IR Emitter and Detectr Prduct Data Sheet Spec N.: DS5-214-23 Effective Date: 2/24/214 Revisin: - LITE-ON DCC RELEASE BNS-OD-FC1/A4 LITE-ON Technlgy Crp. / Optelectrnics N.9,Chien 1 Rad, Chung H, New Taipei City 23585, Taiwan, R.O.C. Tel: 886-2-2222-6181 Fax: 886-2-2221-1948 / 886-2-2221-66 http://www.liten.cm/pt
IR Emitter and Detectr 1. Descriptin Lite-On ffers a brad range f discrete infrared cmpnents fr applicatin such as remte cntrller, IR wireless data transmissin, security alarm & etc. The prduct line includes GaAs 94nm IREDs, AIGaAs high pwer 88nm IREDs, AIGaAs high speed 875nm/85nm IREDs, PIN Phtdides, Phttransistr and Phtdarlingtns. 1. 1. Features Lead (Pb) free prduct and RHS cmpliant. High speed Lw pwer cnsumptin. High efficiency Available fr pulse perating Clear transparent Ppular T-13/4 diameter. 1.2. Applicatins 85nm IR emitter Night Visin (Camera) Sensr 2. Outline Dimensins Ntes : 1. All dimensins are in millimeters (inches). 2. Tlerance is ±.25mm (.1") unless therwise nted. 3. Prtruded resin under flange is.5mm (.2") max. 4. Lead spacing is measured where the leads emerge frm the package. 5. Specificatins are subject t change withut ntice. 6. Manufacturing site: Thailand & ChangZhu 1/7 Part N. : LTLE-32FL-32A
IR Emitter and Detectr 3. Abslute Maximum Ratings at TA=25 Parameter Maximum Rating Unit Pwer Dissipatin 18 mw Peak Frward Current (3pps, 1μs pulse) 1 A Cntinuus Frward Current 1 ma Reverse Vltage 5 V Operating Temperature Range -4 C t + 85 C Strage Temperature Range -55 C t + 1 C Lead Sldering Temperature [4.mm (.157") Frm Bdy] 32 C fr 3 Secnds 4. Electrical / Optical Characteristics at TA=25 Parameter Symbl Min. Typ. Max. Unit Test Cnditin Radiant Intensity I E 28 mw/sr I F = 5mA Peak Emissin Wavelength λ Peak 85 nm I F = 5mA Spectral Line Half-Width Δλ 5 nm I F = 5mA Frward Vltage V F 1.6 1.95 V I F = 5mA Reverse Current I R 1 μa V R = 5V Viewing Angle (See Fig.6) 2θ 1/2 6 deg. 2/7 Part N. : LTLE-32FL-32A
V alue at IF=2m A Output Pwer Relative T Relative Radiant Intensity Frward Current (m A ) Output Pwer Relative T V alue at IF=2m A Relative Radiant Intensity F rw ard C urrent IF (m A ) 5. Typical Electrical / Optical Characteristics Curves (25 Ambient Temperature Unless Otherwise Nted) IR Emitter and Detectr 1. 12 1 8.5 6 4 2 75 85 95-4 -2 2 4 6 8 1 1 W avelength (nm ) FIG.1 S P E C TR A L D IS TR IB U TIO N A m bient Tem perature Ta ( C ) FIG.2 FO R W A R D C U R R E N T V S. A M B IE N T TE M P E R A TU R E 1.2 8 6 4 2 1..8.6.4.2 1.2 1.6 2. 2.4 2.8-2 2 4 6 8 Frward Vltage (V ) FIG.3 FO R W A R D C U R R E N T V S. FO R W A R D V O LTA G E A m bient Tem perature Ta ( C ) FIG.4 R E LA TIV E R A D IA N T IN TENSITY V S. A M B IE N T TEM P E R A TU R E 5. 1 2 3 4. 3. 1..9 4 5 2..8 6 1. 2 4 6 8 1.7.5.3.1.2.4.6 7 8 9 Fward Current (m A ) FIG.5 R E LA TIV E R A D IA N T IN TENSITY V S. FO R W A R D C U R R E N T FIG.6 R A D IA TIO N D IA G R A M 3/7 Part N. : LTLE-32FL-32A
IR Emitter and Detectr 6. PACKAGE DIMENSIONS TAPE FEED DIRECTION Specificatin Items Symbl Minimum Maximum mm inch mm inch Tape Feed Hle Diameter D 3.8.149 4.2.165 Cmpnent Lead Pitch F 2.3.91 3..118 Frnt T Rear Deflectin ΔH -- -- 2..78 Tp Edge Of Base Paper T Bttm Of Cmpnent H 1.5.413 11.5.453 Feed Hle Pitch P 12.5.492 12.9.58 Lead Lcatin P1 4.4.173 5.8.228 Center Of Cmpnent Lcatin P2 5.5.198 7.65.31 Ttal Tape Thickness T -- --.9.35 Feed Hle Lcatin W 8.5.334 9.5.374 Adhesive Tape Width W1 12.5.492 13.5.531 Adhesive Tape Psitin W2 3..118 Tape Width W3 17.5.689 19..748 4/7 Part N. : LTLE-32FL-32A
7. CAUTIONS 7.1. Applicatin IR Emitter and Detectr The LEDs described here are intended t be used fr rdinary electrnic equipment (such as ffice equipment, cmmunicatin equipment and husehld applicatins). Cnsult Liten s Sales in advance fr infrmatin n applicatins in which exceptinal reliability is required, particularly when the failure r malfunctin f the LEDs may directly jepardize life r health (such as in aviatin, transprtatin, traffic cntrl equipment, medical and life supprt systems and safety devices). 7.2. Strage The strage ambient fr the LEDs shuld nt exceed 3 C temperature r 7% relative humidity. It is recmmended that LEDs ut f their riginal packaging are used within three mnths. Fr extended strage ut f their riginal packaging, it is recmmended that the LEDs be stred in a sealed cntainer with apprpriate desiccant r in desiccatrs with nitrgen ambient. 7.3. Cleaning Use alchl-based cleaning slvents such as isprpyl alchl t clean the LEDs if necessary. 7.4. Lead Frming & Assembly During lead frming, the leads shuld be bent at a pint at least 3mm frm the base f LED lens. D nt use the base f the lead frame as a fulcrum during frming. Lead frming must be dne befre sldering, at nrmal temperature. During assembly n PCB, use minimum clinch frce pssible t avid excessive mechanical stress. 7.5. Sldering When sldering, leave a minimum f 3mm clearance frm the base f the lens t the sldering pint. Dipping the lens int the slder must be avided. D nt apply any external stress t the lead frame during sldering while the LED is at high temperature. Recmmended sldering cnditins: Sldering irn Wave sldering Temperature Sldering time Psitin 35 C Max. 3 secnds Max. (ne time nly) N clser than 2mm frm the base f the epxy bulb Pre-heat Pre-heat time Slder wave Sldering time Dipping Psitin 1 C Max. 6 secnds Max. 32 C Max. 3 secnds Max. N lwer than 2mm frm the base f the epxy bulb Nte: Excessive sldering temperature and/r time might result in defrmatin f the LED lens r catastrphic failure f the LED. IR reflw is nt suitable prcess fr thrugh hle type LED lamp prduct. 7.6. Drive Methd An LED is a current-perated device. In rder t ensure intensity unifrmity n multiple LEDs cnnected in parallel in an applicatin, it is recmmended that a current limiting resistr be incrprated in the drive circuit, in series with each LED as shwn in Circuit A belw. Circuit mdel (A) Circuit mdel (B) LED LED (A) Recmmended circuit (B) The brightness f each LED might appear different due t the differences in the I-V characteristics f thse LEDs. 5/7 Part N. : LTLE-32FL-32A
7.7. ESD (Electrstatic Discharge) Static Electricity r pwer surge will damage the LED. Suggestins t prevent ESD damage: IR Emitter and Detectr Use a cnductive wrist band r anti- electrstatic glve when handling these LEDs All devices, equipment, and machinery must be prperly grunded Wrk tables, strage racks, etc. shuld be prperly grunded Use in blwer t neutralize the static charge which might have built up n surface f the LEDs plastic lens as a result f frictin between LEDs during strage and handing Suggested checking list: Training and Certificatin 7.7.1.1. Everyne wrking in a static-safe area is ESD-certified? 7.7.1.2. Training recrds kept and re-certificatin dates mnitred? Static-Safe Wrkstatin & Wrk Areas 7.7.2.1. Static-safe wrkstatin r wrk-areas have ESD signs? 7.7.2.2. All surfaces and bjects at all static-safe wrkstatin and within 1 ft measure less than 1V? 7.7.2.3. All inizer activated, psitined twards the units? 7.7.2.4. Each wrk surface mats grunding is gd? Persnnel Grunding 7.7.3.1. Every persn (including visitrs) handling ESD sensitive (ESDS) items wear wrist strap, heel strap r cnductive shes with cnductive flring? 7.7.3.1. If cnductive ftwear used, cnductive flring als present where peratr stand r walk? 7.7.3.2. Garments, hairs r anything clser than 1 ft t ESD items measure less than 1V*? 7.7.3.3. Every wrist strap r heel strap/cnductive shes checked daily and result recrded fr all DLs? 7.7.3.4. All wrist strap r heel strap checkers calibratin up t date? Nte: *5V fr Blue LED. Device Handling 7.7.4.1. Every ESDS items identified by EIA-471 labels n item r packaging? 7.7.4.2. All ESDS items cmpletely inside prperly clsed static-shielding cntainers when nt at static-safe wrkstatin? 7.7.4.3. N static charge generatrs (e.g. plastics) inside shielding cntainers with ESDS items? 7.7.4.4. All flexible cnductive and dissipative package materials inspected befre reuse r recycle? Others 7.7.5.1. Audit result reprted t entity ESD cntrl crdinatr? 7.7.5.2. Crrective actin frm previus audits cmpleted? 7.7.5.3. Are audit recrds cmplete and n file? 6/7 Part N. : LTLE-32FL-32A
8. Reliability Test IR Emitter and Detectr Classificatin Test Item Test Cnditin Reference Standard Operatin Life Ta= Under Rm Temperature As Per Data Sheet Maximum Rating Test Time= 1HRS MIL-STD-75D:126 (1995) MIL-STD-883G:15 (26) Endurance Test High Temperature High Humidity strage Ta= 65 C RH= 95% Test Time= 24HRS MIL-STD-22G:13B (22) JEITA ED-471:1 13 (21) High Temperature Strage Ta= 15±5 C Test Time= 1HRS MIL-STD-75D:131 (1995) MIL-STD-883G:18 (26) JEITA ED-471:2 21 (21) Lw Temperature Strage Ta= -55±5 C Test Time=1HRS JEITA ED-471:2 22 (21) Temperature Cycling -55 C ~ 25 C ~ 15 C ~ 25 C 3mins 5mins 3mins 5mins Test time: 3 Cycles MIL-STD-75D:151 (1995) MIL-STD-883G:11 (26) JEITA ED-471:1 15 (21) JESD22-A14C (25) Envirnmental Thermal Shck 15 ± 5 C ~ -55 C ± 5 C 1mins 1mins Test time: 2 Cycles MIL-STD-75D:156 (1995) MIL-STD-883G:111 (26) MIL-STD-22G:17G (22) JESD22-A16B (24) Test Slder Resistance T.sl = 26 ± 5 C Dwell Time= 1±1 secnds 3mm frm the base f the epxy bulb MIL-STD-75D:231(1995) JEITA ED-471: 3 32 (21) Slderability T. sl = 245 ± 5 C Dwell Time= 5 ±.5 secnds (Lead Free Slder, Cverage 95% f the dipped surface) MIL-STD-75D:226 (1995) MIL-STD-883G:23 (26) MIL-STD-22G:28H (22) IPC/EIA J-STD-2 (24) 9. Others The appearance and specificatins f the prduct may be mdified fr imprvement, withut prir ntice. 7/7 Part N. : LTLE-32FL-32A