Bright Lights. Bright Ideas. TM Brilliant Light! BL-3000SERIES WHITE 4300K LED LIGHT ENGINE Lamina Light Engines As the market leader in the development and manufacture of super-bright LED arrays, Lamina brings solid state lighting to applications which until now were only possible with traditional lighting sources. Lamina's LED arrays are manufactured by combining high brightness LEDs from industry-leading LED manufacturers with Lamina's proprietary packaging technology, multilayer Low Temperature Co-Fired Ceramic on Metal (LTCC-M). LTCC-M is a breakthrough in thermal performance for LED packaging technology, a key factor in determining LED life and reliability. Unmatched thermal performance coupled with package interconnectivity allows Lamina to densely cluster multiple LEDs to achieve exceptionally high luminous intensity in very small footprints. Lamina's arrays are available in white, RGB and monochrome, from 1W to 100W, and also are available in custom packages. *HIGH LUMINOUS FLUX IN SMALL FOOTPRINT *SUPERIOR THERMAL PERFORMANCE FOR IMPROVED RELIABILITY *LONG LIFE AND HIGH LUMEN MAINTENANCE *NO MERCURY OR LEAD *CUSTOM SIZES AND SHAPES AVAILABLE BL-3000 White Typical Applications GENERAL ILLUMINATION ARCHITECTURAL LIGHTING *DECORATIVE AND ACCENT *COVE AND UNDER-SHELF *GARDEN AND PATHWAY SIGNALS & SIGNAGE *AIRFIELD TAXIWAY *SECURITY *BEACONS TASK LIGHTING MEDICAL MACHINE VISION Lamina BL-3000 white LED arrays are configured with 39 cavities, each populated with multiple LEDs. Multiple LED die in each cavity, a unique feature made possible with Lamina's packaging technology, assure Lamina light engines deliver optimal color uniformity. Terminals are supplied with a solderable surface finish to enable users to connect arrays to driver circuitry or other arrays in a series or parallel circuit. The BL-3000 Series is the most powerful LED array on the market. Lamina's white 4300K LED light engines are designed with an enhanced wpectral distribution rich in red for applications demanding improved color rendition (90 typical CRI) and warmer color temperatures. To see how you can realize all these design benefits, to request a sample, or to speak with an engineer about your design, contact Lamina at 800.808.5822 or 609.265.1401 or visit www.laminaceramics.com. laminaceramics.com REV.01.20.05 Part # BL-32D1-0245 Page 1 Bright Lights. Bright Ideas. TM Technical Data Part # BL-3 32D1-0 0245 Symbol Min Typical Max Unit Color Temperature ** CCT 3500 4300 5500 K Voltage* VF - 24 - V Test Current IF - 1.17 - A Power* P - 28 - W Luminous Flux* V 510 525 - lm Thermal Resistance TR - 0.66 - C/W *Note 1. Optical and Electrical specifications are given for the specified drive current at a 25C junction temperature. **Note 2. Typical CRI is 90. Mechanical Specifications 0.700 [17.78] 4X MOUNTING HOLE FOR 6-32 SCREW ATTACHMENT RECOMMENDATIONS Lamina's BL-3000 Series is configured with solder pads compatible with Sn63 or Sn62 solder. As with many electrical devices, non-acid RMA type solder flux should be used to prepare the solder pads before application of solder. If wire attachment is performed with a soldering iron, care must be taken to minimize heat transfer to the die and minimize leaching of the solderable pads. ASSEMBLY RECOMMENDATIONS Lamina's BL Series Light Engines, are designed for attachment to heatsinks with conductive epoxy or screw down for flange mount devices with thermal grease in the joint. Lamina 1.250 [31.75] For attachment using screws, a 6-32 UNC fillister head slotted machine screw, 18-8 SS is recommended. Maximum torque is 4 inch pounds (45 newton centimeter). Required flatness of surface light engine is mounted to is 0.001 inch/inch. 1.050 [26.67] 0.090 [2.29] MAX To see how you can realize all these design benefits, to request a sample, or to speak with an engineer about your design, contact Lamina at 800.808.5822 or 609.265.1401 or visit www.laminaceramics.com. laminaceramics.com REV.01.20.05 Part # BL-32D1-0245 Page 2 Bright Lights. Bright Ideas. TM Electrical Connections HEAT SINK RECOMMENDATIONS Lamina APPLY (V+) VOLTAGE HERE APPLY (V-) VOLTAGE HERE Typical Beam Pattern Lamina LED arrays provide efficient transfer of heat from the individual LED die to a customer supplied heat sink. All Lamina LED arrays must be operated at or below 125C. A heat sink must be attached to the array with sufficient cooling capacity to keep the die junction below 125C. The temperature rise from the array base to the die junction may be determined by calculating the product of the maximum package thermal resistance and the desired operating power level. Junction Temperature Rise (Tj (rise)) = Operating Power (P) x Lamina Array Thermal Resistance (Tr) The appropriate heat sink may then be determined by: Heat Sink Thermal Resistance (C/W) = (125 - Tj (rise) Maximum Ambient Temperature)/P OPTICAL RECOMMENDATIONS Lamina LED arrays project a Lambertian radiation pattern, with projection angles built into the package cavity at approximately 125. It will be necessary for users to create an optical reflector and lens structure that meets their light dispersion requirements. Please contact Lamina Application Engineering for support with your optical needs. To see how you can realize all these design benefits, to request a sample, or to speak with an engineer about your design, contact Lamina at 800.808.5822 or 609.265.1401 or visit www.laminaceramics.com. laminaceramics.com REV.01.20.05 Part # BL-32D1-0245 Page 3 Bright Lights. Bright Ideas. TM Luminous Flux with Junction Temperature LIGHT OUTPUT VS. JUNCTION TEMPERATURE Light output from LED die will decrease with increasing junction temperature. This effect is particularly acute for die in the 580 to 750 nm range. As a result we recommend that the LED array heat sink design be optimized to maintain the die junction temperature as low as possible. ESD PROTECTION LEDs are static sensitive and susceptible to Electrostatic Discharge (ESD) damage. Lamina LED arrays must be handled using ESD damage control precautions. HANDLING PRECAUTION Contact with the silicone based encapsulant on the surface of the light engine must be avoided to prevent damage. Do not apply pressure to the silicone based encapsulant or allow it to come into contact with sharp objects. Lamina LED arrays must be handled from the sides. Lamina Ceramics 120 Hancock Lane Westampton, NJ 08060 Specifications subject to change without notice. (c)2005 Lamina Ceramics To see how you can realize all these design benefits, to request a sample, or to speak with an engineer about your design, contact Lamina at 800.808.5822 or 609.265.1401 or visit www.laminaceramics.com. laminaceramics.com REV.01.20.05 Part # BL-32D1-0245 Page 4