Light pipe, system and method for measuring light attenuation
First Claim
1. A light pipe for measuring light attenuation, the light pipe comprising:
- an optical fiber having a length defined between a first end and a second end wherein light is transmittable through the optical fiber between the first end and the second end wherein the light is projected into the optical fiber;
a layer having a passage and a length defined between a first end and a second end wherein the passage extends from the first end through the layer to the second end of the layer wherein the optical fiber is inserted into the passage of the layer wherein the first end of the optical fiber is adjacent to the first end of the layer wherein a portion of the optical fiber extends outwardly from the second end of the layer wherein the portion of the optical fiber attenuates a first amount of the light projected into the optical fiber;
a light detector connected to the first end of the layer wherein the optical fiber projects a second amount of light into the passage of the layer wherein the light detector is adjacent to the passage of the layer wherein the light detector determines the second amount of light within the passage wherein the second amount of light corresponds to the first amount of light attenuated from the portion of the optical fiber; and
a microprocessor connected to the light detector wherein the microprocessor determines a distance between the optical fiber and the light detector wherein the distance between the optical fiber and the light detector corresponds to the second amount of light determined by the light detector.
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Accused Products
Abstract
A light pipe, a system and a method measure light attenuation from an optical fiber connected to a light source. The optical fiber transmits light from the light source to a light detector to determine a distance between the optical fiber and the light detector. The optical fiber attenuates light outwardly with respect to the fiber. A layer receives the optical fiber to reflect and/or to refract light transmitted by the optical fiber inwardly. A rod prevents light from attenuating from the optical fiber. A microprocessor may be connected to the light detector for determining the amount of light attenuated from the optical fiber. The microprocessor determines the distance between the light detector and the optical fiber based on the amount of light transmitted from the optical fiber to the light detector. The microprocessor transmits an output signal to a transducer for activating an arm to move an end of the layer inwardly or outwardly with respect to an end of the optical fiber. The light attenuated from the optical fiber and/or the light detectable by the light detector may correspond to a distance between the optical fiber and the light detector within an interior of the layer. The microprocessor may identify the distance between the optical fiber and the light detector based on the light measured and/or detected by the light detector from the optical fiber which may not be attenuated from the optical fiber.
29 Citations
20 Claims
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1. A light pipe for measuring light attenuation, the light pipe comprising:
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an optical fiber having a length defined between a first end and a second end wherein light is transmittable through the optical fiber between the first end and the second end wherein the light is projected into the optical fiber; a layer having a passage and a length defined between a first end and a second end wherein the passage extends from the first end through the layer to the second end of the layer wherein the optical fiber is inserted into the passage of the layer wherein the first end of the optical fiber is adjacent to the first end of the layer wherein a portion of the optical fiber extends outwardly from the second end of the layer wherein the portion of the optical fiber attenuates a first amount of the light projected into the optical fiber; a light detector connected to the first end of the layer wherein the optical fiber projects a second amount of light into the passage of the layer wherein the light detector is adjacent to the passage of the layer wherein the light detector determines the second amount of light within the passage wherein the second amount of light corresponds to the first amount of light attenuated from the portion of the optical fiber; and a microprocessor connected to the light detector wherein the microprocessor determines a distance between the optical fiber and the light detector wherein the distance between the optical fiber and the light detector corresponds to the second amount of light determined by the light detector. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A system for measuring light attenuation, the system comprising:
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an optical fiber having a length defined between a first end and a second end wherein light illuminates the optical fiber between the first end and the second end wherein the first end of the optical fiber projects light; a layer having a passage and a length defined between a first end and a second end wherein the passage extends from the first end of the layer through the layer to the second end of the layer wherein the optical fiber is located within the passage of the layer wherein the first end of the optical fiber is adjacent to the first end of the layer wherein a portion of the optical fiber extends outwardly with respect to the second end of the layer wherein the portion of the optical fiber attenuates an amount of light wherein the optical fiber is separated from the second end of the layer by a distance wherein the distance corresponds to the amount of light attenuated from the portion of the optical fiber; and a microprocessor connected to the optical fiber and the layer wherein the microprocessor determines the amount of light attenuated from the portion of the optical fiber wherein the microprocessor determines the distance between the optical fiber and the first end of the layer via the amount of light attenuated from the portion of the optical fiber. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method for measuring light attenuation, the method comprising the steps of:
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providing a light pipe having an optical fiber and a layer wherein the layer has a length defined between a first end and a second end of the layer wherein the optical fiber has a length defined between a first end and a second end of the fiber wherein the optical fiber is inserted into the layer wherein the first end of the optical fiber is adjacent to the first end of the layer wherein a portion of the optical fiber extends outwardly with respect to the second end of the layer; attenuating a first amount of light from the portion of the optical fiber extending outwardly with respect to the second end of the layer; and determining a distance between the first end of the optical fiber and the first end of the layer wherein the distance corresponds to the first amount of light attenuated from the portion of the optical fiber. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification