Luminescent decay time measurements by use of a CCD camera
First Claim
1. A method of measuring a condition of an object or environment, comprising the steps of:
- positioning in communication with said object or environment a quantity of luminescent material that is characterized by emitting, in response to a pulse of excitation radiation, luminescent radiation having a rate of decay that is related to a level of said condition,directing repetitive pulses of excitation radiation against the luminescent material, thereby to cause a resulting luminescent radiation to follow a repetitive cycle of building up during the excitation pulses and thence decaying between pulses at a rate related to the level of said condition,positioning in the path of said luminescent radiation at least one radiation detector characterized by generating an electrical charge that is related to a level of said radiation and accumulates the charge for gated periods of time,gating said at least one detector in synchronism with the excitation radiation pulses and in a manner to obtain values corresponding to the charge accumulated during two different intervals relative to the luminescent material emission cycle,comparing the accumulated charge values during said two different intervals, andconverting the charge value comparison to a magnitude of said condition.
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Abstract
A video camera of a type using an array of charge coupled devices (CCDs) is utilized to measure a condition, such as temperature, by imaging onto the camera a luminescent signal which contains information of the signal'"'"'s decay time. The luminescent decay time is measured by comparing, such as by ratioing, the integrated signal values obtained in successive frames of operation of the CCD. One application includes use to measure a two-dimensional temperature distribution across a surface. The surface of interest is either coated with a layer of the luminescent material or emissions from the surface are imaged onto a separate luminescent screen. Another application is as a multiplexer and detector system for a large array of optical fiber sensors, a luminescent signal from each of the sensors being imaged through its respective fiber onto a unique one or more of CCD photosites.
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Citations
22 Claims
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1. A method of measuring a condition of an object or environment, comprising the steps of:
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positioning in communication with said object or environment a quantity of luminescent material that is characterized by emitting, in response to a pulse of excitation radiation, luminescent radiation having a rate of decay that is related to a level of said condition, directing repetitive pulses of excitation radiation against the luminescent material, thereby to cause a resulting luminescent radiation to follow a repetitive cycle of building up during the excitation pulses and thence decaying between pulses at a rate related to the level of said condition, positioning in the path of said luminescent radiation at least one radiation detector characterized by generating an electrical charge that is related to a level of said radiation and accumulates the charge for gated periods of time, gating said at least one detector in synchronism with the excitation radiation pulses and in a manner to obtain values corresponding to the charge accumulated during two different intervals relative to the luminescent material emission cycle, comparing the accumulated charge values during said two different intervals, and converting the charge value comparison to a magnitude of said condition. - View Dependent Claims (2, 3, 4, 5, 6)
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7. The method of measuring a condition of a plurality of areas of a luminescent material that is characterized by emitting, in response to a pulse of excitation radiation, luminescent radiation having a rate of decay that is related to a level of said condition, comprising the steps of:
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directing repetitive pulses of excitation radiation against the luminescent material, thereby to cause the luminescent radiation to follow a repetitive cycle of building up during the excitation pulses and thence decaying between pulses at a rate related to said condition, positioning in a path of said luminescent radiation an array of charge coupled device elements, imaging said luminescent radiation onto said element array with said luminescent material areas matched to individual elements of said charge coupled device array, gating said charge coupled device array elements in synchronism with each other and with the excitation radiation pulses to operate during two different intervals relative to the luminescent material emission cycle, comparing an output during said two different intervals for the individual charge coupled device array elements, and converting the compared outputs to said condition, whereby the condition comparisons from each of the charge coupled device array elements corresponds to an area of the luminescent material. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of obtaining a visual image of a temperature profile across an area of a surface, comprising:
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coating said surface with a layer of luminescent material that is characterized by emitting, in response to a pulse of excitation radiation, luminescent radiation having a temperature related rate of decay, directing repetitive pulses of excitation radiation against the luminescent material layer, thereby to cause the luminescent material radiation emission to follow a repetitive cycle of building up during the excitation pulses and thence decaying between pulses an amount related to temperature, imaging said luminescent emission onto a two dimensional array of charge coupled device elements characterized by generating individual element signals representative of an accumulation of luminescent emission radiation intensity falling thereon over a period of time, thereby to detect said luminescent material emission from adjacent points of said surface area, gating said charge coupled device elements relative to timing of the excitation radiation pulses and during two different intervals of the luminescent radiation emission cycle, thereby to generate two individual charge coupled device element signals for a luminescent radiation cycle, comparing said two signals individually from the charge coupled device elements, converting the individual charge coupled device element signal comparison into temperature, and generating from the individual element temperature conversion a visual image corresponding to temperature across said surface area.
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18. An imaging device, comprising:
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a video camera including a two-dimensional array of charge coupled device elements that are individually characterized by generating, after repetitively occurring frames, a signal that is related to an integrated value of electromagnetic radiation striking the element during the preceding frame, means including a timing circuit for controlling the timing of said camera frames, a source of excitation radiation for a luminescent material, means synchronized with said camera frame controlling means for causing said radiation source to emit a sequence of pulses with time durations therebetween, and means receiving the individual element signal outputs for comparing successively occurring pairs of such signals therefrom.
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19. An infra-red camera, comprising:
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a video camera including a two-dimensional array of charge coupled device elements that are individually characterized by generating, after repetitively occurring frames, a signal that is related to an integrated value of electromagnetic radiation striking the element during the preceding frame, means including a timing circuit for controlling the timing of said camera frames, a screen having an infra-red absorbing layer on one side thereof and luminescent material on another side thereof, said luminescent material being characterized by emitting, in response to a pulse of excitation radiation, electromagnetic radiation having a rate of decay that is related to the temperature of the luminescent material, means for imaging an object onto said screen'"'"'s infra-red absorbing layer, thereby to heat the screen in accordance with an infra-red emission image of the object, a source of excitation radiation directed at said screen'"'"'s luminescent material layer, thereby causing an electromagnetic radiation emission therefrom with decay times that vary across the screen in accordance with the screen'"'"'s temperature, means for imaging said luminescent material layer emission onto the charge coupled device element array, means synchronized with said camera frame controlling means for causing said radiation source to emit a sequence of pulses with time durations therebetween, and means receiving the individual element signal outputs for comparing successively occurring pairs of such signals therefrom.
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20. A multi-channel condition measuring system, comprising:
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a plurality of optical fibers having individual sensors at one end thereof, the individual sensors including a quantity of luminescent material that is characterized by emitting, in response to a pulse of excitation radiation, luminescent radiation having a rate of decay that is related to said condition, an array of charge coupled device elements that are individually characterized by generating, after repetitively occurring frames, a signal that is related to an integrated value of electromagnetic radiation striking the element during the preceding frame, a source of excitation radiation for said luminescent material, optical means positioned at ends of said optical fibers opposite said sensors for coupling said excitation radiation thereinto and directing the luminescence from their individual sensors onto individual ones of said charge coupled device elements, means including a timing circuit for controlling the timing of said camera frames, means synchronized with said camera frame controlling means for causing said radiation source to emit a sequence of pulses with time durations therebetween, thereby to cause the luminescent material radiation emission to follow a repetitive cycle of building up during the excitation pulses and thence decaying between pulses in an amount related to a level of said condition, and means receiving the individual element signal outputs for comparing successively occurring pairs of such signals therefrom. - View Dependent Claims (21, 22)
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Specification