View LACL-C2S-0425_8519559.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

l uxe on ? altilon luxeon altilon automotive forward lighting source technical datasheet ds66 introduction luxeon ? altilon leds are specifcally designed and tested to meet and exceed expectations for reliability, performance, and lifetime in automotive forward lighting applications. with advanced technologies, luxeon altilon meets both sae and ece color specifcations and provides fner granularity than existing systems. ppap documentation is available upon request. luxeon altilon leds provide signifcant fexibility and are superior led products for: ? high beam/low beam ? daytime running lights (drl) ? static bending lights ? position lamps ? afs functionality automotive forward lighting source g h
luxeon altilon datasheet ds66 20130320 2 product information ..................................................................................................................................................... 3 part number description ......................................................................................................................................... 3 test conditions for optical characteristics ....................................................................................................... 3 environmental compliance ....................................................................................................................................... 3 optical characteristics ................................................................................................................................................ 4 measured and typical optical performance by part number ........................................................................... 4 typical luminance performance .............................................................................................................................. 5 typical use condition matrixrelative flux ..................................................................................................... 5 typical relative luminous flux vs. forward current ........................................................................................ 6 typical relative luminous flux vs. case temperature ....................................................................................... 6 electrical characteristics ............................................................................................................................................. 7 typical electrical characteristics at temperature extremes ............................................................................. 8 typical dc forward current vs. forward voltage ................................................................................................ 9 absolute maximum ratings ...................................................................................................................................... 10 reliability expectations and thermal design requirements ............................................................................. 11 mechanical dimensions ............................................................................................................................................. 12 color bin defnitions ................................................................................................................................................. 14 laser marking defnitions ......................................................................................................................................... 15 flux bin defnitions .................................................................................................................................................... 16 typical spectrum ....................................................................................................................................................... 17 typical color vs. angle ............................................................................................................................................. 17 color shift vs. case temperature ............................................................................................................................ 18 color shift vs. dc drive current ........................................................................................................................... 19 typical radiation pattern ........................................................................................................................................... 20 packing information .................................................................................................................................................... 21 product labeling information ................................................................................................................................... 24 table of contents
luxeon altilon datasheet ds66 20130320 3 part number description luxeon altilon leds are tested and binned at 1000 ma, with current pulse duration of 20ms. luxeon altilon l a f l - c 2 s - x x x x standard prefx for luxeon altilon default number of chips - 2 or 4 solder or spade lugs - s or l minimum flux bin luxeon altilon core l a c l - c 2 s - x x x x standard prefx for luxeon altilon core default number of chips - 2 or 4 solder confguration minimum flux bin test conditions for optical characteristics junction temperature vs. case temperature philips lumileds specifes performance at constant case temperature for luxeon altilon. this datasheet specifes performance at constant case temperature of 25c, except where noted. the data sheet that follows will specify performance at constant case temperature of 25c. case temperature refers to the temperature of a thermocouple mounted under the head of one of the mounting screws, and is a value that can be measured rather than calculated (see figure 7). a junction-to-case thermal resistance of 2.1c/w is assumed for the 1x2 confguration and 1.4c/w for the 1x4 confguration. this approach will more accurately capture product performance capabilities compared to average junction temperature alone. environmental compliance philips lumileds is committed to providing environmentally friendly products to the lighting industry. luxeon altilon is compliant to the european union directives on the restriction of hazardous substances in electronic equipment, namely, the rohs, elv, and reach directives. philips lumileds will not intentionally add the following restricted materials to the luxeon altilon product: lead, mercury, cadmium, hexvalent chromium, polybrominated biphenyls (pbb), or polybrominated diphenyl ethers (pbde). product information
luxeon altilon datasheet ds66 20130320 4 measured and typical optical performance by part number table 1. measured test condition i000 ma pulsed operation (20 msec) part number form factor case temperature t c = 25c minimum luminous flux (lm) [i,2] lafl - c2* - 0350 1x2 350 luxeon altilon lafl - c2* - 0425 1x2 425 lafl - c2* - 0500 1x2 500 lafl - c4* - 0700 1x4 700 lafl - c4* - 0850 1x4 850 lafl - c4* - 0925 1x4 925 lafl - c4* - 1000 1x4 1000 lafl - c4* - 1050 1x4 1050 lacl - c2s - 0350 1x2 350 lacl - c2s - 0425 1x2 425 luxeon altilon core lacl - c2s - 0500 1x2 500 lacl - c4s - 0700 1x4 700 lacl - c4s - 0850 1x4 850 lacl - c4s - 0925 1x4 925 lacl - c4s - 1000 1x4 1000 lacl - c4s - 1050 1x4 1050 notes for table 1: 1. philips lumileds tests fux values via a pulsed measurement at a case temperature of 25c. 2. minimum luminous fux guaranteed within published operating conditions. philips lumileds maintains a tolerance of 10% on fux measurements. 3. * indicates the inclusion or exclusion of the spade lug connector, indicated with an l for spade lug, and an s for those parts without. see part number description below for more details. optical characteristics
luxeon altilon datasheet ds66 20130320 5 typical luminance performance typical luminance is calculated based on the total lumens emitted from the smallest rectangle covering the optical source. this method accounts for variations in chip and phosphor placement as well as spacing between discrete chips. figure 1 below indicates the orientation used to determine the source area used for luminance calculations. for the 1x4 confguration, the typical x and y dimensions are 4.51 and 1.06 mm, respectively. for the 1x2 confguration, the typical x and y dimensions are 2.21 and 1.06 mm, respectively. typical use condition matrixrelative flux normalized to t c = 25c, 1000 ma, 20 msec pulses the graphs on the next page predict the relative fux under various use conditions normalized to the test conditions of 1000 ma pulsed operation (20 msec pulse) at case temperature of 25c. these graphs can be used to determine the effects of case temperature and forward current on the values of minimum and typical fux to defne performance at the expected use condition. for example: given a fux at t c = 25c and 1000 ma (20 msec pulse) of 700 lm for 1x4 confguration, the fux value under different conditions can be predicted. if expected use condition is 700 ma at t c = 100c, the relative percentage of fux would be approximately 70% of the reference value. hence, the predicted fux at 700 ma and t c = 100c: 700 lm x 0.7 = 490 lm. y d im ension x d im ension figure 1. area surrounding optical source for luminance measurements.
luxeon altilon datasheet ds66 20130320 6 typical relative luminous flux vs. forward current typical relative luminous flux vs. case temperature 0 0.2 0.4 0.6 0.8 1 1.2 300 400 500 600 700 800 900 1000 1100 normalized luminous flux forward current (ma) -40 c 0 c 25 c 55 c 85 c 110 c 130 c case temperature figure 2. typical relative luminous fux vs. forward current. 1.4 350 ma 1.2 x 700 ma 1000 ma 08 1 nous flu x 0.6 0 . 8 i zed lumi 0.4 normal i 0.2 0 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 case temperature ( o c) figure 3. typical relative luminous fux vs. case temperature.
luxeon altilon datasheet ds66 20130320 7 electrical characteristics table 2. test condition 1000 ma pulsed operation dynamic form case temperature t c = 25c resistance [3] factor forward voltage v f [1,2] ( ) (v) r d min. typical max. 1x2 5.6 6.4 7.5 1.2 1x4 11.2 12.7 15.0 1.8 notes for table 2: 1. philips lumileds tests forward voltage values via a pulsed measurement at junction temperature of 25c. 2. philips lumileds maintains a tolerance of 0.06v on forward voltage measurements. 3. dynamic resistance is the inverse of the slope in linear forward voltage model for leds. esd protection diode esd protection diode 1x4 configuratio n 1x2 configuration figure 4. electrical schematic of forward lighting sources.
luxeon altilon datasheet ds66 20130320 8 typical electrical characteristics at temperature extremes table 3. typical condition typical condition 1000 ma dc operation 1000 ma dc operation form case temperature t c = - 40c case temperature t c = 130c factor forward voltage v f [1] forward voltage v f [1] (v) (v) min. typical max. min. typical max. 1x2 5.6 6.8 7.9 5.0 5.9 7.3 1x4 11.2 13.2 15.8 10.0 11.8 14.5 notes for table 3: 1. philips lumileds tests forward voltage values via a pulsed measurement at junction temperature of 25c. typical product performance at maximum and minimum allowable case temperature to allow for electronic driver design. values provided are guard banded to ensure that minimum and maximum values are not exceeded under stated use conditions.
luxeon altilon datasheet ds66 20130320 9 typical dc forward current vs. forward voltage the graphs below predict the change in forward voltage compared to the value at case temperature of 25c at 1000 ma under various use conditions. these graphs can be used to determine the effects of case temperature and forward current on the values of minimum, typical and maximum forward voltage to defne performance at the expected use condition. typical dc forward current vs. forward voltage 1x4 confguration typical dc forward current vs. forward voltage 1x2 confguration notes for figures 5 and 6: 1. all values compared to reference value at case temperature of 25c and 1000 ma dc forward current. 300 400 500 600 700 800 900 1000 1100 0.8 0.85 0.9 0.95 1 1.05 1.1 forward current (ma) normalized forward voltage -40 c 0 c 25 c 55 c 85 c 110 c 130 c case temperature figure 5. typical forward current vs. forward voltage for 1x4 confguration. 300 400 500 600 700 800 900 1000 1100 0.75 0.8 0.85 0.9 0.95 1 1.05 1.1 forward current (ma) normalized forward voltage -40 c 0 c 25 c 55 c 85 c 110 c 130 c case temperature figure 6. typical forward current vs. forward voltage for 1x2 confguration.
luxeon altilon datasheet ds66 20130320 10 absolute maximum ratings table 4. parameter value maximum dc forward current (ma) [1] 1100 minimum dc forward current (ma) [1] 100 maximum transient peak current 1500 ma for 10 ms maximum vf at 1000 ma & -40c [2] 15.8 volts (1x4) 7.9 volts (1x2) minimum vf at 1000 ma & 130c [3] 10.0 volts (1x4) 5.0 volts (1x2) maximum ac ripple 50 ma rms at 10 khz esd sensitivity [4] 8kv hbm, 2kv cdm, 400v mm storage temperature -40c to +130c minimum operating case temperature -40c maximum case temperature (1000 ma) [5] 130c maximum allowed solder pad temperature 270c, max. 30 sec. notes for table 4: 1. although no damage to the device will occur, driving these high power leds at drive currents below 350 ma or above 1000 ma may result in unpredictable performance. please consult your philips lumileds sales representative for further information. 2. product vf at 1000 ma operation, case temperature -40c after 1000 hours of operation at rated conditions. 3. product vf at 1000 ma operation, case temperature 130c after 1000 hours of operation at rated conditions. 4. measured using human body model, contact discharge method, and machine model (per aec-q101c). 5. maximum case temperature for short term operation only. see section on reliability expectation and thermal design requirements for recommendations on maximum case temperature to ensure life of vehicle performance. 6. leds are not designed to be driven in reverse bias. jedec moisture sensitivity table 6. level floor life time conditions 1 unlimited [ 30c /85% rh
luxeon altilon datasheet ds66 20130320 11 reliability expectations and thermal design requirements table 6. operating condition b50l80 b3l80 1000 ma, t c = 130c 15000hrs 5000 1000 ma, t c = 110c 40000 15000 700 ma, t c = 110c 75000 25000 500 ma, t c = 110c 120000 35000 notes for table 6: 1. as measured at the position indicated in figure 7. 2. lumen maintenance is a projected average value based on constant current operation while respecting the specifed maximum case temperature. observation of design limits included in this data sheet is required in order to achieve this projected lumen maintenance. 3. lifetime shown is an estimation of expected lifetimes (bxx, lyy) computed as 90% lower confdence limit of the luxeon altilon product as a function of drive current and case temperature. the lifetime estimates in the above table refect statistical fgures based on calculations of technical data and are subject to change. t o p v i e w v i e w y s i d e vie w v i e w y figure 7. case temperature measurement. luxeon altilon luxeon altilon core
luxeon altilon datasheet ds66 20130320 12 mechanical dimensions luxeon altilon notes for figure 8: 1. drawings are not to scale. 2. all dimensions are in millimeters. 3. tolerance, unless otherwise specifed: 0.10 mm. 4. materials: lead frame = tin brass; heat slug = copper; body = lcp, matte black. 5. lead frame and heat slug plated with 0.10 m gold over 2.5 m nickel. 6. cleanliness: parts are tested for solderability per mil-std-883, method 2003 & 2004. figure 8. mechanical dimensions for 1x2 solder pad confguration electrical connection.
luxeon altilon datasheet ds66 20130320 13 luxeon altilon core 1x4 luxeon altilon core 1x2 notes for figures 9 & 10: 1. drawings are not to scale. 2. all dimensions are in millimeters. 3. tolerance, unless otherwise specifed: 0.10 mm. 4. materials: base: copper; substrate: ceramic. 5. cleanliness: parts are tested for solderability per mil-std-883, method 2003 & 2004. luxeon altilon core 1x4 luxeon altilon core 1x2 figure 9. mechanical dimensions for 1x4 luxeon altilon core. luxeon altilon core 1x2 figure 10. mechanical dimensions for 1x2 luxeon altilon core.
luxeon altilon datasheet ds66 20130320 14 color bin defnitions case temperature t c = 25c, 1000 ma pulsed (20 msec) product is tested at 1000 ma pulsed (20 msec) at an operating case temperature of 25c. the color specifcation is defned in figure 11 and the coordinate table shown below. table 7. automotive color binning structure typical cct typical cct bin code x y (k) bin code x y (k) 0.32 0.323 0.317466 0.320438 b1 0.32 0.3488 5700 a1 0.314792 0.345467 6000 0.329 0.3546 0.32 0.3488 0.329 0.3308 0.32 0.323 0.329 0.3308 0.335 0.336 b3 0.329 0.3546 5500 a3 0.3375 0.36 5200 0.3375 0.36 0.346904 0.366019 0.335 0.336 0.344443 0.344232 notes for table 7: 1. typical cri (color rendering index) is 70. 2. philips lumileds maintains a tolerance of 0.005 on x and y chromaticity measurements. figure 11. luxeon altilon color binning structure. 0.295 0.305 0.315 0.325 0.335 0.345 0.355 0.365 0.375 0.305 0.310 0.315 0.320 0.325 0. 330 0.335 0.340 0. 345 0.350 0.355 y x sae/ece specification a1 b1 a3 b3
luxeon altilon datasheet ds66 20130320 15 laser marking defnitions laser marking defnition tileid + bincode + unit location at tile 123456-000 11 9999 tileid (yymmdd - serial running number) 123456-000 bincode (presented as pnp bin with lookup table 11 unit location at tile 9999 table 8. 1x2 lookup table pnp bin catcode 1 hb1a 2 jb1a 3 kb1a 4 lb1a 5 hb3a 6 jb3a 7 kb3a 8 lb3a 9 ha1a 10 ja1a 11 ka1a 12 la1a 13 ha3a 14 ja3a 15 ka3a 16 la3a 17 ra1a 18 ra3a 19 rb1a 20 rb3a table 9. 1x4 lookup table pnp bin bincat 51 mb1a 52 nb1a 53 pb1a 54 qb1a 55 mb3a 56 nb3a 57 pb3a 58 qb3a 59 ma1a 60 na1a 61 pa1a 62 qa1a 63 ma3a 64 na3a 65 pa3a 66 qa3a 67 sa1a 68 sa3a 69 sb1a 70 sb3a 71 wa1a 72 wa3a 73 wb1a 74 wb3a 75 xa1a 76 xa3a 77 xb1a 78 xb3a 79 ya1a 80 ya3a 81 yb1a 82 yb3a
luxeon altilon datasheet ds66 20130320 16 flux bin defnitions flux bin defnitions for case temperature t c = 25c, 1000 ma pulsed (20 msec) the table below shows the luminous fux bin structure, tested and binned at 1000 ma pulsed (20 msec), t c = 25c. table 10. applicable minimum photometric flux maximum photometric flux product bin code (lm) (lm) h 350 425 1x2 j 425 465 r 465 500 k 500 600 m 700 850 n 850 925 s 925 1000 1x4 p 1000 1050 w 1050 1100 x 1100 1150 y 1150 1200 q 1200 1400
luxeon altilon datasheet ds66 20130320 17 typical spectrum case temperature t c = 25c, 1000 ma pulsed (20 msec) typical color vs. angle applicable for dc current range of 350 ma to 1000 ma figure 12. color spectrum of typical cct part, integrated measurement. 0.8 1.0 y 0.4 0.6 0.8 1.0 n ormailized intensity 0.0 0.2 0.4 0.6 0.8 1.0 350 400 450 500 550 600 650 700 750 800 850 normailized intensity w l th ( ) 0.0 0.2 0.4 0.6 0.8 1.0 350 400 450 500 550 600 650 700 750 800 850 normailized intensity wavelength (nm) figure 13. typical color shift in x,y chromaticity over angle. 0 0.005 0.01 0.015 0.02 0.025 0.03 0.035 0.04 0.045 0.05 -80 -60 -40 -20 0 20 40 60 80 shift in color coordinate angular displacement x 1x2 y 1x2 x 1x4 y 1x4
luxeon altilon datasheet ds66 20130320 18 color shift vs. case temperature color shift vs. case temperature figure 14. typical change in x chromaticity vs. case temperature. 0 02 0.025 0.015 0 . 02 i nate 350 m a 700 ma 0.005 0.01 n x coord i 1000 ma 0 005 0 l or shift i n -0.01 - 0 . 005 co l -0.015 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 case temperature ( o c) figure 15. typical change in y chromaticity vs. case temperature. 0.02 0.025 350 a 0.015 d inate 350 m a 700 ma 0.005 0.01 i n y coor d 1000 ma -0.005 0 o lor shift i 0 015 -0.01 c o - 0 . 015 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 case temperature ( o c)
luxeon altilon datasheet ds66 20130320 19 color shift vs. dc drive current color shift vs. dc drive current figure 16. typical change in x chromaticity vs. drive current. -0.015 -0.01 -0.005 0 0.005 0.01 300 400 500 600 700 800 900 1000 1100 color shift in x coordinate forward current (ma) 0 c 25 c 55 c 85 c 110 c 130 c figure 17. typical change in y chromaticity vs. drive current. -0.02 -0.015 -0.01 -0.005 0 0.005 0.01 0.015 0.02 300 400 500 600 700 800 900 1000 1100 color shift in y coordinate forward current (ma) 0 c 25 c 55 c 85 c 110 c 130 c
luxeon altilon datasheet ds66 20130320 20 typical radiation pattern figure 18. typical representative spatial radiation pattern. 0.8 0.9 1 1.1 y 1 x 2 1 x 4 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 normalized intensity 1 x 2 1 x 4 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 normalized intensity angular displacement (degrees) 1 x 2 1 x 4 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 normalized intensity angular displacement (degrees) 1 x 2 1 x 4
luxeon altilon datasheet ds66 20130320 21 packing information the luxeon altilon product will be shipped in tubes as shown below. notes: 1. drawings are not to scale. 2. all dimensions are in millimeters. 3. tube length: 700 mm, capacity: 42 leds. 4. expected weight: full approximately 275g, empty approximately 120g. 5. material: clear pvc with esd-coating. tubes will be packed into bundles of 15 tubes maximum and shipped in boxes measuring 759mm long by 229mm wide by 81mm deep.
luxeon altilon datasheet ds66 20130320 22 luxeon altilon core packaging for 1x4 confguration
luxeon altilon datasheet ds66 20130320 23 luxeon altilon core packaging for 1x2 confguration
luxeon altilon datasheet ds66 20130320 24 product labeling information each tube of luxeon altilon will be labeled as shown below: qty = number of parts in shipping tube or reel cat code = four character alpha category code with fux bin, color bin, and voltage bin. in the example shown above, fux bin = n , color bin = b1 , and forward voltage bin = a (full distribution of voltage specifcation). part no. consists of standard notation lafl - c#s or lacl - c#s where # is the number of emitters. the last four character string is the minimum fux specifcation in lumens. each box will have a box label as shown below. the label indicates the part number of the luxeon altilon product with the cat code and the quantity of products contained inside the box.
company information ?2013 philips lumileds lighting company. all rights reserved. product specifcations are subject to change without notice. www.philipslumileds.com www.philipslumileds.cn.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, consumer electronics, 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.

▲Up To Search▲

Price & Availability of LACL-C2S-0425

	To Download LACL-C2S-0425 Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .