Product Bulletin OP830SL June 1996 NPN Silicon Photodarlington Type OP830SL 068 (1.73) .202 ($.13) 230 (5.84). 045 (1.14) 17 (4.75) | -209 (S.31) g 100 (2.54) x BASE -048 (1.22) ( 'y -028 (0.71) .187 (4.75) % 73 (4.55) HE Cc, {_. NX e051) -019 (0.48) -036 (0.91 # O16 (0-41) EMITTER Ss 2 PLACES 030 (0.76) /H .S00 (12.70) + 45 MAX MIN THIS OFMENSION CONTROLLED AT HOUSING SURFACE. DIMENSIONS ARE IN INCHES (MILLIMETERS) Features Absolute Maximum Ratings (Ta = 25 C unless otherwise noted) Narrow receiving angle Collector-Emitter Voltage... 0... ccc eee cee e eee ene ees 15V e Enhanced temperature range Emitter-Collector Voltage ec eect ences 5V e Excellent thermal characteristics continous Collector Current... 0.0.0.0... 00022 cece eee ees se 50 mA TO-18 hermetically sealed package sorags omeratre Flange cee eee ete e tee eee teens peo c eC oy po c * Mechanically and spectrally matched perating emperature ANGE 0. reece cece eee eee eee 65 C to +12 to the OP 130 and OP231 series of Lead Soldering Temperature [1/16 inch (1.6 mm) from case for 5 sec. with soldering ' infrared emitting diodes 0) 0) 260 Cc Power Dissipation... 0.2.0... ccc ccc cece ence ene nevaee 250 mw?) Description Notes: (1) RMA flux is recommended. Duration can be extended to 10 sec. max. when flow soldering. The OP830SL consists of an NPN (2) Derate linearly 2.5 mW/ C above 25 C. (3) Junction temperature maintained at 25 C. silicon photodarlington mounted in a (4) Light source is an unfiltered tungsten bulb operating at CT = 2870 K or equivalent infrared hermetically sealed package. The source. narrow receiving angle provides excellent on-axis coupling. Photodarlington devices are normally used in applications where light signal levels are low and more current gain is Typical Performance Curves needed than is possible with Typical Spectral Response Coupling Characteristics phototransistors. TO-18 packages offer of OP130 and OP830 high power dissipation and superior 0 10 hostile environment operation. /| |= 100mA Vee= 5V 3 CE Replaces \ 8 Ta= 25C a = OP830 and K9020 series Sw 5 os a = 5 . 40 aod 2 5 & \ z 2 a o2 3 0 0 02 of O06 O08 10 oD eM DISTANCE BETWEEN LENS TiPS ~ Inches Wavelength - nm Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 (972) 323-2200 Fax (972) 323-2396 3-46Type OP830SL Electrical Characteristics (Ta = 25 C unless otherwise noted) SYMBOL PARAMETER MIN | TYP | MAX| UNITS TEST CONDITIONS iccony_|On-State Collector Current 15 mA |Voe=5 V, Ee= 0.5 mWicm4) IcEo Collector Dark Current 1.0 pA |Vce=10V, Ee=0 Vipr)yceo | Collector-Emitter Breakdown Voltage 15 Vs {lc =100 pA Veryeco |Emitter-Collector Breakdown Voltage 5.0 Vs |le=100 pA VcesaT)) |Collector-Emitter Saturation Voltage 4.20! V_ |Ic=1.0 mA, Ee = 0.5 mwicm) Typical Performance Curves Collector Dark Current vs. Ambient Temperature 1,000 T T Veer 10V e LZ Yo 100 10 L 1.0 / | L 0.1 A A Iceo COLLECTOR DARK CURRENT yA 0.01 0 25 50 75 100-125 Ta AMBIENT TEMPERATURE C 190 Rise and Fall Time vs. Load Resistance Veo -5 | | Vale 1 V R= voor { FREQ. = 100 Hz Pw = ims FREQ. = 10 Hz Pw = 10 ms FREQ. = 2 Hz Z pa-ren Ry = 10 tf py = 50 m5 4 F Leo - op2g90c X= 890 nm Yv 2 LZ a YA Zz 0 2 4 6 8 10 Ry LOAD RESISTANCE kQ 4 Pa ty. tp RISE AND FALL TIME ms Optek reserves the right to make changes at any time in order to improve design and to su 1215 W. Crosby Road Optek Technology, Inc. Ic COLLECTOR CURRENT mA NORMALIZED COLLECTOR CURRENT 11 0.9 07 0.5 0.3 0.1 0 -60 45 Collector Current vs. Ambient Temperature Vce-5V Ep = 0.1 mWicm? d= 890 nm PULSE WIDTH = 100 ps DUTY CYCLE = 0.1% MEASURED 25 ys INTO PULSE -30 #20 30 60 90 120 Ta AMBIENT TEMPERATURE - C Normalized Collector Current vs. Angular Displacement TEST CONDITIONS: d= 890 nm \g = 100 mA Vee 5 V LENS TO LENS DISTANCE + 6~ 30 15 0 1 30 45 6 ANGULAR DISPLACEMENT Deg. Carroliton, Texas 75006 3-47 150 Collector Current vs. Irradiance E, IRRADIANCE mWicm? Switching Time Test Circuit Voce 5V ae Light source is a pulsed Your gallium arsenide LEO with a tise time of fess than 500 ns. LEO output is adjusted until I - 0.8 mA. = ly the best product possible. (972)323-2200 Fax (972)323-2396 50 = 40 1 - z = 30 3 S Voge SV 20 LIGHT SOURCE IS UNFILTERED S TUNGSTEN AT 2870K | ; 2 10 0 0 05 10 15 20 25 30 35 40 4! PHOTOSENSORS