Fiber optic line magnetometer having thermal compensation
First Claim
1. A fiber optic line magnetometer for detecting the magnetic field form by a train positioned within a predetermined block of a train track, the fiber optic line magnetometer comprising;
- a. means for generating a light source;
b. reference arm means optically coupled to said light source, said reference arm means optically transmitting said light source over the length of said reference arm and outputting a first optical signal;
c. sense arm means optically coupled to said light source, said sense arm means optically transmitting said light source over the length of said sense arm and outputting a second optical signal, said sense arm means varying optical transmission characteristics in response to the magnetic field of the train being applied thereto;
said sense arm means and said reference arm means being positioned closely adjacent to each other, both said sense arm means and said reference arm means position substantially parallel to the train tracks over substantially the entire length of the predetermined block; and
d. a processing means optically coupled to receive said first optical signal and said second optical signal, said processing means arranged to output a detection signal when a phase shift between said first optical signal and said second optical signal exceeds a predetermined threshold,wherein said sense arm means comprises;
a. a first fiber optic cable for optically transmitting the light source over the length of the sense arm means;
b. a plurality of magnetostrictive elements, each of said plurality of magnetostrictive elements varying in length as a function of the magnetic field applied thereto; and
c. mechanical coupling means for mechanically coupling each of said plurality of magnetostrictive elements to said first fiber optic cable in a manner such that changes in the length of the magnetostrictive elements causes changes in the length of the first fiber optic cable, andwherein said plurality of magnetostrictive elements of said sense arm means have a first thermal expansion coefficient, and wherein said reference arm means comprises;
a. a second fiber optic cable for optically transmitting the light source over the length of the reference arm means;
b. a plurality of non-magnetostictive elements, each of said plurality of non-magnetostrictive elements having a second thermal expansion coefficient, said ratio of the length of each of said plurality of magnetostrictive elements to the length of each of said plurality of non-magnetostrictive elements equals said first thermal expansion coefficient divided by said second thermal expansion coefficient; and
c. mechanical coupling means for mechanically coupling each of said plurality of non-magnetostrictive elements to said second fiber optic cable in a manner such that changes in the length of the non-magnetostrictive elements causes changes in the length of the second fiber optic cable.
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Accused Products
Abstract
A fiber optic line magnetometer is used in a railway block detection system for detecting the presence of a train, or a portion of a train, within a predetermined block. The fiber optic line magnetometer is positioned in the center of the tracks and runs parallel to the tracks for the entire length of the block. The fiber optic line magnetometer includes a sense arm and a reference arm, each of which includes a fiber optic cable for carrying a light originating from a signal source. Magnetostrictive elements connect to the fiber optic cable in the sense arm and change the light path length when external magnetic fields are applied thereto. The light exiting from the sense arm and the reference arm are compared, and in the event the fringe shifts in the compared light exceeds predetermined thresholds, a detection control signal is generated. Non-magnetostrictive elements, which are sized to have the same thermal temperature expansion characteristics as the magnetostrictive elements, are attached to the fiber optic cable of the reference arm.
80 Citations
15 Claims
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1. A fiber optic line magnetometer for detecting the magnetic field form by a train positioned within a predetermined block of a train track, the fiber optic line magnetometer comprising;
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a. means for generating a light source; b. reference arm means optically coupled to said light source, said reference arm means optically transmitting said light source over the length of said reference arm and outputting a first optical signal; c. sense arm means optically coupled to said light source, said sense arm means optically transmitting said light source over the length of said sense arm and outputting a second optical signal, said sense arm means varying optical transmission characteristics in response to the magnetic field of the train being applied thereto; said sense arm means and said reference arm means being positioned closely adjacent to each other, both said sense arm means and said reference arm means position substantially parallel to the train tracks over substantially the entire length of the predetermined block; and d. a processing means optically coupled to receive said first optical signal and said second optical signal, said processing means arranged to output a detection signal when a phase shift between said first optical signal and said second optical signal exceeds a predetermined threshold, wherein said sense arm means comprises; a. a first fiber optic cable for optically transmitting the light source over the length of the sense arm means; b. a plurality of magnetostrictive elements, each of said plurality of magnetostrictive elements varying in length as a function of the magnetic field applied thereto; and c. mechanical coupling means for mechanically coupling each of said plurality of magnetostrictive elements to said first fiber optic cable in a manner such that changes in the length of the magnetostrictive elements causes changes in the length of the first fiber optic cable, and wherein said plurality of magnetostrictive elements of said sense arm means have a first thermal expansion coefficient, and wherein said reference arm means comprises; a. a second fiber optic cable for optically transmitting the light source over the length of the reference arm means; b. a plurality of non-magnetostictive elements, each of said plurality of non-magnetostrictive elements having a second thermal expansion coefficient, said ratio of the length of each of said plurality of magnetostrictive elements to the length of each of said plurality of non-magnetostrictive elements equals said first thermal expansion coefficient divided by said second thermal expansion coefficient; and c. mechanical coupling means for mechanically coupling each of said plurality of non-magnetostrictive elements to said second fiber optic cable in a manner such that changes in the length of the non-magnetostrictive elements causes changes in the length of the second fiber optic cable. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A fiber optic line magnetometer for detecting the magnetic fields at any position along the length of the fiber optic line magnetometer, the fiber optic line magnetometer comprising;
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a. means for generating a light source; b. reference arm means optically coupled to said light source, said reference arm means optically transmitting said light source over the length of said reference arm and outputting a first optical signal; c. sense arm means optically coupled to said light source, said sense arm means optically transmitting said light source over the length of said sense arm and outputting a second optical signal, said sense arm means varying optical transmission characteristics in response to the magnetic field applied thereto; said sense arm means and said reference arm means being positioned closely adjacent to each other; and d. a processing means optical coupled to receive said first optical signal and said second optical signal, said processing means arranged to output a detection signal when a phase shift between said first optical signal and said second optical signal exceeds a predetermined threshold, wherein said sense arm means comprises; a. a first fiber optic cable for optically transmitting the light source over the length of the sense arm means; b. a plurality of magnetostrictive elements, each of said plurality of magnetostrictive elements varying in length as a function of the magnetic field applied thereto; and c. mechanical coupling means for mechanically coupling each of said plurality of magnetostrictive elements to said first fiber optic cable in a manner such that changes in the length of the magnetostrictive elements causes changes in the length of the first fiber optic cable, and wherein said plurality of magnetostrictive elements of said sense arm means have a first thermal expansion coefficient, and wherein said reference arm means comprises; a. a second fiber optic cable for optically transmitting the light source over the length of the reference arm means; b. a plurality of non-magnetostrictive elements, each of said plurality non-magnetostrictive elements having a second thermal expansion coefficient, said ratio of the length of each of said plurality of magnetostrictive elements to the length of each of said plurality of non-magnetostrictive elements equals said first thermal expansion coeeficient divided by said second thermal expansion coeeficient; and c. mechanical coupling means for mechanically coupling each of said plurality of non-magnetostrictive elements to said second fiber optic cable in a manner such that changes in the length of the non-magnetostrictive elements causes changes in the length of the second fiber optic cable. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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Specification