V I S H AY I N T E R T E C H N O L O G Y, I N C . OPTOELECTRONICS Optoelectronics - IR Emitters with Radient Intensity up to 600 m/W/sr at 100 mA Infrared Emitters 830 nm, 850 nm, and 870 nm High Intensity and High Optical Power Infrared Emitters KEY FEATURES • • • • • Radiant intensity up to 600 mW/sr at 100 mA Broad option of viewing angles from ± 3° to ± 60° Up to 5x longer life than competing devices Six different packages 850 nm based on Light Up® surface emitting technology) BENEFITS • Reduce the number of emitters required to produce equivalent optical power – longer range and better resolution • Extremely fast switching times for high-speed applications • 4x the radiant intensity of competing devices. Continuous or pulsed current source APPLICATIONS • • • • • Illumination for closed circuit TV (night vision) and CMOS image sensors Wireless audio transmission in concert halls, museums, and home theatre surround sound systems Emergency response remote control of traffic lights Emitter for 3DTV active glasses synchronization Automotive - illumination for heads up display and back up camera RESOURCES • Datasheets: http://www.vishay.com/ir-emitting-diodes/ • Optoelectronis Portfolio: http://www.vishay.com/optoelectronics/ • For technical questions, contact [email protected] One of the World’s Largest Manufacturers of Discrete Semiconductors and Passive Components PRODUCT SHEET 1/2 VMN-PT0211-1311 THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 V I S H AY I N T E R T E C H N O L O G Y, I N C . OPTOELECTRONICS Optoelectronics - IR Emitters with Radient Intensity up to 600 m/W/sr at 100 mA Infrared Emitters FARTHER WITH FEWER Reduce the number of infrared emitters by up to half while achieving the same resolution and range by using Vishay’s infrared emitters for night time illumination in closed circuit television (CCTV), security camera, and CMOS image sensor applications. For data transmission in museums, concert halls, and other public venues these emitters feature switching times from 10 to 20 ns, meeting the requirements for high-modulation operation and supporting data transmission rates of up to 16 Mbit/sec. PART NUMBER Angle of Half Intensity (°) Vishay TSHG5210 Vishay TSHG5410 Competitor A Competitor B Competitor C ± 10 ± 18 ±8 ± 12 ± 10 MINIMIZE DEGRADATION Applications rely on the emitter to maintain performance over time. Designers can not afford to use an emitter that rapidly degrades. Vishay has the lowest degradation when tested against the other leading infrared emitters. The lowest degradation means the best emitters, the longest life. Little Star 5 mm (T1¾) Reverse Gullwing Gullwing Intensity (mW/sr) 0 hours 4000 hours 230 80 171 107 130 225 79 145 96 98 PLCC2 Degradation (%) 2% 2% 15 % 10 % 25 % 0805 PORTFOLIO PEAK WAVELENGTH ( nm ) 830 850 1 2 RISE, FALL TIME ( ns ) PART NUMBER PACKAGE TSHG5510 5 mm (T1¾) 32 ± 38 15 TSHG8200 5 mm (T1¾) 180 ± 10 20 TSHG8400 5 mm (T1¾) 70 ± 22 20 VSMG2720 PLCC2 14 ± 60 15 TSHG5210 5 mm (T1¾) 230 ± 10 20 TSHG5410 5 mm (T1¾) 90 ± 18 20 TSHG6400 5 mm (T1¾) 70 ± 22 20 VSLY5850 5 mm (T1¾) 600 ±3 10 VSMY1850 0805 12 ± 60 10 VSMY2850G Gullwing 100 ± 10 10 VSMY2850RG Reverse Gullwing 100 ± 10 10 VSMY3850 PLCC2 17 ± 60 15 VSMY7850X01 870 ANGLE OF HALF INTENSITY (°) RADIANT INTENSITY1 ( mW/sr ) 2 Little Star 170 ± 60 15 VSMY7852X01 Little Star 42 3 ± 60 15 TSFF5210 5 mm (T1¾) 180 ± 10 TSFF5410 5 mm (T1¾) 70 ± 22 TSFF5510 5 mm (T1¾) 32 ± 38 VSMF4720 PLCC2 16 ± 60 15 3 IF=100 mA , IF=1 A, IF=250 mA PRODUCT SHEET 2/2 VMN-PT0211-1311 THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000