WO2002082863A1 - Method and system for controlling a light source - Google Patents
Method and system for controlling a light source Download PDFInfo
- Publication number
- WO2002082863A1 WO2002082863A1 PCT/IB2002/001174 IB0201174W WO02082863A1 WO 2002082863 A1 WO2002082863 A1 WO 2002082863A1 IB 0201174 W IB0201174 W IB 0201174W WO 02082863 A1 WO02082863 A1 WO 02082863A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- tri
- stimulus values
- light output
- coordinates
- lumens
- Prior art date
Links
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
- H05B45/22—Controlling the colour of the light using optical feedback
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
Definitions
- the present invention generally relates to controlling a luminary.
- the present invention specifically relates to sensing tri-stimulus values for a feedback control of a light output illuminating from a luminary including a plurality of light emitting diodes (LEDs) illuminating various colors of light.
- LEDs light emitting diodes
- White light generation based on a Red LED, Green LED, and Blue LED (RGB
- RGB LED is well known in the art. It is also known that, even when produced from the same fabrication process, the optical characteristics of individual RGB LED can significantly vary in a batch. In addition, the characteristics of the LEDs vary with the forward current, ambient temperature, and aging. As a result, the quality of white light produced by each individual RGB LED based luminary will vary. Thus, to minimize, if not to eliminate, the quality variance of white light produced by a RGB LED based luminary, a feedback control system is required to establish and constantly maintain both a color (defined by a standard calorimetric system such as Commission International de PEclairage (CIE) 1931 chromaticity coordinates) and a lighting level of the RGB LED based luminary at standard levels.
- CIE Commission International de PEclairage
- the feedback control system must receive signals indicative of an actual color and an actual lighting level of a RGB LED based luminary in order to control the color temperature and the lighting level.
- Sensors including filters and photo diodes, which matches the color matching functions in a standard calorimetric system such as CIE 1931 xy color space, can produce such signals for the feedback control system.
- sensors are extremely difficult and very expensive to manufacture, and are therefore commercially unfeasible.
- the realization of a required feedback control system for RGB LED based luminary was not attainable.
- a first form of the present invention is a method for controlling a light output illuminating from a luminary including two or more light emitting diodes.
- a first set of tri-stimulus values of the light output is sensed.
- the first set of tri-stimulus values is transformed into a second set of tri-stimulus values.
- the second set of tri-stimulus values are representative of a standard calorimetric system.
- the light output are controlled as a function of the second set of tri-stimulus values.
- a second form of the present invention is a method of selectively employing a set of sensors within a light output control system.
- a first set of tri-stimulus values and a first set of xy coordinates and lumens of light output illuminating from a luminary including two or more light emitting diodes is measured.
- the standard color space such as CIE 1931 color space is used for this purpose.
- a second set of tri-stimulus values of the light outputs are sensed by a plurality of sensors. Coefficients of a transformation matrix are computed as a function of the first set of tri-stimulus values and the second set of tri-stimulus values. The sensors are rejected when the transformation matrix contains complex numbers.
- the first set of xy coordinates and lumens and a second set of xy coordinates and lumens which are determined by an application of the transformation matrix on the second set of tri-stimulus values, are compared when the transformation matrix is linear.
- the sensors are rejected when a differential error between the first set of xy coordinates and lumens and the second set of xy coordinates and lumens exceeds a maximum error limit.
- the set of sensors is employed in the light output control system when the transformation matrix is linear and the differential error between the first set of xy coordinates and the second set of xy coordinates is within the maximum error limit.
- a third form of the present invention is a system for controlling a light output illuminating from a luminary including one or more light emitting diodes.
- the system comprises a plurality of sensors, and a controller.
- the sensors are operable to sense a first set of tri-stimulus values of the light output and to provide a plurality of signals indicative of the first set of tri-stimulus values to the controller.
- the controller is operable to transform the first set of tri-stimulus values to a second set of tri-stimulus values and to determine a set of xy coordinates and lumens of the light output as a function of the second set of tri-stimulus values.
- Fig. 1 A is a flow chart of a transformation technique in accordance with the present invention.
- Fig. IB is an exemplary transformation block diagram illustrating an implementation of the Fig. 1 A transformation technique
- Fig. 1C is a flow chart of one embodiment of a sensor selection routine in accordance with the present invention.
- Fig. 2A is a block diagram of one embodiment of a light source sensing system in accordance with the present invention.
- Fig. 2B is a flow chart of one embodiment of an operating routine of the Fig. 2 A light source sensing system in accordance with the present invention.
- Fig. 1 A illustrates a transformation technique 20 in accordance with the present invention
- Fig. IB illustrates the principles of technique 20.
- Transformation technique 20 overcomes this problem.
- calorimetric system 30 is a Commission International de l'Eclairage (CIE) color measurement system expressed in terms of color matching functions including a tri-stimulus values 30a and a xy coordinates and lumens 30b.
- calorimetric system 31 is a RGB LED based color measurement system expressed in terms of a tri-stimulus values 31a and a xy coordinates and lumens 31b that are equivalent to tri- stimulus values 30a and xy coordinates and lumens 30b.
- the transformation matrix 32 is in accordance with the following equation (1):
- [T] [XYZ] ⁇ 3 ⁇ M • [RGB] M ⁇ 3 ' inv ⁇ ([RGB] ⁇ 3 ⁇ M ⁇ [RGB] MX3 ) ⁇ (1)
- T is a transformation matrix 32
- X, Y and Z are tri-stimulus values 30a of the system 30
- R, G and B are tri-stimulus values 3 la of system 31
- M is the number of measurement samples, which is greater than or equal to three.
- Filter/photo diode sensors 33 that are operative to provide signals indicative of tri-stimulus values 31 a or an acceptable approximation thereof are obtained during a stage S24 of technique 20.
- a sensor selection routine 40 as shown in Fig. 1C is implemented to properly select filter/photo diode sensors 33 with the required operational capabilities.
- tri-stimulus values 30a and xy coordinates and lumens 30b are determined.
- light output 11 is illuminated from multiple RGB LED based luminaries 10 whereby tri-stimulus values 30a and xy coordinates and lumens 30b are measured by a conventional spectrometer.
- N number of filter/photo diode sensors 33 are operated to sense light output 11 illuminating from RGB LED based luminaries 10 to thereby provide signals indicative of tri-stimulus values 31a and xy coordinates and lumens 31b.
- coefficients of transformation matrix 32 are determined by an execution of equation [1] with the tri-stimulus values 30a as measured during stage S42 and the tri-stimulus value 3 la as sensed during stage S44 serving as input values for matrix 22.
- TABLE 1 illustrates exemplary measurements during stage S42 and stage S44 involving five (5) RGB LED based luminaries 10, and an average of tri-stimulus values 31a sensed by three filter/photo diodes sensors 33:
- routine 40 it is determined if the transformation matrix 22 is linear, i.e., are any of the resulting coefficients complex numbers. If any of the resulting coefficients are complex numbers, then the filter/photo diode sensors 33 operated during stage S44 are rejected and routine 40 is terminated. If none of the resulting coefficients are complex numbers as with the example of transformation matrix 22 from TABLE 1, then routine 40 is proceeded to a stage S50 of routine 40 whereby each individual filter/photo diode sensors 33 is operated to sense light output 11 from each multiple RGB LED based luminary 10 to thereby provide signals indicative of tri-stimulus values 31a.
- the xy coordinates and lumens obtained by applying the transformation matrix on 31 a as provided by a filter/photo diode sensor 33 during stage S50 are compared to the xy coordinates and lumens 30b as measured during stage S42 to determine if a differential error between the first xy coordinates and the xy coordinates 30b are within or exceed a maximum error limit.
- TABLE 2 illustrates exemplary differential errors between the xy coordinates 30b and the xy coordinates 31b.
- a filter/photo diode sensor 33 is employed with a system for controlling light output 11 when each of the readings is within the acceptable limit. Otherwise, routine 40 terminates.
- Fig. 2A illustrates a light output control system 60
- Fig. 2B illustrates an operating routine 90 implemented by system 60 for controlling an illumination of light output 11 from RGB LED based luminary 10. From the following description of system 60 and routine 90, those having ordinary skill in the art will appreciate the functionality of system 60 and routine 90 as applied to any LED based luminary such as, for example, a luminary including a Orange LED and a Blue LED.
- system 60 comprises a sensing device 70 and a light output controller 80.
- Sensing device 20 includes a color sensor 71a, a color sensor 71b, a color sensor 71c, an amplifier 72, and a transformation matrix controller 73
- sensing device 70 is manufactured as a single-chip.
- Color sensors 71a-71c are conventional filter/photo diode combinations employed in accordance with routine 40 for sensing tri-stimulus values 31a (Fig. IB) of light output 11 during a stage S92 of routine 90.
- color sensor 71a provides a color signal Csi in analog form to amplifier 72 in response to a light output 11.
- Color sensor 71b provides a color signal Cs 2 in analog form to amplifier 72 in response to light output 11.
- Color sensor 71c provides a color signal Cs 3 in analog form to amplifier 72 in response to light output 11.
- Color signal Csi, color signal Cs2, and color signal Cs3 collectively indicate tri-stimulus values 31a.
- Amplifier 72 includes analog and/or digital circuitry for providing a color signal Cs 4 in analog form as an amplification of color signal Csi to controller 73, a color signal Css in analog form as an amplification of color signal Cs 2 to controller 73, and a color signal Cs 6 in analog form as an amplification of color signal Cs 3 to controller 73.
- Amplifier 72 can be omitted from embodiments of sensing device 70 when color sensor 71a is operable to provide color signal Csi at a required analog level for transformation controller 73, color sensor 71b provides color signal Cs 2 at a required analog level for transformation controller 73, and color sensor 71c provides color signal Cs 3 at a required analog level for transformation controller 73.
- Transformation controller 73 is an electronic circuit comprised of one or more components that are assembled as a common unit. Transformation controller 73 may be comprised of analog circuitry, and/or digital circuitry. Also, transformation controller 73 may be programmable, a dedicated state machine, or a hybrid combination of programmable and dedicated hardware. To implement the principals of the present invention, transformation controller 73 can further include any control clocks, interfaces, signal conditioners, filters, Analog-to-Digital (A/D) converters, Digital-to-Analog (D/A) converters, communication ports, or other types of operators as would occur to those having ordinary skill in the art.
- A/D Analog-to-Digital
- D/A Digital-to-Analog
- transformation controller 73 includes an Analog-to-Digital (A/D) converter (not shown), an integrated processing unit (not shown), and a solid-state memory device (not shown).
- the memory contains programming of transformation matrix 22 (Fig. IB).
- a coefficient adjustment signal CAs can be optionally provided to controller 73 by an external source (not shown) during an optional stage of S94 of routine 90 whereby the coefficients of matrix 22 are adjusted as needed.
- controller 73 executes transformation matrix 22 during stage S94 to transform tri-stimulus values 31a (Fig.
- controller 73 provides a tri-stimulus values signal TSVs in digital form as an indication of tri- stimulus values 30a of light output 11 to light output controller 80, and a xy coordinates and lumen signal xyLs in digital form as an indication of xy coordinates and lumen 30b of light output 11 to light output controller 80.
- Light output controller 80 is an electronic circuit comprised of one or more components that are assembled as a common unit.
- Light output controller 80 may be comprised of analog circuitry, and/or digital circuitry.
- light source controller 80 may be programmable, a dedicated state machine, or a hybrid combination of programmable and dedicated hardware.
- light output controller 80 can further include any control clocks, interfaces, signal conditioners, filters, Analog-to-Digital (A/D) converters, Digital-to-Analog (D/A) converters, communication ports, or other types of operators as would occur to those having ordinary skill in the art.
- A/D Analog-to-Digital
- D/A Digital-to-Analog
- controller 80 In response to tri-stimulus values signal TSVs and xy coordinates and lumens signal xyLs, controller 80 selectively provides a light output adjustment signal LOAsto luminary 10 during a stage S98 of routine 90 whereby the optical characteristics of light output 11 are adjusted as necessary.
- controller 73 and controller 80 are integrated.
Abstract
Description
Claims
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2002580679A JP2004526289A (en) | 2001-04-06 | 2002-04-02 | Light source control method and system |
EP02718455A EP1380191A1 (en) | 2001-04-06 | 2002-04-02 | Method and system for controlling a light source |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09/827,629 US6576881B2 (en) | 2001-04-06 | 2001-04-06 | Method and system for controlling a light source |
US09/827,629 | 2001-04-06 |
Publications (1)
Publication Number | Publication Date |
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WO2002082863A1 true WO2002082863A1 (en) | 2002-10-17 |
Family
ID=25249713
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/IB2002/001174 WO2002082863A1 (en) | 2001-04-06 | 2002-04-02 | Method and system for controlling a light source |
Country Status (5)
Country | Link |
---|---|
US (1) | US6576881B2 (en) |
EP (1) | EP1380191A1 (en) |
JP (1) | JP2004526289A (en) |
CN (1) | CN1460394A (en) |
WO (1) | WO2002082863A1 (en) |
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Also Published As
Publication number | Publication date |
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JP2004526289A (en) | 2004-08-26 |
US6576881B2 (en) | 2003-06-10 |
CN1460394A (en) | 2003-12-03 |
US20020195541A1 (en) | 2002-12-26 |
EP1380191A1 (en) | 2004-01-14 |
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