System and method of measuring and controlling temperature of optical fiber tip in a laser system
First Claim
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1. A method of sensing temperature at an optical fiber tip comprising the following steps:
- (a) positioning a slug of fluorescent material adjacent said optical fiber tip;
(b) providing an optical stimulus having a wavelength within a first predetermined range through at least one fiber optically linked to said optical fiber tip, wherein a desired optical fluorescent response having a wavelength within a second predetermined range from said fluorescent slug is generated;
(c) detecting a signal representative of said optical stimulus;
(d) detecting a signal representative of said optical fluorescent response;
(c) digitally processing said optical stimulus signal and said optical fluorescent response signal to determine a phase difference therebetween; and
(f) calculating a temperature for said optical fiber tip as a function of said phase difference;
wherein said phase difference between said optical stimulus signal and said optical fluorescent response is determined by the steps of;
providing a reference signal;
determining a first phase difference between said reference signal and said optical stimulus;
determining a second phase difference between said reference signal and said optical fluorescent response signal, and determining the difference between said first phase difference and said second phase difference, said difference corresponding to the phase difference between said optical stimulus signal and said optical fluorescent response.
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Abstract
A system and method of sensing temperature at an optical fiber tip, including the steps of positioning a slug of fluorescent material adjacent the optical fiber tip, providing an optical stimulus having a wavelength within a first predetermined range through at least one fiber optically linked to the optical fiber tip, wherein a desired optical fluorescent response having a wavelength within a second predetermined range from the fluorescent slug is generated, detecting a signal representative of the optical stimulus, detecting a signal representative of the optical fluorescent response, digitally processing the optical stimulus signal and the optical fluorescent response signal to determine a phase difference therebetween, and calculating a temperature for the optical fiber tip as a function of the phase difference. The phase difference between the optical stimulus signal and the optical fluorescent response signal may be determined directly or indirectly as a function of the phase difference between a reference signal and the optical stimulus signal and the phase difference between the reference signal and the optical fluorescent response signal.
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Citations
18 Claims
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1. A method of sensing temperature at an optical fiber tip comprising the following steps:
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(a) positioning a slug of fluorescent material adjacent said optical fiber tip;
(b) providing an optical stimulus having a wavelength within a first predetermined range through at least one fiber optically linked to said optical fiber tip, wherein a desired optical fluorescent response having a wavelength within a second predetermined range from said fluorescent slug is generated;
(c) detecting a signal representative of said optical stimulus;
(d) detecting a signal representative of said optical fluorescent response;
(c) digitally processing said optical stimulus signal and said optical fluorescent response signal to determine a phase difference therebetween; and
(f) calculating a temperature for said optical fiber tip as a function of said phase difference;
wherein said phase difference between said optical stimulus signal and said optical fluorescent response is determined by the steps of;
providing a reference signal;
determining a first phase difference between said reference signal and said optical stimulus;
determining a second phase difference between said reference signal and said optical fluorescent response signal, and determining the difference between said first phase difference and said second phase difference, said difference corresponding to the phase difference between said optical stimulus signal and said optical fluorescent response. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
(a) detecting said optical stimulus directly to establish a normalized signal thereof; and
(b) adjusting said detected optical stimulus signal according to said normalized signal.
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6. The method of claim 1, further comprising the step of filtering said optical fluorescent response within said second predetermined wavelength range.
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7. The method of claim 1, further comprising the step of maintaining said optical fiber tip temperature within a specified range.
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8. The method of claim 1, further comprising the step of comparing said optical stimulus signal and said optical fluorescent response signal directly to determine the phase difference therebetween.
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9. A laser system, comprising:
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(a) a laser for providing a laser beam having a wavelength within a first predetermined range;
(b) at least one optical fiber having a first end in optical communication with said laser beam and a second end through which said laser beam is transmitted;
(c) a slug of fluorescent material positioned adjacent said second end of said optical fiber;
(d) a light source for providing an optical stimulus having a wavelength within a second predetermined range to said fluorescent slug, wherein a desired optical fluorescent response having a wavelength within a third predetermined range from said fluorescent slug is generated;
(e) a detector for detecting said optical fluorescent response;
(f) a device for receiving a first signal representative of said optical stimulus and a second signal representative of said optical fluorescent response; and
(g) a processor for determining a phase difference between said first and second signals, wherein the temperature of said optical fiber second end is determined as a function of said phase difference; and
(h) a port in a housing for said laser system, wherein said light source is able to be in direct optical communication with said detector for calibration purposes. - View Dependent Claims (10, 11, 12, 13, 14)
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15. An optical thermometry system, comprising:
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(a) an optical fiber having a first end for receiving light and a second end for transmitting light;
(b) a slug of fluorescent material positioned adjacent said optical fiber second end;
(c) a light source for providing an optical stimulus through said optical fiber to said fluorescent slug in order to generate a desired optical fluorescent response therefrom;
(d) a detector for detecting said optical fluorescent response; and
(e) a device for receiving a first signal representative of said optical stimulus and a second signal representative of said optical fluorescent response; and
,(f) a processor to determine a phase difference between said first and second signals; and
(g) a port in a housing for said system, wherein said light source is able to be in direct optical communication with said detector for calibration purposes. - View Dependent Claims (16, 17, 18)
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Specification
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Current AssigneeEthicon Endo-Surgery, Inc. (Johnson & Johnson)
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Original AssigneeEthicon Endo-Surgery, Inc. (Johnson & Johnson)
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InventorsYates, David C., Trusty, Robert M., Nield, Scott Allen, Pollack, William A.
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Primary Examiner(s)Gutierrez, Diego
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Assistant Examiner(s)Jagan, Mirellys
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Application NumberUS09/906,535Publication NumberTime in Patent Office1,170 DaysField of Search374/161, 374/141, 374/142, 606/12US Class Current374/161CPC Class CodesG01K 11/3213 using changes in luminescen...H01S 3/005 Optical devices external to...
