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| power light source Luxeon V Emitter Technical Data DS34 LuxeonTM is a revolutionary, energy efficient and ultra compact new light source, combining the lifetime and reliability advantages of Light Emitting Diodes with the brightness of conventional lighting. Features * Highest Flux per LED in the world - 4X the Flux of a comparable Luxeon and up to 50X the Flux of standard through hole LEDs * Extreme Luminous Density - 20X the TM Luxeon Emitters give you total design freedom and unmatched brightness, creating a new world of light. lm/mm2 of a standard through hole LED * Very long operating life (up to100k hours) * Available in Green, Blue, Royal Blue and Cyan The Luxeon V offers extreme luminous density, providing lumens per package of 4X a Luxeon or up to 50X that of alternative solid state light sources creating new opportunities for solid state lighting to displace conventional lighting technologies. * Lambertian or Side Emitting radiation pattern * More Energy Efficient than Incandescent and most Halogen lamps * Low voltage DC operated * Cool beam, safe to the touch * Instant light (less than 100 ns) Luxeon V Emitters can be purchased in reels for high volume assembly. For high volume applications, custom Luxeon power light source designs are available upon request, to meet your specific needs. * Fully dimmable * No UV * Superior ESD protection Typical Applications * Portable (flashlight, bicycle) * Architectural Detail Lighting * Decorative * Fiber Optic Alternative M Emitters can be purchased i reels for high volume assembly. Sample kits are also * Medical Applications * Power Signaling / Airfield / Taxiway Lighting * Edge-Lit Signs (Exit, Point Of Sale) * LCD Backlights / Light Guides available for prototyping and design evaluation. A sample kits contains a strip of 50 taped Luxeon V Emitter is available in green, blue, royal blue and cyan. Mechanical Dimensions Lambertian Notes: 1. The anode side of the device is denoted by a hole in the lead frame. Electrical insulation between the case and the board is required - slug of device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug. Drawings not to scale. All dimensions are in millimeters. All dimensions without tolerances are for reference only. 2. 3. 4. Side Emitting Notes: 1. The anode side of the device is denoted by a hole in the lead frame. Electrical insulation between the case and the board is required - slug of device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug. Caution must be used in handling this device to avoid damage to the lens surfaces that will reduce optical efficiency. Drawings not to scale. All dimensions are in millimeters. All dimensions without tolerances are for reference only. 2. 3. 4. 5. Luxeon V Emitter 2 Document #: DS34 (09/19/04) Flux Characteristics at 700mA, Junction Temperature, TJ = 25oC Minimum Luminous Flux (lm) or Radiometric Power (mW) V [1,2] 67.2 67.2 23.5 275 mW 67.2 67.2 23.5 275 mW Typical Luminous Flux (lm) or Radiometric Power (mW) V [2] 160 160 48 700 mW 145 145 43 630 mW Notes: 1. Minimum luminous flux or radiometric power performance guaranteed within published operating conditions. Lumileds maintains a tolerance of 10% on flux and power measurements. Luxeon types with even higher luminous flux levels will become available in the future. Please consult your Lumileds Authorized Distributor or Lumileds sales representative for more information. Minimum flux value for 470 nm devices. Due to the CIE eye response curve in the short blue wavelength range, the minimum luminous flux will vary over the Lumileds' blue color range. Luminous flux will vary from a minimum of 18.1 lm at 460 nm to a typical of 80 lm at 480 nm due to this effect. Although the luminous power efficiency is lower in the short blue wavelength range, radiometric power efficiency increases as wavelength decreases. For more information, consult the Luxeon Design Guide, available upon request. Royal Blue product is binned by radiometric power and peak wavelength rather than photometric lumens and dominant wavelength. 2. Radiation Pattern Lambertian 3. Color Green Cyan Blue[3] Royal blue[4] Green Cyan Blue[3] Royal Blue[4] Luxeon V Emitter LXHL-PM02 LXHL-PE02 LXHL-PB02 LXHL-PR02 LXHL-DM02 LXHL-DE02 LXHL-DB02 LXHL-DR02 Side Emitting 4. Electrical Characteristics at 700mA, Junction Temperature, TJ = 25oC Notes: Temperature Color Forward Voltage VF (V)[1] Min. Typ. Max. Dynamic resistance[2] () RD coefficient of forward voltage[3] (mV/oC) VF/ TJ Thermal resistance, junction to case (oC/W) RJ-C 1. Green Cyan Blue Royal Blue 5.43 5.43 5.43 5.43 6.84 6.84 6.84 6.84 8.31 8.31 8.31 8.31 1.0 1.0 1.0 1.0 -4.0 -4.0 -4.0 -4.0 8 8 8 8 2. 3. Lumileds maintains a tolerance of 0.06V on forward voltage measurements. Dynamic resistance is the inverse of the slope in linear forward voltage model for LEDs. See Figure 3. Measured between 25oC TJ 110oC at IF = 700mA. Luxeon V Emitter 3 Document #: DS34 (09/19/04) Optical Characteristics at 700mA, Junction Temperature, TJ = 25oC temp Dominant Wavelength[1] D or Peak Wavelength[2] P Min. Typ. Max. 520 nm 490 nm 460 nm 440 nm 530 nm 505 nm 470 nm 455 nm 550 nm 520 nm 490 nm 460 nm Spectral coefficient Notes: (for both optical tables) 1. Dominant wavelength is derived from the CIE 1931 Chromaticity diagram and represents the perceived color. Lumileds maintains a tolerance of 0.5nm for dominant wavelength measurements. Royal Blue product is binned by radiometric power and peak wavelength rather than photometric lumens and dominant wavelength. Lumileds maintains a tolerance of 2nm for peak wavelength measurements. Spectral width at 1/2 of the peak intensity. Total angle at which 90% of total luminous flux is captured. 1/2 is the off axis angle from lamp centerline where the luminous intensity is 1/2 of the peak value. Cumulative flux percent within 45 from optical axis. Off axis angle from lamp centerline where the luminous intensity reaches peak off axis value. On axis peak may be higher than off axis peak. All products built with Indium Gallium Nitride (InGaN). Blue and Royal Blue power light sources represented here are IEC825 Class 2 for eye safety. Radiation Pattern Color Green Cyan Blue royal blue[2] Halfwidth[3] (nm) 1/2 35 30 25 20 of dominant (nm/oC) D/ J 0.04 0.04 0.04 0.04 Total Included wavelength Angle[4] 0.90V 150 150 150 150 Viewing Angle[5] (Degrees) 2. (degrees) 2 1/2 150 150 150 150 Lambertian 3. 4. 5. Optical Characteristics at 700mA, Junction Temperature, TJ = 25oC, Continued temp Dominant Wavelength D or Peak Wavelength[2] P Min. Typ. Max. [1] 6. 7. Spectral coefficient Radiation Pattern Color Halfwidth[3] (nm) 1/2 35 30 25 20 of dominant (nm/oC) D/ J 0.04 0.04 0.04 0.04 wavelength Typical total flux percent within first 45[6] Cum 45 <30% <30% <30% <30% Typical Angle of off axis peak intensity[7] PEAK 75 - 85 75 - 85 75 - 85 75 - 85 8. 9. Green Cyan Side Emitting Blue royal blue[2] 520 nm 490 nm 460 nm 440 nm 530 nm 505 nm 470 nm 455 nm 550 nm 520 nm 490 nm 460 nm Notes: Absolute Maximum Ratings Parameter DC Forward Current (mA) [1] Peak Pulsed Forward Current (mA) Average Forward Current (mA) ESD Sensitivity [2] LED Junction Temperature (oC) Storage Temperature (oC) Soldering Temperature (oC) [3] Green/Cyan/ Blue/Royal Blue 700 1000 700 16,000V HBM 135 -40 to +120 260 for 5 seconds max 1. 2. 3. Luxeon V Emitter 4 Document #: DS34 (09/19/04) Proper current derating must be observed to maintain junction temperature below the maximum. For more information, consult the Luxeon Design Guide, available upon request. LEDs are not designed to be driven in reverse bias. Please consult Lumileds' Application Brief AB11 for further information. Measured at leads, during lead soldering and slug attach, body temperature must not exceed 120oC. Luxeon emitters cannot be soldered by general IR or Vapor-phase reflow, nor by wave soldering. Lead soldering is limited to selective heating of the leads, such as by hot-bar reflow, fiber focussed IR, or hand soldering. The package back plane (slug) may not be attached by soldering, but rather with a thermally conductive adhesive. Electrical insulation between the slug and the board is required. Please consult Lumileds' Application Brief AB10 on Luxeon Emitter Assembly Information for further details on assembly methods. Wavelength Characteristics, TJ = 25oC Relative Spectral Power Distribution 1.0 0.8 0.6 0.4 0.2 0.0 400 450 500 550 600 650 700 Figure 1. Relative Intensity vs. Wavelength. ROYAL BLUE CYAN BLUE GREEN Wavelength (nm) Light Output Characteristics 150 140 130 120 110 100 90 80 70 60 50 -20 Green P ho to metric Cyan P ho to metric B lue P ho to metric Ro yal B lue Radio metric Relative Light Output (%) Figure 2. Relative Light Output vs. Junction Temperature. 0 20 40 60 80 o 100 120 Junction Temperature, TJ ( C) Luxeon V Emitter 5 Document #: DS34 (09/19/04) Forward Current Characteristics, TJ = 25oC Note: Driving these high power devices at currents less than the test conditions may produce unpredictable results and may be subject to variation in performance. Pulse width modulation (PWM) is recommended for dimming effects. IF - Average Forward Current (mA) 800 700 600 500 400 300 200 100 0 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 V F - Forw ard Voltage (Volts) Figure 3. Forward Current vs. Forward Voltage. 1.2 Normalized Relative Luminous Flux 1 0.8 0.6 0.4 0.2 0 0 200 100 400 200 600 300 800 400 Figure 4. Relative Luminous Flux vs. Forward Current at TJ = 25oC maintained. IF - Average Forw ard Current (mA) Note: Driving these high power devices at currents less than the test conditions may produce unpredictable results and may be subject to variation in performance. Pulse width modulation is recommended for dimming effects. Luxeon V Emitter 6 Document #: DS34 (09/19/04) Current Derating Curve Note: Additional heatsinking is required, even for extremely brief periods. Please consult AB05, Luxeon Thermal Design Guide, for additional information. IF - Forward Current (mA) 800 700 600 500 400 300 200 100 0 0 25 50 75 100 125 R J-A=20oC/W 5 R J-A=1 oC/W R J-A=1 oC/W 0 Figure 5. Maximum Forward Current vs. Ambient Temperature. Derating based on TJMAX = 135 oC. 150 TA - Am bient Tem perature ( C) Representative Typical Spatial Radiation Pattern Lambertian Radiation Pattern 100 90 80 70 60 50 40 30 20 10 0 -100 -80 -60 Typical Upper Bound Typical Lower Bound Figure 6. Representative Typical Spatial Radiation Pattern for Luxeon V Emitter. 60 80 100 -40 -20 0 20 40 Angular Displacement (Degrees) Side Emitting Radiation Pattern 100 90 Relative Intensity (%) 80 70 60 50 40 30 20 10 0 -120 -100 -80 -60 -40 -20 0 20 40 60 80 100 120 Figure 7. Representative Typical Spatial Radiation Pattern for Luxeon V Emitter. Angular Displacement (Degrees) Luxeon V Emitter 7 Document #: DS34 (09/19/04) Emitter Reel Packaging Figure 8. Reel dimensions and orientation. Figure 9. Tape dimensions for Lambertian and Side Emitting radiation patterns. Notes: 1. Luxeon emitters should be picked up by the body (not the lens) during placement. The inner diameter of the pick-up collet should be greater than or equal to 6.5 mm. Please consult Lumileds' Application Brief AB10 on Luxeon Emitter assembly information for further details on assembly methods. Drawings not to scale. All dimensions are in millimeters. All dimensions without tolerances are for reference only. 2. 3. 4. Lambertian Side Emitting Luxeon V Emitter 2 Document #: DS34 (09/19/04) About Luxeon Luxeon is the new world of solid state lighting (LED) technology. Luxeon Power Light Source Solutions offer huge advantages over conventional lighting and huge advantages over other LED solutions. Luxeon enables partners to create and market products that, until now, were impossible to create. This means the opportunity to create products with a clear competitive advantage in the market. Products that are smaller, lighter, sleeker, cooler, and brighter. Products that are more fun to use, more efficient, and more environmentally conscious than ever before possible! Company Information Luxeon is developed, manufactured and marketed by Lumileds Lighting, LLC. Lumileds is a world class supplier of Light Emitting Diodes (LEDs) producing billions of LEDs annually. Lumileds is a fully integrated supplier, producing core LED material in all three base colors (Red, Green, Blue) and White. Lumileds has R&D development centers in San Jose, California and Best, The Netherlands. Production capabilities in San Jose, California and Malaysia. Lumileds may make process or materials changes affecting the performance or other characteristics of Luxeon. These products supplied after such change will continue to meet published specifications, but may not be identical to products supplied as samples or under prior orders. Lumileds is pioneering the high flux LED technology and bridging the gap between solid state LED technology and the lighting world. Lumileds is absolutely dedicated to bringing the best and brightest LED technology to enable new applications and markets in the Lighting world. LUMILEDS www.luxeon.com www.lumileds.com For technical assistance or the location of your nearest Lumileds sales office, call: Worldwide: +1 408-435-6044 US Toll free: 877-298-9455 Europe: +31 499 339 439 Asia: +65 6248 4759 Japan: +81 (426) 60 8532 Fax: 408-435-6855 Email us at info@lumileds.com 2003 Lumileds Lighting U.S. LLC. All rights reserved. Lumileds Lighting is a joint venture between Agilent Technologies and Philips Lighting. Luxeon is a trademark of Lumileds Lighting, Inc. Product specifications are subject to change without notice. Luxeon V Emitter 3 Document #: DS34 (09/19/04) Lumileds Lighting, LLC 370 West Trimble Road San Jose, CA 95131 |
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