Absolute max. eS Y ratings yellow (Ty = 25C) (GaAsP/GaP) Reverse voltage Va 5 5 5 5 5 5 5 5 Vv Forward current le 25 30 30 30 25 25 30 50 mA Forward current (peak) . (t< 10s) ies 450 150 450 150 150 150 150 200 mA Power dissipation Py 120 105 105 100 105 105 105 405 mw LED's: Operating temperature T, | ~40+85 40 +85 | -40 +85 40 +85 | -40+85 ~40 +85 | 40 +85 ~55 +85 | C Storage temperature Tag | 40 +85 | 40+85 40 +85 | 40+85 40 +85 | 40+85 _ 40 +85 | 55 + 100 C DISPLAYs: Operating temperature T, | -40 +85 40 +85 | -40 +85 ~40 +85 | 40 +85 40 +85 | 40 +85 _ C Storage temperature T sig 40 +85 | 40 485 | 40 +85 40 +B5 | 40 +85 ~40 +85 | 40 +85 _ C Operating Sere Y characteristics ange: yellow (T,=25C) (GaAsP/GaP) Forward voltage (typ-) (ig =20mA) Ve 2,0 2,0 2,0 1,85 2,2 2.2 2,1 3,8 Vv Forward voltage (max.) (ip =20mA) Ve 25 2,5 2.6 2.5 2,5 2,5 2,5 4,4 V Reverse current (Va=5) le 10 10 10 10 10 10 10 10 pA Wave length at peak emission (Jg=20 mA) hp 700 625 610 660 565 555 590 470 am Spectral line half-width (p= 20 mA) Ah 45 45 35 20 30 30 35 70 nm Capacitance (Ve=0V; f= MHz) Co 40 12 15 95 45 45 10 20-40 pF 6750 = 40 z E L g 20 CD 2 c 5 10 uw 0 1.2 1.6 2.0 2.4 2.8 3.0 Forward Voltage (V) Forward Current VS Forward Voltage 2 Oo ge s ae = ra 3 Zu g oa i= Eg = o rie] 2 3 53 x Jo cc 10 20 30 40 50 IF Forward Current (mA) Luminous intensity VS Forward Current 500 > BG < 400 S E E C 300 2 = S = 100 v oD oO 5 50 a 6 s 4% x 0 1 2 3 5 10 20 50 100 Duty Cycle % f= 200 PPS 50 40 30 20 10 0 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve 3 2 1 0.5 0.2 0.1 -30-20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature H- RED 1.0 Ta = 25C 0.5 0 500 550 600 650 700 750 Wavelength 700 nm Relative Intensity Vs. Wavelength 68Sted Le es weber Rk ead aR Fe Forward Current (mA) Luminous Intensity Relas =10mA Relative Value at Ie Peak Current (IF) mA 1.2 1.6 2.0 2.4 2.8 3.0 Forward Voltage (V) Forward Current VS Forward Voltage 10 20 30 40 50 IF Forward Current (mA) Luminous Intensity VS Forward Current 500 400 300 100 50 20 1 2 3 5 10 20 50 100 Duty Cycle % f= 200 PPS GaAsP/GaP 50 < 40 E _ = 30 8 2 20 co = o uw 10 0 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve p> 3 B 2 2 = 1 Ww => 2 0.5 a2 Aa oO 2 02 5 oO a 0.1 ~30 -20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature 1+ E-RED 1.0 2 Ta = 25C Cc oO = 5 3 05 ts] : / ao 2 8 J oO iam 0 500 550 600 650 700 750 Wavelength 625 nm Relative Intensity Vs. Wavelength 6950 40 <= = 5 30 3 Oo 2B 20 = zc 10 0 15 1.7 1.9 2.1 2.3 2.5 Forward Voltage (V-) Forward Current (I,) Vs Forward Voltage (VF) 4.0 of 32 30 af . om iH} Be BS 20 Es 25 @ 1.0 2 38 70 iv 0 10 20 30 40 50 \F Forward Current (mA) Luminous Intensity VS Forward Current 500 < c 200 5 100 5 50 oO a @ 20 a. 0 1 2 3 5 10 20 50 80 100 Duty Cycle % f= 200 PPS fan* ET NLEDS GaAsP/GaP g oO pr ow b oO Oo oO Forward Current I; (mA) = o 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve > 3 @ 2 2 =1 a > 2 E 0.5 3 a! a 2 0.2 # ow x 0.1 -30-20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature N PURE ORANGE 1.0 2 Ta = 25C Cc = 5 | % 0.5 s a o 2 & oOo \. 500 550 600 650 700 750 Wavelength 610 nm Relative Intensity Vs. Wavelength 70Forward Current (mA) Luminous Intensity Relas =20mMmA Relative Value at I, Peak Current (IF) mA Forward Current | (mA) 1.2 1.6 2.0 2.4 2.8 3.0 Forward Voltage (V) Forward Current VS Forward Voltage 2 o Cc o = n 2 Qo & E 3 -_ d 2 & o x 20 40 60 80 100 IF Forward Current (mA) Luminous Intensity VS Forward Current 500 > a 400 S = 300 z c & 100 3 50 a o z s 20 o va 0 1 2 3.5 10 20 50 100 Duty Cycle % f = 200 PPS on Oo & Q w Oo nN a o 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve 3 2 1 0.5 0.2 0.1 -30-20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature SR - RED 1.0 Ta = 26C 0.5 0 500 550 600 650 700 Wavelength 660 nm Relative Intensity Vs. Wavelength 750 7150 = 40 = 40 Ee Ww 5 30 30 5 Ec 3 = 20 2 20 oO 3 E 10 * 10 0 1.2 1.6 2.0 2.4 2.8 3.0 Forward Voltage (V) Forward Current VS Forward Voltage 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve ~30-20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature G + SG - GREEN + SUPER-GREEN T, = 25C p> 3 ge 5 ae =, >" g ot 2 an - 05 g 5 38 02 es $ 53 fc 0.1 a | 10 20 30 40 50 IF Forward Current (mA) Luminous Intensity VS Forward Current 400 >1.0 200 z <q 5 c x 100 = = 3 0.5 5 50 S oO 2 x = To x @ 0 2 9 500 1 2 3 8 10 20 30 50 Duty Cycle % f= 200 PPS 550 600 650 700 750 Wavelength 565 nm Relative Intensity Vs. Wavelength 72Forward Current (mA) 10mA oo o Luminous Intensity Relas Relative Value at I; Peak Current (IF) mA nn So Ss oO a oO ho oS = oO 1.2 1.6 2.0 2.4 2.8 Forward Voltage (V) Forward Current VS Forward Voltage = o ny oO a OQ 10 20 30 40 IF Forward Current (mA) Luminous intensity VS Forward Current 500 200 100 50 20 1 2 3 5 10 20 50 80 Duty Cycle % f= 200 PPS 3.0 50 100 Forward Current Ip (mA) Relative Luminous Intensity Relative Radiant intensity 50 40 30 20 10 0 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve 3 2 1 0.5 0.2 0.1 ~30-20-10 0 10 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature PG PURE GREEN 1.0 Ty = 25C 0.5 0 500 550 600 650 700 750 Wavelength 555 nm Relative Intensity Vs. Wavelength 73Forward Current (mA) Luminous Intensity Relas =10mA Relative Value at t- Peak Current (IF) mA 1.2 1.6 2.0 2.4 2.8 3.0 Forward Voltage (V) Forward Current VS Forward Voltage 10 20 30 40 50 1F Forward Current (mA) Luminous Intensity VS Forward Current 400 200 100 50 20 1 #2 3 8 10 20 30 50 Duty Cycle % f = 200 PPS GaAsP/GaP 50 z 40 = a ~ 30 2 3 a 20 c w 10 0 20 40 60 80 100 Ambient Temperature T, (C) ! Forward Current Derating Curve 2 3 G2 QD ey wn 3 2 e 0.5 > -/ o 2 0.2 & a x 0.1 ~30-20-10 0 i0 20 30 40 50 60 70 Ambient Temperature Ta (C) Luminous Intensity VS Ambient Temperature Y - YELLOW 1.0 Ta = 25C S 2 5 3 05 o c a 2 s c 0 500 550 600 650 700 750 Wavelength 590 nm Relative Intensity Vs. WavelengthRelative Intensity Forward Current (mA) 4 E Peak Current (iF 500 200 100 80 50 20 1.0 2.0 3.0 4.0 5.0 Forward Voltage (V) Forward Current VS Forward Voltage 10 20 30 40 IF Forward Current (mA) Relative Intensity VS Forward Current 50 23 5 10 20 30 50 100 Duty Cycle % Refresh Rate 1 kHz Max. Peak Current VS. Duty Cycle Forward Current Ip (mA) Relative Luminous Intensity Relative Radiant Intensity 20 40 60 80 100 Ambient Temperature T, (C) Forward Current Derating Curve 25 0 25 50 75 100 125 Lead Temperature T, (C) Relative Intensity VS LeadTemperature B-BLUE 1.0 Ta = 25C wt A \ 0 400 450 500 550 600 650 Wavelength 470 nm Relative Intensity Vs. Wavelength 75Light intensity in med/10 mA ar gs Group (Exception: Low-Current LED's lp =2 mA) Group Light intensity in med/20 mA min. max. min. max. F 0,1 0,2 A 2 3 G 0,2 0,32 B 3,2 5 H 0,32 0,5 Cc 5 8 | 0,5 0,8 D 8 12,5 K 0,8 1,25 E 12,5 20 L 1,25 2 F 20 40 M 2 3.2 G 40 50 N 3,2 5 H 50 60 P 5 6 J . 60 70 Qa 8 12,5 K 70 80 R 12,5 20 L 80 90 S$ 20 32 M 90 100 T 32 50 U 50 80 N 100 200 Vv 30 125 P 200 300 Ww 125 200 Q 300 fa. 400 : : R 400 KINGBRIGHT 500 Code is marked on each packing s 500 NY, 700 T 700 1000 o U 1000 1300 . Vv 1300 1600 a . Ww 1600 2000 eo Xx 2000 2500 Y 2500 3000 Zz 3000 3500 Light intensity in ucd/10 mA - Group (Exception: Low-Current Displays |; = 2 mA) Code is marked on each packing min. max. Cc 70 140 D 140 240 E 240 360 F 360 560 Group G 560 900 Yell H 900 1400 ow sea I 1400 2200 Dom. Wavelength (nm) K 2200 3600 min, max. min. max. L 3600 5600 M 5600 9000 00 553 556 N 9000 14000 ; 556 559 P 14000 21000 581 584 559 561 Q 21000 31000 2 584 586 561 563 3 586 588 563 565 Code is marked on each packing 4 588 590 565 S67 5 590 592 567 569 6 592 594 569 571 7 594 597 571 573 8 597 600 573 575 LED's marking on packing - Displays marking on package 9 T : . lron soldering ypes Dip and wave soldering (with 1.5 mmirontip) Temperature of Maximum Distance from Temperature Maximum Distance from the soldering soldering solder joint of soldering soldering solder joint bath time tocase iron time to case LEDs < 260C 3s >2mm <260C 3s >2amm < 260C 5s >4mm $ 260C 5s >4mm DISPLAYs $ 260C 3s >2mm < 260C 3s >2mm Intensity measurings: Since there is no international measuring standard, mcd ratings are comparable only between instruments from the same manufacturer. 76Anode ; 332 o 46 Anode . Red 24 + 1.55 2 a | 3 27 a ion + am) te fae ot oD 15 * i >| |e! 2 Green 34 a7 Yellow Nr 3 Nr 4 5 Anode Anode 259 x 4 > > ah 13 wo o Ny ge @ 8 =a sf at A pis a 10h ct lq Belg 22 ol Nr. 5 Nr. 6 , Anode 25.9 259 w ne tote a 5 tM en = at |. 8.6 27. Nr. 7 Nr. 8 Anod os me B59 6 | i 0 N Nr. 9 Nr. 10 Anod - = a ef w YY 9 27 15, lg- Nr. 11 Nr. 12 3.4 65.9 Super-Red | ~ o a) oF +26 gla a7 | 2 Super-Green Nr. 13 Nr. 14 77Nr. 16 2.54 3 | [_ 5 y 4 ks | 2.54 ~~ a Ll 8 Nr. 19 Nr. 20 Anode Anode + 3.4 ass > 2 ib 0.8 15 1.0 2 2 b 08, 4 1D 2 a | eX 4 TEE A A 7 o> g nl aes 4 @) cal a 43 15 yl ls, a7 : 27 <td Nr. 21 Nr. 22 E 8B Anode re ; i 25.8 4 <a le ' | ey a __|3 & = Q a pletO pled Lot B6 24. 8 SG Nr. 23 Nr. 24 Anode @9 rite ~ | {4 | S> 7 k 15 4 lq tt glq 27 yg Nr. 25 Nr. 26 23 2, _canode So anode Oi pie x 2 5 r~ \s 8 a ~ oa Nn o v y ~ 15 4 15 97 v jq13.5_plq_f > 13.5 27 ; Nr. 27 Nr. 28 78Nr. 29 4 ie sf Green Yellow Nr. 31 Nr. 32 7 E EE G E E G SR 2 aad , 111 1 11 41 "Tt | 2 9 9 9 99 9% ? eo mai Joo foe Feo po bebe F2 6 6 & 8 S les 33 3 3 3 3 3 Common Gathode GY Y GY Y 8G Nr. 33 1 p> 84 CG) ) A Nr. 35 Nr. 36 QA 45 Anode : 3 [rey zt ae My (7 ov Ie* ay qq 4 N Q (Ol }e = = A, 65 57 Loeb <> Nr. 37 Nr. 38 7.5 8 4 Cathode + +> _ in wo 1c o ~ 6lk { 2 NP aN) 5ib 2 a f [ES sb Je = i 38 155) iy Pod B 5 N.C. _ poy | 7 27 5 | _ 6A 5.08 Nr. 39 Nr. 40 Anode a & B > Ld A. |-z = fae to o a _ 15 | 5 | a 14 i t= >| >| <_____ > Le) Nr. 41 Nr. 42 79Nr. 43 5.08 z 1] IT? el + 2 L__.. 10 37, v g a 4J Li. 12 3 ss 1 LT 64 Luo, 14 771 L Nr. 45 3_! L_. 16 4 9.94 2 4 a a =a | | 4 | {LF OT || re} 1 3 3 alle 0.5+0.05 2.54 Nr. 46 4 20.04 2 4 6 8 ae] | | Ean I a 1 3 5 7 a 1g2.54 pf 50.05 Nr. 47 4 9.94 | | 8.89 | 5_6_7_ 2 3. 6 7 | = ; | | J r g| 5, s8 TT TT 1 4 5 8 4 a 8 7 2 3a 4 052005 254 Nr 48 80 ] bg 2? 2.54 0.540.05 f 1.27 Nr. 50 7.62 || | 8.89 +> 9.94 . ype Ha. oo e+ ,. 4 0.25, ny e b wn a N a nN 3 2.54 0.540.05 Nr. 51 20.04 19.05 13.81 | lose i 9.94 -{e a t1ao a ~o > H, 4 4 4 ny o & wn roy N o nN o a 2.54 0.50.05 Nr. 52 20.04 8.89 160015 14013 2 11 ta a 2 3 6 7 10 1 14 15 er wom = ' 4 5 6 $ ww 13 416 1 2 3 4 5 6 7 8 2.54 0.5+0.05 Nr. 53 81RTC-31 RTC-32 , 0.4 t oO ~~ . lO +f== = 8 8 5.3 44 44-45 2.54 @3 | { 3 | 1.2.54 1.5 RTC-51 RTC-52 . 063 37 q rr 3 7 o = 8 ats 8] t=8 | +45 es 8 2 5 8 08 67 6.3-6.5 6.7-6.8 C5 | lv | 2.54 25 | rh a} 1254 2.5 2.5 82+ RTF-5010 RTF-5020 omm LED 7.9 - 8.0 5mm LED 7.9 - 8.0 RTF-8080 2 8 mm LED 28 RTF-1090 83