LUXEON 3535L Mid-Power LEDs Illumination Portfolio Introduction The LUXEON® 3535L delivers optimized performance in combination with Quality of Light needed for distributed light source applications. In addition to delivering specified Correlated Color Temperature and Color Rendering combinations, these emitters deliver the efficacy and reliability required by the indoor and outdoor illumination markets. This document contains the performance data needed to design and engineer applications based on the LUXEON 3535L. Features and Benefits Key Applications • Supports ENERGY STAR® lumen maintenance certification requirements • High efficacy for sustainable design • Compact 3535L package • Full range of CCTs and minimum CRI configurations for design flexibility • ANSI compliant 1/6th color binning from 2700 to 6500K • UL-recognized component [E352519] with level 4 enclosure consideration • Architecture • Downlight • High Bay & Low Bay • Indoor Area Lighting • Lamps • Outdoor LUXEON 3535L DS203 ©2013 Philips Lumileds Lighting Company. Table of Contents General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Product Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Average Lumen Maintenance Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Environmental Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Product Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Optical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 JEDEC Moisture Sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Reflow Soldering Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Mechanical Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Solder Pad Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Assembly Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Relative Spectral Distribution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Light Output Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Luminous Efficacy Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Forward Current Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Typical Radiation Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Emitter Pocket Tape Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Emitter Reel Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Product Binning and Labeling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Color Bin Structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. i General Information Product Nomenclature LUXEON Mid-Power Illumination emitters are tested and binned at 100 mA, with current pulse duration of 20 ms. All characteristic charts where the solder pad is kept at constant temperature (25ºC typically) are measured with current pulse duration of 20 ms. The part number designations for the MXA8 series is explained as follows: MXAD-EFGH-IJKL Where: D — designates minimum CRI performance (value 7 = 70 minimum and 8 = 80 minimum) E — designates radiation pattern (value P = Lambertian) F — designates color (value W = White) G & H — designates nominal ANSI CCT (for example, 30 = 3000K and 40 = 4000K) I, J, K & L — additional part number designation Therefore products in this series with minimum CRI value of 80, CCT of 4000K will have the part numbering scheme: M XA 8 - PW 4 0 Average Lumen Maintenance Characteristics Lumen maintenance for solid-state lighting devices (LEDs) is typically defined in terms of the percentage of initial light output remaining after a specified period of time. Environmental Compliance Philips Lumileds is committed to providing environmentally friendly products to the solid-state lighting market. LUXEON Mid-Power LEDs are compliant to the European Union directives on the restriction of hazardous substances in electronic equipment, namely REACH and the RoHS directive. Philips Lumileds will not intentionally add the following restricted materials to these LEDs: lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers (PBDE). LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 2 Product Selection Product Selection for Mid-Power LEDs Solder Pad Temperature = 25°C, Test Current = 100 mA Table 1. Nominal CCT Part Number Minimum CRI Typical CRI R9 Min Luminous Flux (lm) FV Typ Luminous Flux (lm) FV 2200K MXA8-PW22-0000 80 82 R9>0 24 30 2500K MXA8-PW25-0000 80 82 R9>0 24 33 MXA8-PW27-0000 80 82 R9>0 28 38 MXA9-PW27-0000 85 92 R9>50 26 30 MXA8-PW30-0000 80 82 R9>0 32 39 MXA9-PW30-0000 90 92 R9>50 24 31 MXA8-PW35-0000 80 82 R9>0 32 40 MXA9-PW35-0000 85 92 typ R9: 50 24 33 MXA7-PW40-0000 70 72 - 36 45 MXA8-PW40-0000 80 82 R9>0 32 42 MXA9-PW40-0000 85 92 typ R9: 50 24 34 MXA7-PW50-0000 70 72 - 36 46 MXA8-PW50-0000 80 82 R9>0 32 42 MXA7-PW57-0000 70 72 - 36 46 MXA8-PW57-0000 80 82 R9>0 32 42 MXA7-PW65-0000 70 72 - 36 45 MXA8-PW65-0000 80 82 R9>0 32 41 2700K 3000K 3500K 4000K 5000K 5700K 6500K Note for Table 1: 1. Philips Lumileds maintains a tolerance of ± 7.5% on luminous flux and ± 2 on CRI measurements. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 3 Optical Characteristics Optical Characteristics of Mid-Power LEDs Solder Pad Temperature = 25°C, Test Current = 100 mA Table 2. Nominal CCT Color Temperature Minimum Typical Maximum Typ Total Included Angle [1] (degrees) u0.90V Typ Viewing Angle [2] (degrees) 2u 1/2 2200K 2113K 2230K 2361K 140 115 2500K 2305K 2452K 2580K 140 115 2700K 2580K 2700K 2850K 140 115 3000K 2850K 3000K 3200K 140 115 3500K 3200K 3500K 3750K 140 115 4000K 3750K 4000K 4250K 140 115 5000K 4700K 5000K 5300K 140 115 5700K 5300K 5700K 6000K 140 115 6500K 6000K 6500K 7000K 140 115 Notes for Table 2: 1. Total angle at which 90% of total luminous flux is captured. 2. Viewing angle is the off axis angle from lamp centerline where the luminous intensity is ½ of the peak value. Electrical Characteristics Electrical Characteristics of Mid-Power LEDs Solder Pad Temperature = 25ºC, Test Current = 100 mA Table 3. Forward Voltage Vf [1] (V) Part Numbers MXAx-PWxx-xxxx Minimum Typical Maximum Typ. Temperature Coefficient of Forward Voltage [2] (mV/°C) DVf / DTJ 2.80 3.05 3.40 - 2.0 to - 4.0 Typical Thermal Resistance Junction to Solder Pad (°C/W) Ru J-C 18 Notes for Table 3: 1. Philips Lumileds maintains a tolerance of ± 0.10V on forward voltage measurements. 2. Measured between Tj = 25°C and Tj = 110°C. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 4 Absolute Maximum Ratings Table 4. Parameter Maximum Performance DC Forward Current (mA) [1] [3] Peak Pulsed Forward Current (mA) 200 240 [2] [3] Class 3A Human Body Model Class C Machine Model ESD Sensitivity LED Junction Temperature[3] 125°C Operating Case Temperature at 100 mA -40°C - 105°C Storage Temperature -40°C - 100°C Soldering Temperature JEDEC 020D 260°C Allowable Reflow Cycles 3 Reverse Voltage (Vr) -5V [4], [5] Notes for Table 4: 1. Ripple current with a frequency of 50-150 Hz is allowed, as long as the average of the current waveform is below 200 mA, and the maximum of the current waveform is lower than 240 mA. 2. At 10% duty cycle and pulse width 10ms. 3. Proper current derating must be observed to maintain junction temperature below the maximum. 4. LUXEON Mid-Power LEDs are not designed to be driven in reverse bias. 5. At maximum reverse current of 10 µA. JEDEC Moisture Sensitivity Table 5. Soak Requirements Level 2 Floor Life Standard Time Conditions Time Conditions 1 year [ 30°C / 60% RH 168 Hrs. + 5 / -0 Hrs. [ 85°C / 60% RH LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 5 Reflow Soldering Characteristics 300 Tp: 260°C 260°C +0/-5°C 250 Ramp-Up Rate, 3°C/sec. max. 255°C +5/-0°C TL: 217°C Temperature ( C) 200 Tsmax : 200°C tp: 10-30sec. 30sec max. Tsmin: 150°C 150 ts : 60-120sec. tL: 60-150 sec,max 100 50 0 0 50 100 150 200 250 300 Time (seconds) Temperature Profile for Table 6. Table 6. Reflow Profile in Accordance with J-Std-020D. Profile Feature Lead Free Assembly Preheat/Soak : Temperature Min (Tsmin ) Temperature Max (Tsmax ) Maximum Time (ts ) from Tsmin to Tsmax 150°C 200°C 120 seconds Ramp-up Rate (TL to Tp ) 3°C / second Liquidous Temperature (TL ) 217°C Maximum Time (tL ) Maintained above TL 150 seconds Maximum Peak Package Body Temperature (Tp ) 260°C Time (tp ) within 5°C of the specified temperature (Tc ) 10-30 seconds Maximum Ramp-Down Rate (Tp to TL ) 6°C / second Maximum Time 25°C to Peak Temperature 8 minutes Note for Table 6: • All temperatures refer to the application Printed Circuit Board (PCB), measured on the surface adjacent to the package body. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 6 Mechanical Dimensions 2.6 Cathode Anode 3.50±0.15 2.7 3.40±0.15 Part Mark Cathode 1.9 0.8 3.7 MAX 0.3 0.8 Figure 1. Package outline drawing. Notes for Figure 1: • All dimensions are in millimeters. • Tolerance: ±0.10mm. • Materials - Lead Frame: Copper Alloy with Silver Plating - Package Body: High Temperature Thermal Plastic - Encapsulant: Silicone Resin - Solder Lead Finish: Ni-Ag Plating LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 7 Solder Pad Design Figure 2. Solder pad layout. Notes for Figure 2: • The drawing above shows the recommended solder pad layout on Printed Circuit Board (PCB). • Application Brief AB203 provides extensive details for this layout. In addition, the .dwg files are available at www.philipslumileds.com and www.philipslumileds.cn.com. Assembly Precautions The LUXEON emitter package contains a silicone overcoat to protect the LED chip and extract the maximum amount of light. As with most silicones used in LED optics, care must be taken to prevent any incompatible chemicals from directly or indirectly reacting with the silicone. The silicone overcoat used in the LUXEON emitter is gas permeable. Consequently, oxygen and volatile organic compound (VOC) gas molecules can diffuse into the silicone overcoat. VOCs may originate from adhesives, solder fluxes, conformal coating materials, potting materials and even some of the inks that are used to print the PCBs. Some VOCs and chemicals react with silicone and produce discoloration and surface damage. Other VOCs do not chemically react with the silicone material directly but diffuse into the silicone and oxidize during the presence of heat or light. Regardless of the physical mechanism, both cases may affect the total LED light output. Since silicone permeability increases with temperature, more VOCs may diffuse into and/or evaporate out from the silicone. Please refer to AB203 for more details on VOCs and other incompatible chemicals. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 8 Relative Spectral Distribution Relative Intensity vs. Wavelength, MXA7-PWxx Figure 3a. Typical color spectrum of MXA7-PWxx emitter, integrated measurement at solder pad temperature = 25°C, forward current = 100 mA. Relative Intensity vs. Wavelength, MXA8-PWxx Figure 3b. Typical color spectrum of MXA8-PWxx emitter, integrated measurement at solder pad temperature = 25°C, forward current = 100 mA. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 9 Relative Intensity vs. Wavelength, MXA9-PWxx Figure 3c. Typical color spectrum of MXA9-PWxx emitter, integrated measurement at solder pad temperature = 25°C, forward current = 100 mA. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 10 Light Output Characteristics Relative Flux over Temperature, MXAx-PWxx Figure 4. Typical relative light output vs. solder pad temperature, forward current = 100 mA. Relative Flux vs. Forward Current, MXAx-PWxx Figure 5. Typical relative luminous flux vs. forward current, solder pad temperature = 25ºC. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 11 Luminous Efficacy Characteristics Relative Luminous Efficacy vs. Temperature, MXAx-PWxx Figure 6. Typical relative emitter efficacy as a function of solder pad temperature. Forward Current Characteristics Forward Current vs. Forward Voltage, MXAx-PWxx Figure 7. Typical forward current vs. forward voltage, solder pad temperature = 25°C. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 12 Typical Radiation Patterns Radiation Pattern in Cartesian Coordinate System Figure 8. Typical representative spatial radiation pattern. Radiation Pattern in Polar Coordinate System Figure 9. Typical polar plot of radiation pattern. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 13 3,95±0,1 5,5±0,05 1,2±0,1 12+0,3 -0,1 2±0,05 ,1 +0 5 -0 1, 4±0,1 1,75±0,1 Emitter Pocket Tape Packaging ,25 +0 0 1,5 - 8±0,1 3,8±0,1 0,28±0,02 Figure 10. Emitter pocket tape packaging. Notes for Figure 10: • All dimensions are in millimeters • Empty component pockets sealed with top cover tape • The maximum number of consecutive missing LEDs is two. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 14 Emitter Reel Packaging 329 100 +/-0.5 13,1 +0,5 -0,2 18.4 (max, measure at hub) 1.5 n mi +2 12,4-0 Figure 11. Emitter reel packaging. Notes for Figure 11: • All dimentions are in millimeters. • Empty component pockets sealed with top cover tape. • 329 mm reel - 5000 pieces per reel. • Minimum packing quantity is 5000 pieces. • The maximum number of consecutive missing LEDs is two. • In accordance with EIA-481-1-B specification. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 15 Product Binning and Labeling Purpose of Product Binning In the manufacturing of semiconductor products, there is a variation of performance around the average values given in the technical data sheets. For this reason, Philips Lumileds bins the LED components for luminous flux, color and forward voltage (Vf). Decoding Product Bin Labeling LUXEON Mid-Power emitters are labeled using a four digit alphanumeric code (CAT code) depicting the bin values for emitters packaged on a single reel. All emitters packaged within a reel are of the same 3-variable bin combination. Using these codes, it is possible to determine optimum mixing and matching of products for consistency in a given application. Reels of 2700K, 3000K, 3500K, 4000K, 5000K, 5700K, 6500K emitters are labeled with a four digit alphanumeric CAT code following the format below. ABCD A= Flux bin (L etc.) B and C = Color bin (For example 51, 52, 53, 54, 55, 56) D= Vf bin Luminous Flux Bins Table 7 and Table 8 list the standard photometric luminous flux bins for LUXEON Mid-Power emitters (tested and binned at 100 mA). Although several bins are outlined, product availability in a particular bin varies by production run and by product performance. Not all bins are available in all colors. Please contact your Philips Lumileds representative for the MXA9-PW27 flux bins. Table 7. Flux Bins Bin Code Minimum Photometric Flux (lm) Maximum Photometric Flux (lm) J 24 28 K 28 32 L 32 36 M 36 40 P 40 44 Q 44 48 R 48 52 Tested and binned at 25°C, If=100 mA. Tester tolerance: ±7.5%. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 16 Forward Voltage Bins Table 8. Vf Bins Bin Code Minimum Forward Voltage (V) Maximum Forward Voltage (V) T 2.8 2.9 V 2.9 3.0 W 3.0 3.1 X 3.1 3.2 Y 3.2 3.3 Z 3.3 3.4 Tested and binned at 25°C, If = 100 mA. Tester tolerance: ±0.1V. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 17 Color Bin Structure MXAx-PW22-xxxx Color Bin Structure 0.445 0.44 0.435 0.43 0.425 A1 A3 A5 0.42 y 0.415 0.41 A6 0.405 A2 A4 0.4 0.395 0.39 0.48 0.49 0.5 0.51 0.52 0.53 x Figure 12. 2200K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 9. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXAx-PW22-xxxx Bin Code x y Bin Code x y Bin Code x y A5 0.5010 0.5094 0.4996 0.4917 0.4323 0.4343 0.4158 0.4140 A3 0.5094 0.5178 0.5075 0.4996 0.4343 0.4362 0.4176 0.4158 A1 0.5178 0.5262 0.5154 0.5075 0.4362 0.4381 0.4194 0.4176 A6 0.4917 0.4996 0.4897 0.4823 0.4140 0.4158 0.3974 0.3957 A4 0.4996 0.5075 0.4972 0.4897 0.4158 0.4176 0.3990 0.3974 A2 0.5075 0.5154 0.5046 0.4972 0.4176 0.4194 0.4007 0.3990 Notes for Table 9: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 18 Color Bin Structure, Continued MXAx-PW25-xxxx Color Bin Structure 0.435 0.43 0.425 93 A3 95 0.42 91 0.415 y 0.41 0.405 96 94 92 0.4 0.395 0.39 0.455 0.46 0.465 0.47 0.475 0.48 0.485 0.49 0.495 0.5 0.505 x Figure 13. 2500K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 10. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXAx-PW25-xxxx Bin Code x y 95 0.4813 0.4879 0.4774 0.4703 0.4319 0.4320 0.4134 0.4132 96 0.4703 0.4774 0.4670 0.4593 0.4132 0.4134 0.3948 0.3944 Bin Code 93 94 x y Bin Code x y 0.4879 0.4944 0.4845 0.4774 0.4320 0.4322 0.4137 0.4134 91 0.4944 0.5010 0.4917 0.4845 0.4322 0.4323 0.4140 0.4137 0.4774 0.4845 0.4746 0.4670 0.4134 0.4137 0.3952 0.3948 92 0.4845 0.4917 0.4823 0.4746 0.4137 0.4140 0.3957 0.3952 Notes for Table 10: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 19 Color Bin Structure, Continued MXAx-PW27-xxxx Color Bin Structure 0.450 0.440 0.430 81 0.420 83 85 y 2700K 0.410 0.400 82 84 86 2580 0.390 2870K 0.380 0.370 0.430 0.435 0.440 0.445 0.450 0.455 0.460 0.465 0.470 0.475 0.480 0.485 0.490 x Figure 14. ANSI 2700K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 11. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXAx-PW27-xxxx Emitter Bin Code x y Bin Code x y 81 0.4625 0.4729 0.4813 0.4703 0.4113 0.4299 0.4319 0.4132 84 0.4446 0.4546 0.4625 0.4520 0.3910 0.4095 0.4113 0.3927 82 0.4520 0.4625 0.4703 0.4593 0.3927 0.4113 0.4132 0.3944 85 0.4468 0.4562 0.4646 0.4546 0.4077 0.4260 0.4280 0.4095 83 0.4546 0.4646 0.4729 0.4625 0.4095 0.4280 0.4299 0.4113 86 0.4373 0.4468 0.4546 0.4446 0.3893 0.4077 0.4095 0.3910 Notes for Table 11: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 20 Color Bin Structure, Continued MXA8-PW30-xxxx Color Bin Structure 0.445 0.435 0.425 71 0.415 73 75 y 3000K 0.405 0.395 72 74 76 2870K 0.385 3200K 0.375 0.365 0.405 0.410 0.415 0.420 0.425 0.430 0.435 x 0.440 0.445 0.450 0.455 0.460 0.465 Figure 15. ANSI 3000K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 12. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXA8-PW30-xxxx Emitter Bin Code x y Bin Code x y 71 0.4386 0.4474 0.4562 0.4468 0.4048 0.4228 0.4260 0.4077 74 0.4222 0.4305 0.4386 0.4298 0.3840 0.4019 0.4048 0.3867 72 0.4298 0.4386 0.4468 0.4373 0.3867 0.4048 0.4077 0.3893 75 0.4223 0.4299 0.4387 0.4305 0.3990 0.4165 0.4197 0.4019 73 0.4305 0.4387 0.4474 0.4386 0.4019 0.4197 0.4228 0.4048 76 0.4147 0.4223 0.4305 0.4222 0.3814 0.3990 0.4019 0.3840 Notes for Table 12: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 21 Color Bin Structure, Continued MXA8-PW35-xxxx Color Bin Structure 0.430 0 420 0.420 0.410 61 63 0.400 y 65 0.390 3500K 62 64 0.380 3250K 66 0.370 3750K 0.360 0.380 0.385 0.390 0.395 0.400 0.405 0.410 0.415 0.420 0.425 0.430 0.435 0.440 x Figure 16. ANSI 3500K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 13. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXA8-PW35-xxxx Emitter Bin Code x y Bin Code x y 61 0.4130 0.4198 0.4299 0.4223 0.3944 0.4115 0.4165 0.3990 64 0.3975 0.4036 0.4130 0.4061 0.3731 0.3898 0.3944 0.3773 62 0.4061 0.4130 0.4223 0.4147 0.3773 0.3944 0.3990 0.3814 65 0.3943 0.3996 0.4097 0.4036 0.3853 0.4015 0.4065 0.3898 63 0.4036 0.4097 0.4198 0.4130 0.3898 0.4065 0.4115 0.3944 66 0.3889 0.3943 0.4036 0.3975 0.3690 0.3853 0.3898 0.3731 Notes for Table 13: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 22 Color Bin Structure, Continued MXAx-PW40-xxxx Color Bin Structure 0.420 0.410 0.400 51 0.390 53 y 55 0.380 4000K 52 54 0.370 3750K 56 0.360 4250K 0.350 0.340 0.360 0.365 0.370 0.375 0.380 0.385 0.390 0.395 0.400 0.405 0.410 x Figure 17. ANSI 4000K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 14. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXAx-PW40-xxxx Emitter Bin Code x y Bin Code x y 51 0.3869 0.3916 0.4006 0.3952 0.3829 0.3987 0.4044 0.3880 54 0.3746 0.3786 0.3869 0.3822 0.3624 0.3777 0.3829 0.3670 52 0.3822 0.3869 0.3952 0.3898 0.3670 0.3829 0.3880 0.3716 55 0.3703 0.3736 0.3826 0.3786 0.3726 0.3874 0.3931 0.3777 53 0.3786 0.3826 0.3916 0.3869 0.3777 0.3931 0.3987 0.3829 56 0.3670 0.3703 0.3786 0.3746 0.3578 0.3726 0.3777 0.3624 Notes for Table 14: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 23 Color Bin Structure, Continued MXA8-PW50-xxxx Color Bin Structure 0.390 0 380 0.380 0.370 31 33 0.360 35 y 5000K 32 0.350 34 4750K 36 0.340 5250K 0.330 0.320 0.325 0.330 0.335 0.340 0.345 0.350 0.355 0.360 0.365 x Figure 18. ANSI 5000K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 15. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXA8-PW50-xxxx Emitter Bin Code x y Bin Code x y 31 0.3479 0.3493 0.3551 0.3533 0.3580 0.3712 0.3760 0.3624 34 0.3416 0.3425 0.3479 0.3465 0.3408 0.3536 0.3580 0.3448 32 0.3465 0.3479 0.3533 0.3515 0.3448 0.3580 0.3624 0.3487 35 0.3371 0.3376 0.3434 0.3425 0.3493 0.3616 0.3664 0.3536 33 0.3425 0.3434 0.3493 0.3479 0.3536 0.3664 0.3712 0.3580 36 0.3366 0.3371 0.3425 0.3416 0.3369 0.3493 0.3536 0.3408 Notes for Table 15: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 24 Color Bin Structure, Continued MXA8-PW57-xxxx Color Bin Structure 0.370 0.360 21 0.350 23 25 y 0.340 5700K 22 24 5250K 26 0.330 6000K 0.320 0.310 0.310 0.315 0.320 0.325 0.330 x 0.335 0.340 0.345 0.350 Figure 19. ANSI 5700K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 16. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXA8-PW57-xxxx Emitter Bin Code x y Bin Code x y 21 0.3319 0.3320 0.3376 0.3371 0.3446 0.3565 0.3616 0.3493 24 0.3270 0.3267 0.3319 0.3318 0.3285 0.3399 0.3446 0.3327 22 0.3318 0.3319 0.3371 0.3366 0.3327 0.3446 0.3493 0.3369 25 0.3215 0.3207 0.3263 0.3267 0.3353 0.3462 0.3513 0.3399 23 0.3267 0.3263 0.3320 0.3319 0.3399 0.3513 0.3565 0.3446 26 0.3222 0.3215 0.3267 0.3270 0.3243 0.3353 0.3399 0.3285 Notes for Table 16: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 25 Color Bin Structure, Continued MXA8-PW65-xxxx Color Bin Structure 0.365 0 355 0.355 0.345 11 0.335 13 y 15 6500K 0.325 12 6000K 14 16 0.315 7000K 0.305 0.295 0.290 0.295 0.300 0.305 0.310 0.315 0.320 0.325 0.330 0.335 x Figure 20. ANSI 6500K 1/6th color bin structure. LUXEON Mid-Power Emitters are tested and binned by x,y coordinates. Table 17. LUXEON Mid-Power ANSI 1/6 Color Bin Coordinates for MXA8-PW65-xxxx Emitter Bin Code x y Bin Code x y 11 0.3158 0.3146 0.3206 0.3213 0.3317 0.3422 0.3481 0.3371 14 0.3119 0.3103 0.3158 0.3170 0.3162 0.3263 0.3317 0.3212 12 0.3170 0.3158 0.3213 0.3221 0.3212 0.3317 0.3371 0.3261 15 0.3048 0.3028 0.3087 0.3103 0.3209 0.3304 0.3363 0.3263 13 0.3103 0.3087 0.3146 0.3158 0.3263 0.3363 0.3422 0.3317 16 0.3068 0.3048 0.3103 0.3119 0.3113 0.3209 0.3263 0.3162 Notes for Table 17: 1. Tested and binned at 25°C and If = 100 mA. Tester tolerance: +/- 0.01 in x and y coordinates. LUXEON 3535L Datasheet DS203 20131017 ©2013 Philips Lumileds Lighting Company. 26 Who We Are Philips Lumileds focuses on one goal: Creating the world’s highest performing LEDs. The company pioneered the use of solid-state lighting in breakthrough products such as the first LED backlit TV, the first LED flash in camera phones, and the first LED daytime running lights for cars. Today we offer the most comprehensive portfolio of high quality LEDs and uncompromising service. Philips Lumileds brings LED’s qualities of energy efficiency, digital control and long life to spotlights, downlights, high bay and low bay lighting, indoor area lighting, architectural and specialty lighting as well as retrofit lamps. Our products are engineered for optimal light quality and unprecedented efficacy at the lowest overall cost. By offering LEDs in chip, packaged and module form, we deliver supply chain flexibility to the inventors of next generation illumination. Philips Lumileds understands that solid state lighting is not just about energy efficiency. It is about elegant design. Reinventing form. Engineering new materials. Pioneering markets and simplifying the supply chain. It’s about a shared vision. Learn more about our comprehensive portfolio of LEDs at www.philipslumileds.com. 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LUXEON is a registered trademark of the Philips Lumileds Lighting Company in the United States and other countries. www.philipslumileds.com www.philipslumileds.cn.com LUXEON 3535L Datasheet DS203 20131017