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luxeon ? z color and white led portfolio illuminating your creativity technical datasheet ds105 introduction luxeon ? z is a broad portfolio of color and white leds that enable never before seen lumen density, fexibility and freedom of design. available in the full spectrum of colors from 440nm to 670nm and select white color temperatures, luxeon z is ideal for entertainment/stage lighting, indoor and outdoor architectural lighting, emergency vehicle lighting, remote phosphor applications and a wide spectrum of specialty lighting applications. features ? 2.2 mm 2 micro footprint ? un-encapsulated ? tested and binned at 500 ma ? up to 1a max drive current ? up to 150c max tj benefts ? industrys leading lm/mm 2 for high fux density solution ? highest degree of design fexibility ? superior color mixing and beam control through choice of optics ? enables customizable light sources: linear, rectangular, circular. color and white led portfolio preliminary
luxeon z datasheet ds105 20120516 2 general product information ..................................................................................................................................... 3 product nomenclature .......................................................................................................................................... 3 flux and effcacy performance characteristics ...................................................................................................... 4 flux performance, binning, and supportability ................................................................................................. 5 optical characteristics ................................................................................................................................................ 6 electrical characteristics ............................................................................................................................................. 7 absolute maximum ratings .................................................................................................................................. 8 jedec moisture sensitivity ................................................................................................................................... 8 refow soldering characteristics .............................................................................................................................. 9 mechanical dimensions: luxeon z blue/green/royal-blue and cyan emitters ...................................... 10 mechanical dimensions: luxeon z white emitter ......................................................................................... 11 mechanical dimensions: luxeon z red, red-orange, amber and deep red emitters ......................... 12 pad confguration ....................................................................................................................................................... 13 solder pad design ................................................................................................................................................. 13 wavelength characteristics ...................................................................................................................................... 14 typical light output characteristics over temperature .................................................................................... 15 typical forward current characterisics ............................................................................................................... 16 typical relative luminous flux ................................................................................................................................ 17 typical radiation patterns ......................................................................................................................................... 18 emitter pocket tape packaging ................................................................................................................................. 21 emitter reel packaging .............................................................................................................................................. 23 luminous flux bins ..................................................................................................................................................... 24 forward voltage bins .................................................................................................................................................. 25 color bins ..................................................................................................................................................................... 26 table of contents
luxeon z datasheet ds105 20120516 3 product nomenclature the part number designation for luxeon z - color leds is explained as follows: l x z 1 - a b c d - e f g h where: a designates radiation pattern (value p for lambertian) b designates color (see luxeon z color binning and labeling section) c designates color variant (0 for color variants) d designates test current (value 1 for 350 ma; 2 for 700 ma.) e open slot to accommodate additional requirements per product and part number fgh minimum luminous fux (lm) or radiometric power (mw) performance the part number designation for luxeon z - white leds is explained as follows l x z 1 - a b c d - e f g h where: a 1 st digit of color temperature (e.g. 4 for 4000k, 3 for 3000k) b 2 nd digit of color temperature (e.g.: 0 for 4000k, 0 for 3000k) c 1 st digit of cri (e.g.: 6 for 60 cri, 8 for 85 cri) d 2 nd digit of cri (e.g.: 0 for 60 cri, 5 for 85 cri) e open slot to accommodate additional requirements per product and part number fgh minimum luminous fux (lm) general product information
luxeon z datasheet ds105 20120516 4 luminous flux characteristics for luxeon z color portfolio, thermal pad tem perature =25c table 1. min luminous typ effcacy typ luminous typ effcacy flux (lm) typ (lm/w) or flux (lm) or (lm/w) or part or radiometric flux wpe radiometric wpe color number power (mw) (lm/mw) power (mw) performance @ 500 ma performance @ 700 ma lxz1-pm01-0104 104 lxz1-pm01-0096 96 98 63 120 53 lxz1-pm01-0088 88 92 59 113 50 lxz1-pm01-0080 80 84 54 103 46 lxz1-pm01-0072 72 76 49 93 41 lxz1-pe01-0080 80 81 52 100 44 lxz1-pe01-0072 72 70 45 86 38 lxz1-pe01-0064 64 68 44 84 38 lxz1-pe01-0056 56 60 39 74 33 lxz1-pe01-0048 48 54 35 67 30 LXZ1-PB01-0048 48 50 34 65 30 lxz1-pb01-0040 40 44 30 57 27 lxz1-pb01-0032 32 38 26 49 23 lxz1-pb01-0024 24 30 21 39 19 lxz1-pr01-0600 600 620 43% 823 40% lxz1-pr01-0550 550 570 40% 757 37% lxz1-pr01-0500 500 530 37% 704 35% lxz1-pr01-0450 450 480 33% 637 31% lxz1-pa01-0350 350 360 34% 454 31% lxz1-pa01-0300 300 330 32% 416 29% lxz1-pa01-0250 250 280 26% 353 24% lxz1-pd01-0056 56 57 54 77 49 lxz1-pd01-0048 48 52 50 70 46 lxz1-pd01-0040 40 44 42 60 38 lxz1-pd01-0032 32 37 35 50 32 lxz1-ph01-0064 64 66 63 90 58 lxz1-ph01-0056 56 60 57 82 53 lxz1-ph01-0048 48 54 51 73 47 lxz1-pl01-0064 64 66 63 90 59 lxz1-pl01-0056 56 60 57 82 53 lxz1-pl01-0048 48 54 51 73 48 lxz1-pl01-0040 40 46 44 63 41 notes for table 1: 1. minimum luminous fux or radiometric power performance guaranteed within published operating conditions. philips lumileds maintains a tolerance of 6.5% on fux and power measurements. 2. typical luminous fux or radiometric power performance when device is operated within published operating conditions. flux and effcacy performance characteristics royal-blue blue green cyan red red-orange amber deep red
luxeon z datasheet ds105 20120516 5 flux and effcacy performance characteristics, continued luminous flux characteristics for luxeon z white, thermal pad tem perature =25c table 2. min luminous typ effcacy typ luminous typ effcacy flux (lm) typ (lm/w) or flux (lm) or (lm/w) or part or radiometric flux wpe radiometric wpe white number power (mw) (lm/mw) power (mw) performance @ 500 ma performance @ 700 ma lxz1-4070-0144 144 148 102 194 94 lxz1-4070-0134 134 140 96 183 88 lxz1-4070-0124 124 130 90 170 83 lxz1-4070-0114 114 122 85 160 78 flux performance, binning, and supportability leds are produced with semiconductor technology that is subject to process variation, yielding a range of fux performance that is approximately gaussian in nature. in order to provide customers with fne granularity within the overall fux distribution, philips lumileds separates leds into fxed, easy to design with, minimum luminous fux bins. to verify supportability of parts chosen for your application design, please consult your philips lumileds or future lighting solutions sales representative. 4000k/ 70 cri v olume luminous flux bins
luxeon z datasheet ds105 20120516 6 luxeon z color portfolio at test current [1] thermal pad temperature = 25c table 3. typical temperature typical typical coeffcient of total typical dominant wavelength [2] l d , spectral dominant or peak included viewing or peak wavelength [3] l p half-width [4] wavelength angle [5] angle [6] (nm) (nm/c) (degrees) (degrees) color min. typ. max. dl 1/2 dl d / d t j u 0.90v 2 u 1/2 green [7] 520.0 nm 530.0 nm 550.0 nm cyan [7] 490.0 nm 505.0 nm 520.0 nm blue [7] 460.0 nm 470.0 nm 490.0 nm royal-blue [3] [7] 440.0 nm 447.5 nm 460.0 nm red [8] 620.0 nm 627.0 nm 645.0 nm deep red [8] 650.0 nm 655.0 nm 670.0 nm red-orange [8] 610.0 nm 617.0 nm 620.0 nm amber [8] 584.5 nm 590.0 nm 597.0 nm pc amber [7] 588.0 nm 591.0 nm 592.0 nm notes for table 3: 1. lxml-pr01-xxxx, lxm2-pl01-xxxx and lxm3-pd01-xxxx emitters are tested at 350 ma, lxml-pr02-xxxx emitters are tested at 700 ma. 2. dominant wavelength is derived from the cie 1931 chromaticity diagram and represents the perceived color. philips lumileds maintains a tolerance of 0.5 nm for dominant wavelength measurements. 3. royal-blue and deep red leds are binned by radiometric power and peak wavelength rather than photometric lumens. philips lumileds maintains a tolerance of 2nm for peak wavelength measurements. 4. spectral width at ? of the peak intensity. 5. total angle at which 90% of total luminous fux is captured. 6. viewing angle is the off axis angle from lamp centerline where the luminous intensity is ? of the peak value. 7. pc amber, green, cyan, blue and royal-blue products are built with indium gallium nitride (ingan). 8. all red, deep red, red-orange, and amber are built with aluminum indium gallium phosphide (alingap). optical characteristics
luxeon z datasheet ds105 20120516 7 electrical characteristics at 500 ma for luxeon z colors, thermal pad temperature = 25oc table 4. forward typical temperature typical thermal forward voltage v f [1] voltage v f coeffcient of forward resistance junction to part @ 500 ma (v) @ 700 ma voltage [2] (mv/c) thermal pad (c/w) color number min. typ. max. typ. d v f / d t j r u j-c green lxz1-pm01 2.50 3.10 3.50 cyan lxz1-pe01 3.50 3.10 3.50 blue lxz1-pb01 3.50 3.00 3.50 royal-blue lxml-pr01 3.50 2.90 3.50 red lxz1-pd01 1.75 2.15 2.75 deep red lxz1-pa01 1.75 2.15 2.75 red-orange lxz1-ph01 1.75 2.15 2.75 amber lxz1-pl01 1.75 2.15 2.75 notes for table 4: 1. luxeon z royal-blue measured between 25c = tj = 110c and if = 700 ma. 2. measured between 25c = t j = 110c at i f = 350 ma. 3. philips lumileds maintains a tolerance of 0.06v on forward voltage measurements. electrical characteristics at 500 ma for luxeon z white, thermal pad temperature = 25oc table 5. forward typical temperature typical thermal forward voltage v f [1] voltage v f coeffcient of forward resistance junction to part @ 500 ma (v) @ 700 ma voltage [2] (mv/c) thermal pad (c/w) white number min. typ. max. typ. d v f / d t j r u j-c 4000k/70cri lxz1-4070 2.50 2.90 3.50 electrical characteristics
luxeon z datasheet ds105 20120516 8 absolute maximum ratings table 6. parameter green/cyan/ red/deep-red white blue/royal-blue red-orange/amber 4000k dc forward current (ma) 1000 700 700 peak pulsed forward 1000 700 700 current (ma) esd sensitivity jesd22-a114-b led junction temperature [1] 150c 135c 130c operating case temperature -40c - 135c -40c - 120c -40c - 110c at 350 ma storage temperature -40c - 135c -40c - 135c -40c - 135c soldering temperature jedec 020c 260c jedec 020c 260c jedec 020c 260c allowable refow cycles 3 3 3 autoclave conditions 121c at 2 atm 100% relative humidity for 96 hours maximum reverse voltage (vr) luxeon rebel color portfolio leds are not designed to be driven in reverse bias. notes for table 6: 1. proper current derating must be observed to maintain junction temperature below the maximum. 2. the maximum rating for luxeon z royal-blue is 1200 ma with peak pulsed forward current not to exceed 60 seconds. jedec moisture sensitivity table 7. soak requirements level floor life standard time conditions time conditions (hours) 1 unlimited [ 30c / 168 85c / 85% 85% rh + 5 / -0 rh
luxeon z datasheet ds105 20120516 9 table 8. profle feature lead free assembly average ramp-up rate (ts max to t p ) 3c / second max preheat temperature min (ts min ) 150c preheat temperature max (ts max ) 200c preheat time (ts min to ts max ) 60 - 180 seconds temperature t l (t l ) 217c time maintained above temperature t l (t l ) 60 - 150 seconds peak / classifcation temperature (t p ) 260c time within 5c of actual peak temperature (t p ) 20 - 40 seconds ramp-down rate 6c / second max time 25c to peak temperature 8 minutes max note for table 8: - all temperatures refer to the application printed circuit board (pcb), measured on the surface adjacent to the package body. refow soldering characteristics jedec 020c
luxeon z datasheet ds105 20120516 10 mechanical dimensions: luxeon z blue/green/royal- blue and cyan emitters figure 1. package outline drawing. notes for figure 1: - to avoid damage, do not handle the device by the emitter lens. - drawings not to scale. - all dimensions are in millimeters. - the thermal pad is electrically isolated from the anode and cathode contact pads.
luxeon z datasheet ds105 20120516 11 mechanical dimensions: luxeon z white emitter figure 2. package outline drawing. notes for figure 2: - to avoid damage, do not handle the device by the emitter lens. - drawings not to scale. - all dimensions are in millimeters. - the thermal pad is electrically isolated from the anode and cathode contact pads.
luxeon z datasheet ds105 20120516 12 mechanical dimensions: luxeon z red, red-orange, amber and deep red emitters figure 3. package outline drawing. notes for figure 3: - to avoid damage, do not handle the device by the emitter lens. - drawings not to scale. - all dimensions are in millimeters. - the thermal pad is electrically isolated from the anode and cathode contact pads.
luxeon z datasheet ds105 20120516 13 pad confguration data coming soon. solder pad design data coming soon. figure 4. pad confguration. figure 5. solder pad layout.
luxeon z datasheet ds105 20120516 14 wavelength characteristics green, cyan, blue, all royal-blue, red, red-orange and amber at test current, thermal pad temperature = 25c figure 6. relative intensity vs. wavelength. 0.8 1.0 0.6 0.4 0.2 0.0 400 450 500 550 600 650 700 relative spectral power distribution wa velength (nm) red- orange red amber green cyan blue royal blue deep red
luxeon z datasheet ds105 20120516 15 typical light output characteristics over temperature 1.1 1.0 t flux 0.9 u s/radian 0.8 e lumino u 06 0.7 relativ e green (lxz1-pm01) photometric cyan (lxz1-pm01) photometric 0.5 0 . 6 blue (lxz1-pb01) photometric royal blue (lxz1-pr01) radiometric 20 30 40 50 60 70 80 90 thermal pad temperature (c) figure 7. relative light output vs. thermal pad temperature for cyan, blue, green and royal-blue luxeon z at test current. 1.2 1.0 x 0.8 nous flu x 0.6 a tive lumi 0.4 rel a amber (lxz1-pl01) deep red (lxz1-pa01) 00 0.2 red (lxz1-pd01) red orange (lxz1-ph01) 0 . 0 20 30 40 50 60 70 80 90 thermal pad temperature (c) figure 8. relative light output vs. thermal pad temperature for red, deep red, red-orange and amber luxeon z at test current. 1.1 1.0 x 0.9 i nous flu x 0.8 a tive lum i 06 0.7 rel a 0.5 0 . 6 white (lxz1-4070) 20 30 40 50 60 70 80 90 thermal pad temperature (c) figure 9. relative light output vs. thermal pad temperature for white luxeon z at test current.
luxeon z datasheet ds105 20120516 16 typical forward current characterisics 1200 1000 royal blue (lxz1-pr01) blue (lxz1-pb01) 800 e nt (ma) cyan (lxz1-pe01) green (lxz1-pm01) 600 w ard curr e 400 for w 0 200 0 1.8 2.3 2.8 3.3 3.8 forward voltage (v) figure 10. forward current vs. forward voltage for green, cyan, blue and royal-blue luxeon z at thermal pad temperature = 25oc. 1200 amber (lxz1-pl01) 1000 deep red (lxz1-pa01) red (lxz1-pd01) 800 r ent (ma) red orange (lxz1-ph01) 600 w ard cur r 200 400 for w 0 200 1.8 2 2.2 2.4 2.6 2.8 3 forward voltage (v) figure 11. forward current vs. forward voltage for red, deep red, red-orange and amber luxeon z at thermal pad temperature = 25oc. 1200 white ( lxz1-4070 ) 1000 ( ) 800 n t (ma) 600 a rd curre n 200 400 forw a 0 200 2.4 2.5 2.6 2.7 2.8 2.9 3 3.1 3.2 forward voltage (v) figure 12. forward current vs. forward voltage for white luxeon z at thermal pad temperature = 25oc.
luxeon z datasheet ds105 20120516 17 typical relative luminous flux 1.8 2.0 14 1.6 n t flux 1.2 1 . 4 u s/radia n 0.8 1.0 e lumino u 0.4 0.6 relativ e royal blue (lzx1-pr01) radiometric blue (lxz1-pb01) photometric cyan (lxz1-pe01) photometric 0.0 0.2 green (lzx1-mp01) photometric 0 200 400 600 800 1000 1200 forward current (ma) figure 13. typical relative luminous fux vs. forward current for green, cyan, blue & royal-blue luxeon z at thermal pad temperature = 25oc. 1.8 2.0 1.6 1.2 1.4 n ous flux 0.8 1.0 t ive lumi n 0.4 0.6 rela t amber (lxz1-pl01) deep red (lxz1 - pa01) 00 0.2 deep red (lxz1 pa01) red (lxz1-pd01) red orange (lxz1-ph01) 0 . 0 0 200 400 600 800 1000 1200 forward current (ma) figure 14. typical relative luminous fux vs. forward current for red, deep red, red-orange & amber luxeon z at thermal pad temperature = 25oc. 18 2.0 1.6 1 . 8 1.2 1.4 u s flux 0.8 1.0 e lumino u 0.4 0.6 relativ e whi te ( lxz1-4 0 7 0) 00 0.2 te ( 0 0) 0 . 0 0 200 400 600 800 1000 1200 forward current (ma) figure 15. typical relative luminous fux vs. forward current for white luxeon z at thermal pad temperature = 25oc.
luxeon z datasheet ds105 20120516 18 typical radiation patterns luxeon z typical spatial radiation pattern for green, cyan, blue and royal-blue luxeon z typical polar radiation pattern for green, cyan, blue and royal-blue 120% 100% 80% y (%) 60% e intensit y 40% relativ e blue (lxz1-pb01) cyan (lxz1-pe01) green (lxz1-pm01) 20% royal blue (lxz1-pr01) 0% -90 -75 -60 -45 -30 -15 0 15 30 45 60 75 90 anglular displacement (deg) figure 16. typical spatial radiation pattern for green, cyan, blue and royal-blue luxeon z. 1 0 0.6 0.8 30 -30 0.2 0.4 60 -60 0 90 -90 120 -120 blue (lxz1-pb01) cyan (lxz1-pe01) green (lxz1-pm01) royal blue (lxz1-pr01) 150 180 -150 180 figure 17. typical polar radiation pattern for green, cyan, blue and royal-blue luxeon z.
luxeon z datasheet ds105 20120516 19 luxeon z typical spatial radiation pattern for red, red-orange and deep red luxeon z typical polar radiation pattern for red, red-orange and deep red 120% 100% 80% n sity (%) 60% a tive inte n red (lxz1-pd01) 40% rel a red orange (lxz1-ph01) deep red (lxz1-pa01) 0% 20% 0% -90 -75 -60 -45 -30 -15 0 15 30 45 60 75 90 anglular displacement (deg) figure 18. typical spatial radiation pattern for red, red-orange and deep red. 1 0 0.6 0.8 30 -30 0.2 0.4 60 -60 0 90 -90 120 -120 deep red (lxz1-pa01) red orange (lxz1-ph01) red (lxz1 - pd01) 150 180 -150 red (lxz1 pd01) 180 figure 19. typical polar radiation pattern for red, red-orange and deep red.
luxeon z datasheet ds105 20120516 20 luxeon z typical spatial radiation pattern for amber luxeon z typical polar radiation pattern for amber 120% 100% 80% ty (%) 60% v e intensi 40% relati v amber (lxz1 - pl01) 20% amber (lxz1 pl01) 0% -90 -75 -60 -45 -30 -15 0 15 30 45 60 75 90 anglular displacement (deg) figure 20. typical spatial radiation pattern for deep red lambertian. 1 0 0.6 0.8 30 -30 0.2 0.4 60 -60 0 90 -90 120 -120 amber (lxz1-pl01) 150 180 -150 180 figure 21. typical polar radiation pattern for deep red lambertian.
luxeon z datasheet ds105 20120516 21 emitter pocket tape packaging figure 22. emitter pocket tape packaging for blue, green, royal-blue and cyan.
luxeon z datasheet ds105 20120516 22 figure 23. emitter pocket tape packaging for red, red-orange, amber and deep red.
luxeon z datasheet ds105 20120516 23 emitter reel packaging figure 24. emitter reel packaging.
luxeon z datasheet ds105 20120516 24 luminous flux bins tables 9 and 10 list the standard photometric luminous fux/radiometric power bins for luxeon z colors and luxeon z white emitters (tested and binned at 350 ma and 700 ma respectively). although several bins are outlined, product availability in a particular bin varies by production run and by product performance. not all bins are available in all colors. table 9. luxeon z flux bins - all colors and white bin code minimum flux (lm) maximum flux (lm) a 24 32 b 32 40 c 40 48 d 48 56 e 56 64 f 64 72 g 72 80 h 80 88 j 88 96 k 96 104 l 104 114 m 114 124 n 124 134 p 134 144 q 144 154 r 154 164 table 10. luxeon z radiometric power bins for royal-blue and deep red bin code minimum radiometric flux (mw) maximum radiometric flux (mw) a 250 300 b 300 350 c 350 400 d 400 450 e 450 500 f 500 550 g 550 600 h 600 650 i 650 700 j 700 750 k 750 800
luxeon z datasheet ds105 20120516 25 forward voltage bins the following forward voltage bins include the minimum and maximum v f bin values for the emitter. although several bins are outlined, product availability in a particular bin varies by production run and by product performance. table 11. voltage bins v f bins minimum forward voltage maximum forward voltage bin code (v) (v) 1 1.75 2.00 2 2.00 2.25 3 2.25 2.50 4 2.50 2.75 5 2.75 3.00 6 3.00 3.25 7 3.25 3.50
luxeon z datasheet ds105 20120516 26 color bins dominant wavelength bin structure for luxeon z green table 12. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 1 520 525 2 525 530 3 530 535 4 535 540 dominant wavelength bin structure for luxeon z cyan table 13. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 1 490 498 2 498 508 dominant wavelength bin structure for luxeon z blue table 14. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 1 460 465 2 465 470 3 470 475 4 475 480 dominant wavelength bin structure for luxeon z royal-blue table 15. minimum peakwavelength maximum peak wavelength bin code (nm) (nm) 3 440 445 4 445 450 5 450 455 6 455 460 dominant wavelength bin structure for luxeon z red table 16. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 4 620 630 5 630 640
luxeon z datasheet ds105 20120516 27 dominant wavelength bin structure for luxeon z red-orange table 17. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 2 610 620 dominant wavelength bin structure for luxeon z amber table 18. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 1 584 587 2 587 590 4 590 592 6 592 595 dominant wavelength bin structure for luxeon z deep red table 19. minimum dominant wavelength maximum dominant wavelength bin code (nm) (nm) 6 650 660 7 660 670
company information ?2012 philips lumileds lighting company. all rights reserved. product specifcations are subject to change without notice. luxeon is a registered trademark of the philips lumileds lighting company in the united states and other countries. www.philipslumileds.com www.philipslumileds.cn.com www.futurelightingsolutions.com for technical assistance or the location of your nearest sales offce contact any of the following: north america: 1 888 589 3662 americas@futurelightingsolutions.com europe: 00 800 443 88 873 europe@futurelightingsolutions.com asia pacifc: 800 5864 5337 asia@futurelightingsolutions.com japan: 800 5864 5337 japan@futurelightingsolutions.com philips lumileds is a leading provider of leds for everyday lighting applications. the companys records for light output, effcacy and thermal management are direct results of the ongoing commitment to advancing solid-state lighting technology and enabling lighting solutions that are more environmentally friendly, help reduce co 2 emissions and reduce the need for power plant expansion. philips lumileds luxeon ? leds are enabling never before possible applications in outdoor lighting, shop lighting, home lighting, digital imaging, display and automotive lighting. philips lumileds is a fully integrated supplier, producing core led material in all three base colors, (red, green, blue) and white. philips lumileds has r&d centers in san jose, california and in the netherlands, and production capabilities in san jose, singapore and penang, malaysia. founded in 1999, philips lumileds is the high fux led technology leader and is dedicated to bridging the gap between solid-state technology and the lighting world. more information about the companys luxeon led products and solid-state lighting technologies can be found at www.philipslumileds.com.

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