a gap being defined between the optical fiber terminal end and the target means; a cantilevered beam member that is mounted adjacent one end and has a free end adjacent to the gap, the beam member flexing in response to acceleration causing the free end to move such that in response to acceleration, the optical fiber being attached to the beam member such that flexing of the beam member changes alignment of the optical fiber terminal end relative to the target means changing light transmission across the gap from the optical fiber terminal end to the target means.
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15. An acceleration sensing system comprising:
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an illumination source; an optical fiber for conveying light from the illumination source to a light emission point; a target means mounted adjacent the light emission point and defining a gap therebetween; a second optical fiber for conveying light from the target means to an opto-electronic transducer means for providing an electrical output signal in accordance with an intensity of light received from the second optical fiber; a cantilever member having a free end that moves in response to sensed acceleration, the cantilever member having a substantially constant transverse cross-section which is larger than a transverse cross section of the optical fiber, the optical fiber being a separate structure from the cantilever member and attached longitudinally along the cantilever member.
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Specification