High-density solid-state lighting array for machine vision applications

US 5,936,353 A
Filed: 04/03/1996
Issued: 08/10/1999
Est. Priority Date: 04/03/1996
Status: Expired due to Term

First Claim

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1. A machine vision apparatus comprising:

a lighting array for selectively illuminating a viewing area comprising,a plurality of individual light emitting elements formed of a semiconductor compound which directly converts a percentage of electrons which are conducted through their volume into emitted photons in one of UV, visible, and/or IR portions of an electromagnetic spectrum, the light emitting elements being placed within a one- or two-dimensional pattern wherein element spacing is less than or equal to 0.05",an electrically insulative, thermally conductive support substrate having a thermal conductivity greater than 1 W/m•

^o K upon which the light emitting elements are directly attached in formation of the pattern, said support substrate specifically selected for its ability to facilitate conduction of locally generated thermal energy away from the light emitting elements while at the same time providing a sufficient degree of electrical isolation required to support parallel and series circuit construction associated with the individual light-emitting elements, and,a heat dissipater disposed in direct thermal contact with the thermally conductive support substrate reducing the temperature of the light-emitting elements within the array;

a camera for acquiring images of specimens disposed in the illuminated viewing area;

a lighting control unit in communication with the lighting array; and

,a computer in communication with the camera to receive the acquired images and in communication with the lighting control unit.

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Abstract

A solid-state lighting unit for automated visual inspection includes a high-density array of light emitting diodes. The packing density of said diode array being limited only by the physical size of the light emitting diode chips and the ability to perform die and wire bond operations on the bare chips. Each diode is disposed on an electrically insulated, thermally conductive base unit. The base unit is, in turn, in a thermally conductive path with a heat dissipator. The provisions made to ensure a thermally conductive path from the individual light emitting diode chips to the heat dissipator combined with the high chip packing densities work together to create a solid-state lighting array capable of producing extremely high illumination fields when operated in either pulsed or continuous current mode.

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37 Claims

1. A machine vision apparatus comprising:
- a lighting array for selectively illuminating a viewing area comprising,a plurality of individual light emitting elements formed of a semiconductor compound which directly converts a percentage of electrons which are conducted through their volume into emitted photons in one of UV, visible, and/or IR portions of an electromagnetic spectrum, the light emitting elements being placed within a one- or two-dimensional pattern wherein element spacing is less than or equal to 0.05",an electrically insulative, thermally conductive support substrate having a thermal conductivity greater than 1 W/m•
  
  ^o K upon which the light emitting elements are directly attached in formation of the pattern, said support substrate specifically selected for its ability to facilitate conduction of locally generated thermal energy away from the light emitting elements while at the same time providing a sufficient degree of electrical isolation required to support parallel and series circuit construction associated with the individual light-emitting elements, and,a heat dissipater disposed in direct thermal contact with the thermally conductive support substrate reducing the temperature of the light-emitting elements within the array;
  
  a camera for acquiring images of specimens disposed in the illuminated viewing area;
  
  a lighting control unit in communication with the lighting array; and
  
  ,a computer in communication with the camera to receive the acquired images and in communication with the lighting control unit.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The apparatus of claim 1 wherein the electrically insulative, thermally conductive substrate is comprised of at least one of beryllium oxide (BeO), alumina (Al₂ O₃), insulated metal substrate and graphite substrate.
  - 3. The apparatus of claim 1 wherein the semiconductor compound is comprised of one or more of the following chemical compounds:
    - AlGaAs, AllnGaP, GaP, GaAs, and GaN.
  - 4. The apparatus of claim 1 wherein the heat dissipator is comprised of at least one of a Carnot-cycle cooler, a Stirling-cycle cooler, thermo-electric cooler, and a refrigerated water chiller.
  - 5. The apparatus of claim 1 wherein the heat dissipator is an active heat reservoir freely exchanging thermal energy with ambient environment of the lighting array.
  - 6. The apparatus of claim 5 wherein the heat reservoir is a finned heat sink.
  - 7. The apparatus of claim 6 wherein forced air is used to facilitate thermal transfer of energy from the finned heat sink to the ambient environment.
  - 8. The apparatus of claim 5 wherein the heat reservoir is a cavity-filled structure capable of supporting fluid flow which, in turn, facilitates thermal transfer of energy from the heat reservoir to the ambient environment.

9. An apparatus comprising:
- a lighting array for selectively illuminating a viewing area comprising,a plurality of individual light emitting elements formed of a semiconductor compound which directly converts a percentage of electrons which are conducted through their volume into emitted photons in one of UV, visible, and IR portions of an electromagnetic spectrum, the light emitting elements being placed within a one- or two-dimensional pattern wherein element spacing is less than or equal to 0.05",an electrically insulative, thermally conductive support substrate upon which the light emitting elements are attached in formation of the pattern, said support substrate specifically selected for its ability to facilitate conduction of locally generated thermal energy away from the light emitting elements while at the same time providing a sufficient degree of electrical isolation required to support parallel and series circuit construction associated with the individual light-emitting elements, and,a heat dissipater disposed in direct thermal contact with the thermally conductive support substrate reducing the temperature of the light-emitting elements within the array;
  
  a camera for acquiring images of specimens disposed in the illuminated viewing area;
  
  a lighting control unit in communication with the lighting array; and
  
  ,a computer in communication with the camera to receive the acquired images and in communication with the lighting control unit.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36)
- - 10. The apparatus of claim 9 wherein optical radiation fields emitted by the plurality of individual light emitting elements are used, in either transmission and/or reflection, within systems performing on-line process control and/or machine vision inspection applications.
  - 11. The apparatus of claim 10 wherein at least one of intensity, illumination geometry, spectral content, angular distribution and relative uniformity associated with the emitted optical radiation fields are controlled in order to optimize the resultant illumination for a selected machine vision inspection or process control application.
  - 12. The apparatus of claim 11 further comprising a macro lens to direct light generated by the plurality of individual light emitting elements as a whole to a preselected area.
  - 13. The apparatus of claim 12 wherein the macro lens utilizes at least one of refraction, reflection, and diffraction to induce desired lensing action.
  - 14. The apparatus of claim 12 further comprising a diffuser element to direct light emitted by the plurality of individual light emitting elements to a preselected area.
  - 15. The apparatus of claim 14 wherein the diffuser element is a Lambertian-type diffuser.
  - 16. The apparatus of claim 14 if wherein the diffuser element is a diffractive-type diffuser generating either circular or elliptical illumination patterns.
  - 17. The apparatus of claim 11 further comprising a plurality of lenses arranged as a lenslet array to direct light generated by the plurality of individual light emitting elements to a preselected area.
  - 18. The apparatus of claim 17 wherein individual elements of the lenslet array utilize at least one of refraction, reflection, and diffraction to induce the desired lensing action.
  - 19. The apparatus of claim 17 further comprising a diffuser element to direct light emitted by the plurality of individual light emitting elements to a preselected area.
  - 20. The apparatus of claim 19 wherein the diffuser element is a Lambertian-type diffuser.
  - 21. The apparatus of claim 19 wherein the diffuser element is a diffractive-type diffuser generating either circular or elliptical illumination patterns.
  - 22. The apparatus of claim 11 further comprising a diffuser element to direct light emitted by the plurality of individual light emitting elements to a preselected area.
  - 23. The apparatus of claim 22 wherein the diffuser element is a Lambertian-type diffuser.
  - 24. The apparatus of claim 22 wherein the diffuser element is a diffractive-type diffuser generating either circular or elliptical illumination patterns.
  - 25. The apparatus of claim 11 wherein at least one of pulse duration and period and drive current associated with the array are electronically configurable to optimize the emitted optical radiation fields for a selected application.
  - 26. The apparatus of claim 25 wherein the plurality of individual light emitting elements are operated in a pulsed-current mode.
  - 27. The apparatus of claim 26 wherein the pulse duration and period are electronically configurable parameters.
  - 28. The apparatus of claim 26 wherein the drive current to the lighting elements is an electronically configurable parameter.
  - 29. The apparatus of claim 26 further comprising varying geometric areas within the array which are independently addressable as a function of the drive current and the pulse duration.
  - 30. The apparatus of claim 29 wherein each of the plurality of light emitting elements emit optical radiation of essentially the same limited wavelength range so that an electronic control unit provides the array with a configurable intensity and geometry capability to optimize the emitted radiation fields for a selected application area.
  - 31. The apparatus of claim 29 wherein elements of the plurality of individual light emitting elements of two or more emission wavelengths are contained within the array so that an electronic control unit provides the array with a configurable intensity, geometry, and spectral content capability to optimize the emitted radiation fields for a selected application area.
  - 32. The apparatus of claim 25 wherein the plurality of individual light emitting elements are operated in a continuous-current mode.
  - 33. The apparatus of claim 32 wherein the drive current to the plurality of individual light emitting elements is an electronically configurable parameter.
  - 34. The apparatus of claim 32 further comprising varying geometrical areas within the array which are independently addressable as a function of the drive current.
  - 35. The apparatus of claim 34, wherein each of the individual light emitting elements emit optical radiation of essentially the same limited wavelength range so that an electronic control unit provides the array with a configurable intensity and geometry capability to optimize the emitted radiation fields for a selected application area.
  - 36. The apparatus of claim 34 wherein elements of the plurality of light emitting elements of two or more emission wavelengths are contained within the array so that an electronic control unit provides the array with a configurable intensity, geometry, and spectral content capability to optimize the emitted radiation fields for a selected application area.

37. A method of performing machine vision and/or process control operations, the method comprising steps of:
- providing a camera to be positioned to view specimens in a viewing area;
  
  providing a plurality of individual light emitting elements formed of a semiconductor compound which directly converts a percentage of electrons which are conducted through their volume into emitted photons in one of UV, visible, and IR portions of an electromagnetic spectrum;
  
  arranging the plurality of light emitting elements in a pattern wherein element spacing is less than or equal to 0.05" on an electronically insulative, thermally conductive support substrate;
  
  implementing the arranged array as a light source;
  
  illuminating the viewing area with the arranged array;
  
  conducting locally generated thermal energy away from the light emitting elements by the support substrate to a heat dissipater disposed in direct thermal contact with the thermally conductive support substrate for reducing the temperature of the light-emitting elements within the array;
  
  acquiring images of the specimens in the viewing area by the camera; and
  
  transmitting the acquired images to a computer.

Specification

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Litigation Campaign Assessment

Current Assignee
Pressco Technology Inc.
Original Assignee
Pressco Technology Inc.
Inventors
Cech, Steven D., Triner, James E.
Primary Examiner(s)
Wong, Don
Assistant Examiner(s)
VU, DAVID HUNG

Application Number

US08/627,211
Time in Patent Office

1,224 Days
Field of Search

315/112, 257/88, 257/99, 257/717, 250/559.04, 250/559.16, 250/559.17
US Class Current

315/112
CPC Class Codes

F21V 29/74   with fins or blades

F21V 29/763   the planes containing the f...

F21V 5/04   of lens shape

F21Y 2115/10   Light-emitting diodes [LED]

G01N 21/8806   Specially adapted optical a...

H01L 2224/48091   Arched

H01L 25/0753   the devices being arranged ...

H01L 2924/00014   the subject-matter covered ...

H01L 33/645   the elements being electric...

H01L 33/648   the elements comprising flu...

High-density solid-state lighting array for machine vision applications

First Claim

3 Assignments

0 Petitions

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Abstract

104 Citations

37 Claims

Specification

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High-density solid-state lighting array for machine vision applications

First Claim

3 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

104 Citations

37 Claims

Specification

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Solutions

Use Cases

Quick Links