Infrared Sensors Line Guide Solid, sensitive solutions. Optoelectronics integrates optical principles and semi-conductor electronics — the inter-conversion of electricity to light. In electronic systems where feedback and control systems are common, these infrared sensors are often critical. Honeywell Sensing and Control (S&C) offers a broad selection of often reliable, cost-effective, off-the-shelf optoelectronic sensor solutions for many potential applications — including printers and copiers, metering and data storage systems, liquid-level sensing, motion control, scanning, automated transactions, barcode readers, drop sensors, and other medical equipment. We also provide a wide array of custom solutions ranging from special electrical selections, special markings, wiring, and connectors to completely unique housings or integrated circuits. FEATURES REFLECTIVE SENSORS HOA1395. Features: Side-looking plastic package • Phototransistor output • Infrared emitter and phototransistor detector in a single package • Low profile for design flexibility • Designed for short-distance detection • Enhanced sensitivity • Unfocused for sensing diffused surfaces Benefits: Miniature infrared sensor designed to sense reflective objects at short distances. Infrared emitter and phototransistor are mounted side-by-side with an integral barrier to minimize crosstalk. HOA0149. Features: Phototransistor output • Focused for maximum response • Low-profile housing • Plastic ABS molded housing Benefits: An infrared emitter and phototransistor encased side-by-side on converging optical axes. Phototransistor responds to radiation from an infrared transmitter only when a reflective object passes within its field of view. HOA1180. Features: Choice of phototransistor or photodarlington output • Enhanced sensitivity • Wide operating temperature -55 °C to 100 °C [-67 °F to 212 °F] • 305 mm [12 in] min. 28 AWG PVC insulated wire leads • Metal can packaged components Benefits: Consists of an infrared emitter and phototransistor or photodarlington encased side-by-side on converging axes. Detector responds to radiation from an infrared emitter only when a reflective object passes within its field of view. HOA1397. Features: Choice of phototransistor or photodarlington output • Low profile for design sensitivity • Unfocused for sensing diffused surfaces • Plastic-molded components Benefits: An infrared emitter and phototransistor or photodarlington encased side-by-side on parallel axes. Detector responds to radiation from infrared emitter only when a reflective object passes within its field of view. Potential applications include presence sensing, motion sensing, movement detection, and counting. HOA1405. Features: Phototransistor output • Focused for maximum response • Ambient light and dust protective filter • Plastic-molded components Benefits: An infrared emitter and phototransistor encased side-by-side on converging optical axes. Phototransistor responds to radiation from an infrared emitter only when a reflective object passes within its field of view. Employs an IR transmissive filter to minimize the effects of visible ambient light and to provide a smooth optical face which prevents the accumulation of airborne Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. continued on page 10 Infrared Sensors Line Guide Often reliable, cost-effective performance. Often ideal for object presence, motion and limit sensing, position encoding, movement detection, and counting, the Honeywell S&C infrared sensor line consists of reflective and transmissive sensors, detectors, emitters, and encoders. Reflective: An infrared emitter and phototransistors or photodarlingtons are encased side-by-side. Detector responds to radiation from the infrared emitter when a reflective object passes. Transmissive: Through a field of view, an infrared emitter and a photosensor are mounted facing each other when an opaque object passes through the slot, interrupting the infrared path, it is detected. These metal or plastic products offer a variety of electro-optical characteristics and package styles. Detectors: Available in a number of different plastic, metal, and ceramic packages, with a wide variety of electrooptical characteristics. Can sense light over broad spectrum from low visible through near infrared wavelengths. Analog detectors are available in photodiodes, phototransistors, and photodarlingtons. Digital Optoschmitt detectors are also available. Emitters: Available in a variety of packages to compliment the Honeywell detector family. Available in transfer-molded plastic packages, as well as ceramic surface mount or metal packages in various styles. Two basic chip types are used: GaAs and AlGaAs. Reflective Sensors HLC1395 HOA0149 HOA1180 Package style miniature pc/chassis mount chassis mount Coupled current (Ic) minimum 0.6 mA 1 mA 0.16 mA Forward current 10 mA 40 mA 30 mA Optimum point of response 1,02 mm [0.04 in] 3,80 mm [0.15 in] 12,7 mm [0.5 in] Mounting configuration pcb mount pcb or 0.085 in dia mounting hole mounting tab Termination style 0.020 in sq leads 0.020 in sq leads 28 AWG PVC insulated wire leads Reflective Sensors HOA1397 HOA1405 HOA2498 Package style pc mount pc/chassis mount pc/chassis mount Coupled current 0.7 mA 0.8 mA 0.16 mA Forward current 20 mA 30 mA 30 mA Optimum point of response 1,27 mm [0.05 in] 5,08 mm [0.2 in] 12,7 mm [0.5 in] Mounting configuration pcb mount mounting tab mounting tab Termination style 0.020 in sq leads 0.020 in sq leads 0.018 dia leads Encoders: Sensing speed and direction or mechanical motion, these PC-mount, plastic products are typically used in conjunction with an encoder disk or linear encoder strip. As the interruptive pattern moves, the sensor provides data for processing. 2 www.honeywell.com/sensing Low Light Rejection Phototransistors Package style SDP8475-201 SDP8476-201 T-1 sidelooker Angular response 20° 50° Light current (min.) 4 mA 1 mA Light current (max.) 14 mA 6 mA Light current slope 4 mA/mW/cm² to 14 mA/mW/cm² 1 mA/mW/cm² to 6 mA/mW/cm² Mounting configuration through-hole through-hole Termination style 0.020 in sq leads 0.020 in sq leads Transmissive Sensors HOA1877 HOA0825 HOA086X HOA1879 Sensor aperture 1,52 mm [0.06 in] dia 1,52 mm [0.06 in] dia 1,52 mm x 1,27 mm [0.06 in x 0.05 in] 1,02 mm x 0,25 mm [0.04 in x 0.01 in] Slot width 9,53 mm [0.375 in] 4,19 mm [0.165 in] 3,18 mm [0.125 in] 3,18 mm [0.125 in] Rise/fall time (typ.) 15 ns 15 ns 15 ns 15 ns Coupled current (Ic) min. 0.5 mA 0.5 mA 1 mA 0.5 mA Collector-emitter breakdown voltage (min.) 30 V 30 V 30 V 30 V Mounting configuration mounting tabs N, L, T, P mounting options N, L, T, P mounting options mounting tabs Termination style 0.018 in diameter leads 0.020 sq leads 0.020 in sq leads 0.020 in sq leads www.honeywell.com/sensing 3 Infrared Sensors Line Guide Transmissive Sensors HOA1882 HOA088X HOA1870 Sensor aperture 1,52 mm [0.06 in] dia 1,52 mm x 0,25 mm [0.06 in x 0.01 in] 1,02 mm x 0,15 mm [0.04 in x 0.006 in] Slot width 5,08 mm [0.20 in] 3,18 mm [1.25 in] 0,78 mm [0.07 in] Rise/fall time (typ.) 15 ms 15 ns 15 ns Coupled current (Ic) min. 1.8 mA 0.5 mA 0.3 mA Collector-emitter breakdown voltage (min.) 30 V 30 V 30 V Mounting configuration pcb mount N, L, T, P mounting options mounting tab Termination style 0.020 in sq leads 26 AWG UL 1429 wire leads 22 AWG UL 1007 wire leads Optoschmitt Detectors SD5600 SD5610 SD5620 SD5630 SDP8600 SDP8610 Package style TO-46 dome lensed TO-46 dome lensed TO-46 dome lensed TO-46 dome lensed Side-detecting Side-detecting Package components metal metal metal metal plastic plastic Angular response 12° 12° 12° 12° 50° 50° Turn-on threshold irradiance 2.5 mW/cm2 max. 2.5 mW/cm2 max. 0.25 mW/cm2 0.25 mW/cm2 2.5 mW/cm2 max. 2.5 mW/cm2 max. Output logic buffer inverter buffer inverter buffer inverter Supply voltage (range) 4.5 Vdc to 16 Vdc 4.5 Vdc to 16 Vdc 4.5 Vdc to 16 Vdc 4.5 Vdc to 16 Vdc 4.5 Vdc to 12 Vdc 4.5 Vdc to 12 Vdc Mounting configuration through-hole through-hole through-hole through-hole through-hole through-hole Termination style 0.018 in round leads 0.018 in round leads 0.018 in round leads 0.018 in round leads 0.020 in sq leads 0.020 in sq leads 4 www.honeywell.com/sensing Optoschmitt Sensors HOA096X/HOA097X HOA696X/HOA697X HOA698X/HOA699X HOA7720/HOA7730 Housing type (material) transmissive/opaque transmissive/opaque transmissive/opaque transmissive Sensor aperture 1,52 mm x 0,25 mm [0.06 in x 0.01 in]; 1,52 mm x 1,27 mm [0.06 in x 0.05 in] 1,52 mm x 0,25 mm [0.06 in x 0.01 in]; 1,52 mm x 1,27 mm [0.06 in x 0.05 in] 1,52 mm x 0,25 mm [0.06 in x 0.01 in]; 1,52 mm x 1,27 mm [0.06 in x 0.05 in] 1,78 mm x 0,51 mm [0.07 in x 0.02 in]; 1,52 mm x 1,27 mm [0.06 in x 0.05 in] Slot width 3,18 mm [0.125 in] 3,18 mm [0.125 in] 3,18 mm [0.125 in] 3 mm [0.118 in] Output (type) 10 kOhm pull-up open collector/totem-pole 10 kOhm pull-up open collector/totem-pole 10 kOhm pull-up totem-pole/open collector Output logic buffer/inverter buffer/inverter buffer/inverter inverter Supply voltage (range) 4.5 V to 10 V 4.5 V to 7 V 4.5 V to 12 V 4.5 V to 5.5 V Rise/fall time 60 ns tr/15 ns tf 70 ns tr/70 ns tf 70 ns tr/70 ns tf 70 ns tr/70 ns tf Propagation delay 5 ms 5 ms 5 ms 5 ms Mounting configuration N, L, T, P mounting options N, L, T, P mounting options N, L, T, P mounting options mounting tabs Termination style 0.020 in sq leads 0.020 in sq leads 26 AWG wire leads integral 3-pin connector Photodarlington Detectors SD1410(L) SD2410 SD3410 SD5410 SDP8105 SDP8106 Package style coaxial, leaded case miniature pill TO-46 flat window TO-46 dome lensed T1 side-detecting Angular response 24° 48° 90° 12° 50° 50° Light current minimum 0.6 mA 1 mA 0.6 mA 2 mA 0.5 mA 1 mA Dark current 250 nA 250 nA 250 nA 250 nA 250 nA 250 nA Rise/fall time 75 ms typ. 75 ms typ. 75 ms typ. 75 ms typ. 75 ms typ. 75 ms typ. Mounting configuration through-hole through-hole through-hole through-hole through-hole through-hole Termination style 0.018 in round leads 0.062 in hole 0.018 in round leads 0.018 in round leads 0.020 in sq leads 0.020 in sq leads www.honeywell.com/sensing 5 Infrared Sensors Line Guide Photodiode Detectors SD2420 SD5421 SDP8276 SD1420(L) SMD2420 Package style miniature pill TO-46, dome lensed side-detecting coaxial, leaded case surface mount, glass lens Angular response 48° 18° 50° 24° 28° Light current minimum 7 mA 40 mA 4 mA 5 mA 6 mA Reverse breakdown voltage 50 V 75 V 50 V 50 V 50 V Rise/fall time 50 ns 15 ns 50 ns 50 ns 20 ns Dark current 20 nA max. 20 nA max. 50 nA max. 5 nA max. 5 nA max. Mounting configuration through-hole through-hole through-hole through-hole SMT Termination style 0.062 in hole 0.018 in round leads 0.020 sq leads 0.018 in round leads SMT SE1450(L) SE1470(L) SE2460 SE2470 Type GaAs AIGaAs GaAs AIGaAs Package style coaxial, lead case coaxial, lead case miniature pill miniature pill Emitters Metal Package Beam angle 24° 24° 18° 18° Power output 0.7 mW min. 1.1 mW/cm2 to 4.5 mW/cm2 1 mW min. 6 mW/sr min. Output wavelength 935 nm 880 nm 935 nm 880 nm Spectral bandwidth 50 nm 80 nm 50 nm 80 nm Forward voltage 1.6 V 1.8 V 1.6 V 1.8 V Mounting configuration through-hole through-hole through-hole through-hole Termination style 0.018 in round leads 0.018 in round leads 0.062 in hole 0.062 in hole 6 www.honeywell.com/sensing Emitters Metal Package Type SE3455 SE3470 SE5455 SE5470 GaAs AIGaAs GaAs AIGaAs Package style TO-46 flat window TO-46 flat window TO-46 dome lensed TO-46 dome lensed Beam angle 90° 90° 20° 20° Power output 5.4 mW min. 10.5 mW min. 4.8 mW min. 2.6 mW/cm2 min. Output wavelength 935 nm 880 nm 935 nm 880 nm Spectral bandwidth 50 nm 80 nm 50 nm 80 nm Forward voltage 1.7 V 1.9 V 1.7 V 1.9 V Mounting configuration through-hole through-hole through-hole through-hole Termination style 0.018 in round leads 0.018 in round leads 0.018 in round leads 0.018 in round leads Emitters - Plastic and Ceramic Package SEP8505 SEP8506 SEP8705 SEP8706 SEP8736 SME2470 Type GaAs GaAs AlGaAs AIGaAs AIGaAs AlGaAs Package style T1 side emitting T1 side emitting tight beam side looker surface mount, glass lens Beam angle 15° 50° 15° 50° 10° 24° Power output 2 mW/cm to 4 mW/cm2 0.33 mW/cm to 0.52 mW/cm2 2.7 mW/cm to 7.8 mW/cm2 0.45 mW/cm to 0.9 mW/cm2 1.2 mW/cm to 3 mW/cm2 0.6 mW/cm2 min. Output wavelength 935 nm 935 nm 880 nm 880 nm 880 nm 880 nm Spectral bandwidth 50 nm 50 nm 80 nm 80 nm 80 nm 80 nm Forward voltage 1.5 V 1.5 V 1.7 V 1.7 V 1.7 V 1.5 V Mounting configuration through-hole through-hole through-hole through-hole through-hole SMT Termination style 0.018 in round leads 0.018 in round leads 0.020 in sq leads 0.020 in sq leads 0.020 in sq leads SMT 2 2 2 2 2 www.honeywell.com/sensing 7 Infrared Sensors Line Guide Phototransistors Metal Package Package style SD1440(L) SD2440 SD3443 SD5443 SD5491 coaxial, leaded case miniature, pill TO-46 flat window TO-46 dome lensed TO-18 dome lensed Angular response 24° 48° 90° 18° 12° Light current minimum 3 mA 7 mA 2 mA 8 mA 2 mA Peak response 880 nm 880 nm 880 nm 880 nm 880 nm Rise/fall time 15 ms typ. 15 ms typ. 15 ms typ. 15 ms typ. 2 ms typ. Mounting configuration through-hole through-hole through-hole through-hole through-hole Termination style 0.018 in round leads 0.062 hole 0.018 in round leads 0.018 in round leads 0.018 in round leads Phototransistors Plastic and Ceramic Package SDP8405 SDP8406 SDP8436 SMD2440 Package style T1 side detecting tight beam sidelooker ceramic surface mount, glass lens Angular response 20° 50° 18° 28° Light current minimum 12 mA 1.8 mA 7 mA 1.5 mA Peak response 880 nm 880 nm 880 nm 880 nm Rise/fall time 15 ms typ. 15 ms typ. 15 ms typ. 15 ms typ. Mounting configuration through-hole through-hole through-hole SMT Termination style 0.020 in sq leads 0.020 in sq leads 0.020 in sq leads SMT 8 www.honeywell.com/sensing Encoder Detectors HLC2701 HLC2705 Type side-looking side-looking Output option speed/direction (A-B output) speed/direction (tach output) Resolution 0,03 mm [0.009 in] 0,46 mm [0.018 in] Package style (plastic) pc mount pc mount Tach pulse width – 3 ms to 20 ms Tach pulse level, active – 0.4 V Output rise/fall time 100 ns – Supply voltage 4.5 V to 5.5 V 4.5 V to 5.5 V Mounting configuration through-hole through-hole Termination style 0.020 in sq leads 0.020 in sq leads Transmissive Encoders HOA0901 HOA0902 Type sensor sensor Output option speed/direction (A-B output) speed/direction (tach output) Resolution 0,03 mm [0.009 in] 0,46 mm [0.018 in] Package style (transmissive) pc mount pc mount Tach pulse width – 3 ms to 20 ms Tach pulse level, active – 0.4 V Output rise/fall time 100 ns – Infrared emitter trigger current <15 mA <15 mA Supply voltage 4.5 V to 5.5 V 4.5 V to 5.5 V Mounting configuration dual mounting tabs (-012 or no tab pcb mount) (-011) dual mounting tabs (-012 or no tab pcb mount) (-011) Termination style 0.020 in sq leads 0.020 in sq leads www.honeywell.com/sensing 9 contaminants in the optical path. Potential applications include presence and motion sensing, position encoding, limit sensing, movement detection, and counting. HOA2498. Features: Choice of phototransistor or photodarlington output • Focused for maximum response • Wide operating temperature -55 °C to 100 °C [-67 °F to 212 °F] • Metal-can packaged components Benefits: An infrared emitter and phototransistor or photodarlington encased side-by-side on optical axes. Detector responds to radiation from infrared emitter only when a reflective object passes within its field of view. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. LOW LIGHT REJECTION PHOTOTRANSISTORS SDP8475-201. Features: T-1 plastic package • Low light level immunity • 20° (nominal) acceptance angle • Mechanically and spectrally matched to SEP8505 and SEP8705 infrared emitters Benefits: Phototransistor with internal base-emitter shunt resistance. Transfer molding of this device provides enhanced optical centerline performance. Lead lengths are staggered to provide a simple method of polarity identification. Provides high contrast ratio in reflective applications where unwanted background reflection is a possibility. Potential applications include those which require ambient light rejection, or in transmissive applications where the interrupter media is semi-transparent to infrared energy. SDP8476-201. Features: Side-looking plastic package • Low light level immunity • 50° (nominal) acceptance angle • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Phototransistor with internal base-emitter shunt resistance. Transfer molding of this device provides enhanced optical centerline performance. Lead lengths are staggered to provide a simple method of polarity identification. Provides high contrast ratio in reflective applications where unwanted background reflection is a possibility. Potential applications include those which require ambient light rejection, or in transmissive applications where the interrupter media is semi-transparent to infrared energy. TRANSMISSIVE SENSORS HOA1877. Features: Choice of phototransistor or photodarlington output • Wide operating temperature -55 °C to 100 °C [-67 °F to 212 °F] • 12,7 mm [0.5 in] high optical axis position • 9,52 mm [0.375 in] slot width • Metal can packaged components Benefits: An infrared emitter facing a phototransistor or photodarlington. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. HOA0825. Features: Phototransistor output • Four mounting configurations • 4,2 mm [0.165 in] slot • Plastic-molded components Benefits: An IR transmissive polysulfone housing features smooth optical faces without external aperture openings (desirable when aperture blockage from airborne contaminants is a possibility). HOA1879. Features: Phototransistor output • Often accurate position sensing • Choice of detector aperture • 3,18 mm [0.125 in] slot width • Dust protective housing • Plastic-molded components Benefits: Infrared emitter facing a phototransistor. Switching takes place whenever an opaque object passes through the slot between emitter and detector. Employs an IR transmissive housing which features smooth optical faces without external aperture openings (desirable when aperture blockage from airborne contaminants is a possibility). Often ideal where maximum position resolution is desired. HOA1882. Features: Choice of phototransistor or photodarlington output • Compact package size • Dust protective housing • 5,08 mm [0.200 in] slot width • Plasticmolded components Benefits: An infrared emitter facing a phototransistor or photodarlington. Slot in the housing between emitter and detector provides the means for mechanically interrupting the emitter beam. Phototransistor switching takes place when an opaque object passes through the slot between emitter and detector. Benefits: An infrared emitter facing a phototransistor or photodarlington. Detector switching takes place when an opaque object passes through the slot between emitter and detector. Employs an IR transmissive housing which features smooth optical faces without external aperture openings; desirable when aperture blockage from airborne contaminants is a possibility. HOA086X. HOA088X. Features: Phototransistor output • Often accurate position sensing • Four mounting configurations • 3,18 mm [0.125 in] slot width • Choice of opaque or IR transmissive housings • Options include mounting tab configurations, lead spacing, electro-optical characteristics, detector aperture size, and housing materials • Plastic-molded components Features: Phototransistor output • Four mounting configurations • Often accurate position sensing • 3,18 mm [0.125 in] slot width • 24 in [610 mm] min. 26 AWG UL 1429 leads • Opaque or IR transmissive housings • Options of mounting tab configurations, lead spacing, electrooptical characteristics, & detector aperture size Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. 10 www.honeywell.com/sensing Benefits: An infrared emitter facing a phototransistor. Phototransistor switching takes place whenever an opaque object passes through the slot between emitter and detector. Employs a built-in strain relief for maximum wire attachment strength. Utilizes an IR transmissive polysulfone housing which features smooth optical faces without external aperture openings; desirable when aperture blockage from airborne contaminants is a possibility. HOA1870. Features: Choice of phototransistor or photodarlington output • Often accurate position sensing • 1,78 mm [0.07 in] slot width • 18 in [457 mm] min. 22 AWG UL 1007 wire leads • Plastic-molded components • Narrow dual 0.006 in wide apertures over emitter and detector provide sharp switch point/high resolution Benefits: An infrared emitter facing a phototransistor or photodarlington. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. Lead wires provide alternate electrical connection when PC board mounting is not possible. Often ideal for use in potential applications in which maximum position resolution is desired. OPTOSCHMITT DETECTORS SD5600/SD5610. Features: TO-46 metal-can package • 6° (nominal) acceptance angle • Enhanced noise immunity output • TTL/LSTTL/CMOS compatible • Buffer (SD5600) or inverting (SD5610) logic available • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Single chip Optoschmitt IC detectors mounted in a TO-46 metal-can package. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger, and an NPN output transistor with 10 kOhm (nominal) pullup resistor. Output rise and fall times are independent of the rate of change of incident light. Detector sensitivity has been internally temperature compensated. Often suited for operating in hostile environments. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SD5620/SD5630. Features: TO-46 metal-can package • 6° (nominal) acceptance angle • TTL/ LSTTL/CMOS compatible • Enhanced noise immunity output • Buffer (SD5620) or inverting (SD5630) logic available • Two sensitivity ranges • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Single chip Optoschmitt IC detectors mounted in a TO-46 metal-can package. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger, and an NPN output transistor with 10 kOhm (nominal) pullup resistor. Output rise and fall times are independent of the rate of change of incident light. Detector sensitivity has been internally temperature compensated. Often suited for operating in hostile environments. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SDP8600/SDP8610. Features: Side-looking plastic package • 55° (nominal) acceptance angle • Wide sensitivity ranges • TTL/LSTTL/ CMOS compatible • Buffer (SDP8600) or inverting (SDP8610) logic available • Three different lead spacing arrangements: inline, offset pin circle, and offset center lead • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Single chip Optoschmitt IC detectors molded in a side-looking black plastic package to minimize the effect of visible ambient light. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger, and an NPN output transistor with a 10 kOhm (nominal) pull-up resistor. Output rise and fall times are independent of the rate of change of incident light. Detector sensitivity has been internally temperature compensated. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. OPTOSCHMITT SENSORS (TRANSMISSIVE) HOA096X/HOA097X. Features: Direct TTL interface • Often accurate position sensing • Four mounting configurations • Buffer or inverting logic available • Choice of detector aperture, mounting tab configurations, and housing material • 0.125 in [3.18 mm] slot width • Plastic-molded components Benefits: Infrared emitter facing an Optoschmitt detector. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger, and an NPN output transistor with 10 kOhm (nominal) pull-up resistor. HOA096X series utilizes an IR transmissive polysulfone housing which features smooth optical faces without external aperture openings; desirable when aperture blockage from airborne contaminants is a possibility. The HOA097X series employs an opaque polysulfone housing with aperture openings for use in potential applications where maximum rejection of ambient light is important and in situations in which maximum position resolution is desired. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. HOA696X/HOA697X. Features: Direct TTL interface • Buffer or inverting logic available • Three device output options • Four mounting configurations • Choice of detector aperture, mounting tab configurations, Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. www.honeywell.com/sensing 11 detector output configuration, and housing material • 0.125 in [3.18 mm] slot width • Plastic-molded components Benefits: Infrared emitter facing an Optoschmitt detector. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger and various output configurations. HOA696X series utilizes an IR transmissive polysulfone housing which features smooth optical faces without external aperture openings; desirable when aperture blockage from airborne contaminants is a possibility. The HOA697X series employs an opaque polysulfone housing with aperture openings for use in potential applications where maximum rejection of ambient light is important and in situations in which maximum position resolution is desired. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. HOA698X/HOA699X. Features: Direct TTL interface • Buffer or inverting logic available • Three device output options • Four mounting configurations • Choice of detector aperture, mounting tab configurations, detector output configuration, and housing material • 0.125 in [3.18 mm] slot width • 610 mm [24 in] min. 26 AWG UL 1429 wire leads • Plastic-molded components Benefits: Infrared emitter facing an Optoschmitt detector. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. Photodetector consists of a photodiode, amplifier, voltage regulator, Schmitt trigger, and various output configurations. HOA698X series utilizes an IR transmissive polysulfone housing which features smooth optical faces without external aperture openings; desirable when aperture blockage from airborne contaminants is a possibility. The HOA699X series employs an opaque polysulfone housing with aperture openings for use in potential applications where maximum rejection of ambient light is important and in situations in which maximum position resolution is desired. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. Benefits: Photodarlington mounted in a glass-lensed metal-can coaxial package. May have a tab or second lead welded to the can as an optional feature. Both leads are flexible and may be formed to fit various mounting configurations. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. HOA7720/7730. Features: Direct TTL interface • Infrared emitter internally biased • No interface circuits required • Inverting logic • Two device output options: totem-pole or open collector • Enhanced resolution • 3,00 mm [0.118 in] slot width • Plastic-molded components Benefits: Infrared emitter facing an Optoschmitt detector. Detector switching takes place whenever an opaque object passes through the slot between emitter and detector. Photodetector consists of a photodiode, amplifier, voltage regulator, and Schmitt trigger with two configurations. Totem-pole output is suited for potential applications which require fast transition times. Open collector allows the output of the sensor to interface with circuit elements driven by supply voltages other than the Vcc supply. Narrow aperture is often ideal for use in potential applications in which maximum rejection of ambient light is important, and maximim position resolution is desired. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. PHOTODARLINGTONS SD1410(L) Features: Compact metal-can coaxial package • 24° (nominal) acceptance angle • Higher typical output currents • Wide sensitivity ranges • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SE1450 and SE1470 infrared emitters SD2410. Features: Miniature, hermetically sealed, pill style, metal-can package • 48° (nominal) acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for direct mounting to printed circuit boards • Wide sensitivity ranges • Mechanically and spectrally matched to SE2460 and SE2470 infrared emitters Benefits: Photodarlington mounted in a hermetically sealed glass lensed metalcan package. Directly mounts in doublesided PC boards. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SD3410. Features: TO-46 metal-can package • Flat window • 90° acceptance angle option • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Wide sensitivity ranges • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Photodarlington mounted in a TO-46 metal-can package. Flat windowcan provides a wide acceptance angle. Often ideally suited for operation in hostile environments. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. 12 www.honeywell.com/sensing SD5410. Features: TO-46 metal-can package • Flat window • 12° acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Wide sensitivity ranges • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Photodarlington mounted in a TO-46 metal-can package. Glass-lensed can provides a narrow acceptance angle. Often ideally suited for operation in hostile environments. Applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SDP8105. Features: T-1 plastic package • 20° (nominal) acceptance angle • Consistent optical properties • Mechanically and spectrally matched to SEP8505 and SEP8705 infrared emitters Benefits: Photodarlington transfer molded in a T-1 package to minimize effect of visible ambient light. Transfer molding of this device provides enhanced optical centerline performance. Lead lengths are staggered to provide a simple method of polarity identification. Potential applications include presence and motion sensing, position encoding, limit sensing, movement detection, and counting. SDP8106. Features: Side-looking plastic package • 50° (nominal) acceptance angle • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Photodarlington molded in a side-looking black plastic package to minimize effect of visible ambient light. Chip is positioned to accept radiation through a plastic lens from the side of the package. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. PHOTODIODE DETECTORS SD2420. Features: Miniature, hermetically sealed, pill-style, metal-can package • 48° (nominal) acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for direct mounting to printed circuit boards • Mechanically and spectrally matched to SE2460 and SE2470 infrared emitters Benefits: Photodiode mounted in a hermetically sealed, glass-lensed, metalcan package. Directly mounts in doublesided PC boards. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SD5421 Features: TO-46 metal-can package • Dome lensed package • 18° (nominal) acceptance angle option • Enhanced response time • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Photodiode mounted in a TO-46 metal-can package. Employs glass-lensed cans to provide a narrow acceptance angle. Often ideally suited for operation in hostile environments. Potential applications include presence and motion sensing, position encoding, limit sensing, movement detection, and counting. SDP8276. Features: Side-looking plastic package • Linear response • Enhanced response time • Internal visible light rejection filter • 50° (nominal) acceptance angle • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Photodiode, transfer molded in a side-looking black plastic package to minimize the effects of visible ambient light. Positioned to accept radiant energy through a lens on the side of the package. Often ideal for battery-powered systems or anywhere power is at a premium. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SD1420(L). Features: Compact metal-can coaxial package • 24° (nominal) beam angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SD1420 photodiode, SD1440 phototransistor, and SD1410 photodarlington Benefits: May have a tab or second lead welded to the can as an optional feature. Leads are flexible to fit various mounting configurations. Potential applications include presence sensing, motion sensing, position encoding, limit sensing, movement detection, and counting. SMD2420. Features: Small ceramic packages • Glass-lensed optics for efficient optical coupling • Upright or inverted mounting capability • Low profile, small size for flexible layout of multiple channels and custom arrays • Compatible with automated solder processes • Choice of photodiode or phototransistor detectors • Infrared emitter features high power dissipation capability • Tape and reel packaging option (pick/place machine compatible) Benefits: Lens minimizes cross-talk and often eliminates the need for apertures in non-critical applications. May be mounted on the printed circuit board, lens up or inverted, allowing flexibility in layouts for multiple channel and custom arrays. Often useful in potential applications requiring linear response or high switching speed. Potential applications include optical encoders for motion control, computer peripherals, vending and point-of-sale applications, smoke detectors, and medical equipment. Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. www.honeywell.com/sensing 13 EMITTERS (METAL PACKAGE) SE1450(L). Features: Compact, metal-can coaxial package • 24° (nominal) beam angle • 935 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SD1420 photodiode, SD1440 phototransistor, and SD1410 photodarlington Benefits: Infrared emitter mounted in a glass-lensed, metal-can coaxial package. May have a tab or second lead welded to the can as an optional feature. Leads are flexible and may be formed as required to fit various mounting configurations. SE2470. Features: Miniature, hermetically sealed, pill style, metal-can package • 18° (nominal) beam angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for direct mounting to printed circuit boards • 880 nm wavelength • Mechanically and spectrally matched to SD2420 photodiode, SD2440 phototransistor, and SD2410 photodarlington Benefits: High intensity infrared emitter mounted in a hermetically sealed, glasslensed, metal-can package. Directly mounts in double-sided PC boards. Exhibits 70 % greater power intensity than GaAs devices at the same forward current. SE1470(L). Features: Compact metal-can coaxial package • 24° (nominal) beam angle 880 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SD1420 photodiode, SD1440 phototransistor, and SD1410 photodarlington Benefits: High intensity infrared emitter mounted in a glass-lensed metal-can coaxial package. May have a tab or second lead welded to the can as an optional feature. Leads are flexible to fit various mounting configurations. Exhibits 70 % greater power intensity than GaAs devices at the same forward current. SE2460. Features: Miniature, hermetically sealed, pill-style, metal-can package • 48° (nominal) acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for direct mounting to printed circuit boards • Mechanically and spectrally matched to SE2460 and SE2470 infrared emitters Benefits: Photodiode mounted in a hermetically sealed, glass-lensed, metalcan package. Directly mounts in doublesided PC boards. SE3455. Features:TO-46 metal-can package • Flat window • 90° beam angle • 935 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for high pulsed current applications • Mechanically and spectrally matched to SD3421/5421 photodiode, SD3443/5443/5491 phototransistor, SD3410/5410 photodarlington, and SD5600 series Schmitt trigger Benefits: Infrared emitter mounted in a TO-46 metal-can package. Flat window-can provides a wide beam angle. Constructed with dual bond wires suitable for pulsed current applications. Offers high power dissipation capability. Often suited for operation in hostile environments. SE3470. Features:TO-46 metal-can package • Flat window • 90° beam angle option • 880 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for high pulsed current applications • Mechanically and spectrally matched to SD3421/5421 photodiode, SD3443/5443/5491 phototransistor, SD3410/5410 photodarlington, and SD5600 series Schmitt trigger Benefits: Infrared emitter mounted in a TO-46 metal-can package. Glass-lensed cans provide a narrow beam angle. Exhibits 70% greater power output than GaAs devices at the same forward current. Offers high power dissipation capability and are often ideally suited for operation in hostile environments. SE5455. Features: TO-46 metal-can package • Domed lens • 20° beam angle • 935 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for high pulsed current applications • Mechanically and spectrally matched to SD3421/5421 photodiode, SD3443/5443/5491 phototransistor, SD3410/5410 photodarlington, and SD5600 series Schmitt trigger Benefits: Infrared emitter mounted in a TO-46 metal-can package. Glass-lensed can provides a narrow beam angle. Constructed with dual bond wires suitable for pulsed current applications. Offers high power dissipation capability. Often suited for operation in hostile environments. SE5470. Features: TO-46 metal-can package • Domed lens • 20° beam angle • 880 nm wavelength • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for high pulsed current applications • Mechanically and spectrally matched to SD3421/5421 photodiode, SD3443/5443/5491 phototransistor, SD3410/5410 photodarlington, and SD5600 series Schmitt trigger Benefits: Infrared emitter mounted in a TO-46 metal-can package. Glass-lensed can provides a narrow beam angle. Exhibits 70 % greater power output than GaAs devices at the same forward current. Offers high power dissipation capability and are often ideally suited for operation in hostile environments. Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. 14 www.honeywell.com/sensing EMITTERS (PLASTIC AND CERAMIC PACKAGE) SEP8505. Features: T-1 package • 15° (nominal) beam angle • 935 nm wavelength • Consistent on-axis optical properties • Mechanically and spectrally matched to SDP8405 phototransistor and SDP8105 photodarlington Benefits: Infrared emitter transfer molded in a T-1 red plastic package. Transfer molding of this device provides enhanced optical centerline performance compared to other molding processes. Lead lengths are staggered to provide a simple method of polarity identification. SEP8506. Features: Side-emitting plastic package • 50° (nominal) beam angle • 935 nm wavelength • Mechanically and spectrally matched to SDP8406 phototransistor, SDP8106 photodarlington, and SDP8000/8600 series Schmitt trigger Benefits: Infrared emitter molded in a side-emitting red plastic package. Chip positioned to emit radiation through a plastic lens from the side of the package. SEP8705. Features: T-1 package • 15° (nominal) beam angle • 880 nm wavelength • Consistent optical properties • Mechanically and spectrally matched to SDP8405 phototransistor and SDP8105 photodarlington Benefits: Infrared emitter transfer molded in a T-1 smoke gray plastic package. Transfer molding of this device assures superior optical centerline performance compared to other molding processes. Exhibit 70% greater power intensity compared to GaAs devices at the same forward current. Lead lengths are staggered to provide a simple method of polarity identification. SEP8706. Features: Side-looking plastic package • 50° (nominal) beam angle • 880 nm wavelength • Mechanically and spectrally matched to SDP8406 phototransistor, SDP8106 photodarlington, and SDP8000/8600 series Schmitt trigger Benefits: Infrared emitter molded in a side-emitting, smoke-gray plastic package. Chip positioned to emit radiation through a plastic lens from the side of the package. Exhibits 70 % greater power intensity than GaAs devices at the same forward current. SEP8736. Features: Side-emitting, tight-beam sidelooker in a plastic package • 10° (nominal) beam angle • 880 nm wavelength • Enhanced coupling distance • Mechanically and spectrally matched to SDP8436 phototransistor Benefits: Infrared emitter molded in a side-emitting smoke-gray plastic package. Body and integral lens design combines the mounting advantage of a side-emitting package with the narrow emission pattern of a T-1 style device. Designed for potential applications which require longer coupling distances than standard side-emitting devices can provide, such as touch screens. Infrared emitters are often well suited to potential applications in which adjacent channel crosstalk could be a problem. SME2470. Features: Small ceramic package • Glass-lensed optics for efficient optical coupling • Upright or inverted mounting capability • Low profile, small size for flexible layout of multiple channels and custom arrays • Compatible with automated solder processes • Choice of photodiode or phototransistor detectors • Infrared emitter features high power dissipation capability • Tape and reel packaging option (pick and place machine compatible) Benefits: Lens minimizes cross-talk and often eliminates the need for apertures in non-critical applications. Low profile components may be mounted on the printed circuit board, lens up or inverted, allowing flexibility in layouts for multiple channel and custom arrays. High intensity infrared emitter can be used with either the SMD2440 phototransistor or the SMD2420 photodiode. Small size and high power dissipation properties of the infrared emitter promote PC board miniaturization and high density placement. Potential applications include optical encoders for motion control, computer peripherals, vending and point-of-sale applications, smoke detectors, and medical equipment. PHOTOTRANSISTORS - METAL PACKAGE SD1440(L). Features: Compact, metal-can coaxial package • 24° (nominal) acceptance angle • Wide sensitivity ranges • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Mechanically and spectrally matched to SE1450 and SE1470 infrared emitters Benefits: Phototransistor mounted in a glass-lensed, metal-can coaxial package. May have a tab or second lead welded to the can as an optional feature. Both leads are flexible and may be formed to fit various mounting configurations. SD2440. Features: Miniature, hermetically sealed, pill-style, metal-can package • 48° (nominal) acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Often ideal for direct mounting to double sided printed circuit boards • Wide sensitivity ranges • Mechanically and spectrally matched to SE2460 and SE2470 infrared emitters Benefits: Phototransistor mounted in a hermetically sealed glass- lensed metalcan package. Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. www.honeywell.com/sensing 15 SD3443. Features:TO-46 metal-can package • Flat window • 90° acceptance angle option • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • External base connection for added control • Enhanced sensitivity • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Phototransistor. Flat window provides wide acceptance angle. Often ideally suited for operation in hostile environments. PHOTOTRANSISTORS - PLASTIC AND CERAMIC PACKAGE SDP8405. Features: T-1 plastic package • 20° (nominal) acceptance angle • Consistent optical properties • Wide sensitivity ranges • Mechanically and spectrally matched to SEP8505 and SEP8705 infrared emitters Benefits: Phototransistor. Transfer molding provides enhanced optical centerline performance compared to other molding processes. Lead lengths are staggered to provide a simple method of polarity identification. SD5443. Features: TO-46 metal-can package • Lensed package • 18° (nominal) acceptance angle option • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • External base connection for added control • Enhanced sensitivity • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Phototransistor. Glass-lensed can provides a narrow acceptance angle. Often ideally suited for operation in hostile environments. SD5491. Features: TO-18 metal-can package • 12° (nominal) acceptance angle • Wide operating temperature range -55 °C to 125 °C [-67 °F to 257 °F] • Enhanced response time • Wide sensitivity ranges • External base connection for added control • Mechanically and spectrally matched to SE3450/5450, SE3455/5455, and SE3470/5470 infrared emitters Benefits: Phototransistor. Biconvex lens provides high optical sensitivity with a narrow acceptance angle to enable maximum radiation coupling. Often offers protection against harsh environments, as well as enhanced thermal characteristics. SDP8406. Features: Side-looking plastic package • 50° (nominal) acceptance angle • Wide sensitivity ranges • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Phototransistor molded in a side-looking clear plastic package. Chip positioned to accept radiation through a plastic lens from the side of the package. SDP8436. Features: Side-detecting, tight-beam sidelooker in a plastic package • 18° (nominal) acceptance angle • Enhanced coupling distance • Internal visible light rejection filter • Low profile for design flexibility • Wide sensitivity ranges • Mechanically matched to SEP8736 infrared emitters Benefits: Phototransistor molded in a black plastic package which combines the mounting advantages of a side-looking package with the narrow acceptance angle and high optical gain of a T-1 package. Designed for potential applications with longer coupling distances than standard side-looking devices, such as touch screens. Often suited to potential applications in which adjacent channel cross-talk could be a problem. Package is highly transmissive to the IR source energy while effectively shielding against visible ambient light. SMD2440. Features: Small ceramic package size • Glass-lensed optics for efficient optical coupling • Upright or inverted mounting capability • Low profile, small size for flexible layout of multiple channels and custom arrays • Compatible with automated solder processes • Choice of photodiode or phototransistor detectors • Infrared emitter features high power dissipation capability • Tape and reel packaging option (pick and place machine compatible) Benefits: Lens minimizes cross-talk and often eliminates the need for apertures in non-critical applications. Low profile components may be mounted on the printed circuit board, lens up or inverted, allowing flexibility in layouts for multiple channel and custom arrays. Phototransistor’s gain characteristics often make it useful for potential applications requiring high responsivity. Potential applications include optical encoders for motion control, computer peripherals, vending and point-of-sale applications, smoke detectors, and medical equipment. ENCODER DETECTORS HLC2701. Features: Side-looking plastic package • TTL/LSTTL/CMOS compatible • Senses speed and direction of mechanical motion • Inverting logic output • Linear or rotary encoder applications • Resolution to 0,229 mm [0.009 in] • Sensitivity versus temperature compensation • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Monolithic IC, consisting of two narrow adjacent photodiodes, amplifiers, and Schmitt trigger output stages. Outputs are NPN collectors with internal 10 kOhm (nominal) pull-up resistors to Vcc which can directly drive TTL loads. Circuitry compensates the sensitivity for the output power versus temperature characteristics of an infrared emitter. IC is encapsulated in a molded, unlensed black Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. 16 www.honeywell.com/sensing plastic package which is transmissive to IR energy, yet provides shielding from visible light. Often suited for the encoding function in an optical mouse. Potential applications include rotary and linear encoders. HLC2705. Features: Side-looking plastic package • Senses speed and direction of mechanical motion • TTL/LSTTL/CMOS compatible • On-chip quadrature logic which provides tach and direction outputs • Linear or rotary encoder applications • Resolution to 0,457 mm [0.018 in] • Sensitivity versus temperature compensation • Mechanically and spectrally matched to SEP8506 and SEP8706 infrared emitters Benefits: Monolithic IC, consisting of two narrow adjacent photodiodes, amplifier stages, and quadrature logic which provides two outputs: one fixed duration and a direction output. Sensitivity compensation circuity for the output power versus temperature characteristic of an infrared emitter. IC is encapsulated in a molded, unlensed black plastic package which is transmissive to IR energy, yet provides shielding from visible light. Direction output is a totempole configuration. Often suited for the encoding function in an optical mouse. Potential applications include rotary and linear encoders. TRANSMISSIVE ENCODERS HOA0901. Features: Dual channel IC detector and infrared emitter encased in black thermoplastic housing • Direct TTL interface • Inverting logic output • Resolution to 0,229 mm [0.009 in] • Internal temperature compensation • 3,2 mm [0.126 in] slot width • Two mounting configurations and housing styles available Benefits: Detector generates two output signals which can be processed to provide speed and direction information. Monolithic IC which consists of two narrow adjacent photodiodes, amplifiers, and Schmitt trigger output stages. Outputs are NPN collectors with internal 10 kOhm (nominal) pull-up resistors to Vcc which are capable of directly driving TTL loads. Incorporates circuitry to compensate the sensitivity for the output power vs. temperature characteristic of the infrared emitter. Used with an interrupter strip or disk (code wheel) to encode the rate and direction of mechanical motion. Potential applications include linear and rotary encoders; it is often suited for the encoding function in an optical mouse. HOA0902. Features: Dual channel IC and infrared emitter encased in black thermoplastic housing • Direct TTL interface • Resolution to 0.457 mm [0.018 in] • Internal temperature compensation • 3.2 mm [0.126 in] slot width • Two mounting configurations Benefits: Monolithic IC which consists of two narrow adjacent photodiodes, amplifiers stages, and quadrature logic circuitry which provides two outputs: a fixed-duration and a direction output. Tachometer output is an NPN collector which is internally connected to Vcc through a 10 kOhm (nominal) resistor; the direction output is a totem-pole configuration. Incorporates circuitry to compensate the sensitivity for the output power vs. temperature characteristic of the infrared emitter. Used with an interrupter strip or disk (code wheel) to encode the rate and direction of mechanical motion. Potential applications include linear and rotary encoders; it is often suited for the encoding function in an optical mouse. Unless otherwise noted, potential applications include printers and copiers, motion control systems, metering systems, liquid-level sensing, data storage systems, scanning, automated transaction, drop sensors, and other noninvasive medical equipment. www.honeywell.com/sensing 17 Warranty. Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages. While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use. For more information about Sensing and Control products, visit www.honeywell. com/sensing or call +1-815-235-6847 Email inquiries to [email protected] Sensing and Control Automation and Control Solutions Honeywell 1985 Douglas Drive North Golden Valley, MN 55422 USA +1-815-235-6847 www.honeywell.com/sensing 006494-6-EN IL50 GLO February 2012 Copyright © 2012 Honeywell International Inc. All rights reserved.