ee OPTEK TECHNOLOGY INC OLE D I 794580 OO0O0Lb2 &b i T-/-67 Optoelectronics Division TRW Electronic Components Group Product Bullatin 5154 January 1985 raw Photologic Plastic Serisors Types OPL550, OPL550-0C, OPL551, OPL551-0C, SLB, SLA 03.838) .50012.70) 2305.84) nseit.88) 0261660} | "220(5.50) 0971234) 0801.52) 0802.03) y .082(2.08) 0701.78) { -180(4.57) 4 e = 11) aaa &- Orr | a9 B \ Lh a / med 9300 oa 14 -051(1.30) orgo.ay _,| {NOM RADNS ouTPUT 025(0.64) 4541.14) i O14(0.36) DIMENSIONS ARE IM INCHES (MILLIMETERS) Features Absolute Maximum Ratings (%=25C unless otherwise noted) Four output options Supply Voltage, VCC (not to exceed 3 seconds) ............. ccc cece cee eveeeeevenseeeaes +10.0V High noise immunity Storage Temperatura Ranga ........... cc ccc c ee ees eect ee eteeeseeeeseeeetens ~40C to+ 100C Direct TIULSTTL interface Operating Temperatura Range........ 22... cece cece cae eee e cee reecereecs -40C to + 85C Low cost plastic side looking package Lead Soldering Temperature {1/16 inch [1.8 mm] from case for 5 sec. with soldering iron)......... 2agc't) Mechanically and spectrally matched to Power Dissipation .............0cccccecccuseuncccecnsenueeeueenetvaetsrsneensens 85 mw'2h OP140SL and OP240SL series LEDs Curation of Output Short to VEC or Ground (OPL550, OPLO51} ...................ccc eee ee 1.00 sec. Data rates to 250 K-baud Duration of Output Short to VCC (OPL550-0C, OPL551-OC}. 0... cece eee eres 1.00 sec. Voltage at Cutput Lead (OPL550-0C, OPL551-OC).. eee ccc cece eee n eee eneenes a5V Description Low Level Quiput Currant... 0... occ ccc c cece cece eee esse ete e eect ees eteeseeeecenns 16.0 mA The OPL50, OPLS50-OC, OPLES1, and OPL551-00 High Level Output Current (OPLG5O, OPLOG1)... 0.0... cece ceeseacecseceuseaeenens 1.00 mA contain a monolithic integrated circuit which IAGIANCA kk cece cece eee tte ee beet et been eee e tee eieeeeeen eens 25 mW/em?2 incorporates a photodiode, a linear amplifier end a Schmitt trigger on a single silicon chip. The devices feature TTVLSTTL compatible logic lave! output which can drive up to 8 TTL loads without additional circuitry. Also featured are medium speed data rates to 250 K-baud with typical rise and fall times of 25 nsec. The Schmitt triggers hysteresis characteristics provide high immunity to noise on input and Vc. The Photologic chip is encapsutated in a molded plastic package which has an integral lens for enhanced optical coupling. These devices are mechanically and spectrally matched to the QP140SL end OP240SL infrared emitting diodes, Notes: {1) RMA flax is recommended. Duration can be extended to 10 seconds max. whan flaw soldering. (2) erate Enearly 4.25 mW/C above 60C. Schematics OPLS5G0 (Totem-Pole Output} Buffer OPL561 {Totam-Pote Output} Inverter Optoslectronics Division, TRW Electronic Components Group, 1215 W. Crosby Ad., Carrollton, TX 75006 (214) 323-2200, TLX 6716092 or 716049OPTEK TECHNOLOGY INC ObE D [4798580 Goo01b3 4 i Types OPL550, OPL550-0C, OPL551, OPL551-0C, SLB, SLA T= -le4 Electrical Characteristics (-40C to +85C unless otherwise noted) Symbol Parameter Min. | Typ. | Max. | Units Test Conditions vec Operating Supply Voltage 45 65 V Peak-to-Peak VCC Ripple Necessary on v Veo =5.0 VOC to Cause False Triggering of Output {=DC to 50 MHz Eet{+] Positive-Going Threshold Irradianca OPLS550, OPL550-0C, OPLG61, OPL551-0C 26 24 |mWiem?} Voc=5.0 V OPLESOSLA, OPLSS0-OCSLA, OPL55S1SLA, OPL551-OSLA | 25 1.40 |mWiem2} Voc =5.0 V OPLES0SL, OPL5S0-OCSLB, OPLO51SLB, OPL651-0CSL8 | 65 1.90 |mWcm2} Voc = 6.0 V EoTl+VEat(-}] Hysteresis Ratio 1.50 20 4.0 {cc Supply Current 6.0 16.0 mA | VoC=5.5 V, Ee==0 or 3.0 mWicm? OPLS50 (Buffer, Totem-Pole) VOH High Level Cutput Voltage 24 33 Vo {VCC =4.5 V, 10H = -800 pA, Fa =3.0 mWicm2 VOL Low Level Qutput Voltage 25 0.40 Vs} Vec=4.5 , loL= 12.8 mA, Ee=0 los Short Circuit Qutput Current ~20 | -65 -100 mA | VCC=5.5 V, &e =3.0 mW/cm?, Output = GND QPLS50-0C (Buffer, Open-Collector) lox High Level Gutput Current 1.0 100 pA | Vec=4.5 V, VOH=30 V, Ea =3.0 mWiem2 VoL Low Level Qutput Voltage 72) 0.40 Vo | Vee=4.5 V, IQL=12.8 mA, Ee=0 OPLS551 (Inverter, Totem-Pole} VOH High Level Qutout Voltage 24 3.3 Vs} Vec=4.6 V, lOH= -800 pA, Fg=0 VOL low Level Output Voltage 25 0.40 Vs] Vec=45 V, I0L= 12.8 mA, Eg=3.0 mWicem2 los Short Circuit Queput Current ~20 -5 -100 mA | Voc=5.5 V, Ea=0, Gutput= GND OPLS51-0 (Inverter, Open-Collector) {0H High Level Output Current 1.00 100 pwA }Vcc=4.5 V, VOH=30 V, Fe =0 VOL Low Level Output Voltage 25 0.40 Yo Vec=4.5 V, lOL= 12.8 mA, g =9.0 mWicm2 OPL550, OPL551 tr, tf Output Rise Time, Output Fall Time 25 70 ng Vec=6.0 V, TA=25C, Ee=0 or 3.0 mWiem2 f= 10.0 kHz, D.C. = 50%, AL=8 TTL bi tPLAPHL | Propagation Delay, Low-High, High-Low 25 | 50 | ps ; AL tats OPL580-0C, OPL551-0C tr, tf Output Rise Time, Output Fall Time 25 70 ns VCC=5.0 V, TA=25C, Ee=0 or 3.0 mWicm2 f= 16.0 kHz, D.C. = 60%, AL=4600 {PLH.tPHL | Propagation Delay, Low-High, High-Low 2.5 6.0 BS L Note: {1} rradiance measurements are made with )j=935 nm, through an apertura 020.060, centerad on the lens, parallel to tha leads, and flush +.005 to the fens surface. seep Optoelectronics Division, TAW Electronic Components Group, 1215 W. Crosby Rd., Carrollton, TX 75006 (214) 923-2200, TLX 6716032 or 215848 a7OPTEK TECHNOLOGY INC ObE D B irasseo oo00Lb4 o | Types OPL550, OPL550-0C, OPLS51, OPLE51-0, SLB, SLA 11-24 Typical Performance Curves Output Voltage vs. Ambient Tamperature 40 T i _ Leeann = 30 3 5 a > 5S 20 E s | Vec= 4.504 L Qutput Current: Low, 12.8 mAz 2 High, - 800 pA a 1.0 F Light Sours for Vou: 3 mWiers? GaAs (935 snd Vou | 8-35 -158 5 26 45 65 BS {106 125 Ty - AMBRNT TEMPERATURE - C Output Current (High) vs Ambient Temperature 1.1 1.0 oe ae 07 a6 os Igy ~ OUTPUT CURRENT - A as eg=450 03 Ff vyy=30 Output Untosded 02 F tight Source: J mWicm? Gads (835 am Qu 5-3 -15 5 2 45 65 8 105 125 Ty - AMBIENT TEMPERATURE - C OPL550, OPL5S50-0C Normalized Supply Current vs Ambient Temperature 14 =u = a 5 pew ECL 3 - 10 _ E ecw 3 fi peel a os = Zz a = 06 z Wop=550 oS Output Untoaded =z 04 Light Source For Iggy: 9 mWlem? e GaAs, X= 935 om Hormatzed to Ty =25C pos 9 5 -% -15 5 2 45 GO 8 105 125 Ty - AMBIENT TEMPERATURE - C OPL550, OPL551 Short Circuit Output Current vs. Ambient Temperature g Voce =5.50 Cutput Voltage =0 Light Source: ImWiem? GaAs (936 om) & & Igg - SHORT CIRCUIT OUTPUT CURRENT - mA 8 20 55-35-18 2% 45 65 BS 106 125 Ta - AMBIENT TEMPERATURE - C OPL550-0C, OPL551-0C Rise Time and Fall time vs Ambient Temperature Veo =5 Gutput Load: 260 chm pulfup resistor Light Source: 3 miem GaAs (935 nm} 8 8 3 ty ty - SWITCHING TIME - ns 9G 33-3 -15 5 3 4 8 & IS 125 Ty - AMBIENT TEMPERATURE - C OPL551, GPL551-0C Normalized Supply Current vs Ambient Temperature 12 = tect wees cco TS 08 0.6 0.4 Vor = 5.509 Output Unloaded 0.2 LE Ught Source far Iggy: 2 mien? Gads, X= 935 on Nomized to Ty = 25C Po a eet tocy - NORMALIZED SUPPLY CURRENT o 36-5 -15 5 2 4 GH BS 15 125 Tay - AMBIENT TEMPERATURE - C Optoelectronics Division, TRW Electronic Components Group, 1275 W. Crosby Ad., Carrollton, TX 75005 (214) 923-2200, TLX 6716032 or 215849OPTEK TECHNOLOGY INC ObE D J 4798580 OOO01kS 1 i Types OPL550, OPL550-0C, OPL551, OPL551-0C, SLB, SLA Normalized Threshold trradianca vs Ambisnt Tamperature Voo= 50 v , Light Source is Gaks, 4=995 am 2.0 N She, "OSS FaTHL Pee] 08 oa Eetith Eerie ~ NOAMALIZED THRESHOLD IRRADIANCE os as W158 5 2% 45 68 8 106 125 Ty AMBIENT TEMPERATURE - C Propagation Time vs Ambiant Temperature Veo=5 Output Load: 8 TTL equivalent circuit Pulsa Frequency: 10 kHz Pulsa Anplitude: 3 Wien? 3b Outy Cycle 50% PHL tpt tpt PROPAGATION TIME ~ ps a 85 -35 -1 5 2 45 68 8 105 125 Ty - AMBENT TEMPERATURE - *C TE 4-169 Angular Displacement from Package Mechanical Axis ae ~ 7 <a con Horizontal t HORMALIZED PHOTOSENSITIVITY - % S Based on h vs. Angular Oisplecement readings from 5 phalodiods-bonded samples. Lt 1 1 1 { 49 -3 -20 -10 Q 0 aoa wm ANGULAR RESPONSE ITyp} - O Rise Time and Fall time vs Ambient Temperature 5s Veo=5 Output Load: 8 TTL equivalent circuit 40 Light Source: 3 mWicm? GaAs, 935 am the ty SWITCHING TIME - nz 9 65 -35 -15 5 25 465 6 85 105 125 Ty - AMBIENT TEMPERATURE ~ C Switching Teast Curve for Inverters INPUT OUTPUT Yo T-f 08 pitt Ip=0 TPH tPHE 10% - Aris Yon -~--- 1ay 6) = You tt LEO: f= 10 kHz, 0.C.= 50% Switching Test Curve for Buffers iNPUT LED: f= 10. kHz, O.C,= 50% TAW reserves the right to make changes at any time in order ta improve design and to supply the best product possible. Optoelectronics Division, TAW flectronic Components Group, 1216 W. Croshy Ad., Carrollton, TX 75008 {214} 323-2200, TLX 6716032 or 2i66ag TRW Inc. 1985. TAW is the name and mark of TAW inc. Printed in U.S.A. s