Color control method for LED lighting systems

US 7,719,208 B2
Filed: 01/31/2008
Issued: 05/18/2010
Est. Priority Date: 12/12/2007
Status: Active Grant

First Claim

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1. A color control method for an LED lighting system, the LED lighting system comprising a red LED module, a green LED module, and a blue LED module, the color control method comprising:

providing a first driving current to the red LED module during a first interval;

generating a first feedback voltage corresponding to the red LED module based on a first voltage drop corresponding to the red LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a first time of the first interval;

generating a second feedback voltage corresponding to the red LED module based on a second voltage drop corresponding to the red LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a second time of the first interval;

providing a second driving current to the green LED module during a second interval;

generating a first feedback voltage corresponding to the green LED module based on a first voltage drop corresponding to the green LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a first time of the second interval;

generating a second feedback voltage corresponding to the green LED module based on a second voltage drop corresponding to the green LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a second time of the second interval;

providing a third driving current to the blue LED module during a third interval;

generating a first feedback voltage corresponding to the blue LED module based on a first voltage drop corresponding to the blue LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a first time of the third interval;

generating a second feedback voltage corresponding to the blue LED module based on a second voltage drop corresponding to the blue LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a second time of the third interval;

providing the first driving current to the red LED module, providing the second driving current to the green LED module, and providing the third driving current to the blue LED module;

generating a third feedback voltage corresponding to the red LED module based on a third voltage drop corresponding to the red LED module;

generating a third set of CIE tristimulus values corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;

generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the red LED module;

generating a third feedback voltage corresponding to the green LED module based on a third voltage drop corresponding to the green LED module;

generating a third set of CIE tristimulus values corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;

generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the green LED module;

generating a third feedback voltage corresponding to the blue LED module based on a third voltage drop corresponding to the blue LED module;

generating a third set of CIE tristimulus values corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;

generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the blue LED module;

calculating a first coefficient matrix based on the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the red LED module, the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the green LED module, and the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the blue LED module;

calculating a first control signal, a second control signal, and a third control signal based on the first coefficient matrix and a set of preset CIE tristimulus values; and

regulating the first driving current based on the first control signal, regulating the second driving current based on the second control signal, and regulating the third driving current based on the third control signal;

wherein the first interval, the second interval, and the third interval are not overlapped between each other.

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Abstract

When temperature variation occurs to the LED dice of an LED lighting system, a feedback control mechanism is applied to compensate temperature-related wavelength shift for precisely controlling the light generated by the LED dice based on the voltage drop variation or current variation of the LED dice. The color control method for the LED lighting system includes a preliminary detection phase and a feedback control phase. In the preliminary detection phase, voltage drop signals or current signals together with corresponding color and hue signals of each LED module of the LED lighting system are detected. In the feedback control phase, signal compensating processes are performed to precisely control the light generated by the LED lighting system based on the voltage drop variation or the current variation in conjunction with the corresponding color and hue signals generated in the preliminary detection phase.

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25 Claims

1. A color control method for an LED lighting system, the LED lighting system comprising a red LED module, a green LED module, and a blue LED module, the color control method comprising:
- providing a first driving current to the red LED module during a first interval;
  
  generating a first feedback voltage corresponding to the red LED module based on a first voltage drop corresponding to the red LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a first time of the first interval;
  
  generating a second feedback voltage corresponding to the red LED module based on a second voltage drop corresponding to the red LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a second time of the first interval;
  
  providing a second driving current to the green LED module during a second interval;
  
  generating a first feedback voltage corresponding to the green LED module based on a first voltage drop corresponding to the green LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a first time of the second interval;
  
  generating a second feedback voltage corresponding to the green LED module based on a second voltage drop corresponding to the green LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a second time of the second interval;
  
  providing a third driving current to the blue LED module during a third interval;
  
  generating a first feedback voltage corresponding to the blue LED module based on a first voltage drop corresponding to the blue LED module, and generating a first red light signal, a first green light signal, a first blue light signal, and a first set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a first time of the third interval;
  
  generating a second feedback voltage corresponding to the blue LED module based on a second voltage drop corresponding to the blue LED module, and generating a second red light signal, a second green light signal, a second blue light signal, and a second set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a second time of the third interval;
  
  providing the first driving current to the red LED module, providing the second driving current to the green LED module, and providing the third driving current to the blue LED module;
  
  generating a third feedback voltage corresponding to the red LED module based on a third voltage drop corresponding to the red LED module;
  
  generating a third set of CIE tristimulus values corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
  
  generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the red LED module;
  
  generating a third feedback voltage corresponding to the green LED module based on a third voltage drop corresponding to the green LED module;
  
  generating a third set of CIE tristimulus values corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
  
  generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the green LED module;
  
  generating a third feedback voltage corresponding to the blue LED module based on a third voltage drop corresponding to the blue LED module;
  
  generating a third set of CIE tristimulus values corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
  
  generating a third red light signal, a third green light signal, and a third blue light signal corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the blue LED module;
  
  calculating a first coefficient matrix based on the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the red LED module, the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the green LED module, and the third set of CIE tristimulus values, the third red light signal, the third green light signal, and the third blue light signal corresponding to the blue LED module;
  
  calculating a first control signal, a second control signal, and a third control signal based on the first coefficient matrix and a set of preset CIE tristimulus values; and
  
  regulating the first driving current based on the first control signal, regulating the second driving current based on the second control signal, and regulating the third driving current based on the third control signal;
  
  wherein the first interval, the second interval, and the third interval are not overlapped between each other.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The color control method of claim 1, wherein generating the first feedback voltage corresponding to the red LED module based on the first voltage drop corresponding to the red LED module is generating the first feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the first voltage drop corresponding to the red LED module and a first reference voltage;
    - generating the second feedback voltage corresponding to the red LED module based on the second voltage drop corresponding to the red LED module is generating the second feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the second voltage drop corresponding to the red LED module and the first reference voltage;
      
      generating the first feedback voltage corresponding to the green LED module based on the first voltage drop corresponding to the green LED module is generating the first feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the first voltage drop corresponding to the green LED module and a second reference voltage;
      
      generating the second feedback voltage corresponding to the green LED module based on the second voltage drop corresponding to the green LED module is generating the second feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the second voltage drop corresponding to the green LED module and the second reference voltage;
      
      generating the first feedback voltage corresponding to the blue LED module based on the first voltage drop corresponding to the blue LED module is generating the first feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the first voltage drop corresponding to the blue LED module and a third reference voltage; and
      
      generating the second feedback voltage corresponding to the blue LED module based on the second voltage drop corresponding to the blue LED module is generating the second feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the second voltage drop corresponding to the blue LED module and the third reference voltage.
  - 3. The color control method of claim 1, wherein generating the first feedback voltage corresponding to the red LED module based on the first voltage drop corresponding to the red LED module is generating the first feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the first voltage drop corresponding to the red LED module;
    - generating the second feedback voltage corresponding to the red LED module based on the second voltage drop corresponding to the red LED module is generating the second feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the second voltage drop corresponding to the red LED module;
      
      generating the first feedback voltage corresponding to the green LED module based on the first voltage drop corresponding to the green LED module is generating the first feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the first voltage drop corresponding to the green LED module;
      
      generating the second feedback voltage corresponding to the green LED module based on the second voltage drop corresponding to the green LED module is generating the second feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the second voltage drop corresponding to the green LED module;
      
      generating the first feedback voltage corresponding to the blue LED module based on the first voltage drop corresponding to the blue LED module is generating the first feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the first voltage drop corresponding to the blue LED module; and
      
      generating the second feedback voltage corresponding to the blue LED module based on the second voltage drop corresponding to the blue LED module is generating the second feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the second voltage drop corresponding to the blue LED module.
  - 4. The color control method of claim 1, wherein regulating the first driving current based on the first control signal, regulating the second driving current based on the second control signal, and regulating the third driving current based on the third control signal is regulating the first driving current by regulating a duty cycle of a first pulse width modulation (PWM) signal based on the first control signal;
    - regulating the second driving current by regulating a duty cycle of a second PWM signal based on the second control signal; and
      
      regulating the third driving current by regulating a duty cycle of a third PWM signal based on the third control signal.
  - 5. The color control method of claim 4, wherein regulating the first driving current by regulating the duty cycle of the first PWM signal based on the first control signal;
    - regulating the second driving current by regulating the duty cycle of the second PWM signal based on the second control signal; and
      
      regulating the third driving current by regulating the duty cycle of the third PWM signal based on the third control signal is generating a fourth red light signal, a fourth green light signal, a fourth blue light signal through detecting light emitted from the red LED module, the green LED module, and the blue LED module, generating a first duty cycle control signal through comparing the first control signal with the fourth red light signal, regulating the first driving current by regulating the duty cycle of the first PWM signal based on the first duty cycle control signal, generating a second duty cycle control signal through comparing the second control signal with the fourth green light signal, regulating the second driving current by regulating the duty cycle of the second PWM signal based on the second duty cycle control signal, generating a third duty cycle control signal through comparing the third control signal with the fourth blue light signal, and regulating the third driving current by regulating the duty cycle of the third PWM signal based on the third duty cycle control signal.
  - 6. The color control method of claim 1, wherein generating the third feedback voltage corresponding to the red LED module based on the third voltage drop corresponding to the red LED module is generating the third feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the third voltage drop corresponding to the red LED module and a first reference voltage;
    - generating the third feedback voltage corresponding to the green LED module based on the third voltage drop corresponding to the green LED module is generating the third feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the third voltage drop corresponding to the green LED module and a second reference voltage; and
      
      generating the third feedback voltage corresponding to the blue LED module based on the third voltage drop corresponding to the blue LED module is generating the third feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the third voltage drop corresponding to the blue LED module and a third reference voltage.
  - 7. The color control method of claim 1, wherein generating the third feedback voltage corresponding to the red LED module based on the third voltage drop corresponding to the red LED module is generating the third feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the third voltage drop corresponding to the red LED module;
    - generating the third feedback voltage corresponding to the green LED module based on the third voltage drop corresponding to the green LED module is generating the third feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the third voltage drop corresponding to the green LED module; and
      
      generating the third feedback voltage corresponding to the blue LED module based on the third voltage drop corresponding to the blue LED module is generating the third feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the third voltage drop corresponding to the blue LED module.
  - 8. The color control method of claim 1, further comprising:
    - generating a fourth feedback voltage corresponding to the red LED module based on a fourth voltage drop corresponding to the red LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the red LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
      
      generating a fourth red light signal, a fourth green light signal, and a fourth blue light signal corresponding to the red LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the red LED module;
      
      generating a fourth feedback voltage corresponding to the green LED module based on a fourth voltage drop corresponding to the green LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the green LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
      
      generating a fourth red light signal, a fourth green light signal, and a fourth blue light signal corresponding to the green LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the green LED module;
      
      generating a fourth feedback voltage corresponding to the blue LED module based on a fourth voltage drop corresponding to the blue LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the blue LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
      
      generating a fourth red light signal, a fourth green light signal, and a fourth blue light signal corresponding to the blue LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first red light signal, the first green light signal, the first blue light signal, the second red light signal, the second green light signal, the second blue light signal corresponding to the blue LED module;
      
      calculating a second coefficient matrix based on the fourth set of CIE tristimulus values, the fourth red light signal, the fourth green light signal, and the fourth blue light signal corresponding to the red LED module, the fourth set of CIE tristimulus values, the fourth red light signal, the fourth green light signal, and the fourth blue light signal corresponding to the green LED module, and the fourth set of CIE tristimulus values, the fourth red light signal, the fourth green light signal, and the fourth blue light signal corresponding to the blue LED module;
      
      calculating a fourth control signal, a fifth control signal, and a sixth control signal based on the first coefficient matrix and the set of preset CIE tristimulus values; and
      
      regulating the first driving current based on the fourth control signal, regulating the second driving current based on the fifth control signal, and regulating the third driving current based on the sixth control signal.
  - 9. The color control method of claim 8, wherein regulating the first driving current based on the fourth control signal, regulating the second driving current based on the fifth control signal, and regulating the third driving current based on the sixth control signal is regulating the first driving current by regulating a duty cycle of a first PWM signal based on the fourth control signal;
    - regulating the second driving current by regulating a duty cycle of a second PWM signal based on the fifth control signal; and
      
      regulating the third driving current by regulating a duty cycle of a third PWM signal based on the sixth control signal.
  - 10. The color control method of claim 9, wherein regulating the first driving current by regulating the duty cycle of the first PWM signal based on the fourth control signal;
    - regulating the second driving current by regulating the duty cycle of the second PWM signal based on the fifth control signal; and
      
      regulating the third driving current by regulating the duty cycle of the third PWM signal based on the sixth control signal is generating a fifth red light signal, a fifth green light signal, a fifth blue light signal through detecting light emitted from the red LED module, the green LED module, and the blue LED module, generating a fourth duty cycle control signal through comparing the fourth control signal with the fifth red light signal, regulating the first driving current by regulating the duty cycle of the first PWM signal based on the fourth duty cycle control signal, generating a fifth duty cycle control signal through comparing the fifth control signal with the fifth green light signal, regulating the second driving current by regulating the duty cycle of the second PWM signal based on the fifth duty cycle control signal, generating a sixth duty cycle control signal through comparing the sixth control signal with the fifth blue light signal, and regulating the third driving current by regulating the duty cycle of the third PWM signal based on the sixth duty cycle control signal.
  - 11. The color control method of claim 8, wherein generating the fourth feedback voltage corresponding to the red LED module based on the fourth voltage drop corresponding to the red LED module is generating the fourth feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the fourth voltage drop corresponding to the red LED module and a first reference voltage;
    - generating the fourth feedback voltage corresponding to the green LED module based on the fourth voltage drop corresponding to the green LED module is generating the fourth feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the fourth voltage drop corresponding to the green LED module and a second reference voltage; and
      
      generating the fourth feedback voltage corresponding to the blue LED module based on the fourth voltage drop corresponding to the blue LED module is generating the fourth feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the fourth voltage drop corresponding to the blue LED module and a third reference voltage.
  - 12. The color control method of claim 8, wherein generating the fourth feedback voltage corresponding to the red LED module based on the fourth voltage drop corresponding to the red LED module is generating the fourth feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the fourth voltage drop corresponding to the red LED module;
    - generating the fourth feedback voltage corresponding to the green LED module based on the fourth voltage drop corresponding to the green LED module is generating the fourth feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the fourth voltage drop corresponding to the green LED module; and
      
      generating the fourth feedback voltage corresponding to the blue LED module based on the fourth voltage drop corresponding to the blue LED module is generating the fourth feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the fourth voltage drop corresponding to the blue LED module.

13. A color control method for an LED lighting system, the LED lighting system comprising a red LED module, a green LED module, and a blue LED module, the color control method comprising:
- providing a first driving voltage to the red LED module during a first interval;
  
  generating a first feedback voltage corresponding to the red LED module based on a first current flowing through the red LED module, and generating a first set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a first time of the first interval;
  
  generating a second feedback voltage corresponding to the red LED module based on a second current flowing through the red LED module, and generating a second set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a second time of the first interval;
  
  providing a second driving voltage to the green LED module during a second interval;
  
  generating a first feedback voltage corresponding to the green LED module based on a first current flowing through the green LED module, and generating a first set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a first time of the second interval;
  
  generating a second feedback voltage corresponding to the green LED module based on a second current flowing through the green LED module, and generating a second set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a second time of the second interval;
  
  providing a third driving voltage to the blue LED module during a third interval;
  
  generating a first feedback voltage corresponding to the blue LED module based on a first current flowing through the blue LED module, and generating a first set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a first time of the third interval;
  
  generating a second feedback voltage corresponding to the blue LED module based on a second current flowing through the blue LED module, and generating a second set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a second time of the third interval;
  
  providing the first driving voltage to the red LED module, providing the second driving voltage to the green LED module, and providing the third driving voltage to the blue LED module;
  
  generating a third feedback voltage corresponding to the red LED module based on a third current flowing through the red LED module;
  
  generating a third set of CIE tristimulus values corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
  
  generating a third feedback voltage corresponding to the green LED module based on a third current flowing through the green LED module;
  
  generating a third set of CIE tristimulus values corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
  
  generating a third feedback voltage corresponding to the blue LED module based on a third current flowing through the blue LED module;
  
  generating a third set of CIE tristimulus values corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
  
  calculating a first duty cycle control signal, a second duty cycle control signal, and a third duty cycle control signal based on the third set of CIE tristimulus values corresponding to the red LED module, the third set of CIE tristimulus values corresponding to the green LED module, the third set of CIE tristimulus values corresponding to the blue LED module, and a set of preset CIE tristimulus values; and
  
  regulating the first driving voltage based on the first duty cycle control signal, regulating the second driving voltage based on the second duty cycle control signal, and regulating the third driving voltage based on the third duty cycle control signal;
  
  wherein the first interval, the second interval, and the third interval are not overlapped between each other.
- View Dependent Claims (14, 15, 16, 17, 18, 19)
- - 14. The color control method of claim 13, wherein generating the first feedback voltage corresponding to the red LED module based on the first current flowing through the red LED module is generating the first feedback voltage corresponding to the red LED module through performing a signal amplifying operation on a first voltage drop of a first resistor having the first current flowing through the red LED module;
    - generating the second feedback voltage corresponding to the red LED module based on the second current flowing through the red LED module is generating the second feedback voltage corresponding to the red LED module through performing a signal amplifying operation on a second voltage drop of the first resistor having the second current flowing through the red LED module;
      
      generating the first feedback voltage corresponding to the green LED module based on the first current flowing through the green LED module is generating the first feedback voltage corresponding to the green LED module through performing a signal amplifying operation on a first voltage drop of a second resistor having the first current flowing through the green LED module;
      
      generating the second feedback voltage corresponding to the green LED module based on the second current flowing through the green LED module is generating the second feedback voltage corresponding to the green LED module through performing a signal amplifying operation on a second voltage drop of the second resistor having the second current flowing through the green LED module;
      
      generating the first feedback voltage corresponding to the blue LED module based on the first current flowing through the blue LED module is generating the first feedback voltage corresponding to the blue LED module through performing a signal amplifying operation on a first voltage drop of a third resistor having the first current flowing through the blue LED module; and
      
      generating the second feedback voltage corresponding to the blue LED module based on the second current flowing through the blue LED module is generating the second feedback voltage corresponding to the blue LED module through performing a signal amplifying operation on a second voltage drop of the third resistor having the second current flowing through the blue LED module.
  - 15. The color control method of claim 13, wherein regulating the first driving voltage based on the first duty cycle control signal, regulating the second driving voltage based on the second duty cycle control signal, and regulating the third driving voltage based on the third duty cycle control signal is regulating the first driving voltage by regulating the duty cycle of a first PWM signal based on the first duty cycle control signal, regulating the second driving voltage by regulating the duty cycle of a second PWM signal based on the second duty cycle control signal, and regulating the third driving voltage by regulating the duty cycle of a third PWM signal based on the third duty cycle control signal.
  - 16. The color control method of claim 13, wherein generating the third feedback voltage corresponding to the red LED module based on the third current flowing through the red LED module is generating the third feedback voltage corresponding to the red LED module through performing a signal amplifying operation on a voltage drop of a first resistor having the third current flowing through the red LED module;
    - generating the third feedback voltage corresponding to the green LED module based on the third current flowing through the green LED module is generating the third feedback voltage corresponding to the green LED module through performing a signal amplifying operation on a voltage drop of a second resistor having the third current flowing through the green LED module; and
      
      generating the third feedback voltage corresponding to the blue LED module based on the third current flowing through the blue LED module is generating the third feedback voltage corresponding to the blue LED module through performing a signal amplifying operation on a voltage drop of a third resistor having the third current flowing through the blue LED module.
  - 17. The color control method of claim 13, further comprising:
    - generating a fourth feedback voltage corresponding to the red LED module based on a fourth current flowing through the red LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the red LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
      
      generating a fourth feedback voltage corresponding to the green LED module based on a fourth current flowing through the green LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the green LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
      
      generating a fourth feedback voltage corresponding to the blue LED module based on a fourth current flowing through the blue LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the blue LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
      
      calculating a fourth duty cycle control signal, a fifth duty cycle control signal, and a sixth duty cycle control signal based on the fourth set of CIE tristimulus values corresponding to the red LED module, the fourth set of CIE tristimulus values corresponding to the green LED module, the fourth set of CIE tristimulus values corresponding to the blue LED module, and the set of preset CIE tristimulus values; and
      
      regulating the first driving voltage based on the fourth duty cycle control signal, regulating the second driving voltage based on the fifth duty cycle control signal, and regulating the third driving voltage based on the sixth duty cycle control signal.
  - 18. The color control method of claim 17, wherein regulating the first driving voltage based on the fourth duty cycle control signal, regulating the second driving voltage based on the fifth duty cycle control signal, and regulating the third driving voltage based on the sixth duty cycle control signal is regulating the first driving voltage by regulating the duty cycle of a first PWM signal based on the fourth duty cycle control signal, regulating the second driving voltage by regulating the duty cycle of a second PWM signal based on the fifth duty cycle control signal, and regulating the third driving voltage by regulating the duty cycle of a third PWM signal based on the sixth duty cycle control signal.
  - 19. The color control method of claim 17, wherein generating the fourth feedback voltage corresponding to the red LED module based on the fourth current flowing through the red LED module is generating the fourth feedback voltage corresponding to the red LED module through performing a signal amplifying operation on a voltage drop of a first resistor having the fourth current flowing through the red LED module;
    - generating the fourth feedback voltage corresponding to the green LED module based on the fourth current flowing through the green LED module is generating the fourth feedback voltage corresponding to the green LED module through performing a signal amplifying operation on a voltage drop of a second resistor having the fourth current flowing through the green LED module; and
      
      generating the fourth feedback voltage corresponding to the blue LED module based on the fourth current flowing through the blue LED module is generating the fourth feedback voltage corresponding to the blue LED module through performing a signal amplifying operation on a voltage drop of a third resistor having the fourth current flowing through the blue LED module.

20. A color control method for an LED lighting system, the LED lighting system comprising a red LED module, a green LED module, and a blue LED module, the color control method comprising:
- providing a first driving current to the red LED module during a first interval;
  
  generating a first feedback voltage corresponding to the red LED module based on a first voltage drop corresponding to the red LED module, and generating a first set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a first time of the first interval;
  
  generating a second feedback voltage corresponding to the red LED module based on a second voltage drop corresponding to the red LED module, and generating a second set of CIE tristimulus values corresponding to the red LED module through detecting light emitted from the red LED module at a second time of the first interval;
  
  providing a second driving current to the green LED module during a second interval;
  
  generating a first feedback voltage corresponding to the green LED module based on a first voltage drop corresponding to the green LED module, and generating a first set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a first time of the second interval;
  
  generating a second feedback voltage corresponding to the green LED module based on a second voltage drop corresponding to the green LED module, and generating a second set of CIE tristimulus values corresponding to the green LED module through detecting light emitted from the green LED module at a second time of the second interval;
  
  providing a third driving current to the blue LED module during a third interval;
  
  generating a first feedback voltage corresponding to the blue LED module based on a first voltage drop corresponding to the blue LED module, and generating a first set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a first time of the third interval;
  
  generating a second feedback voltage corresponding to the blue LED module based on a second voltage drop corresponding to the blue LED module, and generating a second set of CIE tristimulus values corresponding to the blue LED module through detecting light emitted from the blue LED module at a second time of the third interval;
  
  providing the first driving current to the red LED module, providing the second driving current to the green LED module, and providing the third driving current to the blue LED module;
  
  generating a third feedback voltage corresponding to the red LED module based on a third voltage drop corresponding to the red LED module;
  
  generating a third set of CIE tristimulus values corresponding to the red LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
  
  generating a third feedback voltage corresponding to the green LED module based on a third voltage drop corresponding to the green LED module;
  
  generating a third set of CIE tristimulus values corresponding to the green LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
  
  generating a third feedback voltage corresponding to the blue LED module based on a third voltage drop corresponding to the blue LED module;
  
  generating a third set of CIE tristimulus values corresponding to the blue LED module based on the third feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
  
  calculating a first duty cycle control signal, a second duty cycle control signal, and a third duty cycle control signal based on the third set of CIE tristimulus values corresponding to the red LED module, the third set of CIE tristimulus values corresponding to the green LED module, the third set of CIE tristimulus values corresponding to the blue LED module, and a set of preset CIE tristimulus values; and
  
  regulating the first driving current based on the first duty cycle control signal, regulating the second driving current based on the second duty cycle control signal, and regulating the third driving current based on the third duty cycle control signal;
  
  wherein the first interval, the second interval, and the third interval are not overlapped between each other.
- View Dependent Claims (21, 22, 23, 24, 25)
- - 21. The color control method of claim 20, wherein generating the first feedback voltage corresponding to the red LED module based on the first voltage drop corresponding to the red LED module is generating the first feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the first voltage drop corresponding to the red LED module and a first reference voltage;
    - generating the second feedback voltage corresponding to the red LED module based on the second voltage drop corresponding to the red LED module is generating the second feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the second voltage drop corresponding to the red LED module and the first reference voltage;
      
      generating the first feedback voltage corresponding to the green LED module based on the first voltage drop corresponding to the green LED module is generating the first feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the first voltage drop corresponding to the green LED module and a second reference voltage;
      
      generating the second feedback voltage corresponding to the green LED module based on the second voltage drop corresponding to the green LED module is generating the second feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the second voltage drop corresponding to the green LED module and the second reference voltage;
      
      generating the first feedback voltage corresponding to the blue LED module based on the first voltage drop corresponding to the blue LED module is generating the first feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the first voltage drop corresponding to the blue LED module and a third reference voltage;
      
      generating the second feedback voltage corresponding to the blue LED module based on the second voltage drop corresponding to the blue LED module is generating the second feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the second voltage drop corresponding to the blue LED module and the third reference voltage;
      
      generating the third feedback voltage corresponding to the red LED module based on the third voltage drop corresponding to the red LED module is generating the third feedback voltage corresponding to the red LED module by performing a differential amplifying operation on the third voltage drop corresponding to the red LED module and a first reference voltage;
      
      generating the third feedback voltage corresponding to the green LED module based on the third voltage drop corresponding to the green LED module is generating the third feedback voltage corresponding to the green LED module by performing a differential amplifying operation on the third voltage drop corresponding to the green LED module and a second reference voltage; and
      
      generating the third feedback voltage corresponding to the blue LED module based on the third voltage drop corresponding to the blue LED module is generating the third feedback voltage corresponding to the blue LED module by performing a differential amplifying operation on the third voltage drop corresponding to the blue LED module and a third reference voltage.
  - 22. The color control method of claim 20, wherein generating the first feedback voltage corresponding to the red LED module based on the first voltage drop corresponding to the red LED module is generating the first feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the first voltage drop corresponding to the red LED module;
    - generating the second feedback voltage corresponding to the red LED module based on the second voltage drop corresponding to the red LED module is generating the second feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the second voltage drop corresponding to the red LED module;
      
      generating the first feedback voltage corresponding to the green LED module based on the first voltage drop corresponding to the green LED module is generating the first feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the first voltage drop corresponding to the green LED module;
      
      generating the second feedback voltage corresponding to the green LED module based on the second voltage drop corresponding to the green LED module is generating the second feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the second voltage drop corresponding to the green LED module;
      
      generating the first feedback voltage corresponding to the blue LED module based on the first voltage drop corresponding to the blue LED module is generating the first feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the first voltage drop corresponding to the blue LED module;
      
      generating the second feedback voltage corresponding to the blue LED module based on the second voltage drop corresponding to the blue LED module is generating the second feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the second voltage drop corresponding to the blue LED module;
      
      generating the third feedback voltage corresponding to the red LED module based on the third voltage drop corresponding to the red LED module is generating the third feedback voltage corresponding to the red LED module by performing a signal amplifying operation on the third voltage drop corresponding to the red LED module;
      
      generating the third feedback voltage corresponding to the green LED module based on the third voltage drop corresponding to the green LED module is generating the third feedback voltage corresponding to the green LED module by performing a signal amplifying operation on the third voltage drop corresponding to the green LED module; and
      
      generating the third feedback voltage corresponding to the blue LED module based on the third voltage drop corresponding to the blue LED module is generating the third feedback voltage corresponding to the blue LED module by performing a signal amplifying operation on the third voltage drop corresponding to the blue LED module.
  - 23. The color control method of claim 20, wherein regulating the first driving current based on the first duty cycle control signal, regulating the second driving current based on the second duty cycle control signal, and regulating the third driving current based on the third duty cycle control signal is regulating the first driving current by regulating the duty cycle of a first PWM signal based on the first duty cycle control signal, regulating the second driving current by regulating the duty cycle of a second PWM signal based on the second duty cycle control signal, and regulating the third driving current by regulating the duty cycle of a third PWM signal based on the third duty cycle control signal.
  - 24. The color control method of claim 20, further comprising:
    - generating a fourth feedback voltage corresponding to the red LED module based on a fourth voltage drop corresponding to the red LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the red LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the red LED module;
      
      generating a fourth feedback voltage corresponding to the green LED module based on a fourth voltage drop corresponding to the green LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the green LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the green LED module;
      
      generating a fourth feedback voltage corresponding to the blue LED module based on a fourth voltage drop corresponding to the blue LED module;
      
      generating a fourth set of CIE tristimulus values corresponding to the blue LED module based on the fourth feedback voltage, the first feedback voltage, the second feedback voltage, the first set of CIE tristimulus values, and the second set of CIE tristimulus values corresponding to the blue LED module;
      
      calculating a fourth duty cycle control signal, a fifth duty cycle control signal, and a sixth duty cycle control signal based on the fourth set of CIE tristimulus values corresponding to the red LED module, the fourth set of CIE tristimulus values corresponding to the green LED module, the fourth set of CIE tristimulus values corresponding to the blue LED module, and the set of preset CIE tristimulus values; and
      
      regulating the first driving current based on the fourth duty cycle control signal, regulating the second driving current based on the fifth duty cycle control signal, and regulating the third driving current based on the sixth duty cycle control signal.
  - 25. The color control method of claim 24, wherein regulating the first driving current based on the fourth duty cycle control signal, regulating the second driving current based on the fifth duty cycle control signal, and regulating the third driving current based on the sixth duty cycle control signal is regulating the first driving current by regulating the duty cycle of a first PWM signal based on the fourth duty cycle control signal, regulating the second driving current by regulating the duty cycle of a second PWM signal based on the fifth duty cycle control signal, and regulating the third driving current by regulating the duty cycle of a third PWM signal based on the sixth duty cycle control signal.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
AU Optronics Corporation
Original Assignee
AU Optronics Corporation
Inventors
Li, Hung-Ching, Hsu, Po-Tang, Ko, Chien-Ming, Li, Yueh-Han
Primary Examiner(s)
Owens; Douglas W
Assistant Examiner(s)
Le; Tung X

Application Number

US12/023,042
Publication Number

US 20090153075A1
Time in Patent Office

838 Days
Field of Search

315/185.R, 315/247, 315/291, 315/294, 315/297, 315/299, 315/302, 315307-309, 315/312, 315/360
US Class Current

315/307
CPC Class Codes

H05B 31/50   specially adapted for ac

H05B 45/20   Controlling the colour of t...

H05B 45/22   using optical feedback

H05B 45/24   using electrical feedback f...

H05B 45/37   Converter circuits

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

Color control method for LED lighting systems

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Abstract

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Color control method for LED lighting systems

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

39 Citations

25 Claims

Specification

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Solutions

Use Cases

Quick Links