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Lighting Design Manufacturing Service

Datasheet

Edixeon® A Series

High Power LEDs

www.edison-opto.com.tw

version : 8

Edixeon® A series emitters are one of the highest ux LEDs

in the world by Edison Opto. Edixeon® A series emitters

are designed to satisfy more and more Solid-State lighting

High Power LED applications for brilliant world such as

ash light, indoor and outdoor decoration light. Edixeon®

A series emitters are designed by particular package

for High Power LED. 1W Edixeon® white has typical

100 lumens @350mA. Unlike most fluorescent sources,

Edixeon® contains no mercury and has more energy

ecient than other incandescent light source.

Various colors

More energy ecient than incandescent and most halogen lamps

Low voltage operation

Instant light

Long operating life

Features :

Summary of content (33 pages)

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Lighting Design Manufacturing Service www.edison-opto.com.tw High Power LEDs Edixeon® A Series Datasheet Edixeon® A series emitters are one of the highest flux LEDs in the world by Edison Opto. Edixeon® A series emitters are designed to satisfy more and more Solid-State lighting High Power LED applications for brilliant world such as flash light, indoor and outdoor decoration light. Edixeon® A series emitters are designed by particular package for High Power LED.
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Lighting Design Manufacturing Service Table of Contents • Product Nomenclature.....................................................................................................................................................3 • Environmental Compliance........................................................................................................................................... 3 • LED Package Dimensions and Polarity.............................................................................
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Lighting Design Manufacturing Service Product Nomenclature The following table describes the available color, power, and lens type. For more flux and forward voltage information, please consult the Bin Group document.
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Lighting Design Manufacturing Service LED Package Dimensions and Polarity Lambertian, Side Emitting, Batwing, and Focusing Emitter Type Lambertian Side Emitting Cathode(-) Cathode(-) (4)Slug Anode(+) (4)Slug Anode(+) Slug Cathode(-) Anode(+) Slug Cathode(-) EDEx-1LA1-x1 Anode(+) Slug Anode(+) Cathode(-) (3)Lens (3)Lens (1)Lead (1)Lead (2)Housing (2)Housing Batwing Cathode(-) (4)Slug Anode(+) Anode(+) Cathode(-) (3)Lens (1)Lead (2)Housing Figure 2.
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Lighting Design Manufacturing Service LED Package with Star Dimensions and Polarity EDSx-xxxx-xx-Ax16 Edixeon Pad Star EDSx-xxxx-xx-Bx16 Pad EDISON + Edixeon + - Square (25*25mm) EDSx-xxxx-xx-Cx16 Edixeon Edison Opto + + Pad + Edixeon S-Star Square (30*30mm) Figure 3. Edixeon® Star dimensions Note: All dimensions are in mm. Copyright © 2011 Edison Opto Corporation. All right reserved. The information in this document is subject to change without notice. www.edison-opto.com.
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Lighting Design Manufacturing Service Absolute Maximum Ratings The following tables describe flux of Edixeon® A series under various current and different colors. Table 1. Absolute maximum ratings for Edixeon® A series Parameter Rating(1W) Rating(3W) Unit Symbol DC Forward Current 350 700 mA IF Peak pulse current;(tp≤100μs, Duty cycle=0.
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Lighting Design Manufacturing Service The following tables describe thermal resistance of Edixeon® A series under various current and different color. Table 2. Temperature coefficient of forward voltage & thermal resistance junction to case characteristics at TJ=25˚C for Edixeon® A series Lens Item Part Name Color EDEW-1LAx ∆VF/∆T RθJ-B Typ. Units Typ.
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Lighting Design Manufacturing Service Luminous Flux Characteristics The following tables describe flux of Edixeon® A series under various current and different color. Table 4. Luminous flux characteristics at IF=350mA and TJ=25˚C: for 1W Edixeon® A series Lens Item Flux Unit Part Name Color EDEW-1LA1-F1 Cool White 100.0 lm EDEW-1LA5 Cool White 100.0 lm EDEW-1LA5-F1 Cool White 110.0 lm EDEH-1LA5-E1 Neutral White 85.0 lm EDEX-1LA1 Warm White 70.0 lm EDEX-1LA1-F1 Warm White 75.
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Lighting Design Manufacturing Service Table 5. Luminous flux characteristics at IF=700mA and TJ=25˚C: for 3W Edixeon® A series Lens Item Lambertian Flux Part Name Color EDEW-3LA1-1 Cool White 170.0 lm EDEH-3LA1-E3 Neutral White 150.0 lm EDEX-3LA1-E3 Warm White 130.0 lm EDEX-3LA1-F3 Warm White 140.0 lm EDER-3LA3-1 Red 90.0 lm EDEA-3LA3-1 Amber 85.0 lm EDET-3LA1-1 True Green 120.0 lm EDEB-3LA1-1 Blue 34.0 lm Typ. Unit Notes: 1.
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Lighting Design Manufacturing Service Forward Voltage Characteristics The following table describes forward voltage of Edixeon® A series under various current. Table 6. Forward voltage characteristics at IF=350mA and TJ=25oC for 1W Edixeon® A series Lens Item Part Name Color EDEW-1LA5 VF Unit Min. Max. Cool White 3.1 4.0 V EDEW-1LA1 Cool White 3.1 4.0 V EDEW-1LA5-x1 Cool White 3.1 4.0 V EDEH-1LA5-x1 Neutral White 3.1 4.0 V EDEX-1LA5-x1 Warm White 3.1 4.0 V EDER-1LA3 Red 2.
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Lighting Design Manufacturing Service JEDEC Information JEDEC is used to determine what classification level should be used for initial reliability qualification. Once identified, the LEDs can be properly packaged, stored and handled to avoid subsequent thermal and mechanical damage during the assembly solder attachment and/or repair operation. The present moisture sensitivity standard contains six levels, the lower the level, the longer the devices floor life. Edixeon® A series are certified at level 4.
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Lighting Design Manufacturing Service Reliability Items and Failure Measures Reliability test The following table describes operating life, mechanical, and environmental tests performed on Edixeon® A series package. Table 9.
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Lighting Design Manufacturing Service Color Spectrum and Radiation Pattern Figure 4. Cool White color spectrum at TJ =25˚C.for Edixeon® A series Figure 5. Neutral White and Warm White color spectrum at TJ=25˚C for 1LC6˚C1GA1 and 1LA1 Edixeon® A series Copyright © 2011 Edison Opto Corporation. All right reserved. The information in this document is subject to change without notice. www.edison-opto.com.
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Lighting Design Manufacturing Service Figure 6. Color spectrum of typical CCT, standard eyes response to dotted curve line at TJ =25˚C for xLA5-Dx Edixeon® A series Cool White Figure 7. Color spectrum of typical CCT, standard eyes response to dotted curve line at TJ =25˚C for xLA5-Dx Edixeon® A series Neutral White ,and Warm White Copyright © 2011 Edison Opto Corporation. All right reserved. The information in this document is subject to change without notice. www.edison-opto.com.
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Lighting Design Manufacturing Service 100 100 80 80 Amber Green 60 Relative Intensity(%) Relative intensity (%) Blue Red 40 20 0 60 40 20 400 450 500 550 600 650 0 -100 700 -80- 60 Relative intensity (%) 80 80 Relative Intensity(%) 100 ' 02 04 06 08 01 00 Figure 9. Lambertain at TJ =25˚C for Red and Amber 100 Rela tive Intensity(%) 20 Angular Displacement(Degree) Figure 8.
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Lighting Design Manufacturing Service Dominant Wavelength Characteristics Table10. Dominant Wavelength or color temperature Characteristics at TJ=25˚C for 1W Edixeon® A series Lens Item Part Name Color EDEW-1LA5 λd/CCT Unit Min. Max.
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Lighting Design Manufacturing Service Emission Angle Characteristics Table 12. Emission angle Characteristics at TJ=25˚C for 1W Edixeon® A series Part Name Color EDEW-1xA5 2Θ½(Typ.) Unit Lambertian Batwing Focusing Cool White 135 110 80 Deg. EDEW-1LA1 Cool White 135 -- -- Deg EDEW-1LA5-x1 Cool White 135 -- -- Deg. EDEH-1LA5-x1 Neutral White 135 -- -- Deg. EDEX-1LA5-x1 Warm White 135 -- -- Deg. EDER-1LA3 Red 120 -- -- Deg. EDEA-1LA3 Amber 120 -- -- Deg.
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Lighting Design Manufacturing Service 400 800 350 700 300 600 Forward Current(mA) Forward Current(mA) Optical & Electrical Characteristics 250 200 Rth(J-A)=60°C /W 150 Rth(J-A)=50°C /W 100 Rth(J-A)=40°C /W 0 07 25 100 125 0 150 07 25 50 100 125 150 Figure 15. Operating current & ambient temperature for 3W Edixeon® A series 4.00 4.25 3.00 2.50 Amber、Red 2.00 1.50 4.00 3.75 Forward Voltage (V) Cool White、 Neutral White、 Warm White、 True Green、Blue 3.50 1.00 3.
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Lighting Design Manufacturing Service 1.6 2.5 1.2 1.0 Relative Luminous Flux (%) Rela tive Luminous Flux (%) 1.4 Cool White、 Neutral White、 Warm White 0.8 0.6 0.4 0.2 0.0 50 1502 50 3504 50 2.0 Cool White、 Neutral White、 Warm White 1.5 1.0 0.5 0.0 550 03 Forward Current (mA) 1050 Figure 21. Forward current & relative luminous at TJ=25oC for 3W Edixeon® A series 2.50 Relative Luminous Intensity (%) 2.50 Relative Luminous Intensity (%) 700 Forward Current (mA) Figure 20.
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Lighting Design Manufacturing Service 550 3050 Wavelength (nm ) CCT (K) True Green 525 3000 2950 2900 2850 500 475 Blue 450 425 400 2800 03 50 700 Forward Current (mA) 03 1050 50 700 Figure 26. Forward current & CCT at TJ=25oC for Edixeon® A series Warm White Figure 27. Forward current & wavelength at TJ=25oC for Edixeon® A series True Green and Blue 630 2.0 White、Neutral White 、Warm White Blue True Green Red Amber 1.8 620 1.6 1.
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Lighting Design Manufacturing Service Product Soldering Instructions The central circle pad at the bottom face of the package provides the main path for heat dissipation from the LED to the heat sink (heat sink contact). 1.60 Solder Pad Slug Pad 6.00 Solder Pad 3.6 Notes: 1. All dimensions are measured in mm. 2. Solder pad cannot be connected to slug pad. 3. MCPCB material with a thermal conductivity greater than 3.0 W/mK. 4. Please avoid touching the Edixeon® A lens during assembly processes .
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Lighting Design Manufacturing Service Recommend Solder Steps To prevent mechanical failure of LEDs in the soldering process, a carefully controlled pre-heat and post-cooling sequence is necessary. The heating rate in an IR furnace depends on the absorption coefficients of the material surfaces and on the ratio of the component’s mass to its irradiated surface. The temperature of parts in an IR furnace, with a mixture of radiation and convection, cannot be determined in advance.
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Lighting Design Manufacturing Service Reflow Profile The following reflow soldering profiles are provided for reference. It is recommended that users follow the recommended soldering profile provided by the manufacturer of the solder paste used Figure 31. Reflow Profiles Table 14.
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Lighting Design Manufacturing Service Product Thermal Application Information Thermal grease should be evenly speeded with a thickness <100um. When assembling on MCPCB or heat sink carrier. Edixeon® A series on MCPCB Edixeon® A series Figure 32.
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Lighting Design Manufacturing Service Thermal Resistance Application TJunction TSlug TGrease TBoard TAmbient Rth(J-A)= Rth(J-S) + Rth(S-G) + Rth(G-B)+ Rth(B-A) TJunction= TAmbient + Rth(J-A) + PDissipation TJunction Rth(J-S) TSlug Rth(S-G) Rth(G-B) Rth(B-A) TGrease TBoard TAmbient (T J = TA + Rth(J-A) + PDissipation) Figure 34.
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Lighting Design Manufacturing Service Table 15. Specification for adhesive properties Specification Suggested Properties Take-free time 3~10 minutes Specific gravity < 3 g/cm2 Thermal conductivity > 2.5 W/mK Rth in using < 1.8 oC/W Volume resistance > 1x1014 Lap shear adhesion strength > 200 N/ cm2 Tensile strength > 4 Mpa Thermal Resistance Calculation The thermal resistance between two points is defined as the ratio of the difference in temperature to the power dissipated.
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Lighting Design Manufacturing Service Therefore Rth(S-G) = 100 2 2.6 X (6.4/2) π = 1.2 oC/W 3. Rth(G-B) The Rth of standard MCPCB is 1.5 oC/W 4. Rth(B-A) The Rth between board and air is mainly dependent on the total surface area. Therefore Rth(B-A) ÷ 500 Area(cm)2 If Area is 30cm2 Rth=16.7 If Area is 60cm2 Rth=8.3 If Area is 90cm2 Rth=5.5 Rth(J-A) =10+1.2+1.5+16.7 =29.4 oC/W Rth(J-A) =10+1.2+1.5+8.3 =21oC/W Rth(J-A) =10+1.2+1.5+5.5 =18.
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Lighting Design Manufacturing Service Example : Junction Temperature Calculation One white LED is used under ambient temperature (TAmbient ) of 30°C. This LED is soldered on MCPCB (Area=10cm2). Calculate junction temperature. Assuming a forward voltage of VF=3.3V at 350mA and total power dissipated is PDissipation=1x 0.35 x 3.3= 1.155 W. LED Rth(J-S)=10 oC/W. With good design, Rth(S-G) can be minimized to 1 oC/W. Rth(G-B) of a standard MCPCB can be 1.5 oC/W.
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Lighting Design Manufacturing Service Product Electrical Application Information Following graphs and descriptions show how to connect LED or LED module and plug to AC outlet. Step1: Connect the wires of LED Module to the DC output of the driver. -+ Figure 35. LED Module connect to the DC output of the driver Step2 : Plug the driver to AC outlet. -+ Figure 36.
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Lighting Design Manufacturing Service Product Packaging Information Package Specifications 100 Figure 37. Packaging steps and dimensions Copyright © 2011 Edison Opto Corporation. All right reserved. The information in this document is subject to change without notice. www.edison-opto.com.
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Lighting Design Manufacturing Service The Label Label on tube: Figure 38. Label on tube Label on box: 艾笛森光電股份有限公司 DISON EDISON OPTO CORPORATION Sam ple Part No: o XXX Inspected by: Group: up p XXX p: lor: or: r: XXX XXX Color: Quantity: ntity: XXX A410000005 ROHS RO OHS OHS Directive Compliance Tel +86-2-82276996 Fax +86-2-8227-6997 4F No.800 Chung-Cheng ., Chung-Ho City Taipei. Taiwan Figure 39.
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Lighting Design Manufacturing Service 300 29 29 29 Cover Tray Item Quantity Total Dimensions(mm) Tray 100pcs 100pcs 325*300 Box 10 Tray 1,000pcs 340*330*160 Carton 2 boxes 2,000pcs 350*350*340 Cover Tray Item 29 325 310 285 Quantity Total Dimensions(mm) Tray 60pcs 60pcs 310*290 Box 10 Tray 600pcs 340*330*160 Carton 2 boxes 1200pcs 350*350*340 Figure 41. Edixeon® Star Package Copyright © 2011 Edison Opto Corporation. All right reserved.
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0 340 Lighting Design Manufacturing Service 340 160 Box 35 350 0 Carton Figure 42. Edixeon® A atar package and dimensions Notes: 1. All Dimensions are in mm. 2. There are 60 pcs stars in a tray.(Tray+Cover) 3. There are 10 trays in an box. 4. There are 2 boxes in a carton. Copyright © 2011 Edison Opto Corporation. All right reserved. The information in this document is subject to change without notice. www.edison-opto.com.