Optical sensing system with light pulses
First Claim
1. An optical sensing system comprising a light source coupled to a switching element and a plurality of optical sensors having a partially reflective discontinuity between adjacent sensors, the plurality of optical sensors being coupled to detector means, the switching element being arranged to provide, in operation, light pulse trains in succession in a defined time spaced order, the time spaced order of light pulse trains being such that primary pulses in a primary light pulse train are provided at a primary time period spacing at least equivalent to twice an inherent transit time period of light pulses to the end of each contiguous length of optical sensors whilst at least one intermediate pulse in an intermediate light pulse train is provided at an intermediate time period with respect to primary light pulses, the intermediate time period being equivalent to a fixed fraction of the primary time period plus an inherent transit time period for light pulses across one sensor wherein respective primary and intermediate light pulses are respectively spaced and have a pulse length such that interaction between a reflected light pulse from a primary light pulse and a reflected light pulse from a intermediate light pulse is prevented.
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Accused Products
Abstract
Many optical sensing systems include an interferometer comprising a plurality of contiguous optical fibre sensor lengths with partially reflecting discontinuities therebetween. An inherent problem with these systems is however that the number of sensors that can be configured is limited by the pulse repetition or sensor interrogation rate. In the present system the pulse repetition rate is effectively increased without having to reduce optical fibre sensor lengths or numbers by interleaving several interrogating signals.
27 Citations
13 Claims
- 1. An optical sensing system comprising a light source coupled to a switching element and a plurality of optical sensors having a partially reflective discontinuity between adjacent sensors, the plurality of optical sensors being coupled to detector means, the switching element being arranged to provide, in operation, light pulse trains in succession in a defined time spaced order, the time spaced order of light pulse trains being such that primary pulses in a primary light pulse train are provided at a primary time period spacing at least equivalent to twice an inherent transit time period of light pulses to the end of each contiguous length of optical sensors whilst at least one intermediate pulse in an intermediate light pulse train is provided at an intermediate time period with respect to primary light pulses, the intermediate time period being equivalent to a fixed fraction of the primary time period plus an inherent transit time period for light pulses across one sensor wherein respective primary and intermediate light pulses are respectively spaced and have a pulse length such that interaction between a reflected light pulse from a primary light pulse and a reflected light pulse from a intermediate light pulse is prevented.
- 7. A method of operating an optical sensor system including a plurality of optical sensors arranged in at least one contiguous length and having partially reflective discontinuities between respective sensors arranged such that light pulse trains in mutual succession are injected into the plurality of optical sensors whereby said light pulses are partially reflected by the discontinuities to provide respective heterodyne signals upon detector means indicative of each optical sensor, the method comprising:
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8. (i) providing primary light pulses in primary light pulse train in a time spaced period at least equivalent to twice the inherent transit time for a pulse from injection to an end of the plurality of optical sensors;
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9. (ii) providing, at least one intermediate light pulse in an intermediate light pulse train at an intermediate time spaced relationship with respect to each primary light pulse, said intermediate time spaced period being a fixed fraction of the primary time spaced periods, whilst the pulse length and respective spacing of light pulses in respective primary and intermediate light pulse trains is determined such that neither injected or reflected light pulses associated with the primary pulse interact upon the detector means with those light pulses associated with an intermediate pulse.
Specification