Spectrometric apparatus and method for measuring optical characteristics of an object
First Claim
1. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
- providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the light is provided to a material or object by a probe and light returned from the material or object is provided to the diffraction grating, wherein the method further comprises the step of providing light received from the material or object to second optical sensors, wherein the second optical sensors provide data indicative of a height or angle of the probe with respect to the material or object, provide data indicative of an optical value measurement of the material or object, or provide data indicative of translucence, gloss, opalescence, texture or other optical characteristics of the material or object.
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Accused Products
Abstract
Optical characteristic measuring systems and methods such as for determining the color or other optical characteristics of teeth are disclosed. Perimeter receiver fiber optics preferably are spaced apart from a source fiber optic and receive light from the surface of the object/tooth being measured. Light from the perimeter fiber optics pass to a variety of filters. The system utilizes the perimeter receiver fiber optics to determine information regarding the height and angle of the probe with respect to the object/tooth being measured. Under processor control, the optical characteristics measurement may be made at a predetermined height and angle. Various color spectral photometer arrangements are disclosed. Translucency, fluorescence, gloss and/or surface texture data also may be obtained. Audio feedback may be provided to guide operator use of the system. The probe may have a removable or shielded tip for contamination prevention. A method of producing dental prostheses based on measured data also is disclosed. Measured data also may be stored and/or organized as part of a patient database. Such methods and implements may be desirably utilized for purposes of detecting and preventing counterfeiting or the like. Preferably, a two stage spectral separation is utilized, preferably utilizing a diffraction grating and interference filters.
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Citations
91 Claims
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1. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the light is provided to a material or object by a probe and light returned from the material or object is provided to the diffraction grating, wherein the method further comprises the step of providing light received from the material or object to second optical sensors, wherein the second optical sensors provide data indicative of a height or angle of the probe with respect to the material or object, provide data indicative of an optical value measurement of the material or object, or provide data indicative of translucence, gloss, opalescence, texture or other optical characteristics of the material or object. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the optical sensors comprise light to frequency converters. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31)
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32. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the filter elements comprise a linear variable filter. - View Dependent Claims (33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46)
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47. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the filter elements comprise a color gradient filter. - View Dependent Claims (48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61)
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62. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the filter elements comprise interference filters deposited on an optical manifold, wherein the diffraction grating is part of the optical manifold, wherein light exits the optical manifold through the interference filters and is detected by the optical sensors. - View Dependent Claims (63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76)
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77. A method for making spectral measurements with a reduced optical path length, diffraction grating-based, spectrometer device, comprising the steps of:
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providing light to a diffraction grating, wherein the diffraction grating requires a first optical path length from the diffraction grating for a first predetermined spectral resolution of spectral measurement;
providing a plurality of filter elements and a plurality of optical sensors, wherein the plurality of filter elements are positioned in an optical path between the diffraction grating and the plurality of optical sensors;
receiving diffracted light from the diffraction grating with the plurality of optical sensors, wherein the light is incident upon and selectively transmitted through a plurality of the filter elements prior to being received by the plurality of optical sensors;
wherein spectral characteristics of the light provided to the diffraction grating are measured;
wherein the filter elements/optical sensors are positioned to define a second optical path length from the diffraction grating, wherein the second optical path length is less than the first optical path length, wherein the spectral characteristics of the light provided to the diffraction grating are measured in accordance with the first predetermined spectral resolution with a reduced optical path length;
wherein the light is collimated prior to being provided to the diffraction grating. - View Dependent Claims (78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91)
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Specification