It is that April 18, application number in 2006 are 60/792 that patent application of the present invention requires the applying date, the priority of 859 U.S. Provisional Patent Application, its name is called " lighting device and means of illumination " (inventor: Gerald H.Negley and Antony Paul van de Ven), and the application quotes and in conjunction with its full content.
It is that April 20, application number in 2006 are 60/793 that patent application of the present invention requires the applying date, the priority of 524 U.S. Provisional Patent Application, its name is called " lighting device and means of illumination " (inventor: Gerald H.Negley and Antony Paul van de Ven), and the application quotes and in conjunction with its full content.
It is that December 4, application number in 2006 are 11/566 that patent application of the present invention requires the applying date, the priority of 440 U.S. Patent application, its name is called " lighting device and means of illumination " (inventor: AntonyPaul van de Ven and Gerald H.Negley), and the application quotes and in conjunction with its full content.
It is that December 1, application number in 2006 are 60/868 that patent application of the present invention requires the applying date, the priority of 134 U.S. Provisional Patent Application, its name is called " lighting device and means of illumination " (inventor: Gerald H.Negley and Antony Paul van de Ven), and the application quotes and in conjunction with its full content.
Summary of the invention
Existing white LED light source is efficient relatively but have lower color rendering index, and Ra generally is lower than 75, and is poor especially to the demonstration of redness, and especially poor to the demonstration of green.This means with adopting incandescent lamp or natural lighting and compare that many things comprise that the general human colour of skin, food, label, drawing, placard, symbol, dress ornament, home decoration, plant, flower, automobile etc. will demonstrate variegated or wrong color.Usually, the colour temperature of such white light LEDs is about 5000K, though this illumination to commodity production or advertisement and printing material is comparatively desirable, for general lighting, such temperature is unaccommodated.
Partly so-called " warm white " LED has for indoor use more suitably temperature (generally being 2700-3500K), and in some embodiments, have CRI preferably (Ra is up to 95 in the example of yellow and red-emitting phosphor mixing), but its light efficiency is at half than the white light LEDs of standard above.
The color body that RGB LED lamp illuminates does not present with its realistic colour sometimes.For example, object of reflect yellow only, and therefore with white light the time, present yellow, and, may present unsaturated and grizzly when having ruddiness and green light LED were produced the tangible gold-tinted irradiation of a RGB LED light fixture.Therefore, this lamp is considered to the color rendering that can not provide splendid, during especially when illumination different set (for example, in general illumination) and in particular to natural scene.In addition, the efficient of present available green light LED is on duty mutually, has therefore limited the efficient of this lamp.
The LED that employing has the tone of many types also can need to use the LED with various efficient similarly, it comprises some inefficient LED, thereby reduced the efficient of this system, and increased circuit complexity and the cost of controlling many dissimilar LED and keeping the color balance of lamp significantly.
Therefore, need high efficiency white light source, this white light source is under acceptable colour temperature and good color rendering index, wide colour gamut and simple control circuit, in conjunction with the efficient and the long-life (promptly avoiding using inefficient light source) of white light LEDs.
According to the present invention, the unexpected discovery can obtain very high CRI:(1 by making up following light) from the light of one or more light-emitting diode emissions, this light-emitting diode emission has the light of peak wavelength in 430nm to 480nm scope; (2) from the light of one or more luminescent material emissions, this luminescent phosphor emission has the light of dominant wavelength in 555nm to 585nm scope; And (3) from the light of one or more light-emitting diodes emission, and this light-emitting diode emission has the light of dominant wavelength in 600nm to 630nm scope.
Can obtain extra high CRI in addition, select these light-emitting diodes and luminescent phosphor so that when if each of this first group of light-emitting diode is all lighted and each of this first group of luminescent phosphor is excited, so under without any extra light, to have first group of mixed lighting from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group of mixed lighting has x, the y chromaticity coordinates is by first on a 1931CIE chromatic diagram, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to one second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to one the 4th point with this, the 4th line segment is connected to one the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, the y coordinate, and the 5th has 0.36,0.38 x, y coordinate.
According to a feature of the present invention, select these light-emitting diodes and luminescent phosphor so that from this first group of light-emitting diode, the mixing of the light of this first group of luminescent phosphor and this second group of light-emitting diode emission will produce one first group-second group illumination that mixes, this first group, the illumination of second group of mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, the y coordinate defined on the black body locus of 1931CIE chromatic diagram 10 MacAdams (MacAdam) of about 2200K at least one point to the scope of about 4500K oval in (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In addition, it is also unexpected that discovery can obtain very high CRI by making up above-mentioned light, especially the light that relates to more than (2) (promptly from the light of one or more luminescent phosphor emissions, these luminescent phosphor emissions have the light of dominant wavelength in 555nm to 585nm scope) is the situation of launching from a wideband spectrum light source (being a kind of Yellow luminous fluorescent material).
So, in first characteristics of the present invention, providing a kind of lighting device, it comprises:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have a peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have dominant wavelength at the about 555nm light to the about 585nm scope; And
If each of this second group of light-emitting diode is when being lighted, and will launch to have the light of dominant wavelength in 600nm to 630nm scope.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise the light-emitting diode (will launch the light-emitting diode with peak wavelength light the scope from about 430nm to about 480nm when even being lighted) of extra 430nm to 480nm, these extra light-emitting diodes are not among this first group of light-emitting diode, and/maybe this device can comprise the luminescent phosphor (will launch the luminescent phosphor with dominant wavelength light the scope from about 555nm to about 585nm when even being excited) of extra 555nm to 585nm, these extra luminescent phosphors are not among this first group of luminescent phosphor, and/maybe this device can comprise extra 600nm to 630nm light-emitting diode (will launch the light-emitting diode with dominant wavelength light the scope from about 600nm to about 630nm when even being lighted), and these extra light-emitting diodes are not among this second group of light-emitting diode.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this first group of light-emitting diode is made up of 430nm to 480nm light-emitting diodes all in this device, this first group of luminescent phosphor is made up of 555nm to 585nm luminescent phosphors all in this device, and this second group of light-emitting diode is made up of 600nm to 630nm light-emitting diodes all in this device.
According to second characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have a peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of a dominant wavelength the scope from about 555nm to about 585nm;
If each of this second group of light-emitting diode is when being lighted, and will launch to have a dominant wavelength at the light from the scope of 600nm to 630nm; And
If each of this first group of light-emitting diode is all lighted (promptly by an attaching plug being inserted in the 120AC socket of a standard, this attaching plug is electrically connected to a power line that directly or switchably is electrically connected to this lighting device), and each of this first group of luminescent phosphor all is excited, then under without any extra light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, the y chromaticity coordinates is by first on a 1931CIE chromatic diagram, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, the y coordinate, and the 5th has 0.36,0.38 x, y coordinate.
In some embodiment of these characteristics according to the present invention, this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, and/maybe this device can comprise not extra 600nm to the 630nm light-emitting diode among this second group of light-emitting diode, this device comprises wherein except all light-emitting diodes in this first group of light-emitting diode and all luminescent phosphors in this first group of luminescent phosphor, when if any is lighted or excites in these extra 430nm to 480nm light-emitting diodes and/or 555nm to the 585nm luminescent phosphor, then will produce and have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment institute region surrounded, y chromaticity coordinates combination light.
In some embodiment of these characteristics according to the present invention, this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of all 555nm to the 585nm luminescent phosphors in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 3rd characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength the scope from about 555nm to about 585nm;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from the scope of 600nm to 630nm; And
When if each of this first group of light-emitting diode is all lighted, then under without any extra light, will have one first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, the y chromaticity coordinates is by first on a 1931CIE chromatic diagram, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
In some embodiment of these characteristics according to the present invention, exciting by light to the small part luminescent phosphor in this first group of luminescent phosphor from this first group of light-emitting diode emission.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra 555nm to 585nm luminescent phosphor, even all light-emitting diodes in this first group of light-emitting diode are all luminous, it can not excited by the light of any light-emitting diode emission from this first group of light-emitting diode yet.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra 555nm to 585nm luminescent phosphor, (1) it will can not excited by the light of any light-emitting diode emission from this first group of light-emitting diode, and (2) if these extra 555nm to 585nm luminescent phosphors are excited and all 430 to the 480nm light-emitting diodes in this first group of light-emitting diode are lighted, then this combination light will have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment institute region surrounded, the y chromaticity coordinates.
According to the 4th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength the scope from about 555nm to about 585nm;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from the scope of 600nm to 630nm; And
When if power supply is supplied at least one power line in this at least one power line (by an attaching plug being inserted in the 120AC socket of a standard, this attaching plug is electrically connected to this power line, and if necessary words, be closed in the one or more switches in this power line), then under without any extra light, the mixing of light will be sent from this first group of light-emitting diode and this first group of luminescent phosphor, the mixing of this light will have first group of illumination that mixes, this first group illumination that mixes has x, the y chromaticity coordinates be on a 1931CIE chromatic diagram one by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to one second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, the y coordinate, and the 5th has 0.36,0.38 x, y coordinate.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise one or more extra 430nm to 480nm light-emitting diodes of this at least one power line (but may be connected to some other power line) that are not connected to, and wherein except all 430nm to 480nm light-emitting diodes that are connected to this at least one power line, if these extra 430nm to 480nm light-emitting diodes are lighted, then under without any extra light, the combination light of all 430nm to the 480nm light-emitting diodes from this device and the luminescent phosphor of all 555nm to 585nm in this device emission will have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the y chromaticity coordinates.
According to the 5th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength the scope from about 555nm to about 585nm;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from the scope of 600nm to 630nm; And
If each power line that power supply is supplied to these one or more power lines (for example, by one or more attaching plugs being inserted in the 120AC socket of a standard, these attaching plugs are electrically connected to one or more other power line), then has on a 1931CIE chromatic diagram one by first, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the light of y chromaticity coordinates will send from this lighting device, and this first line segment is connected to second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra 430nm to the 480nm light-emitting diode (or not being connected to this power line) of the arbitrary power line that is not connected to these power lines in this device, and wherein except all light-emitting diodes that are connected to this at least one power line, if these extra light-emitting diodes are lighted, then under without any extra light, this combination light will have not on a 1931CIE chromatic diagram by defined above first, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the y chromaticity coordinates.
According to the 6th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from the scope of 430nm to 480nm;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength the scope from about 555nm to about 585nm;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from the scope of 600nm to 630nm;
And wherein:
If each of (1) this first group of light-emitting diode is all lighted, (2) each of this first group of luminescent phosphor all is excited, and (3) each of this second group of light-emitting diode is all lighted, then from this first group of light-emitting diode, will produce one first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or within 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention, this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, and/maybe this device can comprise not extra 600nm to the 630nm light-emitting diode among this second group of light-emitting diode, wherein except all light-emitting diodes in this first group of light-emitting diode, outside all luminescent phosphors in this first group of luminescent phosphor and all light-emitting diodes in this second group of light-emitting diode, if the combination in any of these extra light-emitting diodes is lighted, then will produce the x that has on a 1931CIE chromatic diagram, the combination light of y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of any point to the about 4500K scope of the about 2200K on the black body locus of a 1931CIE chromatic diagram not (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention, this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 7th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
And wherein:
If each of this first group of light-emitting diode is all lighted and each of this second group of light-emitting diode is all lighted, then from the light of this first group of light-emitting diode emission, will produce the x that has on a 1931CIE chromatic diagram from the light of this first group of luminescent phosphor emission and from the mixing of the light of this second group of light-emitting diode emission, first group-second group illumination that mixes of y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention, the light of being launched by this first group of light-emitting diode to the small part luminescent phosphor in this first group of luminescent phosphor excites.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra luminescent phosphor, even all light-emitting diodes in this first group of light-emitting diode are all luminous, it can not excited by the light of any light-emitting diode emission from this first group of light-emitting diode yet.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra luminescent phosphor, (1) its will be not be excited by light of any light-emitting diode emission from this first group of light-emitting diode and (2) except all light-emitting diodes in this first group of light-emitting diode and all light-emitting diodes in this second group of light-emitting diode, if these extra luminescent phosphors are excited, then will produce the x that has on a 1931CIE chromatic diagram, the combination light of y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of any point to the about 4500K scope of the about 2200K on the black body locus of a 1931CIE chromatic diagram not (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
According to the 8th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
If power supply is supplied at least one power line in this at least one power line, then from this first group of light-emitting diode, will produce first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise one or more extra 430nm to 480nm light-emitting diodes, and/or one or more extra 600nm to 630nm light-emitting diodes, it is not connected to this at least one power line (but may be connected to certain other power line), and wherein except all 430nm to the 480nm light-emitting diodes and all 600nm to 630nm light-emitting diode that are connected to this at least one power line, if these extra 430nm to 480nm light-emitting diodes and/or these extra 600nm to 630nm light-emitting diodes are lighted, then under without any extra light, this combination light of launching will have the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of any point to the about 4500K scope of the about 2200K on the black body locus of a 1931CIE chromatic diagram not (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
According to the 9th characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor;
Second group of light-emitting diode; And
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
If power supply is supplied to each power line of this at least one power line, then from this first group of light-emitting diode, will produce first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate are defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra 430nm to 480nm light-emitting diode and/or extra 600nm to 630nm light-emitting diode, it is not connected to the arbitrary power line (or not being connected to this power line) in these power lines in this device, and wherein except all light-emitting diodes that are connected to this at least one power line, if any in these extra light-emitting diodes lighted, then under without any extra light, this combination light will have the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of any point to the about 4500K scope of the about 2200K on the black body locus of a 1931CIE chromatic diagram not (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
According to the tenth characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope;
And wherein:
If each of this first group of light-emitting diode is all lighted and each of this first group of luminescent phosphor all is excited, then under without any other light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, y chromaticity coordinates on a 1931CIE chromatic diagram is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate; And
If each of (1) this first group of light-emitting diode is all lighted, (2) each of this first group of luminescent phosphor all is excited, and (3) each of this second group of light-emitting diode is all lighted, then from this first group of light-emitting diode, will produce first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, and/maybe this device can comprise not extra 600nm to the 630nm light-emitting diode among this second group of light-emitting diode.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 11 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
And wherein:
If each of this first group of light-emitting diode is all lighted and each of this first group of luminescent phosphor all is excited, then under without any other light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, the y chromaticity coordinates is that on a 1931CIE chromatic diagram one is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate; And
If each of this first group of light-emitting diode is all lighted and each of this second group of light-emitting diode is all lighted, then from the light of this first group of light-emitting diode emission, will produce the x that has on a 1931CIE chromatic diagram from the light of this first group of luminescent phosphor emission and from the mixing of the light of this second group of light-emitting diode emission, first group-second group illumination that mixes of y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, and/maybe this device can comprise not extra 600nm to the 630nm light-emitting diode among this second group of light-emitting diode.
In some embodiment (and other characteristics of the present invention) according to these characteristics of the present invention, this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 12 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
Second group of light-emitting diode;
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
When if power supply is supplied at least one power line in this at least one power line, then under without any other light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, y chromaticity coordinates on a 1931CIE chromatic diagram is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate;
When if power supply is supplied at least one power line in this at least one power line, then from this first group of light-emitting diode, will produce first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise extra 430nm to the 480nm light-emitting diode that is not connected to this at least one power line, and/maybe this device can comprise extra 600nm to the 630nm light-emitting diode that is not connected to this at least one power line.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 13 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor;
Second group of light-emitting diode; And
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope;
If each of this second group of light-emitting diode is when being lighted, and will launch to have dominant wavelength at the light from 600nm to 630nm scope; And
If power supply is supplied to each power line of this at least one power line, then under without any other light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, the y chromaticity coordinates is that on a 1931CIE chromatic diagram one is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate; And
If power supply is supplied to each power line of this at least one power line, then from this first group of light-emitting diode, will produce first group-second group illumination that mixes from this first group of luminescent phosphor and from the mixing of the light of this second group of light-emitting diode emission, the illumination of this first group-second group mixing has the x on a 1931CIE chromatic diagram, the y coordinate, these x, y coordinate have defined in 10 MacAdam's ellipses of at least one point of about 2200K to the about 4500K scope on the black body locus of a 1931CIE chromatic diagram (or in 20 MacAdam's ellipses, or in 40 MacAdam's ellipses) a point.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise extra 430nm to the 480nm light-emitting diode that is not connected to this at least one power line, and/maybe this device can comprise extra 600nm to the 630nm light-emitting diode that is not connected to this at least one power line.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the present invention, further determined a kind of effective lighting device that is used to produce the light of can be easily and mixing from the light of 600nm to a 630nm light-emitting diode emission, this device comprises:
First group of light-emitting diode; And
First group of luminescent phosphor;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope; And
If each of this first group of light-emitting diode is all lighted and each of this first group of luminescent phosphor all is excited, then under without any extra light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has on a 1931CIE chromatic diagram by first, second, the 3rd, x in the zone that the 4th and the 5th line segment centers on, the y chromaticity coordinates, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
So, in the 14 characteristics of the present invention, provide a kind of lighting device, comprising:
First group of light-emitting diode; And
First group of luminescent phosphor;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope; And
If each of this first group of light-emitting diode is all lighted and each of this first group of luminescent phosphor all is excited, then under without any extra light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has on a 1931CIE chromatic diagram by first, second, the 3rd, x in the zone that the 4th and the 5th line segment centers on, the y chromaticity coordinates, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
In some embodiment of these characteristics according to the present invention, this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, this device comprises wherein except all light-emitting diodes in this first group of light-emitting diode and all luminescent phosphors in this first group of luminescent phosphor, if any of these extra 430nm to 480nm light-emitting diodes and/or 555nm to 585nm luminescent phosphor lighted or when being excited, then will produce and have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the combination light of y chromaticity coordinates.
In some embodiment of these characteristics according to the present invention, this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device, this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device, and this second group of light-emitting diode is made up of all 600nm to the 630nm light-emitting diodes in this device.
According to the 15 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode; And
First group of luminescent phosphor;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope; And
If each of this first group of light-emitting diode is all lighted, then under without any extra light, will have first group of illumination that mixes from the mixing of the light of first group of luminescent phosphor emission of this first group of light-emitting diode and this, this first group illumination that mixes has x, y chromaticity coordinates on a 1931CIE chromatic diagram is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to one second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
In some embodiment of these characteristics according to the present invention, this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor, this device comprises wherein except all light-emitting diodes in this first group of light-emitting diode and all luminescent phosphors in this first group of luminescent phosphor, when if any of these extra light-emitting diodes and/or luminescent phosphor lighted or excited, then will produce and have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the combination light of y chromaticity coordinates.
According to the 16 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode; And
First group of luminescent phosphor;
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope; And
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope.
In some embodiment of these characteristics according to the present invention (and other characteristics of the present invention), this device can comprise not extra 430nm to the 480nm light-emitting diode among this first group of light-emitting diode, and/maybe this device can comprise not extra 555nm to the 585nm luminescent phosphor among this first group of luminescent phosphor.
In some embodiment (and other characteristics of the present invention) according to these characteristics of the present invention, this first group of light-emitting diode is made up of all 430nm to the 480nm light-emitting diodes in this device and this first group of luminescent phosphor is made up of the luminescent phosphor of all 555nm to 585nm in this device.
According to the 17 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope; And
When if power supply is supplied at least one power line in this at least one power line, then the mixing of light will be sent from this first group of light-emitting diode and this first group of luminescent phosphor, it is under without any extra light, will have first group of illumination that mixes, this first group illumination that mixes has x, and y chromaticity coordinates on a 1931CIE chromatic diagram is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, and the 3rd line segment thirdly is connected to the 4th point with this, and the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, the y coordinate, and the 5th has 0.36,0.38 x, y coordinate.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise one or more extra 430nm to the 480nm light-emitting diodes (but may be connected to certain other power line) that are not connected to this at least one power line, and wherein except all 430nm to 480nm light-emitting diodes that are connected to this at least one power line, if these extra 430nm to 480nm light-emitting diodes are lighted, then under without any extra light, the combination light of all 430nm to the 480nm light-emitting diodes from this device and the luminescent phosphor of the 555nm to 585nm in this device emission will have not on a 1931CIE chromatic diagram by above define first, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the y chromaticity coordinates.
According to the 18 characteristics of the present invention, a kind of lighting device is provided, comprising:
First group of light-emitting diode;
First group of luminescent phosphor; And
It is directly at least one or switchably be electrically connected to the power line of this lighting device,
Wherein:
If each of this first group of light-emitting diode is when being lighted, and will launch to have peak wavelength at the light from 430nm to 480nm scope;
If each of this first group of luminescent phosphor is when being excited, and will launch to have the light of dominant wavelength from about 555nm to about 585nm scope; And
If power supply is supplied to each power line of this at least one power line, then light will send from this lighting device, and this light has x, and y chromaticity coordinates on a 1931CIE chromatic diagram is by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to second point with first, this second line segment is connected to thirdly this second, and the 3rd line segment thirdly is connected to the 4th point with this, and the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, this first has 0.32,0.40 x, y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, the y coordinate, and the 5th has 0.36,0.38 x, y coordinate.
In some embodiment of these characteristics according to the present invention, this lighting device can comprise extra 430nm to the 480nm light-emitting diode of the arbitrary power line (or not being connected to this power line) in these power lines that are not connected in this device, and wherein except all light-emitting diodes that are connected to this at least one power line, if these extra light-emitting diodes are lighted, then under without any extra light, the light of this mixing will have not on a 1931CIE chromatic diagram by first of above definition, second, the 3rd, x in the 4th and the 5th line segment region surrounded, the y chromaticity coordinates.
According to the 19 characteristics of the present invention, a kind of means of illumination is provided, comprising:
Mixing is from the light of first group of at least one light-emitting diode, from the light of first group of at least one luminescent phosphor and from the light of second group of at least one light-emitting diode, to form the light that mixes;
Each light from this first group of at least one light-emitting diode has at the peak wavelength from the scope of 430nm to 480nm;
Each light from this first group of at least one luminescent phosphor has in the dominant wavelength from 555nm to 585nm scope;
Each light from this second group of at least one light-emitting diode has in the dominant wavelength from 600nm to 630nm scope;
According to the 20 characteristics of the present invention, a kind of means of illumination is provided, comprising:
Mixing is from the light of at least one light-emitting diode and at least one luminescent phosphor, forming the light that mixes,
Each light from this at least one light-emitting diode has at the peak wavelength from 430nm to 480nm scope;
Each light from this at least one luminescent phosphor has in the dominant wavelength from the scope of 555nm to 585nm.
According to the 21 characteristics of the present invention, a kind of LED encapsulation is provided, comprising:
One package assembling;
One light-emitting diode when being lighted as if it, then will be launched the light that has at the peak wavelength from 430nm to 480nm scope; And
One luminescent phosphor when being excited as if it, then will be launched the light with the dominant wavelength from about 555nm to about 585nm scope,
Wherein:
This light-emitting diode and this luminescent phosphor are embedded within this package assembling; And
If this light-emitting diode is lighted, then this luminescent phosphor will be excited by this light-emitting diode.
In some embodiment of these characteristics according to the present invention, if this light-emitting diode is lighted, then the mixing of light will be sent from this light-emitting diode and this luminescent phosphor, and under without any extra light, it has first group of illumination that mixes, this the first group x that the illumination that mixes has, the y chromaticity coordinates on a 1931CIE chromatic diagram by first, second, the 3rd, in the 4th and the 5th line segment region surrounded, this first line segment is connected to one second point with first, and this second line segment is connected to thirdly this second, the 3rd line segment thirdly is connected to the 4th point with this, the 4th line segment is connected to the 5th point with the 4th, and the 5th line segment is connected to this first point with the 5th, and this first has 0.32,0.40 x, the y coordinate, this second has 0.36,0.48 x, the y coordinate, this thirdly has 0.43,0.45 x, the y coordinate, the 4th has 0.42,0.42 x, y coordinate, and the 5th have 0.36,0.38 x, the y coordinate.
These light-emitting diodes can be saturated or unsaturated.As having at least 85% purity in the expression of this used term " saturated ", this term " purity " has the well-known meaning of those skilled in the art, and the program that is used to calculate purity is that to have those skilled in the art well-known.
The characteristics relevant with the present invention can show on 1931CIE chromatic diagram or the 1976CIE chromatic diagram.Fig. 1 is the 1931CIE chromatic diagram.Fig. 2 is 1976 chromatic diagrams.Fig. 3 is that of 1976 chromatic diagrams amplifies schematic diagram partly, wherein shows this black body locus in greater detail.The those skilled in the art is very familiar to these figure, and these figure are (promptly by the searching " XYZ chromaticity diagram " on the internet) that can get easily.
These XYZ chromaticity diagram are represented human perception to color with two CIE parameter x and y (in the situation of 1931 figure) or u ' and v ' (in the situation of 1976 figure).Technology at XYZ chromaticity diagram sees also " physics and technology encyclopaedia ", and the 7th, 230-231 page or leaf (Robert AMeyers edited in 1987).Spectrum colour is distributed near the edge in the space of being described, and this space comprises all tones of human eye institute perception.The maximum saturation of spectrum colour is represented in this boundary line.Person as noted before represents similar difference in perception on the color except this 1976 figure has been modified so that in similar distance on the figure, and this 1976CIE chromatic diagram is similar to this 1931 figure.
In this 1931 figure, can represent with coordinate representation or with MacAdam's ellipse with respect to departing from of a point on the figure, so that give a indication about the disparity range of perception on the color.For example, transfer to be defined as the track of point of ten MacAdam's ellipses by (and be equally applicable to MacAdam's ellipse by other quantity be defined as track with an isolated point of particular shade of color) that is different from that tone that this bulletin colour transfers to common scope forms will be perceived as respectively from the bulletin colour of the definition of the coordinate by the particular group on 1931 figure.
Because similarly distance is represented similar difference in perception on color on 1976 figure, so can use coordinate u ' and v ' to represent with departing from of a point on this 1976 figure, for example, leaves distance=(the Δ u ' of this point
2+ Δ v '
2)
1/2, and by the tone (these points have one section same distance respectively with the tone of an appointment) of the track definition of point by being different from the tone that this bulletin colour transfers to common scope and being formed with being perceived as respectively.
In some books and other publication detailed explanation chromaticity coordinate and the XYZ chromaticity diagram of describing among Fig. 1 to 3, for example, the 109-110 page or leaf (Springer-Verlag in 1994) of " luminescent materials " that the people showed such as 98-107 page or leaf of " phosphor of fluorescent lamp " that K.H.Butler showed (Pennsylvania State University's publication in 1980) and G.Blasse, both all at this as a reference.
Follow planck formula: E (λ)=A λ along the chromaticity coordinate of black body locus (that is, color dot)
-5/ (e
(B/T)-1), wherein E is a radiation intensity, and λ is a radiation wavelength, and T is the black matrix colour temperature, and A and B are constants.Be positioned on the black body locus or produce white light comparatively comfortable for human viewer near the chromaticity coordinates of black body locus.This 1976CIE figure comprises the temperature tabular along black body locus.These temperature tabulars show a color path that makes its blackbody radiator that is increased to this temperature.Object after a heating becomes white heat, and then it at first sends ruddiness, and then gold-tinted is followed white light, and is blue light at last.Why this be that this is consistent with Wien (Wien) displacement law because shorten gradually along with increase in temperature with the wavelength that is associated of the peak of radiation of blackbody radiator.Therefore, be created on the black body locus or can be described with its colour temperature near the luminous element of the light of black body locus.
Being depicted in equally on the 1976CIE figure is label A, B, C, D and E, and these labels are corresponding respectively to be indicated as being the light of luminous element generation of several standards of luminous element A, B, C, D and E.
CRI Ra is the amended mean value of the colour developing of the colour developing of an illuminator when penetrating with eight reference color color pictures with respect to a reference radiation for relative measurement value how.If the chromaticity coordinates of one group of test color of shining by this illuminator with by the coordinate of this blackbody radiator radiation same test look when identical, then this CRIRa equals 100.
Can more complete understanding be arranged to the present invention with reference to following accompanying drawing and specific embodiments of the invention.
Embodiment
This term " correlated colour temperature " is to be used to represent the temperature of a black matrix according to its well-known meaning, and the temperature of this black matrix is immediate on the color from the meaning (can be reached exactly easily by the those skilled in the art and judge) of correct definition.
It is that expression " directly is electrically connected " or " switchably being electrically connected " that this term " directly or switchably is electrically connected ".
At this, two elements " electrical connection " in device are meant between these two elements and are not electrically connected other element, and insert other element at these two interelements and can produce significant impact to function or a plurality of function that this device provides.For example, although may have little resistance resistors between two elements, as long as this resistor can't produce significant impact (in fact, the electric wire that connects two elements just can be considered to little resistance resistors) to function or a plurality of function that this device provides, also these two elements of deducibility are electrically connected; Similarly, although have the additional electrical components that allows this device to carry out other function between two elements, the function that can provide the device that does not comprise this add ons or a plurality of function do not produce significant impact, and also these two elements of deducibility are electrically connected; Similarly, two direct-connected elements or all be electrically connected with electric wire or direct-connected two electronic components of trace (trace) corresponding end on circuit board or other media.
At this, two elements " electrical connection " in device have been meant that a switch is between these two elements, the optionally closed or disconnection of this switch, wherein if this switch closure, then these two elements directly are electrically connected, and if this switch disconnects (just, in any time section of switch disconnection), then these two elements are not electrically connected.
As used when mentioning light-emitting diode, this term " by lighting " is that at least some electric currents of expression are provided to light-emitting diode so that this light-emitting diode is launched portions of light line at least.This term " by lighting " comprise wherein that light-emitting diode continues or so that human eye will perception its continue luminous speed and come constantly luminous situation, or the light-emitting diode of wherein a plurality of same hue or different color will its mode that continues luminous (and being the mixing that is perceived as these colors) in sending the situation of different color of perception comes constantly and/or (being with or without overlapping on the time in " conducting ") luminous situation alternately with this human eye.
As used when mentioning luminescent phosphor, it is that at least some electromagnetic radiation of expression (for example, visible light, UV light or infrared light) touch luminescent phosphor that this term " is excited ", makes this luminescent phosphor launch portions of light line at least.This term " be excited " comprise wherein this luminescent phosphor constantly or with one make human eye can perception its continue luminous speed and come constantly luminous situation, or the luminescent phosphor of wherein a plurality of same hue or different color can its mode that continues luminous (and being the mixing that is perceived as these colors) in the situation of sending different colors of perception comes constantly and/or (being with or without overlapping on the time in " conducting ") luminous situation alternately with this human eye.
In device according to the present invention used light-emitting diode (or a plurality of light-emitting diode) and in device according to the present invention used luminescent phosphor (or a plurality of luminescent phosphor) can from any light-emitting diode well known by persons skilled in the art and luminescent phosphor, select.This light-emitting diode miscellaneous and luminescent phosphor be for a person skilled in the art obtain easily and for well-known, and can utilize any above-mentioned light-emitting diode and luminescent phosphor (for example, the 600nm to 630nm of AlInGaP light-emitting diode).
The type example of this light-emitting diode comprises inorganic and Organic Light Emitting Diode, polytype each all be well-known in this technology.
These one or more luminescent materials can be any desired luminescent materials.As mentioned above, those skilled in the art are familiar with and are using multiple luminescent material.Described one or more luminescent materials can be migrations down or go up the migration luminescent material, perhaps can comprise two types mixed luminescence material.For example, described one or more luminescent materials can be selected from phosphor, scitillating material, dayglow light belt (day glow tape) and send printing ink of visible light or the like under ultraviolet exciting.
These one or more luminescent materials can provide with any desired form.For example, luminescence component can be inserted in the resin (being polymeric matrix), for example, and silicone material or epoxide resin material.In addition, this luminescent material can be embedded in the glass or metal oxide materials of substantially transparent.
These one or more luminescent phosphors can be respectively any luminescent phosphors, as mentioned above, and any one in the known multiple luminescent phosphor of those skilled in the art.For example, these one or more luminescent phosphors can comprise one or more phosphors (or can be made up of one or more phosphors basically or can be made up of one or more phosphors).If necessary, in described these one or more luminescent phosphors one or each may further include (or basically by following that form or be made up of following) one or more high transmissions (for example, transparent or substantially transparent or disperse a little) adhesive agent.For example this adhesive agent is by epoxy resin, poly-silica, glass or any other suitable material made (for example, comprise in any specific luminescent phosphor described one or more adhesive agents, one or more phosphors are dispersed among these one or more adhesive agents).For example, generally speaking, luminescent phosphor is thick more, and the percentage by weight of phosphor is low more.The weight percent branch exemplary embodiments of phosphor comprises from about 3.3 percentage by weights to about 4.7 percentage by weights.Yet as mentioned above, the percentage by weight of phosphor depends on the integral thickness of this luminescent phosphor, it can be any value haply, for example, from 0.1 percentage by weight to 100 percentage by weight (for example, by making pure phosphor be subjected to the luminescent phosphor that the hip treatment process forms).In some cases, about 20 percentage by weights are preferable.
In these one or more luminescent phosphors one or each can further comprise some well-known additives respectively, for example, diffusant, scattering diluent, stain, or the like in.
In certain embodiments of the present invention, different power line (be any electric energy can be delivered to light-emitting diode structure) (directly or switchably) is electrically connected to not light-emitting diode on the same group, and the relative populations that is connected to the light-emitting diode of different electrical power line is along with different power lines is different, for example, first power line comprises 430nm to the 480nm light-emitting diode of first percentage, and the second source line comprises second percentage 430nm to the 480nm light-emitting diode of (being different from this first percentage).As a representational example, first and second power line respectively comprises 100% 430nm to 480nm light-emitting diode, and the 3rd power line comprises 50% 430nm to 480nm light-emitting diode and 50% 600nm to 630nm light-emitting diode.The relative intensity of light can be adjusted so easily, and other variation can be in this CIE figure, navigated and/or compensate effectively with different wave length.For example,, can strengthen the intensity of ruddiness, to compensate any reduction of the light intensity that is produced by 600nm to 630nm light-emitting diode when in case of necessity.Therefore, for example, in above-mentioned representational example, be provided to the electric current of the 3rd power line or be provided to the electric current (and/or by interrupting the supply of power supply to the first power line or second source line) of first power line and/or second source line by minimizing by increase, can suitably adjust from the x of the mixing light of this lighting device emission, y coordinate.
In certain embodiments of the present invention, it further is provided with one or more current regulators, these current regulators directly or switchably are electrically connected to the one or more different electrical power line that is electrically connected to light-emitting diode, can regulate these current regulators are provided to different light-emitting diodes with adjusting electric current like this.
In certain embodiments of the present invention, it further is provided with one or more one of them switches of different electrical power line that are electrically connected to, and optionally switched conductive and shutoff are connected to the electric current of the light-emitting diode of different electrical power line to this switch like this.
In certain embodiments of the present invention, one or more current regulators and/or one or more switching response in detected variation in output (degree that promptly departs from this black body locus) from this lighting device or according to a required mode (promptly according to time of day or night, for example be the correlated colour temperature that changes the light that combined transmit goes out), interrupt automatically and/or regulate electric current by one or more different electrical power line.
In certain embodiments of the present invention, it further is provided with the thermistor of one or more detected temperatures, when temperature change, these thermistors interrupt one or more current regulators and/or one or more switch automatically and/or regulate the electric current that passes through one or more different electrical power line, so that compensate this variations in temperature.Generally speaking, 600nm to 630nm light-emitting diode is along with its temperature increases and deepening.In such an embodiment, can compensate the change that causes by this variations in temperature on intensity.
In some lighting device according to the present invention, it further includes one or more circuit elements, and for example, driving electronics is used for supplying and control flows at least one electric current in one or more solid-state light emitters of this lighting device.Those skilled in the art be familiar with being used for supplying and control flows through the variety of way of the electric current of solid-state light emitters, thereby any way all can be used in the device of the present invention.For example, this circuit can comprise at least one contact, at least one lead frame, at least one current regulator, at least one power-supply controller of electric, at least one voltage controller, at least one booster circuit, at least one capacitor and/or at least one bridge rectifier, and those skilled in the art are familiar with this kind element and can design suitable circuit easily and satisfy any desired current characteristics.
The invention further relates to a kind of illumination obturator (illuminated enclosure), it comprises a confined space and at least one according to lighting device of the present invention, and wherein this lighting device shines at least one part of this obturator.
The invention further relates to a kind of illuminated area (illuminated surface), it comprises a surface and at least one according to lighting device of the present invention, and wherein this lighting device shines at least one part on this surface.
The invention further relates to a surround (illuminated area), it comprises that at least one is selected from by swimming pool, room, warehouse, indicator (indicator), road, the vehicles, road sign, billboard, boats and ships, canoe, aircraft, stadium, tree, zone that window and lamppost constituted, its have be installed on wherein or on it at least one according to lighting device of the present invention.
In addition, those skilled in the art are familiar with being used for the various mounting structures of many dissimilar illuminations, and any this kind structure all can be used for the present invention.For example, Fig. 4 shows a lighting device, its comprise a heat dissipation element 11 (by a kind of for example be that the good thermal conductive property material of having of aluminium is constituted), insulating barrier 12 (for example can apply and/or form in the original place), high reflecting surface 13 (can coatedly for example be or for example be to form), conducting wire 14, lead frame 15, packaged LED 16, a reflection circle cone 17 and a dispersing element 18 by polishing in the original place by the McPet that Furukawa sold of Japan, laminated aluminium or silver by anode treatment.Device shown in Figure 4 can further comprise insulating part 28 below conducting wire 14, to avoid the contact (for example, the people is arrived by the static electricity) to the non-expectation of these conducting wires.The packaged LED that device shown in Figure 4 can comprise arbitrary number (for example, reach 50 or 100 or more a plurality of), and thereby this heat dissipation element 11 and insulating barrier 12, reflecting surface 13 and insulating part 28 can be on directions shown in Figure 4, to the right or a left side extend the distance of any necessity, promptly, as by shown in this partial structure (similarly, the side of reflection circle cone 17 can be arranged on to the right or a left side any distance place).Similarly, this dispersing element 18 can be arranged on LED16 at a distance of any distance place.Can this dispersing element 18 be assembled on this reflection circle cone 17, insulating part 28, heat dissipation element 11 or any other desired structure with any suitable mode, those skilled in the art are familiar with and can provide this kind setting in various manners easily.In this embodiment and other embodiment, this heat dissipation element 11 act as radiator and is used for conducting heat or heat radiation.Similarly, this reflection circle cone 17 can be used as radiator.In addition, this reflection circle cone 17 can comprise ridge 19 to strengthen its reflection characteristic.
Fig. 5 shows an exemplary embodiments that can be used on according to a packaging part in the device of the present invention.With reference to Fig. 5, it shows a kind of lighting device 20, and this lighting device 20 comprises solid-state light emitters 21 (in this example for light-emitting diode chip for backlight unit 21), first electrode 22, second electrode 23, citadel 24, wherein the reflecting element 26 and the luminescent substance 27 of this light-emitting diode chip for backlight unit 21 is installed.Available one similar mode makes up a packaging system (for example, 600nm to a 630nm solid-state light emitters) that does not comprise any luminescent substance, but luminescent substance 27 is not contained in its inside.Those skilled in the art are familiar with and can obtain various other encapsulation easily reaching not packaged LED structure, if necessary, can use any structure according to the present invention.
In some embodiment according to the present invention, in the solid-state light emitters one or more can with luminescent substance in one or more in be located in the packaging part, and the one or more luminescent substances in this packaging part can separate with the one or more solid-state light emitters in this packaging part, to reach improved light extraction efficiency, promptly as on December 22nd, 2005 application and name be called " lighting device " (inventor: U.S. patent application case Gerald H.Negley) number 60/753, described in 138, quote in full for your guidance at this.
In some embodiment according to the present invention, two or more luminescent substances can be set, two or more being spaced apart from each other in these luminescent substances, promptly as on January 23rd, 2006 application and name be called the U.S. patent application case number 60/761 of " the frequency displacement content of luminescent film " (inventor: Gerald H.Negley and Antony Van De Ven) by apart in LED, described in 310, quote in full for your guidance at this.
In some lighting device according to the present invention, it further comprises one or more power supplys, for example, and the ac power plug of one or more batteries and/or solar cell and/or one or more standards.
The LED and the luminescent phosphor that can comprise any requirement according to lighting device of the present invention.For example, according to lighting device of the present invention can comprise 50 or more a plurality of light-emitting diode or can comprise 100 or more a plurality of light-emitting diode, or the like.Generally speaking, utilize present light-emitting diode, by utilize the more less light-emitting diode of big figure can obtain higher efficient (for example, under the same situation of other conditions, 100 light-emitting diodes, it has 0.1mm respectively
2Surface area, with respect to 25 light-emitting diodes, it has 0.4mm respectively
2Surface area).
Similarly, the light-emitting diode that generally moves under lower current densities is more efficient.Can adopt the light-emitting diode that draws any specific currents according to the present invention.In characteristics of the present invention, can adopt and draw the light-emitting diode that is no more than 50 milliamperes of electric currents.
Other embodiment can comprise less LED, and is few to having only a blue light and red-light LED respectively, and it can be the LED or the high-power LED of little chip; And be set to fully heat radiation so that under high electric current, operate.In the example of high-power LED, be possible up to the operation of 5A.
Any way setting be can adopt, solid-state light emitters and light-emitting component in the lighting device of the present invention assembled, also can adopt any way is described solid-state light emitters and light-emitting component power supply, also described solid-state light emitters and light-emitting component can be assembled in any desired shell or utensil.Those skilled in the art know multiple setting, trim designs, electric supply installation, shell and utensil, and these settings, design, device, shell and utensil all can be used for the present invention.Lighting device of the present invention can be electrically connected (or selectivity is connected) with any desired power supply, and those skilled in the art are very familiar to these power supplys.
On December 21st, 2005 application and name are called " lighting device " (inventor's: Gerald H.Negley, Antony Paul Ven de Ven and Neal Hunter) U.S. patent application case number 60/752, the configuration of the visible light source that discloses in 753, be used to install visible light source mode, be used to supply the device of electric power, be used for the housing of visible light source to visible light source, the exemplary embodiments (being applicable to lighting device of the present invention all) that is used for the light fixture of visible light source and is used for the power supply unit of visible light source, quote in full for your guidance at this.
Light-emitting diode and luminescent phosphor can be configured with any required style.In some embodiment that comprises 600nm to 630nm (dominant wavelength) light-emitting diode and 430nm to 480nm (peak wavelength) light-emitting diode according to the present invention, part or all of 600nm light-emitting diode is centered on by five or six 430nm to 480nm light-emitting diodes (part or all of light-emitting diode wherein can comprise or can not comprise 555nm to 585nm luminescent phosphor), for example, this 600nm to 630nm light-emitting diode and this 430nm to 480nm light-emitting diode are configured with the row of substantial transverse configuration, and essence is evenly spaced apart each other, each row and the adjacent row of the next one (in a longitudinal direction) laterally depart from half of distance between horizontal adjacent light-emitting diode, and in most position, between two 430nm to 480nm light-emitting diodes each 600nm to 630nm light-emitting diode and hithermost neighbor thereof in same column, and wherein in 600nm to the 630nm light-emitting diode row adjacent in each row with the next one (in a longitudinal direction) hithermost 600nm to 630 light-emitting diode depart from 1.5 times of distance between laterally spaced adjacent light-emitting diode.Alternatively or extraly, in some embodiment according to the present invention, the center of partly or entirely being set in the brighter light-emitting diode than these darker more close lighting devices of light-emitting diode.Generally speaking, preferably dispose the position of 430nm to 480nm (peak wavelength) light-emitting diode, so that the periphery of its more close light fixture, and 600nm to 630nm (dominant wavelength) light-emitting diode is arranged in the periphery of this light fixture.
The cooling device (fan that for example, has the special long life) that can further comprise one or more long lives according to equipment of the present invention.The cooling device of this long life can comprise can be as the piezoelectricity or the magnetoresistance material (magnetorestrictivematerial) (MR, GMR and/or HMR material for instance) of " Chinese fan (Chinese fan) " agitation air.In cooling device of the present invention, generally only needing is enough to break the air in boundary layer so that temperature is reduced by 10 to 15 degrees centigrade.Therefore, under these circumstances, generally do not need strong " wind " or big rate of flow of fluid (big CFM) (thereby avoiding needs to use traditional fan).
In some embodiment according to the present invention, can adopt any as the U.S. patent application case that is called " lighting device " (inventor: Thomas Coleman, Gerald H.Negley and Antony Van De Ven) on January 25th, 2006 application and name number 60/761 with cooling, feature described in 879 (for example, circuit), quote in full for your guidance at this.
Can comprise further that according to equipment of the present invention secondary optics is with the radiative emission characteristic of further change.For a person skilled in the art, secondary optics is well-known, therefore need not be described in detail at this.If desired, can adopt any secondary optics.
Can further comprise transducer or charging device or camera etc. according to equipment of the present invention.For example, those skilled in the art are familiar with and are using the equipment (motion detector, the motion of its detectable object or person for instance) that can detect one or more incidents, and respond described detection, the activation of this device trigger irradiate light and security cameras etc.As exemplary embodiments, an apparatus according to the invention can include according to lighting device of the present invention and motion sensor, and can make up like this: (1) is when irradiate light, if motion sensor detects motion, activate position or near the visualized data (visual data) it that the security cameras record detects motion; Or (2) if motion sensor detects motion, emits beam to throw light on near the position of detecting motion or its, and activates the security cameras record and detect the position of motion or near the visualized data it etc.
For the illumination of indoor dwelling house, the colour temperature of 2700K to 3500K is normally preferable; For the room lighting of the indoor place of commerce (for example office space) and in the general lighting in tropical geographic latitude area, by the indoor colour temperature of needs 3500 to 5000K; And for the outdoor floodlighting of colored scene, be preferable near the colour temperature of daylight 5000K (4500-6500K).
The present invention can be mutually integrated with any two or more structure members of the lighting device described in this application.The arbitrary structures parts of the lighting device described in the application can be made of (these parts can be combined if necessary) two or more parts.