LXHL-PB09

Technical Datasheet DS45 power light source LUXEON III Emitter ® Introduction LUXEON® III 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 family in the world Very long operating life (up to 100k hours) Available in 5500K white, green, blue, royal blue, cyan, red, red orange, and amber Lambertian and side emitting radiation patterns 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) Fully dimmable No UV Superior ESD protection LUXEON III is rated for up to 1400mA operation, delivering increased lumens per package. LUXEON Emitters give you total design freedom and unmatched bright ness, creating a new world of light. LUXEON Emitters can be purchased in reels for high volume assembly. For more information, consult your local Lumileds representative. Typical Applications Reading lights (car, bus, aircraft) Portable (flashlight, bicycle) Mini accent/Uplighters/ Downlighters/Orientation Fiber optic alternative/ Decorative/Entertainment Bollards/Security/Garden Cove/Undershelf/Task Automotive rear combination lamps Traffic signaling/Beacons/ Rail crossing and Wayside Indoor/Outdoor Commercial and Residential Architectural Edge lit signs (Exit, point of sale) LCD Backlights/Light Guides For high volume applications, custom LUXEON power light source designs are available upon request, to meet your specific needs. Mechanical Dimensions Lambertian Drawings not to scale 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. 2.All dimensions are in millimeters. 3.All dimensions without tolerances are for reference only. Side Emitting TOP VIEW BOTTOM VIEW Drawings not to scale 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. 2.Caution must be used in handling this device to avoid damage to the lens surfaces that will reduce optical efficiency. 3.All dimensions are in millimeters. 4.All dimensions without tolerances are for reference only. LUXEON III Emitter DS45 (3/06) 2 Flux Characteristics at 700mA, Junction Temperature, TJ = 25ºC Table 1. Color White Green Cyan Blue[3] Royal Blue[4] White Green Blue[3] LUXEON Emitter LXHL PW09 LXHL PM09 LXHL PE09 LXHL PB09 LXHL PR09 LXHL DW09 LXHL DM09 LXHL DB09 Minimum Luminous Flux (lm) or Radiometric Power (mW) ΦV [1,2] 60.0 51.7 51.7 13.9 275 mW 51.7 51.7 13.9 Typical Luminous Flux (lm) or Radiometric Power (mW) ΦV [2] 65 64 64 23 340 mW 58 58 21 Radiation Pattern Lambertian Side Emitting Flux Characteristics at 1000mA, Junction Temperature, TJ = 25ºC Table 2. Color White Green Cyan Blue[3] Royal Blue[4] White Green Blue[3] LUXEON Emitter LXHL PW09 LXHL PM09 LXHL PE09 LXHL PB09 LXHL PR09 LXHL DW09 LXHL DM09 LXHL DB09 Typical Luminous Flux (lm) or Radiometric Power (mW) ΦV [1,2] 1000 mA 80 80 80 30 450 mW 70 70 27 Radiation Pattern Lambertian Side Emitting Notes for Tables 1 & 2: 1.Minimum luminous flux or radiometric power performance guaranteed within published operating conditions. Lumileds main tains a tolerance of ± 10% on flux and power measurements. 2.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. 3.Typical flux value for 470nm 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 typical of 17lm for the 460 465nm bin to a typical of 30lm for the 475 480 nm bin 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. 4.Royal Blue product is binned by radiometric power and peak wavelength rather than photometric lumens and dominant wavelength. LUXEON III Emitter DS45 (3/06) 3 Flux Characteristics at 1400mA, Junction Temperature, TJ = 25ºC Table 3. Color Red Red Orange Amber Red Red Orange Amber LUXEON Emitter LXHL PD09 LXHL PH09 LXHL PL09 LXHL DD09 LXHL DH09 LXHL DL09 Minimum Luminous Flux (lm) FV [1,2] 90 120 70 90 120 70 Typical Luminous Flux (lm) FV [2] 140 190 110 125 170 100 Radiation Pattern Lambertian Side Emitting Notes for Table 3: 1.Minimum luminous flux performance guaranteed within published operating conditions. Lumileds maintains a tolerance of ± 10% on flux measurements. 2.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. LUXEON III Emitter DS45 (3/06) 4 Optical Characteristics at 700mA, Junction Temperature, TJ = 25ºC Table 4. Radiation Pattern Color White Green Cyan Blue Royal Blue[2] Dominant Wavelength λD, Peak Wavelength[2] λP, or Color Temperature[3] CCT Min. Typ. Max. [1] Spectral Half width[4] (nm) ∆λ1/2 — 35 30 25 20 Temperature Coefficient of Dominant Wavelength (nm/oC) ∆λD/ ∆TJ — 0.04 0.04 0.04 0.04 Total Included Angle[5] (degrees) θ0.90V 160 160 160 160 Viewing Angle[6] (degrees) 2θ 1/2 140 140 140 140 Lambertian 4500K 520nm 490nm 460nm 440nm 5500K 530nm 505nm 470nm 455nm 10000K 550nm 520nm 490nm 460nm Optical Characteristics at 700mA, Junction Temperature, TJ = 25ºC Continued Table 5. Radiation Pattern Side Emitting Color White Green Blue Dominant Wavelength[1] λD, or Color Temperature[3] CCT Min. Typ. Max. 4500K 520nm 460nm 5500K 530nm 470nm 10000K 550nm 490nm Spectral Half width[4] (nm) Cum Φ45° — 35 20 Temperature Coefficient of Dominant Wavelength (nm/oC) ∆λD/ ∆TJ — 0.04 0.04 Typical Total Flux Percent within first 45° [7] Cum Φ45°