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| Vertical Cavity Surface Emitting Laser in Pill Package Features * * * * * 850nm VCSEL Technology High thermal stability Low drive current/high output intensity Narrow and concentric beam angle Pill Package with Flat Lens Absolute Maximum Ratings (TA = 25 C unless otherwise noted) Maximum Forward Peak Current Maximum Reverse Voltage Storage Temperature Operating Temperature Soldering Lead Temperature Max. Continuous Optical Power at 70 C 30 mA 5 Volts -40 to +125 C -40 to +85 C 260 C for 10 Seconds 1.1 mW Description The OPV220 is a high performance 850nm VCSEL packaged for sensing applications. This product's combination of features including high speed, high output power and concentric beam make it an ideal transmitter for integration into all types of position sensing equipment. Applications include: Photoelectric Sensors Light Curtains Position Sensors Encoders Additional laser safety information can be found on the Optek website. See application #221. Classification is not marked on the device due to space limitations. See package outline for centerline of optical radiance. Operating devices beyond maximum rating may cause devices to exceed rated classification September 2003 Issue 3.2 Optek Technology, Inc. Carrollton, Texas 75006 (972) 323-2200 sensors@optekinc.com www.optekinc.com Page 1 of 4 OPV220 Technical Data Electrical/Optical Characteristics (at 25 C unless otherwise specified) SYMBOL POT ITH VF IR RS /T /T lTH/T Nri VF/T NOTES: (1) (2) (3) PARAMETER Total Power Out Threshold Current Forward Voltage Reverse Current Series Resistance Slope Efficiency Wavelength Optical Bandwidth Temp Coefficient of Slope Efficiency Beam Divergence Temp Coefficient of Wavelength Temp Coefficient of Threshold Current Relative Intensity Noise Temperature Coefficient for VF Threshold Current is based on the two line intersection method specified in Telcordia GR-468-Core. Line 1 from 6 mA to 8 mA. Line 2 from 0 mA to 2 mA. Series Resistance is the slope of the Voltage-Current line from 8 to 12 mA. Slope efficiency, is the slope of the best fit LI line from 8 mA 12 mA. 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. Carrollton, Texas 75006 (972) 323-2200 sensors@optekinc.com MIN 1.4 2.0 TYP MAX 4.5 5.5 2.15 30 UNITS mW mA V nA ohms mW/mA Note 1 TEST CONDITION IF = 12 mA IF = 12 mA VR = 5 V Note 2 Note 3 14 0.17 830 40 860 0.85 -0.40 12 0.06 1.5 -123 -2.5 nm nm %/ C Degree nm/ C mA dB/Hz mV/ C (0 - 70 C) (0 - 70 C) September 2003 Issue 3.2 www.optekinc.com Page 2 of 4 OPV220 Technical Data Output Power vs. Forward 1.4 1.2 1.0 20 C Normalized Output Power 0 C (12mA, 25 Forward Voltage (V) Optek Technology, Inc. 70 C 0.8 0.6 0.4 0.2 0.0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Forward Current (mA) Forward Voltage vs. Forward Current 2.2 0 C 2.0 20 C 70 C 1.8 1.6 1.4 1.2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 September 2003 Issue 3.2 sensors@optekinc.com www.optekinc.com Forward Current (mA) Carrollton, Texas 75006 (972) 323-2200 Page 3 of 4 OPV220 Technical Data Mechanical Dimensions: Invisible Light emits from this surface 2 1 Optek Technology, Inc. Carrollton, Texas 75006 (972) 323-2200 Page 4 of 4 September 2003 Issue 3.2 sensors@optekinc.com www.optekinc.com (c) | |
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