Fluid flow sensing apparatus for in vivo and industrial applications employing novel optical fiber pressure sensors
First Claim
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1. A fiber optic fluid differential pressure measuring device comprising a radiant energy emitting means having a predetermined coherence length an optical fiber sensor configured as an interferometer segment mounted on an optic fiber;
- said sensor interferometer segment causing path deviations of a measuring beam to be greater than the coherence length of the radiant energy emitted from said radiant energy emitting means;
a pair of orifices adapted to be in communication with the fluid pressure to measured, said orifices positioned at each end of the optical fiber sensor segment;
means for positioning said optical fiber sensor segment in the fluid to be measured;
means for creating constriction in the fluid to be measured spaced between the pair of orifices;
a fiber optical demodulator interferometer segment;
said demodulator interferometer segment causing the path length of the said measuring beam to be within the coherence length of said radiant energy emitting means;
means connecting the optical fiber sensor interferometer segment to the demodulator interferometer segment, said radiant energy emitting means directing radiant energy to the sensor interferometer segment through the optic fiber; and
radiant energy detecting means connected to said demodulator interferometer segment.
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Abstract
A fiber optical fiber fluid flow measuring device is provided for in vivo determination of blood flow in arteries. The device includes a fiber optical fluid differential pressure measuring device having at least one optical fiber sensor which optical fiber sensor is positioned in the blood flow passage in a restricted flow area. The fiber optical differential pressure fluid sensor is connected to a divided interferometer associated with an opto-electronic demodulator which has an output signal representing the differential pressure in the sensed area. The device also has utility in industrial applications.
164 Citations
16 Claims
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1. A fiber optic fluid differential pressure measuring device comprising a radiant energy emitting means having a predetermined coherence length an optical fiber sensor configured as an interferometer segment mounted on an optic fiber;
- said sensor interferometer segment causing path deviations of a measuring beam to be greater than the coherence length of the radiant energy emitted from said radiant energy emitting means;
a pair of orifices adapted to be in communication with the fluid pressure to measured, said orifices positioned at each end of the optical fiber sensor segment;
means for positioning said optical fiber sensor segment in the fluid to be measured;
means for creating constriction in the fluid to be measured spaced between the pair of orifices;
a fiber optical demodulator interferometer segment;
said demodulator interferometer segment causing the path length of the said measuring beam to be within the coherence length of said radiant energy emitting means;
means connecting the optical fiber sensor interferometer segment to the demodulator interferometer segment, said radiant energy emitting means directing radiant energy to the sensor interferometer segment through the optic fiber; and
radiant energy detecting means connected to said demodulator interferometer segment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- said sensor interferometer segment causing path deviations of a measuring beam to be greater than the coherence length of the radiant energy emitted from said radiant energy emitting means;
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9. Means for measuring fluid flow in arteries and veins comprising a radiant energy emitting means having a predetermined coherence length a catheter;
- a single optical fiber;
a fiber optic differential fluid pressure sensor configured as an interferometer segment housed in the catheter and mounted on said optical fiber;
said sensor segment causing path deviations of a measuring beam to be greater than the coherence length of the radiant energy emitted from said radiant energy emitting means;
a pair of orifices, positioned one at each end of the sensor segment;
an enlarged zone formed on the catheter spaced between the pair of orifices;
a fiber optical demodulator interferometer segment, said demodulator interferometer segment causing the path length of the said measuring beam to be within the coherence length of said radiant energy emitting means;
means connecting the optical fiber sensor segment to the demodulator interferometer segment, said radiant energy emitting means directing radiant energy to said sensor segment; and
radiant energy detector means connected to said demodulator interferometer segment. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- a single optical fiber;
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Current AssigneeOptical Technologies Corporation
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Original AssigneeOptical Technologies Corporation
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InventorsEinzig, Robert E.
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Primary Examiner(s)Cohen, Lee S.
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Assistant Examiner(s)SHAY, DAVID M
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Application NumberUS06/915,113Time in Patent Office1,110 DaysField of Search73/861.42, 73/861.52, 73/861.61, 73/861.62, 128/672, 128/673, 128/675, 128/691, 128/692, 128/345, 128/352, 372/30, 372/32US Class Current600/505CPC Class CodesA61B 5/0261 using optical means, e.g. i...A61B 5/6853 with a balloonG01F 1/363 with electrical or electro-...G01F 1/661 using lightG01L 11/025 using a pressure-sensitive ...
