LED light sources with improved thermal compensation

US 8,159,153 B2
Filed: 10/01/2010
Issued: 04/17/2012
Est. Priority Date: 10/01/2010
Status: Active Grant

First Claim

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1. A compound light source that generates light of a design intensity at a design temperature in response to a drive current flowing through said light source, said light source comprising:

a primary light source;

a compensating light source, said primary and compensating light sources converting an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current;

a temperature sensor that measures a temperature of said primary light source; and

a current splitting circuit that divides said drive current between said primary and compensating light sources in response to said measured temperature to compensate for said decrease in efficiency of said primary light source with temperature changes above said design temperature,wherein said compound light source emits light having an optical spectrum characterized by a first average wavelength and wherein said primary light source outputs light of an optical spectrum characterized by an second average wavelength, said second average wavelength changing as a function of said temperature and wherein said compensating light source emits light having a third average wavelength chosen to compensate for said change in said second average wavelength as a function of temperature.

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Abstract

A compound light source that compensates for changes in electrical conversion efficiency with increasing operating temperature is disclosed. The compound light source generates light of a design intensity at a design temperature in response to a drive current flowing through the light source. The light source includes a primary light source and a compensating light source. The primary and compensating light sources convert an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current. The compound light source includes a temperature sensor that measures the temperature of the primary light source and a current splitting circuit that divides the drive current between the primary and compensating light sources to compensate for the decrease in efficiency of the primary light source with temperature above the design temperature.

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12 Claims

1. A compound light source that generates light of a design intensity at a design temperature in response to a drive current flowing through said light source, said light source comprising:
- a primary light source;
  
  a compensating light source, said primary and compensating light sources converting an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current;
  
  a temperature sensor that measures a temperature of said primary light source; and
  
  a current splitting circuit that divides said drive current between said primary and compensating light sources in response to said measured temperature to compensate for said decrease in efficiency of said primary light source with temperature changes above said design temperature,wherein said compound light source emits light having an optical spectrum characterized by a first average wavelength and wherein said primary light source outputs light of an optical spectrum characterized by an second average wavelength, said second average wavelength changing as a function of said temperature and wherein said compensating light source emits light having a third average wavelength chosen to compensate for said change in said second average wavelength as a function of temperature.

2. A compound light source that generates light of a design intensity at a design temperature in response to a drive current flowing through said light source, said light source comprising:
- a primary light source;
  
  a compensating light source, said primary and compensating light sources converting an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current;
  
  a temperature sensor that measures a temperature of said primary light source; and
  
  a current splitting circuit that divides said drive current between said primary and compensating light sources in response to said measured temperature to compensate for said decrease in efficiency of said primary light source with temperature changes above said design temperature,wherein said primary light source comprises a first LED that emits light at a first wavelength and a second LED that emits light at a second wavelength, said first LED being characterized by a first electrical conversion efficiency and said second LED being characterized by a second electrical conversion efficiency, said first electrical conversion efficiency decreasing with temperature faster than said second electrical conversion efficiency decreases with temperature.
- View Dependent Claims (3, 4, 5, 6)
- - 3. The light source of claim 2 wherein said first LED generates white light and said second LED is a first red-emitting LED that alters a color temperature associated with said first LED.
  - 4. The light source of claim 3 wherein said compensating light source comprises a second red-emitting LED.
  - 5. The light source of claim 4 wherein said first and second red-emitting LEDs are constructed from the same material.
  - 6. The light source of claim 5 wherein said first and second red-emitting LED are characterized by first and second average emission wavelengths and wherein said second average emission wavelength is less than said first average emission wavelength.

7. A method for compensating for thermally induced changes in light intensity in a light source that is driven with a drive current, said method comprising:
- providing a primary light source;
  
  providing a compensating light source, said primary and compensating light sources converting an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current;
  
  measuring a temperature of said primary light source; and
  
  dividing said drive current between said primary and compensating light sources in response to said measured temperature to compensate for said decrease in efficiency of said primary light source with temperature,wherein said compound light source emits light having an optical spectrum characterized by a first average wavelength and wherein said primary light source outputs light of an optical spectrum characterized by an second average wavelength, said second average wavelength changing as a function of said temperature and wherein said compensating light source emits light having a third average wavelength chosen to compensate for said change in said second average wavelength as a function of temperature.

8. A method for compensating for thermally induced changes in light intensity in a light source that is driven with a drive current, said method comprising:
- providing a primary light source;
  
  providing a compensating light source, said primary and compensating light sources converting an electrical current passing therethrough to light, each light source being characterized by an electrical conversion efficiency that decreases with increasing temperature and that also decreases with increasing current;
  
  measuring a temperature of said primary light source; and
  
  dividing said drive current between said primary and compensating light sources in response to said measured temperature to compensate for said decrease in efficiency of said primary light source with temperature,wherein said primary light source comprises a first LED that emits light at a first wavelength and a second LED that emits light at a second wavelength, said first LED being characterized by a first electrical conversion efficiency and said second LED being characterized by a second electrical conversion efficiency, said first electrical conversion efficiency decreasing with temperature faster than said second electrical conversion efficiency decreases with temperature.
- View Dependent Claims (9, 10, 11, 12)
- - 9. The method of claim 8 wherein said first LED generates white light and said second LED is a first red-emitting LED that alters a color temperature associated with said first LED.
  - 10. The method of claim 9 wherein said compensating light source comprises a second red-emitting LED.
  - 11. The method of claim 10 wherein said first and second red-emitting LEDs are constructed from the same material.
  - 12. The method of claim 11 wherein said first and second red-emitting LED are characterized by first and second average emission wavelengths and wherein said second average emission wavelength is less than said first average emission wavelength.

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Current Assignee
Signify Holding B.V. (Signify N.V.)
Original Assignee
Bridgelux Incorporated
Inventors
Hum, David
Primary Examiner(s)
Owens, Douglas W
Assistant Examiner(s)
PHAM, THAI N

Application Number

US12/896,615
Publication Number

US 20110068715A1
Time in Patent Office

564 Days
Field of Search

315/113, 315/291, 315/307, 315/309, 315/324, 362/327, 362/362, 362/373, 362/574
US Class Current

315/309
CPC Class Codes

H05B 45/28   using temperature feedback

H05B 45/395   Linear regulators

Y02B 20/30   Semiconductor lamps, e.g. s...

LED light sources with improved thermal compensation

First Claim

7 Assignments

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Abstract

16 Citations

12 Claims

Specification

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LED light sources with improved thermal compensation

First Claim

7 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

16 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links