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LUXEON Mid-Power 5630

LUXEON Mid-Power 5630
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Illumination Portfolio LUXEON Mid-Power 5630 LEDs Optimized solutions for illumination applications Technical Datasheet DS201 LUXEON Mid-Power 5630 LEDs Illumination Portfolio Introduction The LUXEON Mid-Power 5630 LED portfolio in this datasheet 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 lumen output required by the indoor illumination markets. This document contains the performance data needed to design and engineer applications based on these LUXEON Mid-Power emitters. Key Product Attributes: • High efficacy for sustainable design • Widely adopted 5630 package • Minimum 80 CRI for quality indoor lighting • ANSI compliant 1/6th color binning.

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General Product Information Product Nomenclature LUXEON Mid-Power emitters are tested and binned at 100 mA, with current pulse duration of 20 ms. All characteristic charts where the thermal pad is kept at constant temperature (25ºC typically) are measured with current pulse duration of 20 ms. Under these conditions, junction temperature and thermal pad temperature are the same. The part number designations for the MXL8 series is explained as follows: M X LA - B C D E Where: A — designates minimum CRI performance (value 7 = 70 minimum and 8 = 80 minimum) B — designates radiation pattern...

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Optical Characteristics Optical Characteristics of Mid-Power LEDs Thermal Pad Temperature = 25°C, Test Current = 100 mA Table 2. Color Temperature CCT Nominal CCT Min. Typ. Max. Typical Total Typical Included Viewing Angle [1] Angle [2] (degrees) (degrees) u0.90V 2u 1/2 2700K 2550K 2700K 2850K 160 3000K 2850K 3000K 3200K 160 3500K 3200K 3500K 3750K 160 4000K 3750K 4000K 4250K 160 5000K 4700K 5000K 5300K 160 5700K 5300K 5700K 6000K 160 6500K 6000K 6500K 7000K 160 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...

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Electrical Characteristics Electrical Characteristics of Mid-Power LEDs Thermal Pad Temperature = 25ºC, Test Current = 100 mA Table 3. Typical Temperature Typical Coefficient of Thermal Forward Resistance Forward Voltage Vf [1] Voltage [2] Junction to (V) (mV/°C) Thermal Pad (°C/W) Part Numbers Min. Typ. Max. DVf / DTJ Ru J-C MXL8-PW27-0000 MXL8-PW30-0000 MXL8-PW35-0000 MXL8-PW40-0000 2.90 3.10 3.40 MXL8-PW50-0000 MXL8-PW57-0000 MXL8-PW65-0000 Notes for Table 3: 1. Philips Lumileds maintains a tolerance of ±0.10V on forward voltage measurements. 2. Measured at TJ between 25°C and 110°C....

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Absolute Maximum Ratings Table 4. Parameter Maximum Performance DC Forward Current (mA) 150 Peak Pulsed Forward Current (mA) 150 ESD Sensitivity Class 3A Human Body Model Class C Machine Model LED Junction Temperature[1] 115°C Operating Case Temperature at 100 mA -40°C - 80°C Storage Temperature -40°C - 100°C Soldering Temperature JEDEC 020b 260°C Allowable Reflow Cycles 3 Reverse Voltage (Vr) [2] -5V Notes for Table 4: 1. Proper current derating must be observed to maintain junction temperature below the maximum. 2. LUXEON Mid-Power LEDs are not designed to be driven in reverse bias. JEDEC...

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Reflow Soldering Characteristics 300 Maximum Reflow Profile Recommended Reflow Profile Minimum Reflow Profile 260°C +0/-5°C Tp: 255°C 250 245°C 5°C Tc: 240°C 235°C +5/-0°C TL: 217°C Temperature ( C) 200 10sec., min. Tsmax: 200°C 30 seconds, max. Tsmin: 150°C 150 100 seconds, max 120 seconds, 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-020b. Profile Feature Lead Free Assembly Preheat/Soak : Temperature Min (Tsmin ) 150°C Temperature Max (Tsmax ) 200°C Maximum Time (ts ) from Tsmin to Tsmax 120 Seconds...

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Mechanical Dimensions Figure I. Package outline drawing. Ilumination Portfolio Datasheet DS20 I P 20 I 21 21 5

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CATHODE MARK CATHODE MARK - The thermal pad is electrically isolated from the anode and cathode contact pads. Figure 3. Solder pad layout. - The drawing above shows the recommended solder pad layout on Printed Circuit Board (PCB). - Application Brief AB201 provides extensive details for this layout. Ilumination Portfolio Datasheet DS20 I P 20I2I2I5

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Relative Spectral Distribution Relative Intensity vs.Wavelength Figure 4. Typical color spectrum of MXL8-PWXX-0000 emitter, integrated measurement at thermal pad temperature = 25°C, current = 100 mA. Ilumination Portfolio Datasheet DS20 I P 20I2I2I5

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Light Output Characteristics Relative Flux over Temperature MXL8-PWXX-0000 120% 100% R Relative Flux 80% 60% 40% 20% 0% 10 25 40 55 70 85 100 115 Junction Temperature (C) Figure 5. Typical relative light output vs. thermal pad temperature, forward current = 100 mA. Relative Flux vs. Forward Current MXL8-PWXX-0000 1.60 Relative Flux F 1.20 0.80 0 80 0.40 0.00 0 25 50 75 100 125 150 Forward Current (mA) Figure 6. Typical relative luminous flux vs. forward current, thermal pad temperature = 25ºC. Illumination Portfolio Datasheet DS201P 20121215 12

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Luminous Efficacy Characteristics Relative Luminous Efficacy vs. Forward Current Figure 7. Typical emitter efficacy versus forward current, thermal pad temperature = 25°C. Ilumination Portfolio Datasheet DS20 I P 20I2I2I5

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Forward Current Characteristics Forward Current vs. Forward Voltage MXL8-PWXX-0000 150 125 Forward Current (mA) 100 75 50 25 0 2.00 2.25 2.50 2.75 3.00 3.25 3.50 3.75 4.00 Forward Voltage (V) Figure 8. Typical forward current vs. forward voltage, thermal pad temperature = 25°C. Illumination Portfolio Datasheet DS201P 20121215 14

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Current Derating Curves Maximum DC Current vs. Ambient Temperature at Different Rth Figure 9. Maximum forward current vs. ambient temperature, based on T x = I 15°C, forward voltage = 3.5V. Ilumination Portfolio Datasheet DS20 I P 20I2I2I5

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