STABLIZED LIGHT SOURCE HAVING LUMINANCE FEEDBACK CONTROL
First Claim
1. Optical lighting apparatus having a constant luminance output comprising:
- a plurality of light-emitting devices having a desired luminance output;
a light diffuser positioned to receive the output of the light-emitting devices;
a photodetector adapted to receive light energy reflected off the light diffuser and for generating an output signal proportional to the amount of received incident light at the photodetector;
an optical insulator positioned between the light-emitting devices and the photodetector to block the photodetector from receiving light directly from the light-emitting devices;
a controller circuit for variably controlling the drive current to the light-emitting devices in response to the output signal from the photodetector;
a temperature sensor proximate to the photodetector for sensing the temperature thereat;
temperature compensation means proximate to the photodetector for maintaining the temperature of the photodetector at a predetermined fixed setting thereby permitting the output luminance from the light-emitting devices to be constant and independent of changes in ambient temperature.
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Accused Products
Abstract
An optical lighting apparatus having a constant luminance with a drive current controlled by a controller unit. A temperature controlled photodetector indirectly monitors the luminance and informs the controller when a change in luminance has occurred so that the controller can make appropriate adjustments to the drive current. Also disclosed is a method of regulating the drive current to a light source to enable the luminance to remain fixed and independent of fluctuations in ambient temperature. A temperature compensated photodetector senses the amount of light reflected off a diffuser lens and feeds back the output to a controller circuit which regulates the drive current to the light source. The lighting apparatus has application in calibrating imaging systems, such as digital cameras, and for scanning devices.
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Citations
16 Claims
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1. Optical lighting apparatus having a constant luminance output comprising:
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a plurality of light-emitting devices having a desired luminance output; a light diffuser positioned to receive the output of the light-emitting devices; a photodetector adapted to receive light energy reflected off the light diffuser and for generating an output signal proportional to the amount of received incident light at the photodetector; an optical insulator positioned between the light-emitting devices and the photodetector to block the photodetector from receiving light directly from the light-emitting devices; a controller circuit for variably controlling the drive current to the light-emitting devices in response to the output signal from the photodetector; a temperature sensor proximate to the photodetector for sensing the temperature thereat; temperature compensation means proximate to the photodetector for maintaining the temperature of the photodetector at a predetermined fixed setting thereby permitting the output luminance from the light-emitting devices to be constant and independent of changes in ambient temperature. - View Dependent Claims (2, 3, 4, 5)
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6. A method of regulating the drive current to a plurality of light emitting sources to maintain the luminance thereof at a constant level independent of changes in ambient temperature, said method comprising:
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controlling the drive current to the plurality of light emitting sources to have an output light with a predetermined luminance; passing the output light through an optical diffuser and optically coupling a reflected portion of the output light from the optical diffuser to a photodetector while shielding the photodetector from receiving the output light directly from the light emitting sources; generating a signal at the photodetector proportional to the luminance of the reflected portion of output light received at the photodetector; adjusting the drive current to the plurality of light emitting sources so that the luminance of the output light remains at a predetermined fixed level in accordance with the photodetector signal; and measuring the ambient temperature at the photodetector while applying heating or cooling for maintaining the temperature of the photodetector to be constant. - View Dependent Claims (7, 8, 9)
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10. An imaging device calibration apparatus comprising:
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a plurality of light-emitting diodes arranged in a compact array having a predetermined luminance output; a light diffuser positioned to receive the output of the light-emitting diodes; a photodetector adapted to receive light energy reflected off the light diffuser and for generating an output signal proportional to the amount of received incident light at the photodetector; an optical insulator positioned between the light-emitting diodes and the photodetector to block the photodetector from receiving light directly from the light-emitting diodes; processing circuitry configured to variably control the drive current to the light-emitting diodes in response to the output signal from the photodetector to permit the calibration of the imaging device; a temperature sensor proximate to the photodetector for sensing the surrounding temperature; temperature compensation means proximate to the photodetector for maintaining the temperature of the photodetector at a predetermined constant temperature thereby rendering the response of the photodetector to be substantially insensitive to changes in ambient temperature and thus enabling the regulation of the output luminance from the light-emitting diodes to be constant and independent of changes in ambient temperature of the imagine device calibration apparatus. - View Dependent Claims (11, 12, 13)
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14. Apparatus for regulating the drive current to an array of LEDs having a desired luminance and for stabilizing the luminance to be independent of fluctuations in ambient temperature, said apparatus comprising:
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a light diffuser positioned to receive the light generated from the LEDs; a photodetector adapted to receive only light energy reflected off of and backscattered from the light diffuser, said photodetector for generating an output signal proportional to the amount of received incident light at the photodetector; a controller circuit for variably regulating the drive current to the LEDs in response to the output signal from the photodetector; a temperature sensor proximate to the photodetector; temperature compensation means proximate to the photodetector for maintaining the temperature of the photodetector at a predetermined temperature thereby permitting the output luminance of the LEDs to be constant and independent of changes in ambient temperature. - View Dependent Claims (15, 16)
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Specification