Power TOPLED(R) Hyper-Bright LED LB E673, LV E673, LT E673 Abgekundigt nach PD_078_02 - werden durch LB_LT_LV E67C ersetzt werden Obsolete acc. to PD_078_02 - will be replaced by LB_LT_LV E67C Besondere Merkmale * Gehausetyp: weies P-LCC-4 Gehause * Besonderheit des Bauteils: mehr Licht durch einen geringen thermischen Widerstand * Wellenlange: 469 nm (blau), 503 nm (verde), 525 nm (true green) * Abstrahlwinkel: Lambertscher Strahler (120) * Technologie: InGaN * optischer Wirkungsgrad: 2 lm/W (blau), 6 lm/W (verde), 8 lm/W (true green) * Gruppierungsparameter: Lichtstarke, Wellenlange * Verarbeitungsmethode: fur alle SMT-Bestucktechniken geeignet * Lotmethode: IR Reflow Loten und Wellenloten (TTW) * Vorbehandlung: nach JEDEC Level 2 * Gurtung: 8 mm Gurt mit 2000/Rolle, o180 mm oder 8000/Rolle, o330 mm * ESD-Festigkeit: ESD-sicher bis 2 kV nach EOS/ESD-5.1-1993 Features * package: white P-LCC-4 package * feature of the device: more brightness due to a lower thermal resistance * wavelength: 469 nm (blue), 503 nm (verde), 525 nm (true green) * viewing angle: Lambertian Emitter (120) * technology: InGaN * optical efficiency: 2 lm/W (blue), 6 lm/W (verde), 8 lm/W (true green) * grouping parameter: luminous intensity, wavelength * assembly methods: suitable for all SMT assembly methods * soldering methods: IR reflow soldering and TTW soldering * preconditioning: acc. to JEDEC Level 2 * taping: 8 mm tape with 2000/reel, o180 mm or 8000/reel, o330 mm * ESD-withstand voltage: up to 2 kV acc. to EOS/ESD-5.1-1993 Anwendungen * Ampelanwendung * Hinterleuchtung (LCD, Schalter, Tasten, Displays, Werbebeleuchtung, Allgemeinbeleuchtung) * Innenbeleuchtung im Automobilbereich (z.B. Instrumentenbeleuchtung, u. a.) * Ersatz von Kleinst-Gluhlampen * Markierungsbeleuchtung (z.B. Stufen, Fluchtwege, u.a.) * Signal- und Symbolleuchten * Scanner Applications * traffic lights * backlighting (LCD, switches, keys, displays, illuminated advertising, general lighting) * interior automotive lighting (e.g. dashboard backlighting, etc.) * substitution of micro incandescent lamps * marker lights (e.g. steps, exit ways, etc.) * signal and symbol luminaire * scanners 2003-08-26 1 LB E673, LV E673, LT E673 Farbe der Lichtaustrittsflache Color of the Light Emitting Area Lichtstarke Lichtstrom Bestellnummer Luminous Intensity IF = 30 mA IV (mcd) Luminous Flux IF = 30 mA V (mlm) Ordering Code LB E673-N1P1-35 blue LB E673-P1Q2-35 colorless clear 28 ... 56 45 ... 112 LV E673-Q2R2-35 verde LV E673-R2T1-35 colorless clear 90 ... 180 140 ... 355 390 (typ.) on request 700 (typ.) on request LT E673-R1S1-35 true green LT E673-S1T2-35 colorless clear 112 ... 224 180 ... 450 490 (typ.) on request 880 (typ.) on request Typ Emissionsfarbe Type Color of Emission 120 (typ.) Q62703Q4844 220 (typ.) Q62703Q4890 Abgekundigt nach PD_078_02 - werden durch LB_LT_LV E67C ersetzt werden Obsolete acc. to PD_078_02 - will be replaced by LB_LT_LV E67C Letzte Bestellung / Last Order: 30.09.2003 Letzte Lieferung / Last Delivery: 31.03.2004 Anm.: -35 gesamter Farbbereich, Lieferung in Einzelgruppen (siehe Seite 5) Die Standardlieferform von Serientypen beinhaltet eine untere bzw. eine obere Familiengruppe, die aus nur 3 bzw. 4 Halbgruppen besteht. Einzelne Halbgruppen sind nicht erhaltlich. In einer Verpackungseinheit / Gurt ist immer nur eine Halbgruppe enthalten. Note: -35 Total color tolerance range, delivery in single groups (please see page 5) The standard shipping format for serial types includes a lower or upper family group of 3 or 4 individual groups. Individual half groups are not available. No packing unit / tape ever contains more than one luminous intensity half group. 2003-08-26 2 LB E673, LV E673, LT E673 Grenzwerte Maximum Ratings Bezeichnung Parameter Symbol Symbol Werte Values LB Einheit Unit LV, LT Betriebstemperatur Operating temperature range Top - 40 ... + 100 C Lagertemperatur Storage temperature range Tstg - 40 ... + 100 C Sperrschichttemperatur Junction temperature Tj Durchlassstrom Forward current IF Stostrom Surge current t 10 s, D = 0.1 IFM Sperrspannung1) Reverse voltage VR 5 Leistungsaufnahme Power consumption Ptot 120 mW 300 K/W 130 K/W Warmewiderstand Thermal resistance Rth JA Sperrschicht/Umgebung Junction/ambient Rth JS Sperrschicht/Lotpad Junction/solder point Montage auf PC-Board FR 4 (Padgroe 16 mm 2) mounted on PC board FR 4 (pad size 16 mm 2) 1) fur kurzzeitigen Betrieb geeignet / suitable for short term application 2003-08-26 3 + 110 + 125 30 200 250 C mA mA V LB E673, LV E673, LT E673 Kennwerte (TA = 25 C) Characteristics Bezeichnung Parameter Symbol Symbol Werte Values Einheit Unit LB LV LT Wellenlange des emittierten Lichtes Wavelength at peak emission IF = 30 mA (typ.) peak 464 501 520 nm Dominantwellenlange 1) Dominant wavelength IF = 30 mA (typ.) dom 469 6 503 6 525 9 nm Spektrale Bandbreite bei 50 % Irel max Spectral bandwidth at 50 % Irel max IF = 30 mA (typ.) 25 30 33 nm Abstrahlwinkel bei 50 % IV (Vollwinkel) Viewing angle at 50 % IV (typ.) 2 120 120 120 Grad deg. Durchlassspannung 2) Forward voltage IF = 30 mA (min.) (typ.) (max.) VF VF VF 3.1 3.7 4.0 3.1 3.5 4.0 3.1 3.5 4.0 V V V Sperrstrom Reverse current VR = 5 V (typ.) (max.) IR IR 0.01 10 0.01 10 0.01 10 A A Temperaturkoeffizient von peak Temperature coefficient of peak IF = 30 mA; -10C T 100C (typ.) TCpeak 0.04 0.03 0.04 nm/K Temperaturkoeffizient von dom Temperature coefficient of dom IF = 30 mA; -10C T 100C (typ.) TCdom 0.03 0.04 0.04 nm/K Temperaturkoeffizient von VF Temperature coefficient of VF IF = 30 mA; -10C T 100C (typ.) TCV - 4.5 - 3.6 - 3.6 mV/K Optischer Wirkungsgrad Optical efficiency IF = 30 mA (typ.) opt 2 6 8 lm/W 1) Wellenlangengruppen werden mit einer Stromeinpragedauer von 25 ms und einer Genauigkeit von 1 nm ermittelt. Wavelength groups are tested at a current pulse duration of 25 ms and a tolerance of 1 nm. 2) Durchlassspannungsgruppen werden mit einer Stromeinpragedauer von 1 ms und einer Genauigkeit von 0,1 V ermittelt. Forward voltage groups are tested at a current pulse duration of 1 ms and a tolerance of 0.1 V. 2003-08-26 4 LB E673, LV E673, LT E673 1) Wellenlangengruppen / Wavelength groups Gruppe Group blue verde true green min. max. min. max. min. Einheit Unit max. 3 463 467 497 501 516 522 nm 4 467 471 501 505 522 528 nm 5 471 475 505 509 528 534 nm Helligkeits-Gruppierungsschema Luminous Intensity Groups Lichtgruppe Luminous Intensity Group Lichtstrom Luminous Flux V (mlm) Lichtstarke Luminous Intensity IV (mcd) N1 N2 P1 P2 Q1 Q2 R1 R2 S1 S2 T1 T2 28.0 ... 35.5 ... 45.0 ... 56.0 ... 71.0 ... 90.0 ... 112.0 ... 140.0 ... 180.0 ... 224.0 ... 280.0 ... 355.0 ... 35.5 45.0 56.0 71.0 90.0 112.0 140.0 180.0 224.0 280.0 355.0 450.0 95 (typ.) 120 (typ.) 150 (typ.) 190 (typ.) 240 (typ.) 300 (typ.) 380 (typ.) 480 (typ.) 600 (typ.) 760 (typ.) 950 (typ.) 1200 (typ.) Helligkeitswerte werden mit einer Stromeinpragedauer von 25 ms und einer Genauigkeit von 11% ermittelt. Luminous intensity is tested at a current pulse duration of 25 ms and a tolerance of 11%. Gruppenbezeichnung auf Etikett Group Name on Label Beispiel: S2-3 Example: S2-3 Lichtgruppe Luminous Intensity Group Halbgruppe Half Group Wellenlange Wavelength S 2 3 2003-08-26 5 LB E673, LV E673, LT E673 Relative spektrale Emission Irel = f (), TA = 25 C, IF = 30 mA Relative Spectral Emission V() = spektrale Augenempfindlichkeit Standard eye response curve OHL00492 100 I rel % 80 V 60 blue verde true green 40 20 0 400 450 500 550 650 600 nm 700 Abstrahlcharakteristik Irel = f () Radiation Characteristic 40 30 20 10 0 50 OHL01660 1.0 0.8 0.6 60 0.4 70 0.2 80 0 90 100 1.0 2003-08-26 0.8 0.6 0.4 0 20 6 40 60 80 100 120 LB E673, LV E673, LT E673 Durchlassstrom IF = f (VF) Forward Current TA = 25 C Relative Lichtstarke IV/IV(30 mA) = f (IF) Relative Luminous Intensity TA = 25 C OHL00495 10 2 mA IF 5 IV I V (30 mA) 10 1 10 0 5 5 blue verde, true green 10 0 blue verde true green 10 -1 5 5 10 -1 OHL00686 10 1 2 2.5 3 3.5 4 10 -2 10 -1 4.5 V 5 10 0 10 1 mA 10 2 IF VF Maximal zulassiger Durchlassstrom IF = f (T) Max. Permissible Forward Current Maximal zulassiger Durchlassstrom IF = f (T) Max. Permissible Forward Current OHL01311 35 mA mA IF OHL01310 35 30 IF 30 25 25 blue blue verde, true green 20 verde, true green 20 15 15 10 10 5 5 TS temp. solder point TA temp. ambient 0 0 20 40 60 0 80 C 100 20 40 60 80 C 100 T T 2003-08-26 0 7 LB E673, LV E673, LT E673 Dominante Wellenlange dom = f (IF) Dominant Wavelength LB, TA = 25 C Relative Lichtstarke IV/IV(25 C) = f (TA) Relative Luminous Intensity IF = 30 mA OHL03637 1.4 IV OHL10196 474 nm dom I V (25 C) 1.2 473 1.0 472 0.8 true green verde 471 blue blue 0.6 470 0.4 469 0.2 468 467 0 -60 -40 -20 0 20 40 60 C 100 0 20 40 60 80 If T Dominante Wellenlange dom = f (IF) Dominant Wavelength LT, TA = 25 C Dominante Wellenlange dom = f (IF) Dominant Wavelength LV, TA = 25 C OHL00882 550 nm mA 120 OHL10198 512 nm dom dom 510 540 508 535 506 530 true green 504 525 502 520 500 515 510 0 20 40 60 80 498 mA 120 If 2003-08-26 0 20 40 60 80 mA 120 I 8 LB E673, LV E673, LT E673 Zulassige Impulsbelastbarkeit IF = f (tp) Permissible Pulse Handling Capability Duty cycle D = parameter, TA= 25 C LB 0.25 IF A Zulassige Impulsbelastbarkeit IF = f (tp) Permissible Pulse Handling Capability Duty cycle D = parameter, TA= 85 C LB OHL01957 tP 0.25 IF A tP IF D= T T OHL01958 tP 0.10 0.05 0 -5 10 10-4 10-3 10-2 10-1 100 101 s 102 0 -5 10 10-4 10-3 10-2 10-1 100 101 s 102 tp tp Zulassige Impulsbelastbarkeit IF = f (tp) Zulassige Impulsbelastbarkeit IF = f (tp) Permissible Pulse Handling Capability Duty cycle D = parameter, TA= 85 C LT / LV Permissible Pulse Handling Capability Duty cycle D = parameter, TA= 25 C LT / LV OHL01959 t D = TP 0.30 IF A tP IF T 0.20 0.10 0.05 t D = TP IF T D= 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 0.15 0.10 0.05 0 -5 10 10-4 10-3 10-2 10-1 100 101 s 102 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 0 -5 10 10-4 10-3 10-2 10-1 100 101 s 102 tp 2003-08-26 OHL01960 tP 0.20 D= 0.15 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 0.15 0.05 0.30 IF A T D= 0.005 0.01 0.02 0.05 0.1 0.2 0.5 1 0.10 IF D= T D= 0.15 tP tp 9 LB E673, LV E673, LT E673 Mazeichnung Package Outlines 3.0 (0.118) 2.6 (0.102) 2.3 (0.091) 2.1 (0.083) 1.7 (0.067) 2.1 (0.083) 0.8 (0.031) 0.6 (0.024) C 1.1 (0.043) C 0.1 (0.004) typ Package marking 0.5 (0.020) 3.7 (0.146) 3.3 (0.130) 3.4 (0.134) 3.0 (0.118) C 41 0.7 (0.028) (2.4 (0.094)) A 0.9 (0.035) 0.18 (0.007) 0.6 (0.024) 0.4 (0.016) 0.12 (0.005) GPLY6991 Mae werden wie folgt angegeben: mm (inch) / Dimensions are specified as follows: mm (inch). Gewicht / Approx. weight: 35 mg 2003-08-26 10 LB E673, LV E673, LT E673 Lotbedingungen Vorbehandlung nach JEDEC Level 2 Soldering Conditions Preconditioning acc. to JEDEC Level 2 IR-Reflow Lotprofil (nach IPC 9501) IR Reflow Soldering Profile (acc. to IPC 9501) OHLY0597 300 C T 250 240-245 C 10-40 s 200 183 C 120 to 180 s Ramp-down rate up to 6 K/s 150 Defined for Preconditioning: up to 6 K/s 100 Ramp-up rate up to 6 K/s 50 Defined for Preconditioning: 2-3 K/s 0 0 50 100 150 200 t 2003-08-26 11 s 250 LB E673, LV E673, LT E673 Wellenloten (TTW) TTW Soldering (nach CECC 00802) (acc. to CECC 00802) OHLY0598 300 C T 10 s 250 Normalkurve standard curve 235 C ... 260 C Grenzkurven limit curves 2. Welle 2. wave 200 1. Welle 1. wave 150 ca 200 K/s 2 K/s 5 K/s 100 C ... 130 C 100 2 K/s 50 Zwangskuhlung forced cooling 0 0 50 100 150 200 t 2003-08-26 12 s 250 LB E673, LV E673, LT E673 Empfohlenes Lotpaddesign verwendbar fur TOPLED(R) und Power TOPLED(R) IR Reflow Loten Recommended Solder Pad useable for TOPLED(R) and Power TOPLED(R) IR Reflow Soldering Flache darf elektrisch nicht beschaltet werden. Do not use this area for electrical contact. Padgeometrie fur verbesserte Warmeableitung 3.3 (0.130) Paddesign for improved heat dissipation 3.3 (0.130) Anode 2.3 (0.091) 11.1 (0.437) 1.5 (0.059) 1.1 (0.043) 3.7 (0.146) 0.8 (0.031) 0.7 (0.028) Kathode/ Cathode Flache darf elektrisch nicht beschaltet werden. Do not use this area for electrical contact. Cu Flache / <_ 16 mm 2 per pad Cu-area Lotstoplack Solder resist Mae werden wie folgt angegeben: mm (inch) / Dimensions are specified as follows: mm (inch). 2003-08-26 13 OHLPY440 LB E673, LV E673, LT E673 Empfohlenes Lotpaddesign Recommended Solder Pad Wellenloten (TTW) TTW Soldering Flache darf elektrisch nicht beschaltet werden. Do not use this area for electrical contact. Anode 2 (0.079) 6.1 (0.240) Bewegungsrichtung der Platine PCB-direction 1 (0.039) 2 (0.079) 2 (0.079) 3 (0.118) 6 (0.236) 2.8 (0.110) 2.8 (0.110) Padgeometrie fur verbesserte Warmeableitung 0.5 (0.020) Kathode/ Cathode Cu Flache / > 16 mm 2 per pad Cu-area Flache darf elektrisch nicht beschaltet werden. Do not use this area for electrical contact. Paddesign for improved heat dissipation Lotstoplack Solder resist OHAY1583 Mae werden wie folgt angegeben: mm (inch) / Dimensions are specified as follows: mm (inch). Gurtung / Polaritat und Lage Verpackungseinheit 2000/Rolle, o180 mm oder 8000/Rolle, o330 mm Method of Taping / Polarity and Orientation Packing unit 2000/reel, o180 mm or 8000/reel, o330 mm 4 (0.157) 2.9 (0.114) 8 (0.315) 1.75 (0.069) 2 (0.079) 3.5 (0.138) 4 (0.157) 3.6 (0.142) 1.5 (0.059) C C C A OHAY0536 Mae werden wie folgt angegeben: mm (inch) / Dimensions are specified as follows: mm (inch). 2003-08-26 14 LB E673, LV E673, LT E673 Revision History: 2003-08-26 Previous Version: Date of change 2003-08-04 Page Subjects (major changes since last revision) 4 value (forward voltage) 8 diagram relative luminous intensity OHL00870 to OHL03637 8 diagram dominant wavelength OHL00196/00198 to OHL10196/10198 2 wavelength grouping for blue, true green and verde 15 annotations 2002-07-23 13 new IR solder pad (OHLPY439 to OHLPY440) 2002-08-05 3 reverse voltage (footnote) 2002-08-21 2 Ordering Code 2002-09-16 all not for new designs 2002-11-18 4 temperature coefficients 2003-05-12 8 diagram dominant wavelength 2003-05-12 14 new recommended solder pad 2003-05-26 7 max. perm. forward current 2003-06-16 9 new diagrams pulse derating 2003-06-30 1, 2 Obsolete 2003-08-11 Published by OSRAM Opto Semiconductors GmbH Wernerwerkstrasse 2, D-93049 Regensburg (c) All Rights Reserved. Attention please! The information describes the type of component and shall not be considered as assured characteristics. All typical data and graphs are basing on representative samples, but don't represent the production range. If requested, e.g. because of technical improvements, these typ. data will be changed without any further notice. Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization. If printed or downloaded, please find the latest version in the Internet. Packing Please use the recycling operators known to you. We can also help you - get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred. Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components 1 may only be used in life-support devices or systems 2 with the express written approval of OSRAM OS. 1 A critical component is a component used in a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or the effectiveness of that device or system. 2 Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health of the user may be endangered. 2003-08-26 15