OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813OC,, OC, OPL821OC Features: Four output options available High noise immunity Direct TTL/LSTTL interface TO18 hermetically sealed package Sensors mechanically and spectrally matched to other Optek devices (see device descriptions detailed below) Description: All OPL800, OPL801, and OPL821 sensors consist of a photodiode, a linear amplifier and a Schmitt trigger on a single silicon chip (monolithic chip for and OPL821). OPL810, OPL811, OPL812 and OPL813 sensors also have a voltage regulator added to their photologic chips. Each device s photologic chip is mounted onto a standard TO18 header and hermetically sealed in a lensed metal can. All devices in the series feature TTL/LSTTL compatible logic level output, which can drive up to 8 TTL loads (OPL800, OPL801) or up to 10 TTL loads (OPL810, OPL811, OPL812, OPL813, and OPL821) without additional circuitry. On all these devices, the Schmitt trigger s hysteresis characteristics provide high immunity to noise on input and CC. OPL800 series devices feature mediumspeed data rates to 250 kbaud, with typical rise and fall times of 25 nanoseconds. OPL800 and OPL801 devices are mechanically and spectrally matched to OP130 and OP231 series LEDs. OPL810, OPL811, OPL812 and OPL813 devices are mechanically and spectrally matched to OP130 and OP230 series devices. and OPL821 devices are mechanically and spectrally matched to OP130 and OP231 series LEDs. Applications: Noncontact reflective object sensor Assembly line automation Machine automation Machine safety End of travel sensor Door sensor TO18 Base Mounted to TO18 Base Pin # OPL80_ or OPL81_ OPL82_ Transistor 1 Ground Ground Collector 2 CC Output Base 3 Output CC Emitter DIMENSIONS ARE IN: [ MILLIMETERS] INCHES RoHS Pin # OPL80_ or OPL81_ OPL82_ Transistor 1 Ground Ground Collector 2 cc Output 1645 Wallace Drive, Base Carrollton, TX 75006 Ph: +1 972 323 2200 3 Output cc Emitter Issue B 11/2017 Page 1
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Ordering Information Part Number Photologic Input Power E E (µw/cm 2 ) Min / Max CC () Min / Max I OH / I OL Lead Length OPL800 TotemPole OPL800OC OPL801 OpenCollector InvTotemPole 50 / 600 0.10 / 12.8 OPL801OC InvOpenCollector OPL810 TotemPole OPL810OC OpenCollector OPL811 OPL811OC InvTotemPole InvOpenCollector 5 / 100 4.5 / 16.0 0.50" OPL812OC OpenCollector 0.10 / 16.0 OPL813OC InvOpenCollector 10K PullUp OC Open Collector 2 / 35 OPL821OC Inv. Open Collector OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813OC, OC, OPL821OC OPL800/800B/810 Buffered TotemPole OPL800OC/810OC/812OC/820/OC OpenCollector CC CC OPL801/811 Inverted TotemPole OPL801OC/811OC/813OC/821OC Inverted OpenCollector CC CC Issue B 11/2017 Page 2
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC 10K PullUp OPL821 Inverted 10K PullUp CC CC CC CC Issue B 11/2017 Page 3
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Absolute Maximum Ratings (T A = 25 C unless otherwise noted) OPB800/801/810/811 and OPB800OC Series Input Diode Operating Temperature Range OPL800, OPL801 OPL810, OPL811 Storage Temperature Range OPL800, OPL801 OPL810, OPL811 55 C to +110 C 55 C to +105 C 40 C to +100 C 65 C to +150 C 65 C to +125 C 55 C to +125 C Lead Soldering Temperature [1/16 inch (1.6mm) from the case for 5 sec. with soldering iron] 260 C (1) Input Infrared LED Electrical Specifications Supply oltage, CC (not to exceed 3 seconds) OPL800, OPL801 OPL810, OPL811, Sourcing Current OPL810, OPL811 Output oltage (high state) OPL800, OPL801, OPL810, OPL811 Output Current Sink (low state) OPL810, OPL811 Irradiance OPL800, OPL801 OPL810, OPL810OC, OPL811, OPL811OC OPL812, OPL812OC, OPL813, OPL813OC 10 18 10 ma 35 30 50 ma 16 ma 3 mw/cm 2 2 mw/cm 2 1 mw/cm 2 Issue B 11/2017 Page 4
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Electrical Specifications Absolute Maximum Ratings (T A = 25 C unless otherwise noted) OPB800/801/810/811/812/813 and OPB800OC Series Output Photologic oltage at Output Lead OPL800, OPL801, OPL810, OPL811 Duration of Output Short to CC Power Dissipation OPL800, OPL801 OPL810, OPL811 35 30 1 second 120 mw (2) 250 mw (2) 200 mw (2) Notes: (1) RMA flux is recommended. Duration can be extended to 10 sec. max. when flow soldering. For OPB820, a maximum of 20 grams force may be applied to leads while at soldering temperatures. (2) Derate linearly 2.5 mw/ C above 25 C for OPL800, OPL801, OPL810, OPL811. Derate linearly 5.7 mw/ C above 90 C for. (3) For OPL800, OPL801, OPL810, OPL811, light measurements are made with λi = 935 nm. For OPB820, light measurements are made with an LED source having a wavelength of 935 nm. Issue B 11/2017 Page 5
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Electrical Specifications Electrical Characteristics (T A = 25 C unless otherwise noted) SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONS CC Operating Supply oltage OPL800/801 OPL810/811 OP820 PeaktoPeak CC Ripple Necessary to Cause False Triggering of Output OPL800/801 OPL810/811 4.5 4.5 4.5 2 5.5 16 16 1 f = DC to 50 MHz f = DC to 50 MHz I CC Supply Current 15 ma E e = 0 or 1 mw/cm 2 E et (+) PositiveGoing Threshold Irradiance (3) OPL800/801 OPL810/811 0.050 0.015 0.002 0.180 0.060 0.015 0.600 0.200 0.035 mw/cm 2 mw/cm 2 mw/cm 2 T A = 25 C T A = 25 C See below (3) (+) () E et / E et (+) () E e / E e I CCH I CCL Hysteresis Ratio OPL800/801 OPL810/811 1.5 1.2 Hysteresis Ratio 1.05 1.20 1.90 See below (3) High State Supply Current 5 12 ma See below (4) Low State Supply Current 4 12 ma See below (5) 2.0 1.5 2.5 2.0 Issue B 11/2017 Page 6
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Electrical Specifications Electrical Characteristics (T A = 25 C unless otherwise noted) SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONS OH High Level Output oltage OPL800 OPL801 OPL810 OPL811 OC/821OC 2.4 2.4 CC 2.1 CC 2.1 CC 1.5 CC I OH = 800 µa, E e = 1 mw/cm 2 I OH = 800 µa, E e = 0 I OH = 1mA, E e = 0.4 mw/cm 2 I OH = 1mA, E e = 0 I OH = 100 µa (4) Notes: (1) RMA flux is recommended. Duration can be extended to 10 sec. max. when flow soldering. For OPB820, a maximum of 20 grams force may be applied to leads while at soldering temperatures. (2) Derate linearly 2.5 mw/ C above 25 C for OPL800, OPL801, OPL810, OPL811. Derate linearly 5.7 mw/ C above 90 C for. (3) For OPL800, OPL801, OPL810, OPL811, light measurements are made with λi = 935 nm. For OPB820, light measurements are made with an LED source having a wavelength of 935 nm. (4) High output state limits are valid for 4.5 < CC < 16 and E e > 0.035 mw/cm 2 (, OC), E e < 0.001 mw/cm 2 (OPL821OC). (5) Low output state limits are valid for 4.5 < CC < 16 and E e > 0.035 mw/cm 2 (OPL821OC), E e < 0.001 mw/cm 2 (, OC). Issue B 11/2017 Page 7
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Electrical Specifications Electrical Characteristics (T A = 25 C unless otherwise noted) SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONS OH High Level Output oltage OPL800 OPL801 OPL810 OPL811 OC/821OC 2.4 2.4 CC 2.1 CC 2.1 CC 1.5 CC I OH = 800 µa, E e = 1 mw/cm 2 I OH = 800 µa, E e = 0 I OH = 1mA, E e = 0.4 mw/cm 2 I OH = 1mA, E e = 0 I OH = 100 µa (4) OL Low Level Output oltage OPL800/800OC OPL801/801OC OPL810/810OC OPL811/811OC OPL812OC OPL813OC 0.4 0.4 0.4 0.4 0.4 0.4 0.4 I OL = 12.8 ma, E e = 0 I OL = 12.8 ma, E e = 1 mw/cm 2 I OL = 16 ma, E e = 0 I OL = 16 ma, E e = 0.4 mw/cm 2 I OL = 16 ma, E e = 0 I OL = 16 ma, E e = 0.2 mw/cm 2 I OL = 16 ma (5) I OH High Level Output Current OPL800OC OPL801OC OPL810OC OPL811OC OPL812OC OPL813OC 100 100 100 100 100 100 µa µa µa µa µa µa OH = 30, E e = 2 mw/cm 2 OH = 30, E e = 0 OH = 30, E e = 0.4 mw/cm 2 OH = 30, E e = 0 OH = 30, E e = 0.2 mw/cm 2 OH = 30, E e = 0 I OS Short Circuit Output Current OPL800 OPL801 20 100 ma ma E e = 1 mw/cm 2, Output = E e = 0, Output = Issue B 11/2017 Page 8
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Electrical Characteristics (T A = 25 C unless otherwise noted) Electrical Specifications SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONS t r, t f Output Rise Time, Fall Time OPL800/801 OPL800OC/801OC OPL810/811 OPL810OC/811OC/812OC/ 813OC 70 70 70 100 ns ns ns ns T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 8 TTL loads, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 360 Ω, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 0.4 mw/cm 2, R L = 10 TTL loads, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 300 Ω, f = 10 khz, D.C. = 50% 60 ns RL = 390Ω t PLH, t PHL Propagation Delay Low/High High/Low OPL800/801 OPL800OC/801OC OPL810/811 OPL810OC/811OC/812OC/ 813OC (to high state) (to low state) 5 5 5 5 1 2.1 µs µs µs µs µs µs T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 8 TTL loads, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 8 TTL loads, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 0.4 mw/cm 2, R L = 10 TTL loads, f = 10 khz, D.C. = 50% T A = 25 C, E e = 0 or 1 mw/cm 2, R L = 300 Ω, f = 10 khz, D.C. = 50% E E = 0.1 mw/cm 2, RL = 390 Ω E E = 01 mw/cm 2, RL = 390 Ω Data Rate Data Rate Using NRZ Format 100 khz E E = 01 mw/cm 2, RL = 390 Ω Notes: (1) RMA flux is recommended. Duration can be extended to 10 sec. max. when flow soldering. For OPB820, a maximum of 20 grams force may be applied to leads while at soldering temperatures. (2) Derate linearly 2.5 mw/ C above 25 C for OPL800, OPL801, OPL810, OPL811. Derate linearly 5.7 mw/ C above 90 C for. (3) For OPL800, OPL801, OPL810, OPL811, light measurements are made with λi = 935 nm. For OPB820, light measurements are made with an LED source having a wavelength of 935 nm. (4) High output state limits are valid for 4.5 < CC < 16 and E e > 0.035 mw/cm 2 (, OC), E e < 0.001 mw/cm 2 (OPL821OC). (5) Low output state limits are valid for 4.5 < CC < 16 and E e > 0.035 mw/cm 2 (OPL821OC), E e < 0.001 mw/cm 2 (, OC). Issue B 11/2017 Page 9
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance OPL800, OPL801 OPL800OC, OPL801OC OPL800, OPL800OC OPL801, OPL801OC Issue B 11/2017 Page 10
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance OPL800, OPL801 Series Issue B 11/2017 Page 11
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance OPL810, OPL811 Series OPL812, OPL813 Series Issue B 11/2017 Page 12
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance OPL812, OPL813 Series Issue B 11/2017 Page 13
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance, OPL821 Series Issue B 11/2017 Page 14
OPL800, OPL800OC, OPL801, OPL801OC, OPL810, OPL810OC, OPL811, OPL811OC, OPL812OC, OPL813 OC,, OC, OPL821OC Performance, OPL821 Series Issue B 11/2017 Page 15