High-sensitivity, low-noise, remote optical fiber
First Claim
1. An acoustic signal sensing device comprising in combination:
- acoustic signal sensor means, comprising a pair of optical fibers, at least one of which has acoustical sensitivity, for sensing acoustic signals by their action on the fiber to vary light beam velocity in the fiber and thus produce, in response to an impinging acoustical signal, a differential phase change between light beams simultaneously traversing said optical fibers;
optical-fiber lead-line means for conducting light beams to and from said sensor means;
light-splitting and combining means connected between said sensor means and said lead-line means for splitting an input light beam coming from said lead-line means into two components and feeding each component to a different one of said sensor optical fibers, and for combining the output beams from said optical fibers into a single resultant light beam and feeding it back to said lead-line means; and
detector means for deriving the resultant light beam from said lead-line means and producing an output signal proportional to said differential phase change between the outputs of said optical fibers in said sensor means;
at least one of said optical fibers is formed into a coil;
both said optical fibers have different acoustic sensitivities, are equal in length and are formed into coils each having two ends, an input end connected to said light-splitting and combining means, and a second end,said lead-line means comprises a single optical fiber,said sensor device further including mirror means to which said second ends of said optical fibers are connected for reflecting light beams in said fibers back to their input ends.
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Accused Products
Abstract
An optical system which detects acoustical signals in a fluid medium such as seawater. The acoustical sensor assembly includes an acoustical sensor which is formed by two optical fibers which have different sensitivities to acoustical signals and are connected with the optical radiation conductor or conductors by use of an optical coupler which couples optical radiation into each of the optical fibers of the acoustical sensor. Since the optical fibers of the acoustical sensor have different acoustical sensitivities to acoustical signals, the phase of the optical radiation transmitted through each optical fiber of the acoustical sensor will change differently due to acoustical signals incident thereon. The optical radiation from the optical fibers of the acoustical sensor is directed back through an optical fiber to a photodetector. The photodetector produces a modulated output signal in accordance with the acoustical energy detected.
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Citations
9 Claims
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1. An acoustic signal sensing device comprising in combination:
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acoustic signal sensor means, comprising a pair of optical fibers, at least one of which has acoustical sensitivity, for sensing acoustic signals by their action on the fiber to vary light beam velocity in the fiber and thus produce, in response to an impinging acoustical signal, a differential phase change between light beams simultaneously traversing said optical fibers; optical-fiber lead-line means for conducting light beams to and from said sensor means; light-splitting and combining means connected between said sensor means and said lead-line means for splitting an input light beam coming from said lead-line means into two components and feeding each component to a different one of said sensor optical fibers, and for combining the output beams from said optical fibers into a single resultant light beam and feeding it back to said lead-line means; and detector means for deriving the resultant light beam from said lead-line means and producing an output signal proportional to said differential phase change between the outputs of said optical fibers in said sensor means; at least one of said optical fibers is formed into a coil; both said optical fibers have different acoustic sensitivities, are equal in length and are formed into coils each having two ends, an input end connected to said light-splitting and combining means, and a second end, said lead-line means comprises a single optical fiber, said sensor device further including mirror means to which said second ends of said optical fibers are connected for reflecting light beams in said fibers back to their input ends.
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2. An acoustic signal sensing device comprising, in combination:
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acoustic signal sensor means, comprising a pair of optical fibers, at least one of which has acoustical sensitivity, for sensing acoustic signals by their action on the fiber to vary light beam velocity in the fiber and thus produce, in response to an impinging acoustical signal, a differential phase change between light beams simultaneously traversing said optical fibers; optical fiber lead line means for conducting light beams to and from said sensor means; light-splitting and combining means connected between said sensor means and said lead line means for splitting an input light beam coming from said lead line means into two components and feeding each component to a different one of said sensor optical fibers, and for combining the output beams from said optical fibers into a single resultant light beam and feeding it back to said lead line means; and detector means for deriving the resultant light beam from said lead line means and producing an output signal proportional to said differential phase change between the outputs of said optical fibers in said sensor means; at least one of said optical fibers is formed into a coil; said pair of optical fibers are unequal in length, each fiber having an input end and a second end, and wherein said lead line means comprises a single optical fiber connected between said light splitting and combining means and said detector means, said sensing means further including; a pair of mirrors, a different one coupled to each optical fiber at its second end for reflecting light beams back to its input end. - View Dependent Claims (3, 4)
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5. An acoustic-signal detector comprising:
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means for sensing acoustic signals in a fluid medium, comprising a pair of optical fibers, said optical fibers being physically arranged so that said pair of optical fibers may be exposed to an acoustic signal existing in said fluid medium; means for introducing a separate optical signal into an input end of each one of said pair of optical fibers, the difference in phase between the two optical signals being constant; means for indicating a phase change of said separate optical signals in said pair of optical fibers due to incidence of an acoustic signal on said pair of optical fibers in said fluid medium; said separate optical signals introduced into said pair of optical fibers have the same phase; one optical fiber lead line for conducting light to and from said sensor means, and an optical reflector means in said one lead line for reflecting light returned from said sensor means to said means for indicating a total phase change in said separate optical signals. - View Dependent Claims (6, 7, 8, 9)
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Specification