A c INTERFACE INC WE D D pp o0e33a3 ooae00 8 I : Stas. | MFEATURES @ AVAILABLE IN 4 COLORS; RED, GREEN, YELLOW AND ORANGE @ 4mm x 2mm LIGHTED AREA @ 4543K AND 4553K: DIFFUSED TYPE @ 4503K-5 AND 4523K-5: CLEAR (WATER COLOR) TYPE @ FLAT LIGHT-EMITTING SURFACE WITH UNIFORM ILLUMINATION @ LOW CURRENT DRIVE, DIRECTLY COMPATIBLE WITH Ic @ QUICK RESPONSE, ALLOWING PULSED OPERATION @ HIGH RELIABILITY GaAlAs BR 4503K-5, 4523K-5 Red 4543K, 4503K-5 GaP PR 4553K, 4523K-5 4543K, 4503K-5 GaP (E)BG 4663K. 4523K-5 Green GaP PG 4553KY GaP PY 4543K, 4553K Yellow - 4543K, 4503K-5 GaAsP/GaP AY 4553K, 4523K-5 4543K, 4503K-5 Orange GaAsP/GaP AA 4553K. 4523K-5 MDESCRIPTION MiPackage Dimensions~Unit in mm 4543K and 4553K: Ideal for displays. 4503K-5 and 4523K-5: Ideal for back lighting due to wide viewing angle. 15645712K - 4657132K-5 SERIES A C INTERFACE INC 10 p [ees o000e01 0 i = | BAbsolute Maximum Ratings (Ta= 25 Parameter. See _-Red a ot = Green = a Yellow. Be Orange | its = LE BR LAR FPR yf aa PG: b= PY-] SAY L-AAS bor Forward Current "50 30 | 50 | 50 | 50 | 50 | 50 Peak Forward Current leu | 300 100 | 100 | 100 | 100 | 100 | 100 Reverse Voltage G3 4 ; 4 4 4 Power Dissipation Pd {| 100 | | 75 | 125 | 125 | 125 | 125 | 125 Operating Temperature Topr -30~+ 85 30~+ 85|-30~+ 85 |-30-+85)- C Storage Temperature Tstg 30~+100 30~+100] 30~ +100 |-30-+100} C Lead Soldering Temperature 260C for 5 seconds (3.0mm from body) BElectro- Optical Characteristics (Ta= 25C) T- 41 - 23 : ES Chi Poco FS medh ar [Beak Spectral Vet) at :Capact Tyee No. wie + ot Len SPE . Ae een Hale aa we Ie Wea: tance: vf |Moteriat] Eenitted) 2 Min Ivo. | -(mA) EAp(nm) [aAlan), Tye. viax.-| (mad. InfeAt} ColpF) BRAGOSK-S123K-5} GaAlAs| Red w.c 3.0} 6.0 | 20 | 6eo | 30] 1.7 | 20} 20 | 100 | 50 (C.C) W.c PR4503K-5(23K-5) | GaP | Red (cc) 0.8 1.6 10 700 | 100 | 2.1 2.5 10 100 70 4553K(43K) GaP | Red Wis) 03 | 08} 10 | 700 | 100} 21 {| 25] 10 | 100] 70 W.C BG4503-5(23K-5) | GaP | Green| WS | 1.5 | 3.0 | 20 | 555 | 30] 2.1 | 28 | 20 | 100 | 50 4553K(43K) | GaP | Green|,22,| 05 | 1.0 | 20 | 558 | 30] 2.1 | 25 1 20-| 100] 50 WS.0) w.c (E)BG4503K-5(23K-5}| GaP | Green (c.c) 3.0 4.5 20 555 30 | 2.1 2.5 20 100 50 PG4553KY GaP | Green| C.S.D] 1.5 3.0 20 565 30 2.1 2.5 20 100 40 py4s53k(43k) | GaP | Yellow| em} 2.0 | 4.0 | 20 | 570] 30] 2.1 | 2.6 | 20 | 100] 40 AY4503K-5(23K-5) | GaAsP/GaP} Yellow WG 2.0 4.0 20 580 30 | 2.2 2.5 20 100 40 4553K(43K) | GaAsP/GaP} Yellow aie) 1.0 2.0 20 580 30 | 2.2 2.5 20 100 40 AA4503K-5(23K-5) | GaAsh/GaP! Orange ws 20 | 40] 20 | 6s | 30] 22] 25} 20 | 100! 50 4553K(43K) | Gsse/GaP| Orange wep) 1.0 | 20} 20 | 605 | 30] 2.2 | 25] 20 | 100} 50 %45013K-5 types have the same characteristics with those of 45013K types Lom _BGPGPYAY AA _ARBR__PR > F&F EN = 2 oo ba lyf a E RED a 2 tu GREEN 205 wi > YELLOW e g ORANGE iw c ol SE be we A 500 550 600 650 700 750 800 WAVE LENGTH (nm) Ta=25C RELATIVE INTENSITY vs. WAVE LENGTH 157A C INTERFACE INC 10E D j ooe33s3 Oooo2#de 1 i T-41-23 ~20 40 60 80 100 AMBIENT TEMPERATURE : Ta(C) of beck Pehsch 50 60 RELATIVE LUMINOUS INTENSITY FORWARD CURRENT : I-(mA) vs. AMBIENT TEMPERATURE oO: RELATIVE LUMINOUS INTENSITY FORWARD CURRENT : Ip(mA) RELATIVE LUMINOUS INTENSITY 0.2 OA RELATIVE LUMINOUS INTENSITY vs. FORWARD CURRENT 16 18 FORWARD VOLTAGE : Vg(V) w FORWARD CURRENT a b 4 vs. FORWARD VOLTAGE ee & ao 2 oc oc oO ws 5 ac abe cr G O2uj 5 4 sese 3035 33 2 25s& S2r 3 g 2533 ROSE 25 Ss 1 By55 $233 OL ir 2aRa Sy20 2 9 u, @ unoY 1 o 2 Oqrao i 2 ao; 1.6 ea = g F C8 ttle 2 = i z ZOR @ EEE UT CD TTI TE s L 10' 10? 10 10% 108 25 1 10' 10? 103 10 10 = 10 3 PULSE DURATION : tplzs) alg PULSE DURATION : tplys) = DUTY FACTOR (%) #8 MAXIMUM TOLERABLE PEAK CURRENT vs. PULSE DURATION = MAXIMUM FORWARD CURRENT 2 a Oe open ner is = & aE < he s ' a -& Ey x 2a, = Eb wit. a g z . Z E 8 8 3 2 a Qa g a 60 & = Q : = 1 S 40 & a S w we Ss 20 : = 3 ie ceipys 2. Z 5 : ea ee ee 3 R SUE psa bl: 2 a s = S x ot 7 z 20 0 20 40 60 80100 AMBIENT TEMPERATURE : Ta(C) << =AMBIENT TEMPERATURE : Ta(C) AMBIENT TEMPERATURE : Ta(C) POWER DISSIPATION 2 vs. AMBIENT TEMPERATURE MAXIMUM FORWARD CURRENT vs. AMBIENT TEMPERATURE _ 2.4 S 2 oES = + 2.2 w we 2, Qo 9 z 5 4.86 3 9 ope > > 1.6 Ri a a c 1.4 c 1L.2tee 2 2 Ve BE Bee Post ~20 20 40 60 801 AMBIENT TEMPERATURE : Ta(C) AMBIENT TEMPERATURE : Ta("C)} FORWARD VOLTAGE vs. AMBIENT TEMPERATURE 158A C INTERFACE EIGREEN RATIO OF MAXIMUM TOLERABLE 100 FORWARD CURRENT : Ie(mA) o.2t2t O1TO Ts 20 2.5 3.0 3.5 FORWARD VOLTAGE : Ve(V) FORWARD CURRENT vs. FORWARD VOLTAGE PEAK CURRENT TO MAXIMUM TOLERABLE OC CURRENT 10' 102 10? 10* 10 PULSE DURATION : tplzs) MAXIMUM TOLERABLE PEAK CURRENT vs. PULSE DURATION lpeax MAX, loc MAX, 20 0 20 40 60 80 100 AMBIENT TEMPERATURE : Ta("C) MAXIMUM FORWARD CURRENT vs. AMBIENT TEMPERATURE MAXIMUM FORWARD CURRENT : !-(mA) RELATIVE LUMINOUS INTENSITY MAXIMUM FORWARD CURRENT FORWARD VOLTAGE : V,(V) 45(013K - 45C]3K-5 SERIES INC 10E Dp 0023383 oogo203 3 i " 0 10 20 30 40 FORWARD CURRENT : Ie(mA) : T-41-23 1 2 8 10 20 80 100 AMBIENT TEMPERATURE : Ta(*C) RELATIVE LUMINOUS INTENSITY vs. AMBIENT TEMPERATURE RELATIVE LUMINOUS INTENSITY oO a RELATIVE LUMINOUS INTENSITY vs. FORWARD CURRENT = = Oo POWER DISSIPATION ; Pd(mW)} ; 60 100 0-30 6 20 40 60 80 100 DUTY FACTOR (%) AMBIENT TEMPERATURE : Ta("C) MAXIMUM. FORWARD CURRENT POWER DISSIPATION vs. DUTY FACTOR vs. AMBIENT TEMPERATURE 2 = Ww & 5 So > a Z = a Taps: : 3 2S ESSE ee: ES. o = = 20 40 = 20 40 60 801 AMBIENT TEMPERATURE : Ta(*C) AMBIENT TEMPERATURE : Ta(C) FORWARD VOLTAGE vs. AMBIENT TEMPERATURE 159STANLEY, A_C INTERFACE INC 10E D g 0023383 Ooogeo4 5 i YELLOW | 41-23 0.2 -20 20 40 1 AMBIENT TEMPERATURE : Ta(C) RELATIVE LUMINOUS INTENSITY vs, AMBIENT TEMPERATURE RELATIVE LUMINOUS INTENSITY FORWARD CURRENT : Ir(mA) RELATIVE LUMINOUS INTENSITY 40 80 60 0.1 : : i . . FORWARD CURRENT : I-(mA) FORWARD VOLTAGE : V_(V) RELATIVE LUMINOUS INTENSITY . FORWARD CURRENT vs. FORWARD CURRENT vs. FORWARD VOLTAGE. = - z uy z al 24 . @ & ya rT x 4 aed, [TTS Z ge2 ol a 2 z 2035 25/ a SE TN te g B 2 700 A ie : oe Bl i a cc So 2 1.5 Aan 3G fa s uw ee cH Ge IU 5 = = EF . th i - PPS 2 f gE Ai ie SNE 2 aie eed 2 ohh PT Tb x. 1 10' 102 10% 10% 105 % 10 20 601 =20 100 33 PULSE DURATION : tp(s) = DUTY FACTOR (%) AMBIENT TEMPERATURE : Ta(C) = MAXIMUM TOLERABLE PEAK = MAXIMUM FORWARD CURRENT POWER DISSIPATION #18 CURRENT vs. PULSE DURATION vs. DUTY FACTOR vs. AMBIENT TEMPERATURE 2.4 1 2.2 ~ NY wp N => a Nh FORWARD VOLTAGE : V_(V) FORWARD VOLTAGE : V-(V) 3 - MAXIMUM FORWARD CURRENT ; Ip(mA} 40 60 80 100 0-300 20 40 60 80 1 On50 0 0 60 80 AMBIENT TEMPERATURE : Ta(C) AMBIENT TEMPERATURE : Ta(*C) AMBIENT TEMPERATURE : Ta('C) MAXIMUM FORWARD CURRENT FORWARD VOLTAGE vs. AMBIENT TEMPERATURE vs. AMBIENT TEMPERATURE 160A C INTERFACE INC 210 pD c023383 FIORANGE FORWARD CURRENT : Ip(mA} RATIO OF MAXIMUM TOLERABLE PEAK CURRENT TO MAXIMUM TOLERABLE Ipeax MAX. loc MAX. MAXIMUM FORWARD CURRENT : Ip(mA) 100- 0150 71.5 2.0 2.5 3.0. 3.5 FORWARD VOLTAGE : VelV) FORWARD CURRENT vs. FORWARD VOLTAGE 5 b 4 Ww =& 3 o 2.5 8 2 1.5 1.2 i a 107 PULSE DURATION : tolus) MAXIMUM TOLERABLE PEAK CURRENT vs. PULSE DURATION 20 0 20 40 60 80 100 AMBIENT TEMPERATURE : Ta("C) MAXIMUM FORWARD CURRENT vs. AMBIENT TEMPERATURE mis Aar-rin 45.LiSKN * $+ ILI nana wuU T-41-23 = 20 40 100 AMBIENT TEMPERATURE : Tal*C) RELATIVE LUMINOUS INTENSITY vs. AMBIENT TEMPERATURE RELATIVE LUMINOUS INTENSITY RELATIVE LUMINOUS INTENSITY 6 70 20 30 40 60 60 FORWARD CURRENT : ie(ma) RELATIVE LUMINOUS INTENSITY vs. FORWARD CURRENT - POWER DISSIPATION : Pd(mW) 0 oBAn PLT = PASTE 20 20 80 100 AMBIENT TEMPERATURE : Ta(C) POWER DISSIPATION vs. AMBIENT TEMPERATURE 10, 10 20 60 100 DUTY FACTOR (%) MAXIMUM FORWARD CURRENT vs. DUTY FACTOR MAXIMUM FORWARD CURRENT ~ = NNN oo No _ FORWARD VOLTAGE : V(V) 0 100 AMBIENT TEMPERATURE : Ta(C) FORWARD VOLTAGE vs. AMBIENT TEMPERATURE 161 MDE