Fiber-optic acceleration sensor with photoluminescent material
First Claim
1. A fiber-optic sensor for sensing dynamic acceleration and arranged so that the acceleration gives rise to changes in an optical output signal, which changes are caused by a change in an angle between at least one body and the optical axis of at least one graded index lens, at least one optical fiber being arranged to transmit optical energy to one end surface of the lens and to feed said optical output signal back from said end surface of the lenswhereinthe energy of said optical output signal reflected back into the fiber is arranged to be dependent on the angle and essentially independent of the distance between the body and the lens, and the sensor includes at least one photoluminescent material arranged so that a photoluminescent signal constitutes a part of the optical output from the sensor.
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Accused Products
Abstract
A fiber-optic sensor for sensing dynamic acceleration is arranged so that the acceleration gives rise to changes in angle between at least one body and the optical axis of at least one lens of graded index type (GRIN lens). At least one optical fiber is arranged to transmit optical energy to and from one end surface of the lens. The optical energy reflected back into the fiber is dependent on the angle and essentially independent of the distance between the body and the lens, and the sensor comprises at least one photoluminescent material so that a part of the optical output signal from the sensor includes a photoluminescent signal.
34 Citations
21 Claims
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1. A fiber-optic sensor for sensing dynamic acceleration and arranged so that the acceleration gives rise to changes in an optical output signal, which changes are caused by a change in an angle between at least one body and the optical axis of at least one graded index lens, at least one optical fiber being arranged to transmit optical energy to one end surface of the lens and to feed said optical output signal back from said end surface of the lens
wherein the energy of said optical output signal reflected back into the fiber is arranged to be dependent on the angle and essentially independent of the distance between the body and the lens, and the sensor includes at least one photoluminescent material arranged so that a photoluminescent signal constitutes a part of the optical output from the sensor.
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18. A fiber-optic sensor for sensing dynamic accelerations, said sensor comprising
a support body which is subject to dynamic accelerations, said support body including a first body portion which has a first face and a second face and a bore which extends therethrough from said first face to said second face, and a second body portion which has a first face and a second face and a passageway which extends therethrough from said first face to said second face, said first face of said second body portion facing the second face of said first body portion and said passageway therein being aligned with said bore in said first body portion so as to define an optical axis of said support body, an optical fiber which extends through said bore in said first body portion to an end surface which is essentially flush with said second face of said first body portion, said optical fiber being capable of supplying optical energy into said support body and conveying an optical output signal away from said support body, a graded index lens positioned in said passageway of said second body portion, a flexible, reflecting beam element attached to said second body portion so as to flex relative to said second body portion and said optical axis when said support body is subject to dynamic accelerations, said beam element being capable of reflecting optical energy emitted from said graded index lens back into said graded index lens, the amount of said reflected optical energy being based on the angle at which said beam element is flexed relative to said optical axis, and photoluminescent means within said support body for generating a photoluminescent signal, said photoluminescent signal combining with said reflected optical energy to constitute said optical output signal.
Specification