HEAT SLUG Part No. S30NW6C Features Highest Flux White High reliability and Very long operating life (up to 100K hours) Low voltage DC operated More Energy Efficient than Incandescent and most Halogen lamps NO UV Superior ESD protection Typical Applications Reading lights(car,bus,aircraft) Portable(flashlight,bicycle) Automotive Exterior(Stop-Tail-Turn, NOTE: CHMSL,Mirror Side Repeat) All dimensions are millimetres. Tolerance is 0.1mm unless otherivise noted Decorative DIRECTIVITY Relative Luminous 1.0 0¡ ã Ta=25¡ ã C IF=20mA 30¡ ã 60¡ ã 0.5 0 90¡ ã 60¡ ã 30¡ ã 0¡ ã 0.5 90¡ ã 1.0 Radiation Angle Page: 1 of 4 HEAT SLUG Part No. S30NW6C Absolute maximum ratings Ta = 25 Parameter Symbol Test Condition DC Forward Current DC Forward Maximum Current Power Dissipation IF LED Junction Temperature Operating Temperature Storage Temperature ESD Sensitivity Soldering Temperature Value Unit Min. Max. ---- ---- 350 mA Imax ----- ---- 500 mA Pd Tj Topr Tstr ----- ------------HBM ----- ---- Electrical and optical characteristics -25 -40 8000 260 1.4 W 120 +100 +120 --V for 5 Seconds max Ta = 25 Parameter Symbol Test Condition Forward Voltage Luminous Flux Viewing Angle VF v Value Unit Min. Typ. Max. 2 1/2 IF = 350mA IF = 350mA IF = 350mA ---25 ---- 3.5 30 30 4.0 ---- V lm Deg. Color Temperature CCT IF = 350mA ---- 6000 --- K Chromaticity Coordinates X,Y IF = 350mA Luminous Flux Bins Bin Min Max Bin Min Max Ta = 25 C 10 15 Dominant WavelengthB 8000K 10000K --------- D 15 20 d Unit:lm E 20 25 F 25 30 G 30 40 H 40 50 Unit: nm Ta = 25 C 6500K 8000K -- D 5000K 6500K E 3500K 5000K Page: 2 of 4 HEAT SLUG Part No. S30NW6C Chromaticity Coordinates Ranks (IF=20mA WA WB X 0.240 0.235 0.265 0.270 Y 0.210 0.248 0.295 0.240 X 0.270 0.265 0.300 0.300 Y 0.240 0.295 0.335 0.280 WC WD Ta=25 ) X 0.300 0.300 0.330 0.330 Y 0.280 0.335 0.360 0.310 X 0.330 0.330 0.360 0.360 Y 0.310 0.360 0.385 CIE 1931 Chromaticity diagram IF=20mA Ta=25¡ ã C Y x Page: 3 of 4 0.345 HEAT SLUG No. S30NW6C Typical electrical/optical characteristic curves FORWARD CURRENT Vs FORWARD VOLTAGE LUMINOUS FLUX Vs. FORWARD CURRENT 2.5 400 Relative Light Output(%) Forward Current(mA) 500 300 200 100 0 2.4 2.8 3.2 3.6 4.0 Forward Voltage(V) 2.0 1.5 1.0 0.5 0 4.4 0 100 200 300 400 IF-Forward Current (mA) 500 Vs. AMBIENT TEMPERATURE Relative Light Output(%) 2.5 400 300 200 100 20 40 60 80 100 1.0 0.5 0 -40 -20 0 20 60 80 40 Ambient Temperature TA (¡ æ ) 100 )* %!$& %' '$( Ambient Temperature T A (¡ æ ) 1.5 $ 0 2.0 # Forward Current(mA) 500 FORWARD CURRENT DERATING CURVE !" Page: 4 of 4