SuperBlue™ Generation II LEDs Preliminary Data Sheet C430CB290-S2100 Cree’s SuperBlue LEDs combine highly efficient GaN with Cree’s proprietary G•SiC® substrate to deliver the ultimate price/performance for high-intensity blue LEDs. The C430CB290-S2100 is designed for automotive applications or any application where wavelength stability and chip robustness are critical. FEATURES • APPLICATIONS Low Wavelength Variation – • 461-465 nm at 20 mA Automotive Applications – Dashboard Lighting • High Performance – 1.3 mW – Interior Lighting • Superior SiC Substrate Technology – Toggle Switch Lighting • Excellent Chip-to-Chip Consistency • Electronic Signs and Displays • High Reliability • Indicator Lights • Single Wire Bond Structure • Class 2 ESD Rating C430CB290-S2100 Chip Diagram Top View Bottom View Die Cross Section Anode (+) .CPR3DN Rev Data Sheet: 260 x 260 μm Mesa (junction) 240 x 240 μm SiC Substrate t = 250 μm Backside Metallization Gold Bond Pad 114 μm Diameter Cathode (-) Subject to change without notice. www.cree.com Maximum Ratings at TA = 25°C Notes 1&3 C430CB290-S2100 DC Forward Current 30 mA Peak Forward Current (1/10 duty cycle @ 1kHz) 70 mA LED Junction Temperature 125°C Reverse Voltage 5V Operating Temperature Range -40°C to +100°C Storage Temperature Range -40°C to +100°C Electrostatic Discharge Threshold (HBM) 1000 V Note 2 Electrostatic Discharge Classification (MIL-STD-883E) Class 2 Note 2 Typical Electrical/Optical Characteristics at TA = 25°C, If = 20 mA Forward Voltage (Vf, V) Part Number C430CB290-S2100 Radiant Flux (P, mW) Note 3 Reverse Current [I(Vr=5V), μA] Peak Wavelength (λd, nm) Dominant Wavelength (λd, nm) Full Width Half Max (λD, nm) Typ. Max. Min. Typ. Max. Typ. Min. Typ. Max. Typ. 4.0 4.5 0.85 1.3 10 423 461 463 465 59 Mechanical Specifications Description C430CB290-S2100 Dimension Tolerance P-N Junction Area (μm2) 240 x 240 ± 35 Top Area (μm2) 260 x 260 ± 35 Bottom Area (μm ) 260 x 260 ± 35 Chip Thickness (μm) 250 ± 25 Au Bond Pad Diameter (μm) 114 ± 20 Au Bond Pad Thickness (μm) 1.1 ± 0.5 Back Contact Metal Diameter (μm) 114 ± 20 2 Notes: 1. 2. 3. Maximum ratings are package dependent. The above ratings were determined using a T-1 3/4 package (with Hysol OS4000 epoxy) for characterization. Ratings for other packages may differ. The forward currents (DC and Peak) are not limited by the die but by the effect of the LED junction temperature on the package. The junction temperature limit of 125°C is a limit of the T-1 3/4 package; junction temperature should be characterized in a specific package to determine limitations. Assembly processing temperature must not exceed 325°C (<5 seconds). Product resistance to electrostatic discharge (ESD) according to the HBM is measured by simulating ESD using a rapid avalanche energy test (RAET). The RAET procedures are designed to approximate the maximum ESD ratings shown. The ESD classification of Class 2 is based on sample testing according to MIL-STD-883E. All products conform to the listed minimum and maximum specifications for electrical and optical characteristics when assembled and operated at 20 mA within the maximum ratings shown above. Efficiency decreases at higher currents. Typical values given are within the range of average values expected by the manufacturer in large quantities and are provided for information only. All measurements were made using lamps in T-1 3/4 packages (with Hysol OS4000 epoxy). Optical characteristics measured in an integrating sphere using Illuminance A. Copyright © 2008 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree, the Cree logo and G•SiC are registered trademarks, and SuperBlue is a trademark of Cree, Inc. CPR3DN Rev. - Cree, Inc. 4600 Silicon Drive Durham, NC 27703 USA Tel: +1.919.313.5300 www.cree.com Characteristic Curves Characteristic Curves These are representative measurements LED product. product.Actual Actual curves slightly These are representative measurementsfor forthe the CB290 CB290 LED curves will will vary vary slightly for for the various radiant flux and dominant wavelength bins. the various radiant flux and dominant wavelength bins. Forward Current vs Forward Voltage 30 2.5 2.0 20 1.5 If (mA) Shift (nm) 25 Dominant Wavelength Shift vs Forward Current 15 1.0 10 0.5 5 0.0 0 -0.5 0.0 0.5 1.0 1.5 2.0 2.5 Vf (V) 3.0 3.5 4.0 4.5 5.0 0 5 10 15 If (mA) 20 25 30 Relative Intensity vs Forward Voltage 160 % Relative Intensity 140 120 100 80 60 40 20 0 0 5 10 15 If (mA) 20 25 30 Copyright © 2008 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree, the Cree logo and G•SiC are registered trademarks, and SuperBlue is a trademark of Cree, Inc. CPR3DN Rev. - Cree, Inc. 4600 Silicon Drive Durham, NC 27703 USA Tel: +1.919.313.5300 www.cree.com Radiation Pattern This is a representative radiation pattern for the CB290 LED product. Actual patterns will vary slightly for each chip. Copyright © 2008 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree, the Cree logo and G•SiC are registered trademarks, and SuperBlue is a trademark of Cree, Inc. CPR3DN Rev. - Cree, Inc. 4600 Silicon Drive Durham, NC 27703 USA Tel: +1.919.313.5300 www.cree.com