Method and apparatus for near infrared reflectance measurement of non-homogeneous materials

US 4,801,804 A
Filed: 09/30/1986
Issued: 01/31/1989
Est. Priority Date: 09/30/1986
Status: Expired due to Term

First Claim

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1. A method for near infrared reflectance measurement of a constituent of a sample material utilizing a near infrared interactance quantitative analysis device, comprising:

(a) providing sample material having a constituent to be measured within a near infrared-opaque cahbmer with the sample material having a substantially planar surface;

(b) uniformly irradiating a pedetermined surface area of the planar surface of the sample material with substantially uniform, highly diffuse, multiple-wavelength near infrared radiation for uqantitative measurement of a sample constituent, which radiation is emitted from a multiple- wavelength near infrared radiation source spaced a predetermined distance away from the planar surface for uniformly irradiating said predetermined surface area;

(c) detecting near infrared radiation reflected by substantially all of said predetermined surface area with a near infrared radiation detector spaced a predetermined distance away from the planar surface of the sample material to detect near infrared radiation reflected by substantially all of said predetermined surface area, the predetermined surface area being sized to reflect near infrared radiaion from said source to said detector which is indicative of an average content of said consituent of said sample material, said detector providing an electrical signal upon detection of near infrared radiation, said detector being positioned so as to prevent near infrared radiation emitted from said source from directly impinging on said detector; and

(d) processing an electrical signal provided by said detector to quantitatively measure an average content of said constituent for said sample material.

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Abstract

A method and apparatus for near infrared reflectance measurement of non-homogeneous materials. Constituents of a material are quantitatively analyzed by reflectance techniques utilizing a planar surface of the material within a cup-shaped sample holder opaque to near-infrared radiation. A predetermined area of the planar surface is uniformly irradiated with near infrared radiation emitted from a source spaced a predetermined distance away from the planar surface. Near infrared radiation reflected by substantially all of the predetermined surface area is detected with a near infrared radiation detector spaced a predetermined distance away from the planar surface, to provide a signal which is processed to measure an average content of a constituent in the sample material. The source and detector are contained in a probe which is calibrated by inserting the probe into a cavity. The probe is spaced from the bottom of the cavity such that the cavity reflectance is about equal to that of the material for which the probe is being calibrated.

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10 Claims

1. A method for near infrared reflectance measurement of a constituent of a sample material utilizing a near infrared interactance quantitative analysis device, comprising:
- (a) providing sample material having a constituent to be measured within a near infrared-opaque cahbmer with the sample material having a substantially planar surface;
  
  (b) uniformly irradiating a pedetermined surface area of the planar surface of the sample material with substantially uniform, highly diffuse, multiple-wavelength near infrared radiation for uqantitative measurement of a sample constituent, which radiation is emitted from a multiple- wavelength near infrared radiation source spaced a predetermined distance away from the planar surface for uniformly irradiating said predetermined surface area;
  
  (c) detecting near infrared radiation reflected by substantially all of said predetermined surface area with a near infrared radiation detector spaced a predetermined distance away from the planar surface of the sample material to detect near infrared radiation reflected by substantially all of said predetermined surface area, the predetermined surface area being sized to reflect near infrared radiaion from said source to said detector which is indicative of an average content of said consituent of said sample material, said detector providing an electrical signal upon detection of near infrared radiation, said detector being positioned so as to prevent near infrared radiation emitted from said source from directly impinging on said detector; and
  
  (d) processing an electrical signal provided by said detector to quantitatively measure an average content of said constituent for said sample material.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1 wherei nsaid soure nad said detector are parts of a probe, said method further comprising placing said probe in a complementary access opening in said chamber to position said source and said detector at said predetermined distance away form said planar surface of said smaple material for measuring said constituent of said sample material while preventing ambient light from reaching the sample during measurement.
  - 3. The method of claim 2 further comprising calibrating said probe by inserting said probe into a calibration chamber having a cavity with a bottom portion having a predetermined geometrical shape spaced away from said source and said detector so as to reflect sufficient near infrared radiation emitted from said source to said detector for calibrating said probe.

4. An apparatus fro measuring a constituent of a sample material, comprising:
- (a) a sample holder having a chamber for containing a sample material having a cosntituent to be measured, the sample holder being formed of near infrared-opaque material;
  
  (b) means for forming a substantially planar surface of the sample material within the chamber;
  
  (c) a source of highly diffuse, multiple-wavelength near infrared radiation for quantitative measurement of a sample constituent, said source being spaced a predetermined distance away from the planar surface of the sample material so as to irradiate a predetermined surface area of the planar surface with substantially uniform, highly diffuse, multiple-wavelength near infrared radiation;
  
  (d) a near infrared radiation detector spaced a predetermined distance away from the planar surface of the sample material in position to detect near infrared radiation reflected by substantially all of said predetermined surface area, said predetermined surface area being sized to reflect near infrared radiation from said source to said detector which is indicative of an average content of said constituent of said sample material, said detector providing an electrical signal upon detction of near infrared radiation;
  
  (e) means for preventing near infrared radiation emitted from said source from directly impinging on said detector;
  
  (f) means for processing an electrical signal provided by said detector to quantitiatively measure an average content of said constituent for said sample material.
- View Dependent Claims (5, 6, 7, 8)
- - 5. The apparatus of claim 4 wherein said source and said detector are parts of a probe comprising means for providing at least one point source of near infrared radiation;
    - and a tube having a wall portion, the wall portion comprising a material which is capable of transmitting near infrared radiation;
      
      the material having a composition which does not substantially or inconsistently absorb near infrared radiation, the tube having first and second ends, the point source means being positioned at the first end of said tube for transmitting near infrared radiation through the wall portion of said tube, the tube being of a sufficient length that near infrared radiation from the point source means positioned at the first end of the tube will emerge substantially uniform at the second end of the tube;
      
      the second end of the tube emitting said highly diffuse near infrared radiation for irradiating said predetermined surface area;
      
      the second end of the tube peripherally defining a generally central area within which said near infrared radiation detector is positioned for detecting near infrared radiation entering the generally central area peripherally defined by the second end of the tube;
      
      said probe including said means for preventing near infrared radiation emitted from said source from directly impinging on said detector;
      
      said probe further comprising means for shielding the outside of the tube from ambient light;
      
      said probe mating with a complementary access opening in said chamber, for measuring said constituent of said sample material while preventing ambient light from reaching the sample during measurement.
  - 6. The apparatus of claim 4 wherein the planar surface forming means comprises a near infrared-transparent window against which the planar surface is formed.
  - 7. The apparatus of claim 6 further including means for compressing the sample against the window at substantially consistent packing density.
  - 8. The apparatus of claim 7 wherein said sample holder incudes a removable bottom for admitting and withdrawing said sample material from said chamber, said bottom including said means for compressing the sample.

9. An apparatus for calibrating a probe for near infrared quantitative analysis, the calibrating apparatus comprising;
- a near infrared-opaque body, means defining a cavity in the body having a bottom portion with a predetermined geometrical shape, and means for positioning a light probe having a near infrared source and detector within the cavity of the body with the bottom portion of the cavity spaced away from said source and said detector a distance that provides the bottom portion of the cavity with a reflectane value that is about equal to the reflectance value of a material for which the probe is being calibrated, so as to reflect sufficient near infrared radiation emitted from said source to said detector for calibrating the probe.

10. A method for calibrating a prbe for near infrared quantitative analysis of a material, comprising:
- (a) providing a near infrared-opaque body having a cavity therein with a bottom portion having a predetermined geometerical shape;
  
  (b) positioning a light probe, having a near infrared source and detector, within the cavity of the body with the bottom portion of the cavity spaced away from said source and said detector a distance that provides the bottom portion of the cavity with a reflectance value that is about equal to the reflectance value of a material for which the probe is being calibrated, so as to reflect sufficient near infrared radiation emitted from such source to said detector for calibrating the probe; and
  
  (c) calibrating the probe while positioned as in step (b).

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Current Assignee
Futrex, Inc.
Original Assignee
Trebor Industries Incorporated (Brownie's Marine Group Incorporated)
Inventors
Rosenthal, Robert D.
Primary Examiner(s)
FIELDS, CAROLYN

Application Number

US06/913,468
Time in Patent Office

854 Days
Field of Search

250/241, 250/358.1, 250/339, 250/252.1, 356/446, 356/243
US Class Current

250/341.2
CPC Class Codes

D01G 31/003   Detection and removal of im...

G01N 21/3563   for analysing solids; Prepa...

G01N 21/359   using near infrared light

G01N 21/474   Details of optical heads th...

Y10S 250/91   Food sample analysis using ...

Method and apparatus for near infrared reflectance measurement of non-homogeneous materials

First Claim

3 Assignments

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Abstract

57 Citations

10 Claims

Specification

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Method and apparatus for near infrared reflectance measurement of non-homogeneous materials

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

57 Citations

10 Claims

Specification

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Solutions

Use Cases

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