Product Bulletin OPL560 May 1993 (SP, OPTEK Photologic Sensors Types OPL560, OPL561, OPL562, OPL563 Series 033.838) 500112.70 .23015.B4) oa6e) 0 [MN 2018.59) 0922.34) 08611.68) | GND 082(2.08) 0601152) .080(2.03) f von 7011.78) | aN H } - 1804.57) tO 6044.06) FS 17014.32) F "14013.56) re | 025(0.64) 8 01510.381 030(0.78) / ec 7 | , , O45t1.14) .05141.30) oreo.a1 | [MOM RAOUS ouTPUT 750.69 | I ad 04511.14) Ora 36) DIMENSIONS ARE IN INCHES (MILLIMETERS! Features Absolute Maximum Ratings (Ta = 25C unless otherwise noted) e Four output options Supply Voltage, Voc... cece cece teen eet eet e eet eneeeeee 18V High noise immunity Storage Temperature Range .............. 0000 c cece eee -40C to +100C Direct TTL/LSTTL interface Operating Temperature Range ...............000c cece eee -40C to +85C * Low cost plastic side-looking package _ Lead Soldering Temperature Range [1/16 inch (1.6mm) from case for 5 sec. with sol- * Mechanically and spectrally matched = dering iron] ....... 0.0. cece cece cence eect et ene veseeneies 240C to the OP140 and OP240 series LED's Power Dissipation...........-0cccccececcccccucecesescecueeeess 200mw") * Data rates to 200 kBaud Duration of Output Short to Voc (OPLS560, OPLS561, OPL562, OPLS563) ........... 1.00sec. * Two sensitivity options Duration of Output Short to Vcc (OPL560-0C, OPL561-OC, OPL562-OC, OPL563-0C). 1.00sec. D inti Voltage at Output Lead (OPL560-0C, OPL561-OC, OPL562-OC, OPL563-OC)........... 35V escription Sinking Current... 2.20... et eet e tenes 50.0mA The OPL560, OPL560-OC, OPL561, Sourcing Current (OPL560, OPL561, OPL562, OPL563)........... 00.0000. e ee 10.0mA OPL561-OC, OPL562, OPL562-OC, Irradiance (OPL560, OPLS60-OC, OPL561, OPL561-OC) ..... 22... 9mW/cm OPLS563, and OPL563-OC contain a Irradiance (OPL562, OPLS62-OC, OPL563, OPL563-OC). 2.6... kee eee eee 3mW/cm Notes: monolithic integrated circuit which incorporates a photodiode, a linear amplifier, voltage regulator, and a Schmitt trigger on a single silicon chip. The devices feature TTL/LSTTL compatible logic level output which can drive up to 10 TTL loads over supply voltages ranging from 4.5 V to 16 V. The Photologic chip is encapsulated in a molded plastic package which has an integral lens for enhanced optical coupling. (1) Derate linearly 2.50mW/C above 25C. (2) RMA flux is recommended. Duration can be extended to 10 sec. maximum when flow soldering. Max 20 grams force may be applied to the leads when soldering. (3) Irradiance measurements are made with Ai = 935nm. Schematics OPL560/OPL562 (Tatem-Pole Output) Buffer OPL5S61/0PL563 (Totem-Pale Output) Inverter VOLTAGE REGULATOR { ! a - o3 VOLTAGE REGULATOR: EK Light On - Output High Light On - Output Low OPL560-0C, OPL562-0C {Open-Collector Output) Buffer OPL561-0C, OPL5S63-0C (Open-Collector Output) Inverter Voc VOLTAGE REGULATOR Light On - Output High Light On - Output Low Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 (214) 323-2200 Fax (214) 323-2396 4-8Types OPL560, OPL561 Series Electrical Characteristics (-40C to +85C unless otherwise noted) Vcc = 4.5 to 16.0 V SYMBOL PARAMETER MIN TYP | MAX | UNITS | TEST CONDITIONS Vcc Operating Supply Voltage 4.5 16.0 Vv Peak-to-Peak Vcc Ripple Necessary 2 Vv f = DC to 50 MHz to Cause False Triggering of Output Eet(+) | Positive-Going Threshold Irradiance) OPL560, OPL560-0C, OPL561, OPL561-OC .09 55 mW/cm? Ta = 25C OPLS560A, OPL560-OCA, OPL561A, OPL561-OCA | .09 36 mWicm? | Ta = 25C OPL560B, OPL560-OCB, OPL561B, OPL561-OCB | .18 55 mWicm* | Ta = 25C Eet(+)/Eet(-)| Hysteresis Ratio 1.20 1.55 | 2.00 loc Supply Current 8.0 12.0 mA Ee = 0 or 1 mW/cm* OPL560 (Buffer, Totem-Pole) Vou High Level Output Voltage Vec-2.1 Vv oH = -1.0LA, Ee = 1 mWicm? VoL Low Level Output Voltage 0.40 Vv lo. = 16mA, Ee=0 OPL560-OC (Buffer, Open-Collector) Jou High Level Output Current 100 pA VoH = 30V, Eo= 1.0mW/iem? VoL Low Level Output Voltage 0.40 Vv lo. = 16mA, Ee =0 OPL561 (Inverter, Totem-Pole) Vou High Level Output Voltage Vcc-2.1 Vv lon =-1mA, Eo = 0 VoL Low Level Output Voltage 0.40 Vv lo. = 16MA, Ee = 1.0mW/em OPL561-OC (Inverter, Open-Collector) lou High Level Output Current 100 pA Vou = 30V, Es = 0 Vor Low Level Output Voltage 0.40 Vv lo = 16mA, Ee = 1.0mW/em? OPL560, OPL561 tr, te Output Rise Time, Output Fall Time 70 ns Ta = 25C, Ey =0 or tPLH, tpHL | Propagation Delay, Low-High, High-Low 5.0 ps 1.0mWiem?, f = 10.0kHz DC = 50%, RL = 10TTL Loads OPL560-0C, OPL561-OC tr, tt Output Rise Time, Output Fall Time 100 ns Ta = 25C, Ex =0 or tpLH, tpHL | Propagation Delay, Low-High, High-Low 5.0 ps 1.0mWiem?, f = 10.0kHz, DC = 50%, Ri = 3002 Typical Performance Curves OPL560, OPL561, OPL5S62, OPL563 Output Voltage vs. Ambient Temp. 3.5 OPL560-0C, OPL561-0C, OPL562-0C, OPL563-0C High Output Currant vs. Ambient Temp. 0.05 ce oe an 8 2 6 2 y o Ss o o Veco - 4.5 ip, - 16 mA loH = -1 mA wn Ss > y Veo = 4.54 You - 30V = Vou. Von OUTPUT VOLTAGE V 2 o lon ~ HIGH OUTPUT CURRENT yA S wn oa 95-38 18 65 85 105 125 Ta AMBIENT TEMPERATURE C -15 5 25 45 65 85 106125 Ta AMBIENT TEMPERATURE C OPL56D, OPLS60-0C, OPL561, OPL5G1-0C Normalized Threshold Irradiance vs. Ta NORMALIZED THRESHOLD IRRADIANCE Ti+) -5V >) -35 -15 5 25 45 65 85 105125 Ta AMBIENT TEMPERATURE C Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible. Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 4-9 (214)323-2200 Fax (214)323-2396Types OPL562, OPL563 Series Electrical Characteristics (-40C to +85C unless otherwise noted) Vcc = 4.5 to 16.0 V (Sp), OPTEK SYMBOL PARAMETER MIN TYP | MAX | UNITS | TEST CONDITIONS Vcc Operating Supply Voitage 4.5 16.0 Vv Peak-to-Peak Vcc Ripple Necessary 2 Vv f = DC to 50 MHz to Cause False Triggering of Output Eat(+) | Positive-Going Threshold Irradiance) OPL562, OPL562-0C, OPL563, OPL563-OC 025 .230 mWicm? Ta = 25C OPL562A, OPL562-OCA, OPL563A, OPL563-OCA | .025 -140 mWicm? Ta = 25C OPLS562B, OPL562-OCB, OPLS5S63B, OPL563-OCB | .070 .230 mWicm? Ta = 25C Eet(+)/Eet(-) | Hysteresis Ratio 1.20 1.55 | 2.00 lec Supply Current 8.0 | 12.0 |ma Ee =0 or .3mW/em? OPL562 (Buffer, Totem-Pole) Vou High Level Output Voltage Voc-2.1 Vv lon = -1.0nA, Ee = .amWiem? Vor Low Level Output Voltage 0.40 Vv loL = 16mA, Ee=0 OPL562-OC (Buffer, Open-Collector) lou High Level Output Current 100 pA Von = 30V, Ee = .amWiem? VoL Low Level Output Voltage 0.40 Vv lo. = 16mA, Ee=0 OPLS563 (Inverter, Totem-Pole) Vou High Level Output Voltage Vec-2.1 Vv loH = -1mA, Ee =0 VoL Low Level Output Voltage 0.40 Vv lo. = 16mA, Ee = .3mW/em? OPL563-OC (Inverter, Open-Collector) lou High Level Output Current 100 HA VoH = 30V, Ee =0 VoL Low Level Output Voltage 0.40 Vv lo = 16MA, Es = .3mW/em? OPL562, OPL563 fr, tf Output Rise Time, Output Fall Time 70 ns Ta = 25C, Ee =0 or tPLH, tpHL =| Propagation Delay, Low-High, High-Low 6.0 ps .3mWiem?, f = 10.0kHz DC = 50%, RL = 10TTL Loads OPL562-0C, OPL563-0C tr, tr Output Rise Time, Output Fall Time 100 ns Ta = 25C, Ee=0 or tpLH, tpHL | Propagation Delay, Low-High, High-Low 6.0 ys .amW/cm?, f = 10.0kHz, DC = 50%, RL = 300Q Typical Performance Curves OPL562, OPLS62-0C, OPL5S63, OPL563-0C Normalized Threshold Irradiance vs. Amb. Temp. 19 Th + in S & io o m o bh NORMALIZEO RESPONSE Sp wo > NORMALIZED THRESHOLD IRRADIANCE e ~ T=} 05 -85 -35 -15 25 45 65 95 105125 500 Tq AMBIENT TEMPERATURE C WAVELENGTH ~ nm Normalized Spectral Response Angular Displacement from Package Mechanical Axis Optek Technology, inc. 1215 W. Crosby Road Carrollton, Texas 75006 4-10 a SA y LA NA - TH ; > 75 7 Ry = ? y = 7 z r \ S 50 A f tf 2 4, N = ane (2 oT \ g -\ -\ ] z 25-1 Horizontal t _ Mettical s Based on |, vs. Angular Di readings from phota diode-bonded samples. | | -40 -30 -20 -10 0 10 20 30 40 ANGULAR RESPONSE (Typ) 0 (214) 323-2200 Fax (214) 323-2396Types OPL562, OPL563 Series Typical Performance Curves Normalized Supply Current vs. Ambient Temperature a Oo T | N loce (LOW) o o a \ Tees (HIGHT it | Voc - 16.0 OUTPUT UNLOADED IpcEe (LOW) = 0 mWicm? levee (HIGH) = 1 mWicm? \ [| 4or OPL560 Series iccEs (HIGH) = 0.3 mWicm? \ aes {tor OPL562 Series | TG5 -35-15 5 25 46 65 85 105 126 Tq AMBIENT TEMPERATURE C KOSS, wo on NORMALIZED SUPPLY CURRENT mA 3 2 wo oS OPLS560, OPL561, OPL562, OPL563 Rise Tima & Fall Time vs. Ta 100 T TT | _Test Conditians: | Yoo + 5 T ao} Frequency = 10 kHz < Outy Cycle - 50% ' + Output Load = 10 TTL equivalent circuit -+ = a g <= & = 40 a 1 tr = 20 tt 6 -65 -35 -15 5 25 45 65 45 105 125 Ta AMBIENT TEMPERATURE C OPL560, OPL560-0C, OPLS61, OPL561-0C tp Eal-+h tp Eg(-) PROPAGATION TIME nA Propagation Tima vs. Amb. Temp. 10 Tesi Conditions: | | Veo - 8 V t t Pulse Amplitude = 1 mWicm? Frequency = 10 kHz Duty Cycle - 50% Lf Light Source: OP 130 GaAs LED 8 ~ (ih = 936 al 4+ BLP Fel +} Tp Ee(-) ny Output Load: 10 TTL equivalent circuit n | | or 300 Q pull-up resistor -5 -35 -15 5 25 45 65 85 105 125 Ta AMBIENT TEMPERATURE C OPL560-0C, OPL561-0C, OPL562-0C, OPLS563-0C Rise Time & Fall Time vs. Ta vs. Output Load ty, tf SWITCHING TIME nA ty, RL = 2kO 5V Frequency - 10 kHz Cycle - 50% Load = tasistar t, AL = Tike tf, AL = 300, 1k, 2 -59 -95 -15 65 85 105 125 Ta AMBIENT TEMPERATURE ~ C OPL562, OPL562-0C, OPL563, OPL563-0C Propagation Time vs. Amb. Temp. 10 Test Conditions: mt Veo - 5 ae Pulse Amplitude = 0.3 mWicm? 8 a 1 z 10 kHz = Frequency = z N\ Duty Cycle - 50% & S65 a < = "| = ar) et > T = 2 | Light Source: OP 130 GaAs LEO 4 | (A = 935 om a > | Output Load: 10 TTL equivalent circuit __| obi] | 55 -35 15.5 or 300 2 pull-up resistor 25 45 65 85 105 125 Ta AMBIENT TEMPERATURE C INPUT ttn) peel +l tp tate-9 watts Gos, You QUTPUT lay V ey ~~ Vou tr (EO 1= 10 kHz. OC. = 50% Switching Test Curve for Buffers T INPU 50% ig(lN) Ip=0 het +) =| {pe et ~1 ee Von QUTPUT Yo tower riy Ne {ED 1= 10 kHz, OC = 50% Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible. Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 4-11 (214)323-2200 Fax (214)323-2396 ~---