Configurable light emitting diode lighting unit

US 8,459,833 B2
Filed: 01/06/2012
Issued: 06/11/2013
Est. Priority Date: 05/13/2011
Status: Active Grant

First Claim

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1. A solid-state lighting unit comprising:

a solid-state array housing defining an internal compartment and having at least one transparent lens for sealing the internal compartment;

at least a first solid-state lighting circuit card assembly disposed within the solid-state array housing, the first circuit card assembly comprising a common circuit card and a respective plurality solid-state lighting elements, each solid-state light element comprising a light emitting diode (LED) and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the first solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a first illumination beam width;

at least a second solid-state lighting circuit card assembly disposed within the solid-state array housing, the second circuit card assembly comprising a common circuit card and a respective plurality solid-state lighting elements, each solid-state light element comprising an LED and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the second solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a second illumination beam width,wherein the optical characteristic of each optical lens that produces the first illumination beam width of the first solid-state lighting circuit card assembly are different than the optical characteristic of each optical lens that produces a second illumination beam width of the second solid-state lighting circuit card assembly;

a controller in electrical communication with each circuit card assembly of the plurality of solid-state lighting circuit card assemblies, the controller configured to independently control each circuit card assembly of the plurality of solid-state lighting circuit card assemblies, wherein at least two circuit card assemblies are in operation at the same time to produce a single solid-state lighting unit having multiple beam widths; and

wherein a portion of each circuit card assembly meets at a central point.

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Abstract

A light emitting diode (LED) lighting unit including power supply housing accommodating a power supply and an LED array housing defining an internal compartment and a lens sealing the internal compartment. A different respective LED array is mounted on at least one of a number of common printed circuit boards accommodated within the internal compartment. The different LED arrays provide different illumination, controlling one or more illumination features such as beamwidth, color and color temperature. Physical isolation is also provided between the LED array housing and the power supply housing to allow for controlled or otherwise restricted access to one or more of the different housings. In at least some embodiments, one or more of the LED array housing and power supply housing are configured with a centrally located chimney, drawing in cooling air from a space provided between the to housings to facilitate cooling of the lighting unit.

25 Citations

16 Claims

1. A solid-state lighting unit comprising:
- a solid-state array housing defining an internal compartment and having at least one transparent lens for sealing the internal compartment;
  
  at least a first solid-state lighting circuit card assembly disposed within the solid-state array housing, the first circuit card assembly comprising a common circuit card and a respective plurality solid-state lighting elements, each solid-state light element comprising a light emitting diode (LED) and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the first solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a first illumination beam width;
  
  at least a second solid-state lighting circuit card assembly disposed within the solid-state array housing, the second circuit card assembly comprising a common circuit card and a respective plurality solid-state lighting elements, each solid-state light element comprising an LED and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the second solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a second illumination beam width,wherein the optical characteristic of each optical lens that produces the first illumination beam width of the first solid-state lighting circuit card assembly are different than the optical characteristic of each optical lens that produces a second illumination beam width of the second solid-state lighting circuit card assembly;
  
  a controller in electrical communication with each circuit card assembly of the plurality of solid-state lighting circuit card assemblies, the controller configured to independently control each circuit card assembly of the plurality of solid-state lighting circuit card assemblies, wherein at least two circuit card assemblies are in operation at the same time to produce a single solid-state lighting unit having multiple beam widths; and
  
  wherein a portion of each circuit card assembly meets at a central point.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The solid-state lighting unit of claim 1, wherein a respective plurality of solid-state lighting elements of at least one circuit card assembly of the plurality of solid-state lighting circuit card assemblies comprise a first illumination color and a respective plurality of solid-state lighting elements of at least another circuit card assembly of the plurality of solid-state lighting circuit card assemblies comprise a second illumination color, different from the first illumination color.
  - 3. The solid-state lighting unit of claim 1, wherein a respective plurality of solid-state lighting elements of at least one circuit card assembly of the plurality of solid-state lighting circuit card assemblies comprise a first illumination color temperature and a respective plurality of solid-state lighting elements of at least another circuit card assembly of the plurality of solid-state lighting circuit card assemblies comprise a second illumination color temperature, different from the first illumination color temperature.
  - 4. The solid-state lighting unit of claim 1, wherein the plurality of solid-state lighting circuit card assemblies are arranged equidistant from the least one transparent lens.
  - 5. The solid-state lighting unit of claim 4, wherein the plurality of solid-state lighting circuit card assemblies are coplanar.
  - 6. The solid-state lighting unit of claim 1, wherein the plurality of solid-state lighting circuit card assemblies are shaped to substantially preserve a hexagonal close-pack arrangement of solid-state lighting elements of each respective solid-state lighting circuit card assembly across the plurality of solid-state lighting circuit card assemblies.
  - 7. The solid-state lighting unit of claim 1, further comprising optics for controlling illumination of each solid-state lighting element of the plurality of solid-state lighting elements of each circuit card assembly of the plurality of solid-state lighting circuit card assemblies.
  - 8. The solid-state lighting unit of claim 7, wherein the optics of at least one circuit card assembly of the plurality of solid-state lighting circuit card assemblies differ from optics of at least another circuit card assembly of the plurality of solid-state lighting circuit card assemblies.

9. A method for assembling a solid-state lighting unit, comprising:
- providing a solid-state array housing defining an internal compartment and having at least one transparent lens for sealing the internal compartment, the solid-state array housing including multiple parallel extending heat dissipation elements, wherein an arrangement of the heat dissipation elements channels air radially inward toward a central axis of the solid-state lighting unit;
  
  providing a plurality of common solid-state lighting circuit cards;
  
  populating at least one circuit card of the plurality of common solid-state lighting circuit cards with a first plurality of solid-state lighting elements, each solid-state lighting element comprising a light emitting diode (LED) and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the first solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a first illumination beam width;
  
  populating at least another circuit card of the plurality of common solid-state lighting circuit cards with a second plurality of different solid-state lighting elements, each solid-state light element comprising an LED and a respective optical lens having a respective optical characteristic, wherein each respective optical lens of the second solid-state lighting circuit card assembly has substantially the same optical characteristics and combine to produce a second illumination beam width;
  
  disposing within the solid-state array housing, the populated circuit cards, wherein a portion of each circuit card assembly meets at a central point;
  
  providing a controller in electrical communication with each populated solid-state lighting circuit card of the plurality of solid-state lighting circuit cards, the controller configured to independently control each populated solid-state lighting circuit card of the plurality of solid-state lighting circuit cards;
  
  wherein the optical characteristic of each optical lens that produces the first illumination beam width of the first solid-state lighting circuit card assembly are different than the optical characteristic of each optical lens that produces a second illumination beam width of the second solid-state lighting circuit card assembly; and
  
  illuminating, at the same time, a surface with the first illumination beam width emanating from the first solid-state lighting circuit card assembly and the second illumination beam width emanating from the second solid-state lighting circuit card assembly.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. The method of claim 9, wherein the first plurality of solid-state lighting elements comprise a first illumination color and the second plurality of solid-state lighting elements comprise a second illumination color, different from the first illumination color.
  - 11. The method of claim 9, wherein the first plurality of solid-state lighting elements comprise a first illumination color temperature and the second plurality of solid-state lighting elements comprise a second illumination color temperature, different from the first illumination color temperature.
  - 12. The method of claim 9, wherein the plurality of populated solid-state lighting circuit cards are arranged equidistant from the least one transparent lens.
  - 13. The method of claim 12, wherein the plurality of populated solid-state lighting circuit cards are coplanar.
  - 14. The method of claim 9, wherein disposing within the solid-state array housing, the populated circuit cards preserves a hexagonal close-pack arrangement of solid-state lighting elements of each respective populated solid-state lighting circuit card across the plurality of populated solid-state lighting circuit cards.
  - 15. The method of claim 9, further comprising providing optics for controlling illumination of each solid-state lighting element of the plurality of solid-state lighting elements of each populated circuit card of the plurality of populated solid-state lighting circuit cards.
  - 16. The method of claim 15, wherein the optics of at least one populated circuit card of the plurality of populated solid-state lighting circuit cards differ from optics of at least another populated circuit card of the plurality of populated solid-state lighting circuit cards.

Specification

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Litigation Campaign Assessment

Current Assignee
Lumenpulse Group Inc.
Original Assignee
Lumenpulse Lighting Inc (Lumenpulse Inc.)
Inventors
Campbell, Gregory, Hamel, Yvan
Primary Examiner(s)
Shallenberger, Julie

Application Number

US13/345,138
Publication Number

US 20120287627A1
Time in Patent Office

522 Days
Field of Search

362/227, 362/231, 362/235, 362238-240, 362/236, 362/237
US Class Current

362/237
CPC Class Codes

F21V 21/30   Pivoted housings or frames

F21V 23/023   Power supplies in a casing ...

F21V 29/15   Thermal insulation

F21V 29/507   of means for protecting lig...

F21V 29/74   with fins or blades

F21V 29/80   with pins or wires

F21V 29/83   the elements having apertur...

F21V 29/89   Metals

F21V 5/007   Array of lenses or refracto...

F21Y 2105/10   comprising a two-dimensiona...

F21Y 2115/10   Light-emitting diodes [LED]

Y10T 29/49002   Electrical device making

Configurable light emitting diode lighting unit

First Claim

16 Assignments

0 Petitions

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Abstract

25 Citations

16 Claims

Specification

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Configurable light emitting diode lighting unit

First Claim

16 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

25 Citations

16 Claims

Specification

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Use Cases

Quick Links

Others