Kingbright| | 2%2mm-suocupLep.aues KP-2012 SERIES Features e2.0mmx1.2mmSMT LED. 1.1mm THICKNESS. eLOWPOWERCONSUMPTION. eWIDE VIEWINGANGLE. eIDEAL FOR BACKLIGHT AND INDICATOR. eVARIOUS COLORS ANDLENS TYPES AVAILABLE. Description The Bright Red source color devices are made with Gallium Phosphide Red Light Emitting Diode. The Super Bright Green source color devices are made with Gallium Phosphide Green Light Emitting Diode. The High Efficiency Red source color devices are made with Gallium Arsenide Phosphide on Gallium Phosphide Orange Light Emitting Diode. The Yellow source color devices are made with Gallium Arsenide Phosphide on Gallium Phosphide Yellow Light Emitting Diode. The Super Bright Red source color devices are made with Gallium Aluminum Arsenide Red Light Emitting Diodes. The Super Bright Yellow source color devices are made with DH InGaAlP on GaAs substrate Light Emitting Diode. Selection Guide Part No. 2HD Note: Package Dimensions CATHODE MARK eq ol3 (SR:ANODE) + 2 aL 4 | L H,E,,Y,SG,SY N ~ ! 2(.079) SR i 047 a \ YY Notes: 1.Alldimensions are in millimeters (inches). 1.3.051)| OK -@ 2. Tolerance is +0.1(0.004") unless otherwisenoted. 3. Lead spacingis measured where the lead emerge package. 4. Specifications are subjected to change withoutnotice. lv (med) Lens Type 20 mA Min. T RED 1 WATER 1 RED WATER RED WATER RED WATER RED WATER 1.61/2is the angle from optical centerline where the luminous intensity is 1/2 the optical centerline value. Viewing 1-KP2012-1Electrical / Optical Characteristics at T .=25C Symbol Parameter Device Typ. Max. Units |Test Conditions Bright Red 700 High Efficiency Red 625 Apeak Peak Wavelength Super Bri ght Red 2e0 nm IF=20mA Super Bright Green 565 Super Bright Yellow 595 Bright Red 45 High Efficiency Red 45 Spectral Line Yellow 35 - AMi2 Halfwidth Super Bright Red 20 nm IF=20mA Super Bright Green 30 Super Bright Yellow 20 Bright Red 40 High Efficiency Red 12 Cc Capacitance | Siner Bright Red 95 pF | VF=OV:f=1MHz Super Bright Green 45 Super Bright Yellow 33 Bright Red 2.0 25 High Efficiency Red 2.0 2.5 Ve Forward Voltage Super Bri ght Red 236 32 Vv IF=20mA Super Bright Green 2.2 2.5 Super Bright Yellow 2.0 2.4 Ip Reverse Current | All 10 uA VR = 5V Absolute Maximum Ratings at T ,=25C Bright High Super Super Super Parameter Rod Efficiency | Yellow Bright Bright Bright | Units Red Red Green Yellow Power dissipation 105 105 105 100 105 125 mw DC Forward Current 25 30 30 30 25 30 mA Peak Forward Current [1] 150 150 150 150 150 150 mA Reverse Voltage 5 5 5 5 5 5 Vv Operating/Storage Temperature -40 CTo +85 C Note: 1. 1M 0Duty Cycle, 0.1msPulse Width. Hi. EFFICIENCY GREEN Y RED GoAIAs BRIGHT _RED (ORANGE) RED 1.0 Pa Cy a sy TA =25C Oo = 5 = 0.5 3 / \ o~ & 3 S Oo 0 500 550 600 650 700 750 800 Wavelength A (nm) RELATIVE INTENSITY Vs. WAVELENGTH 1-KP2012-2Bright Red KP-2012HD, KP-2012HC, KP-2012HT 50 40 30 20 10 Forward Current(mA) Forward Current I-(mA) 0 12_16 20 24 28 3.0 Forward Voltage(V) FORWARD CURRENT Vs. FORWARD VOLTAGE 10mA Luminous Intensity Relative Value at Ir 10 20 30 40 50 ir-Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT High Efficiency Red KP-2012ID, KP-2012EC, KP-2012IT 20 10 Forward Current(mA) Forward Current I-(mA) 0 12 16 20 24 2.8 Forward Voltage(V) FORWARD CURRENT Vs. FORWARD VOLTAGE 3.0 < E > & 40 2 i 5 - 3.0 ~ wy Oo 2 s 2.0 2 3 1.0 a > at s 3 0 2 10 20 30 40 50 IrFForward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT 20 40 #60 80 100 Ambient Temperature Ta(C) FORWARD CURRENT DERATING CURVE ao 10 20 SN oy 22 x SK - ws y ne YO S YL? N CY I YY 2 SPATIAL DISTRIBUTION 50 40 30 20 10 9 20 40 60 80 100 Ambient Temperature Ta( C) FORWARD CURRENT DERATING CURVE ce 10 20 SPATIAL DISTRIBUTION 1-KP2012-3Yellow KP-2012YD, KP-2012YC, KP-2012YT Forward Current(mA) Forward Current | (mA) 12 16 20 24 28 3.0 20 40 60 80 100 Forward Voltage(V) Ambient Ternperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE oc if 20 Ke mS SISTER OPS TH TAA 2s Si RS Ks RH Hoo Luminous Intensity co o 0.5 Relative Value at | F=20mA IFForward Current(mA) SPATIAL DISTRIBUTION Super Bright Red KP-2012SRD, KP-2012SRC, KP-2012SRT 50 o~ < < & C40 = = E 6 30 a3 : 3 z 2 20 e $ 10 WwW o Ww 0 12 16 20 24 28 3.0 20 40 60 #80 #4100 Forward Voltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE < 3 Co 10 20 > L 30 2 & 5% Ss a i> 40 8 KEI S$ os 1.0 $n a2 > LK Ly + (Xr OK 60 5 = OH E] - 3 TREY a0 00 WY aa 0.7 PtASS ; gee 90 iFForward Current(mA) | LUMINOUS INTENSITY Vs, FORWARD CURRENT 8 o.5 SPATIAL DISTRIBUTION 1-KP2012-4Super Bright Green KP-2012SGD, KP-2012SGC, KP-2012SGT 2 = = co 8 5 6 z 0 2 5 E WL 12 16 20 24 28 3.0 20 40 60 80 100 Forward Voltage(V) Ambient Temperature Ta(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE < a > 3 L c Oo od < a o s 3 2? oO 33 2 00 IF-Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT SPATIAL DISTRIBUTION Super Bright Yellow KP-2012SYD, KP-2012SYC, KP-2012SYT => 100 = E E z 80 = _ 5 ~~ E 3 60 6 5 zB > g RP = oS & 5 20 Ww 0 1718 19 20 21 22 20 40 60 80 100 Forward Voltage(V) Ambient Temperature T,(C) FORWARD CURRENT Vs. FORWARD VOLTAGE FORWARD CURRENT DERATING CURVE rn 2 100 oo 2 3 E 3 10 1 10 100 IF-Forward Current(mA) LUMINOUS INTENSITY Vs. FORWARD CURRENT SPATIAL DISTRIBUTION 1-KP2012-5KP-2012 Series SMT Reflow Soldering Instructions 10 sec _max. 230C 140~160C 4C/sec,/ I maxy, / I ? I Temperature Time KP-2012 Series Recommended Soldering Pattern FOR REFLOW SOLDERING (Units : mm) ] + --+ TI 1.25 1.1 1.25 KP-2012 Series Tape Specifications TAPE 4.0TYP. 2.0TYP.| 4,0TYP, 1.55 O.23TYP, CATHODE 1.32TYP. TOP_TAPE 8,040.3 *sp type polarity is opposite 1-KP2012-6