AMBIENT LIGHT COMPENSATION SENSOR AND PROCEDURE
First Claim
1. Solid-state based light source for emitting light, comprisingone or more light source elements for generating light,a first sensor for receiving light emitted by the light source elements and ambient light and for generating a first sensor signal representing the received light,a second sensor for only receiving ambient light and for generating a second sensor signal representing the received ambient light, anda control unit for receiving the first and the second sensor signals and for generating control signals for controlling the light source elements based on the difference between the first and the second sensor signals to compensate for the influence of the ambient light, anddirecting means for selectively directing the ambient light together with the light generated by the light source elements to the first sensor and the ambient light alone to the second sensor.
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Accused Products
Abstract
The present invention relates to a solid-state based light source, a corresponding circuitry and a method of emitting light, including one or more light source elements for generating light, a first sensor for receiving light emitted by the light source elements and ambient light and for generating a first sensor signal (S1) representing the received light, a second sensor for only receiving ambient light and for generating a second sensor signal (S2) representing the received ambient light. Moreover, the solid-state based light source comprises a control unit for receiving the first and the second sensor signals (S1, S2) and for generating control signals (Sc) for controlling the light source elements, based on the difference between the first and the second sensor signals (S1, S2), to compensate for the influence of the ambient light.
29 Citations
11 Claims
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1. Solid-state based light source for emitting light, comprising
one or more light source elements for generating light, a first sensor for receiving light emitted by the light source elements and ambient light and for generating a first sensor signal representing the received light, a second sensor for only receiving ambient light and for generating a second sensor signal representing the received ambient light, and a control unit for receiving the first and the second sensor signals and for generating control signals for controlling the light source elements based on the difference between the first and the second sensor signals to compensate for the influence of the ambient light, and directing means for selectively directing the ambient light together with the light generated by the light source elements to the first sensor and the ambient light alone to the second sensor.
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4. (canceled)
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10. Circuitry for compensating for ambient light, comprising
at least one first input channel for inputting the first sensor signals, at least one second input channel for inputting the second sensor signals, a first transformation unit for transforming the first sensor signals into first tristimulus signals, a second transformation unit for transforming the second sensor signals into second tristimulus signals, a signal processing unit for calculating the difference between the first and the second tristimulus signals for compensating for the ambient light and for generating a corresponding control tristimulus signal, and at least one output channel for outputting the control signal.
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11. (canceled)
Specification