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| 10/07/2017 v6.0 1 data sheet : primaxplus 100 ingan warm white : PQF-SSG all rights reserved. product specifcations are subject to change without notice. applications: > automotive interior lighting (dome lamp, map lighting, and trunk lighting) > industrial illumination. > white goods lighting. dominant opto technologies innovating illumination tm features: > super high brightness surface mount led > 120 viewing angle. > compact package outline (lxw) of 3.7 x 3.5 mm. > ultra low height profile - 0.8mm. > low thermal resistance. > compatible to ir reflow soldering. > environmental friendly; rohs compliance. > compliance to automotive standard; aec-q101. > passed corrosion resistant test. appx. 4.1 primax synonymous with function and performance, enter the primax, the new era of high intensity illumination in led. with its high flux output and high luminous intensity, primax transcends today led lightings technology and how we perceive it. the small package outline and high intensity make it an ideal choice for backlighting, signage, exterior automotive lighting and decorative lighting.
10/07/2017 v6.0 2 electrical characteristics at tj=25 0 c vf @ if = 100 ma appx. 3.1 3.1 part number min. (v) typ. (v) max. (v) PQF-SSG 2.8 3.4 unit absolute maximum ratings maximum value dc forward current peak pulse current (tp 10ms, duty cycle = 0.5) reverse voltage esd threshold (hbm) led junction temperature operating temperature storage temperature thermal resistance - real thermal resistance junction / ambient, r th ja real (typ = 90k/w) junction / solder point, r th js real (typ = 30k/w) (mounting on dominant standard pcb) 180 360 5 2000 150 -40 +125 -40 +125 120 45 ma ma v v ?c ?c ?c k/w k/w v r @ i r = 10ua min. (v) 5 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm part ordering number color viewing angle? luminous flux @ 100ma (lm) appx. 1.2 PQF-SSG-qr3-1 warm white 120 30.6 optical characteristics at tj=25 0 c min. typ. max. 39.8 51.7 notes: 1. high color rendering index (cri). minimum cri of 80. 10/07/2017 v6.0 3 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm PQF-SSG, color grouping appx. 2.1 color bin structure bin 4u 5u 6u 7u 8u 9u 4v 5v 6v 7v 8v 9v 0.4330 0.3800 0.4370 0.3890 0.4420 0.3980 0.4470 0.4080 0.4510 0.4170 0.4560 0.4260 0.4380 0.3810 0.4430 0.3910 0.4480 0.4000 0.4530 0.4090 0.4580 0.4180 0.4620 0.4270 cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy 0.4370 0.3890 0.4420 0.3980 0.4470 0.4080 0.4510 0.4170 0.4560 0.4260 0.4610 0.4350 0.4430 0.3910 0.4480 0.4000 0.4530 0.4090 0.4580 0.4180 0.4620 0.4270 0.4670 0.4370 0.4430 0.3910 0.4480 0.4000 0.4530 0.4090 0.4580 0.4180 0.4620 0.4270 0.4670 0.4370 0.4480 0.3920 0.4530 0.4010 0.4590 0.4100 0.4640 0.4200 0.4690 0.4290 0.4740 0.4380 0.4380 0.3810 0.4430 0.3910 0.4480 0.4000 0.4530 0.4090 0.4580 0.4180 0.4620 0.4270 0.4430 0.3830 0.4480 0.3920 0.4530 0.4010 0.4590 0.4100 0.4640 0.4200 0.4690 0.4290 1 2 3 4 0.320 0.330 0.340 0.350 0.360 0.370 0.380 0.390 0.400 0.410 0.420 0.430 0.440 0.450 0.460 0.340 0.350 0.360 0.370 0.380 0.390 0.400 0.410 0.420 0.430 0.440 0. 450 0.460 0.470 0.480 0.490 0.500 5 6 j l m k 7 p 5 n o 4 8 6 9 q r s t u v w x 4500k 4000k 3000k 2700k 4 8 7 7 5 4 8 6 9 q r s t u v w x 3500k 10/07/2017 v6.0 4 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm bin 4w 5w 6w 7w 8w 9w 4x 5x 6x 7x 8x 9x 4r 5r 6r 7r 8r 9r 4s 5s 6s 7s 8s 9s 4t 0.4430 0.3830 0.4480 0.3920 0.4530 0.4010 0.4590 0.4100 0.4640 0.4200 0.4690 0.4290 0.4480 0.3840 0.4540 0.3930 0.4590 0.4020 0.4640 0.4120 0.4700 0.4210 0.4750 0.4300 0.4110 0.3730 0.4150 0.3810 0.4190 0.3900 0.4220 0.3990 0.4260 0.4080 0.4300 0.4170 0.4180 0.3750 0.4220 0.3840 0.4260 0.3930 0.4300 0.4020 0.4350 0.4110 0.4390 0.4200 0.4250 0.3780 cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy 0.4480 0.3920 0.4530 0.4010 0.4590 0.4100 0.4640 0.4200 0.4690 0.4290 0.4740 0.4380 0.4540 0.3930 0.4590 0.4020 0.4640 0.4120 0.4700 0.4210 0.4750 0.4300 0.4800 0.4400 0.4150 0.3810 0.4190 0.3900 0.4220 0.3990 0.4260 0.4080 0.4300 0.4170 0.4340 0.4250 0.4220 0.3840 0.4260 0.3930 0.4300 0.4020 0.4350 0.4110 0.4390 0.4200 0.4430 0.4290 0.4300 0.3870 0.4540 0.3930 0.4590 0.4020 0.4640 0.4120 0.4700 0.4210 0.4750 0.4300 0.4800 0.4400 0.4590 0.3940 0.4650 0.4040 0.4700 0.4130 0.4760 0.4230 0.4810 0.4320 0.4870 0.4410 0.4220 0.3840 0.4260 0.3930 0.4300 0.4020 0.4350 0.4110 0.4390 0.4200 0.4430 0.4290 0.4300 0.3870 0.4340 0.3960 0.4390 0.4050 0.4430 0.4140 0.4470 0.4230 0.4520 0.4320 0.4370 0.3890 0.4480 0.3840 0.4540 0.3930 0.4590 0.4020 0.4640 0.4120 0.4700 0.4210 0.4750 0.4300 0.4540 0.3850 0.4590 0.3940 0.4650 0.4040 0.4700 0.4130 0.4760 0.4230 0.4810 0.4320 0.4180 0.3750 0.4220 0.3840 0.4260 0.3930 0.4300 0.4020 0.4350 0.4110 0.4390 0.4200 0.4250 0.3780 0.4300 0.3870 0.4340 0.3960 0.4390 0.4050 0.4430 0.4140 0.4470 0.4230 0.4330 0.3800 1 2 3 4 10/07/2017 v6.0 5 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm bin 5t 6t 7t 8t 9t 4o 5o 6o 7o 8o 9o 4p 5p 6p 7p 8p 9p 4q 5q 6q 7q 8q 9q 4l 5l 0.4300 0.3870 0.4340 0.3960 0.4390 0.4050 0.4430 0.4140 0.4470 0.4230 0.3860 0.3610 0.3890 0.3690 0.3910 0.3770 0.3940 0.3850 0.3970 0.3930 0.4000 0.4010 0.3940 0.3650 0.3980 0.3730 0.4010 0.3810 0.4040 0.3900 0.4070 0.3980 0.4100 0.4060 0.4030 0.3690 0.4060 0.3770 0.4100 0.3860 0.4130 0.3940 0.4160 0.4030 0.4200 0.4120 0.3650 0.3480 0.3670 0.3580 cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy 0.4340 0.3960 0.4390 0.4050 0.4430 0.4140 0.4470 0.4230 0.4520 0.4320 0.3890 0.3690 0.3910 0.3770 0.3940 0.3850 0.3970 0.3930 0.4000 0.4010 0.4030 0.4100 0.3980 0.3730 0.4010 0.3810 0.4040 0.3900 0.4070 0.3980 0.4100 0.4060 0.4130 0.4150 0.4060 0.3770 0.4100 0.3860 0.4130 0.3940 0.4160 0.4030 0.4200 0.4120 0.4230 0.4200 0.3670 0.3580 0.3690 0.3680 0.4420 0.3980 0.4470 0.4080 0.4510 0.4170 0.4560 0.4260 0.4610 0.4350 0.3980 0.3730 0.4010 0.3810 0.4040 0.3900 0.4070 0.3980 0.4100 0.4060 0.4130 0.4150 0.4060 0.3770 0.4100 0.3860 0.4130 0.3940 0.4160 0.4030 0.4200 0.4120 0.4230 0.4200 0.4150 0.3810 0.4190 0.3900 0.4220 0.3990 0.4260 0.4080 0.4300 0.4170 0.4340 0.4250 0.3750 0.3620 0.3770 0.3730 0.4370 0.3890 0.4420 0.3980 0.4470 0.4080 0.4510 0.4170 0.4560 0.4260 0.3940 0.3650 0.3980 0.3730 0.4010 0.3810 0.4040 0.3900 0.4070 0.3980 0.4100 0.4060 0.4030 0.3690 0.4060 0.3770 0.4100 0.3860 0.4130 0.3940 0.4160 0.4030 0.4200 0.4120 0.4110 0.3730 0.4150 0.3810 0.4190 0.3900 0.4220 0.3990 0.4260 0.4080 0.4300 0.4170 0.3720 0.3520 0.3750 0.3620 1 2 3 4 10/07/2017 v6.0 6 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm bin 6l 7l 8l 4m 5m 6m 7m 8m 4n 5n 6n 7n 8n 4j 5j 6j 7j 8j 4k 5k 6k 7k 8k 0.3690 0.3680 0.3710 0.3780 0.3740 0.3870 0.3720 0.3520 0.3750 0.3620 0.3770 0.3730 0.3800 0.3830 0.3830 0.3930 0.3790 0.3560 0.3820 0.3670 0.3850 0.3780 0.3880 0.3880 0.3920 0.3990 0.3500 0.3370 0.3510 0.3470 0.3520 0.3560 0.3540 0.3650 0.3550 0.3740 0.3570 0.3430 0.3590 0.3520 0.3610 0.3620 0.3630 0.3710 0.3640 0.3810 ingan wavelength is very sensitive to drive current. operating at lower current is not recommended and may yield unpredictable performance current pulsing should be used for dimming purposed. cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy cx cy 0.3710 0.3780 0.3740 0.3870 0.3760 0.3970 0.3750 0.3620 0.3770 0.3730 0.3800 0.3830 0.3830 0.3930 0.3850 0.4030 0.3820 0.3670 0.3850 0.3780 0.3880 0.3880 0.3920 0.3990 0.3950 0.4090 0.3510 0.3470 0.3520 0.3560 0.3540 0.3650 0.3550 0.3740 0.3560 0.3830 0.3590 0.3520 0.3610 0.3620 0.3630 0.3710 0.3640 0.3810 0.3660 0.3900 0.3800 0.3830 0.3830 0.3930 0.3850 0.4030 0.3820 0.3670 0.3850 0.3780 0.3880 0.3880 0.3920 0.3990 0.3950 0.4090 0.3900 0.3720 0.3930 0.3830 0.3970 0.3930 0.4010 0.4040 0.4040 0.4150 0.3590 0.3520 0.3610 0.3620 0.3630 0.3710 0.3640 0.3810 0.3660 0.3900 0.3670 0.3580 0.3690 0.3680 0.3710 0.3780 0.3740 0.3870 0.3760 0.3970 0.3770 0.3730 0.3800 0.3830 0.3830 0.3930 0.3790 0.3560 0.3820 0.3670 0.3850 0.3780 0.3880 0.3880 0.3920 0.3990 0.3860 0.3610 0.3900 0.3720 0.3930 0.3830 0.3970 0.3930 0.4010 0.4040 0.3570 0.3430 0.3590 0.3520 0.3610 0.3620 0.3630 0.3710 0.3640 0.3810 0.3650 0.3480 0.3670 0.3580 0.3690 0.3680 0.3710 0.3780 0.3740 0.3870 1 2 3 4 10/07/2017 v6.0 7 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm q2 q3 r2 r3 30.6 ... 34.8 34.8 ... 39.8 39.8 ... 45.2 45.2 ... 51.7 brightness group luminous flux (lm) appx. 1.2 luminous intensity group at tj=25 0 c vf binning (optional) forward voltage (v) appx. 3.1 vf @ if = 100ma v1 v2 v3 2.80 ... 3.00 3.00 ... 3.20 3.20 ... 3.40 please consult sales and marketing for special part number to incorporate vf binning. 10/07/2017 v6.0 8 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) forward current i f (ma) forward current i f (ma) relative luminous flux rel forward current i f (ma) forward current i f (ma relative spectral emission rel = f(); t j = 25c; i f = 100ma relative luminous flux rel wavelength (nm) ?cx, ?cy allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c ; t p 10 ms ) duty ratio, % temperature t(c) maximum current vs temperature i f =f(t) 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 relative luminous flux rel forward current i f forward current i f (ma) relative lumionous flux vs forward current v / v (100ma) = f(i f ); t j = 25c forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 350 400 450 500 550 600 650 700 750 800 850 relative luminous flux rel relative spectral emission rel = f( ); t j = 25c; i f = 100ma wavelength (nm) forward current i f (ma) maximum current vs temperature i f = f (t) temperature t(c) allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c; t p 10ms ) duty ratio, % 10 100 1000 0.1 1 10 100 t a t s 0 20 40 60 80 100 120 140 160 180 200 0 20 40 60 80 100 120 140 t a = ambient temperature t s = solder point temperature relative luminous flux vs forward current v / v (100ma) = f(i f ); t j = 25c 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 relative luminous flux rel forward current i f forward current i f (ma) relative lumionous flux vs forward current v / v (100ma) = f(i f ); t j = 25c forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 350 400 450 500 550 600 650 700 750 800 850 relative luminous flux rel relative spectral emission rel = f( ); t j = 25c; i f = 100ma wavelength (nm) forward current i f (ma) maximum current vs temperature i f = f (t) temperature t(c) allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c; t p 10ms ) duty ratio, % 10 100 1000 0.1 1 10 100 t a t s 0 20 40 60 80 100 120 140 160 180 200 0 20 40 60 80 100 120 140 t a = ambient temperature t s = solder point temperature 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 relative luminous flux rel forward current i f forward current i f (ma) relative lumionous flux vs forward current v / v (100ma) = f(i f ); t j = 25c forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 350 400 450 500 550 600 650 700 750 800 850 relative luminous flux rel relative spectral emission rel = f( ); t j = 25c; i f = 100ma wavelength (nm) forward current i f (ma) maximum current vs temperature i f = f (t) temperature t(c) allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c; t p 10ms ) duty ratio, % 10 100 1000 0.1 1 10 100 t a t s 0 20 40 60 80 100 120 140 160 180 200 0 20 40 60 80 100 120 140 t a = ambient temperature t s = solder point temperature 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 relative luminous flux rel forward current i f forward current i f (ma) relative lumionous flux vs forward current v / v (100ma) = f(i f ); t j = 25c forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 350 400 450 500 550 600 650 700 750 800 850 relative luminous flux rel relative spectral emission rel = f( ); t j = 25c; i f = 100ma wavelength (nm) forward current i f (ma) maximum current vs temperature i f = f (t) temperature t(c) allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c; t p 10ms ) duty ratio, % 10 100 1000 0.1 1 10 100 t a t s 0 20 40 60 80 100 120 140 160 180 200 0 20 40 60 80 100 120 140 t a = ambient temperature t s = solder point temperature 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 relative luminous flux rel forward current i f forward current i f (ma) relative lumionous flux vs forward current v / v (100ma) = f(i f ); t j = 25c forward current vs forward voltage i f = f(v f ); t j = 25c forward voltage v f (v) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 350 400 450 500 550 600 650 700 750 800 850 relative luminous flux rel relative spectral emission rel = f( ); t j = 25c; i f = 100ma wavelength (nm) forward current i f (ma) maximum current vs temperature i f = f (t) temperature t(c) allowable forward current i f ( ma ) allowable forward current vs duty ratio ( t j = 25c; t p 10ms ) duty ratio, % 10 100 1000 0.1 1 10 100 t a t s 0 20 40 60 80 100 120 140 160 180 200 0 20 40 60 80 100 120 140 t a = ambient temperature t s = solder point temperature ? cx ? cy -0.04 -0.03 -0.02 -0.01 0.00 0.01 0.02 0.03 0.04 0 20 40 60 80 100 120 140 160 180 -0.80 -0.60 -0.40 -0.20 0.00 0.20 0.40 0.60 0.80 0 10 20 30 40 50 60 70 80 relative wavelength rel relative wavelength shift vs forward current forward current i f (ma) ? cx, ? cy chromaticity coordinate shift vs forward current ? cx, ? cy = f(i f );t j = 25c forward current i f (ma) chromaticity coordinate shift vs forward current ?cx, ?cy = f(i f );t j = 25c 10/07/2017 v6.0 9 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm junction temperature t j (c) relative forward voltage ?v f (v) junction temperature t j (c) relative luminious flux rel relative luminous flux vs junction temperature v/v(25c) = f(t j ); i f = 100ma junction temperature t j (c) ?cx , ?cy chromaticity coordinate shift vs junction temperature ?cx, ?cy = f(t j ); i f = 100ma radiation pattern 08/12/2016 v7.0 9 ingan warm white: ddf-ljg dominant opto technologies innovating illumination tm radiation pattern junction temperature t j (c) relative forward voltage ?v f (v) junction temperature t j (c) relative luminous intensity i rel relative luminous intensity vs junction temperature i v /i v (25c) = f(t j ); i f = 20ma junction temperature t j (c) ?cx , ?cy chromaticity coordinate shift vs junction temperature ?cx, ?cy = f(t j ); i f = 20ma 0. 2 70 90 80 0 60 50 40 30 20 0. 6 0. 4 1. 0 0. 8 10 0 -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3 0.4 0.5 -50 -30 -10 10 30 50 70 90 110 130 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 -50 -30 -10 10 30 50 70 90 110 130 relative forward voltage ? v f (v) relative forward voltage vs junction temperature ? v f = v f -v f (25c) = f(t j ); i f = 20ma junction temperature t j (c) junction temperature t j (c) relative luminous intensity vs junction temperature i v /i v (25c) = f(t j ); i v = 20ma relative luminous intensity i rel -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3 0.4 0.5 -50 -30 -10 10 30 50 70 90 110 130 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 -50 -30 -10 10 30 50 70 90 110 130 relative forward voltage ? v f (v) relative forward voltage vs junction temperature ? v f = v f -v f (25c) = f(t j ); i f = 20ma junction temperature t j (c) junction temperature t j (c) relative luminous intensity vs junction temperature i v /i v (25c) = f(t j ); i v = 20ma relative luminous intensity i rel relative forward voltage vs junction temperature ?v f = v f - v f (25c) = f(t j ); i f =20ma -10.0 -8.0 -6.0 -4.0 -2.0 0.0 2.0 4.0 6.0 8.0 10.0 -50 -30 -10 10 30 50 70 90 110 130 ? cx ? cy -0.030 -0.025 -0.020 -0.015 -0.010 -0.005 0.000 0.005 0.010 0.015 0.020 0.025 0.030 -50 -30 -10 10 30 50 70 90 110 130 relative wavelength ? dom (nm) relative wavelength vs junction temperature ? dom = dom - dom (25c) = f(t j ); i f = 20ma ? cx, ? cy chromaticity coordinate shift vs junction temperature ? cx, ? cy = f(t j ); i f = 20ma junction temperature t j (c) junction temperature t j (c) -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3 0.4 0.5 -50 -30 -10 10 30 50 70 90 110 130 150 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 -50 -30 -10 10 30 50 70 90 110 130 150 relative forward voltage ? v f (v) relative forward voltage vs junction temperature junction temperature t j (c) relative luminious flux rel relative luminious flux vs junction temperature v/ v(25c) = f(t j ); i f = 100ma junction temperature t j (c) -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3 0.4 0.5 -50 -30 -10 10 30 50 70 90 110 130 150 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 -50 -30 -10 10 30 50 70 90 110 130 150 relative forward voltage ? v f (v) relative forward voltage vs junction temperature junction temperature t j (c) relative luminious flux rel relative luminious flux vs junction temperature v/ v(25c) = f(t j ); i f = 100ma junction temperature t j (c) relative forward voltage vs junction temperature ?v f = v f - v f (25c) = f(t j ); i f =100ma -10.0 -8.0 -6.0 -4.0 -2.0 0.0 2.0 4.0 6.0 8.0 10.0 -50 -30 -10 10 30 50 70 90 110 130 150 ? cx ? cy -0.05 -0.04 -0.03 -0.02 -0.01 0.00 0.01 0.02 0.03 0.04 0.05 -50 -30 -10 10 30 50 70 90 110 130 150 relative wavelength ? dom (nm) relative wavelength vs junction temperature ? dom = dom - dom (25c) = f(t j ); i f = 100ma ? cx, ? cy chromaticity coordinate shift vs junction temperature ? cx, ? cy = f(t j ); i f = 100ma junction temperature t j (c) junction temperature t j (c) 10/07/2017 v6.0 10 primaxplus 100 ingan warm white: PQF-SSG package outlines ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin nipdau plating note: this product is pb free 14/06/2016 v3.0 8 primaxplus ? 180 ingan white: mbww-kzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone resin au plating note: this product is pb free 180 ingan white: mbww-kzhg dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 12/10/2016 v3.0 7 primaxplus ? 350 ingan yellow: mazy-yzhg package outlines material material lead-frame package encapsulant soldering leads cu alloy with au plating high temperature resistant plastic silicone au plating dominant opto technologies innovating illumination tm note: this product is pb free 350 ingan yellow: mazy-yzhg note : primary thermal path is through cathode lead of led package. dominant opto technologies 0 9 /05/14 primaxplus 350 ingan white maw - yzhg - pv3.docx page 1 of 9 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led for automotive applications . ? 120? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance ; ? superior corrosion robustness. ? compatible to ir reflow soldering. primaxplus 35 0ma white: m a w - y z hg 31/05/2013 v1.0 7 primax ? 175 ingan white: mbww-fsc package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin ag plating dominant opto technologies innovating illumination tm note: this product is pb free 175 ingan white: mbww-fsc 18/04/2016 v1.0 8 primaxplus 100 ingan white: pqw-ssg package outlines ingan white: pqw-ssg dominant opto technologies innovating illumination tm material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic silicone resin sn plating note: this product is pb free dominant opto technologies 24/09 /13 primaxplus 100 ingan warm white maf - psc - pv3.docx page 1 of 14 preliminary under development engineering reference data are not verified. the specifications are subject to change without notice. ? super high brightness surface mount led. ? 120 ? viewing angle. ? compact package outline (lxw) of 3.7 x 3.5 m m. ? ultra low height profile C 0.8 mm. ? low thermal resistance . ? compatible to ir reflow soldering. primaxplus 100ma warm white: maf - psc note : primary thermal path is through cathode lead of led package ingan warm white: ddf-ljg 08/12/2016 v7.0 10 domiled ? ingan warm white: ddf-ljg package outlines material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm note : primary thermal path is through cathode lead of led package. 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm 07/07/2011 v4.0 6 spnova tm ? ingan white : npw-rsz package outlines ingan white : npw-rsz material material lead-frame package encapsulant soldering leads cu alloy with ag plating high temperature resistant plastic, ppa silicone resin sn-sn plating dominant opto technologies innovating illumination tm notes: primary thermal path is through cathode lead of led package. general tolerance: +/- 0.1mm. 10/07/2017 v6.0 11 recommended solder pad ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm 10/07/2017 v6.0 12 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm taping and orientation ? reels come in quantity of 1000 units. ? reel diameter is 180 mm. 10/07/2017 v6.0 13 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm packaging specifcation 26/01/2015 v2.0 11 packaging specifcation dominant opto technologies innovating illumination tm 350 ingan white: maw-yzhg 10/07/2017 v6.0 14 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm packaging specifcation average 1pc primaxplus 1 completed bag (1000pcs) 0.034 190 10 weight (gram) cardboard box dimensions (mm) empty box weight (kg) super small small medium large for primaxplus reel / box cardboard box size weight (gram) 0.034 230 10 dominant tm moisture sensitivity level moisture absorbent material + moisture indicator the reel, moisture absorbent material and moisture indicator are sealed inside the moisture proof foil bag reel barcode label label (l) lot no : lotno (p) part no : partno (c) cust no : partno (g) grouping : group (q) quantity : quantity (d) d/c : date code (s) s/n : serial no dominant opto technologies ml temp 2 260?c rohs compliant made in malaysia 325 x 225 x 190 325 x 225 x 280 570 x 440 x 230 570 x 440 x 460 0.38 0.54 1.46 1.92 7 reels max 11 reels max 48 reels max 96 reels max 10/07/2017 v6.0 15 time (sec) 0 50 100 150 200 300 250 225 200 175 150 125 100 75 50 25 275 temperature (?c) classifcation refow profle (jedec j-std-020c) ramp-up 3?c/sec max. 255-260?c 10-30s 60-150s ramp- down 6?c/sec max. preheat 60-180s 480s max 217?c recommended pb-free soldering profle ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm 10/07/2017 v6.0 16 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm appendix 1) brightness: 1.1 luminous intensity is measured with an internal reproducibility of 8 % and an expanded uncertainty of 11 % (according to gum with a coverage factor of k=3). 1.2 luminous fux is measured with an internal reproducibility of 8 % and an expanded uncertainty of 11 % (according to gum with a coverage factor of k=3). 2) color: 2.1 chromaticity coordinate groups are measured with an internal reproducibility of 0.005 and an expanded uncertainty of 0.01 (accordingly to gum with a coverage factor of k=3). 2.2 dominant wavelength is measured with an internal reproducibility of 0.5nm and an expanded uncertainty of 1nm (accordingly to gum with a coverage factor of k=3). 3) voltage: 3.1 forward voltage, vf is measured with an internal reproducibility of 0.05v and an expanded uncertainty of 0.1v (accordingly to gum with a coverage factor of k=3). 4) corrosion robustness: 4.1 test conditions: 40 c / 90 % rh / 15 ppm h 2 s / 336 h. = stricter than iec 60068-2-43 (h 2 s) [25 c / 75% rh / 10 ppm h 2 s / 21 days]. revision history note all the information contained in this document is considered to be reliable at the time of publishing. however, dominant opto technologies does not assume any liability arising out of the application or use of any product described herein. dominant opto technologies reserves the right to make changes to any products in order to improve reliability, function or design. dominant opto technologies products are not authorized for use as critical components in life support devices or sys - tems without the express written approval from the managing director of dominant opto technologies . subjects initial release typo error on material typo error on weight per unit add features update peak pulse current update real thermal resistance update graph: maximum current vs temperature add graph: allowable forward current vs duty ratio add appendix update product photo update graph: forward current vs forward voltage update package outline update recommended solder pad add notes: minimum cri of 80 date of modifcation 19 apr 2016 10 may 2016 22 jun 2016 19 dec 2016 17 may 2017 10 jul 2017 10/07/2017 v6.0 17 ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm page - 10 14 1, 2, 8, 9, 16 1, 8, 10, 11 2 about us dominant opto technologies is a dynamic company that is amongst the worlds leading automotive led manu - facturers. with an extensive industry experience and relentless pursuit of innovation, dominants state-of-art manufacturing and development capabilities have become a trusted and reliable brand across the globe. more in - formation about dominant opto technologies, a iso/ts 16949 and iso 14001 certifed company, can be found under http://www.dominant-semi.com. please contact us for more information: dominant opto technologies sdn. bhd lot 6, batu berendam, ftz phase iii, 75350 melaka, malaysia. tel: +606 283 3566 fax: +606 283 0566 e-mail: sales@dominant-semi.com ingan warm white: PQF-SSG dominant opto technologies innovating illumination tm |
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