5~0W Star RGB Star Ultra High LED Edi Star Approved By Customer Designer Checker Approval Date:006/9/1 Version:1.0 Device No. : 3-RD-01-H0005 4F, No. 800, Chung-Cheng Rd, Chung-Ho, Taipei 35, Taiwan Tel: 886--87-6996 Fax: 886--87-6997 http://www.edison-opto.com.tw PDF processed with CutePDF evaluation edition www.cutepdf.com
Edi Star Edi series can provide different power-operation and different colors. They serve as optical engine appropriately and can be applied to lighting and projector. Features LED lighting engine High power consumption Excellent thermal performance Typical Applications Reading lights Portable flashlight LEDs lighting engine Security / Garden lighting Indoor and Outdoor Commercial lighting LCD Backlights / Light guides Architectural lighting 1
Package Outlines: 5W W WW T B Unit: mm Package Outlines: 10W, 0W + - W WW T B Unit: mm R A
Package Outlines: RGB in one package Position mark R(+) G(+) B(+) R(-) G(-) B(-) Unit:mm Absolute Maximum Ratings Parameter Symbol Rating Units/color 0.5 A (5W) W, WW, B,G 0.6 A (5W) R, A 0.645 A (10W) W, WW, B,G DC Forward Current I F 0.96 A (10W) R, A 1.1 A (0W) W, WW, B,G 1.9 A (0W) R, A 0.35A(RGB) R, G, B 1 A (5W) W, WW, B,G 1. A (5W) R, A 1.9 A (10W) W, WW, B,G Peak pulse current;(tp 100µs, Duty cycle=0.005) I pulse 1.9 A (10W) R, A.4 A (0W) W, WW, B,G 3.8 A (0W) R, A 0.5A(RGB) R, G, B 3
Parameter Symbol Rating Units/color LED junction Temperature T j 15 Operating Temperature T opr -30 ~ +110 Storage Temperature T stg -40 ~ +10 Manual Soldering Time at 400 (Max.) T sol 10 seconds 3 times LED Substrate Temperature T s <100 Reverse Voltage V R 5 V Reverse Current(V R =5V) I R 50 µa ESD Sensitivity V B,000 V Isolation Voltage Vi 50 (R,A) 1,000 (W,WW,G,B) V Thermal grease thickness Tt 0.1 mm Transient Surge Voltage TSv 8 (5W) 3 (10W,0W) V Luminous Flux and Electrical Characteristics Part Name Color Typ. Voltage Test Current (A) Luminous Flux (lm) Thermal Resistance To Case ( /W) EP5W-S00 White 10.4 0.50 00 5 EP5X-S00 Warm White 10.4 0.50 130 5 5W EP5R-S00 Red 8.4 0.60 130 5 EP5A-S00 Amber 8.4 0.60 130 5 EP5T-S00 True Green 10.4 0.50 130 5 10W EP5B-S00 Blue 10.4 0.50 60 5 Typ. Thermal Test Current Luminous Flux Part Name Color Voltage Resistance (A) (lm) To Case ( /W) EPAW-S00 White 17.5 0.645 400 EPAX-S00 Warm White 17.5 0.645 50 EPAR-S00 Red 10.5 0.960 50 EPAA-S00 Amber 10.5 0.960 50 EPAT-S00 True Green 17.5 0.645 50 EPAB-S00 Blue 17.5 0.645 10 4
Part Name Color Typ. Voltage Test Current (A) Luminous Flux (lm) Thermal Resistance To Case ( /W) 0W EPBW-4S00 White 17.8 1.1 700 EPBX-4S00 Warm White 17.8 1.1 450 EPBR-4S00 Red 10.5 1.90 500 EPBA-4S00 Amber 10.5 1.90 500 EPBT-4S00 True Green 17.8 1.1 500 EPBB-4S00 Blue 17.8 1.1 40 JEDEC Moisture Sensitivity: Level Time Floor Life Conditions Soak Requirements Standard Accelerated Environment Time (hours) Conditions Time (hours) Conditions a 4 weeks 30 / 60% RH 696 +5/-0 30 / 60% RH 10 +1/-0 60 / 60% RH Note 1. The standard soak time includes a default value of 4 hours for semiconductor manufacturer s exposure time (MET) between bake and bag and includes the maximum time allowed out of the bag at the distributor s facility. 5
Chip Characteristics for single color Color Dominant Wavelength (λd)nm Forward Voltage Red 60~630 1.90~.35 Amber 585~595 1.90~.35 True Green 50~530 3.0~3.65 Blue 465~475 3.0~3.65 Chip Characteristics for RGB in one(ep3m-4xxx,40 mil chip size) Color Dominant Wavelength (λd)nm Forward Voltage Test current (A) Luminous Flux (lm) Red 65~630 1.9~. 0.35 15 True Green 50~55 3.~3.5 0.35 35 Blue 455~460 3.4~3.7 0.35 1 Electrical Characteristics Part Name Color Min. Voltage Typ. Voltage Max. Voltage EP5W-S00 White 9.3 10. 11.4 EP5X-S00 Warm White 9.3 10. 11.4 5W EP5R-S00 Red 8.0 9. 10.8 EP5A-S00 Amber 8.0 9. 10.8 EP5T-S00 True Green 9.3 10. 11.4 EP5B-S00 Blue 9.3 10. 11.4 Part Name Color Min. Voltage Typ. Voltage Max. Voltage EPAW-S00 White 16.6 17. 18.3 EPAX-S00 Warm White 16.6 17. 18.3 10W EPAR-S00 Red 11.0 1.1 13.0 EPAA-S00 Amber 11.0 1.1 13.0 EPAT-S00 True Green 16.6 17. 18.3 EPAB-S00 Blue 16.6 17. 18.3 6
Part Name Color Min. Voltage Typ. Voltage Max. Voltage EPBW-4S00 White 16.6 17.8 18.3 EPBX-4S00 Warm White 16.6 17.8 18.3 0W EPBR-4S00 Red 11.0 1.1 13.0 EPBA-4S00 Amber 11.0 1.1 13.0 EPBT-4S00 True Green 16.6 17.8 18.3 EPBB-4S00 Blue 16.6 17.8 18.3 Voltage bin Part Name Color Bin Group Bin Group EP5W-S00 White VW01 9.3~10.1 VW0 10.~10.8 EP5X-S00 Warm White VX01 9.3~10.1 VX0 10.~10.8 5W EP5R-S00 Red VR01 8.0~9.1 VR0 9.~10.8 EP5A-S00 Amber VA01 8.0~9.1 VA0 9.~10.8 EP5T-S00 True Green VT01 9.3~10.1 VT0 10.~10.8 EP5B-S00 Blue VB01 9.3~10.1 VB0 10.~10.8 Part Name Color Bin Group Bin Group EPAW-S00 White VW01 16.6~17.1 VW0 17.~18.3 EPAX-S00 Warm White VX01 16.6~17.1 VX0 17.~18.3 10W EPAR-S00 Red VR01 11.0~1.0 VR0 1.1~13.0 EPAA-S00 Amber VA01 11.0~1.0 VA0 1.1~13.0 EPAT-S00 True Green VT01 16.6~17.1 VT0 17.~18.3 EPAB-S00 Blue VB01 16.6~17.1 VB0 17.~18.3 Part Name Color Bin Group Bin Group EPBW-4S00 White VW01 16.6~17.1 VW0 17.~18.3 EPBX-4S00 Warm White VX01 16.6~17.1 VX0 17.~18.3 0W EPBR-4S00 Red VR01 11.0~1.0 VR0 1.1~13.0 EPBA-4S00 Amber VA01 11.0~1.0 VA0 1.1~13.0 EPBT-4S00 True Green VT01 16.6~17.1 VT0 17.~18.3 EPBB-4S00 Blue VB01 16.6~17.1 VB0 17.~18.3 7
CCT ranks CCT Group CCT ( K) Warm White,700 ~ 3,300 X1,700 ~,900 X,900 ~ 3,100 X3 3,100 ~ 3,300 White 5,00 ~ 7,00 W1 5,00 ~ 5,600 W 5,600 ~ 6,000 W3 6,000 ~ 6,400 W4 6,400 ~ 6,800 W5 6,800 ~ 7,00 Part No.Spec. Part Name Color Chip Connection Note EP5W-S00 White 3 series 4 parallel With Aluminum PCB EP5X-S00 Warm White 3 series 4 parallel With Aluminum PCB 5W EP5R-S00 Red 4 series 4 parallel With Aluminum PCB EP5A-S00 Amber 4 series 4 parallel With Aluminum PCB EP5T-S00 True Green 3 series 4 parallel With Aluminum PCB EP5B-S00 Blue 3 series 4 parallel With Aluminum PCB Part Name Color Chip Connection Note EPAW-S00 White 5 series 4 parallel With Aluminum PCB EPAX-S00 Warm White 5 series 4 parallel With Aluminum PCB EPAR-S00 Red 5 series 5 parallel With Aluminum PCB 10W EPAA-S00 Amber 5 series 5 parallel With Aluminum PCB EPAT-S00 True Green 5 series 4 parallel With Aluminum PCB EPAB-S00 Blue 5 series 4 parallel With Aluminum PCB EPBB-4S00 Blue 5 series 4 parallel With Aluminum PCB 8
Part Name Color Chip Connection Note EPBW-4S00 White 5 series 4 parallel With Aluminum PCB EPBX-4S00 Warm White 5 series 4 parallel With Aluminum PCB 0W EPBR-4S00 Red 5 series 5 parallel With Aluminum PCB EPBA-4S00 Amber 5 series 5 parallel With Aluminum PCB EPBT-4S00 True Green 5 series 4 parallel With Aluminum PCB EPBB-4S00 Blue 5 series 4 parallel With Aluminum PCB 9
Edi Reliability When we talk about MTBF of Edi, we can provide a formula for customers. log(life)= 1,600 Tj( o C)+73 Life means the time light output decay 30% (L70%) Tj ( o C) Life (hours) 5 34,000 30 191,000 35 157,000 40 19,000 45 107,000 50 90,000 55 75,000 60 64,000 65 54,000 70 46,000 75 39,600 80 34,000 85 9,500 90 5,700 100 19,500 105 17,100 110 15,100 115 13,300 10 11,700 15 10,500 130 9,300 135 8,300 140 7,500 150 6,000 10
ASSIST FORM about High LED Reliability (5W Edi White, Warm White, Blue, Green) Ts=ceramic substrate temperature Ts=45 o C Ts=65 o C Ts=85 o C Voltage 10.V 10.V 10.V Current 500mA 500mA 500mA Wattage 5.1W 5.1W 5.1W Heat 5.0W 5.0W 5.0W Rth 5.0 o C/W 5.0 o C/W 5.0 o C/W Tj 70 o C 90 o C 110 o C L 70% 46,000hrs 5,700hrs 15,100hrs ASSIST FORM about High LED Reliability(10W Edi White, Warm White, Blue, Green) Ts=45 o C Ts=65 o C Ts=85 o C Voltage 17.V 17.V 17.V Current 600mA 600mA 600mA Wattage 10.3W 10.3W 10.3W Heat 10.0W 10.0W 10.0W Rth.0 o C/W.0 o C/W.0 o C/W Tj 65 o C 85 o C 105 o C L 70% 54,000hrs 9,500hrs 19,500hrs ASSIST FORM about High LED Reliability( 0W Edi White, Warm White, Blue, Green) Ts=45 o C Ts=65 o C Ts=85 o C Voltage 17.8V 17.8V 17.8V Current 110mA 110mA 110mA Wattage 0.0W 0.0W 0.0W Heat 0.0W 0.0W 0.0W Rth.0 o C/W.0 o C/W.0 o C/W Tj 85 o C 105 o C 15 o C L 70% 9,500hrs 19,500hrs 10,500hrs 11
How to Know Tj in Your Application? a. junction to case Rth=5 o C/W for 5W between junction to case T=5x5=5 o C Rth=4 o C/W for 10W and 0W between junction to case For 10W device For 0W device T=3x10=30 o C T=3x0=60 o C b. case to board The thermal grease is 00um. K(MCPCB)=1.4 W/mk for 5W between case to board 00 Then Rth(case-board)= =.0 1.4x(8.4x8.4) For 5W device T=x5=10 o C K(MCPCB)=1.4 W/mk for 10W and 0W between case to board 00 Then Rth(case-board)= =0.7 1.4x(14.5x14.5) For 10W device For 0W device T=0.7x10=7 o C T=0.7x0=14 o C c. board to air The Rth between board and air is mainly dependent on the total surface air. 500 Rth(board-air) Area(cm ) For 5W If heat sink area is 100cm Rth=5.0 If heat sink area is 150cm Rth=3.3 For 10W and 0W If heat sink area is 300cm If heat sink area is 600cm Rth=1.7 Rth=0.8 1
d. T totally For 5W If heat sink area is 100cm Rth=5.0 T=5+10+5x5=60 o C If heat sink area is 150cm Rth=3.3 T=5+10+3.3x5=51.5 o C For 10W If heat sink area is 300cm Rth=1.7 T=0+7+1.7x10=44 o C If heat sink area is 600cm Rth=0.8 T=0+7+0.8x10=35 o C For 0W If heat sink area is 300cm Rth=1.7 T=40+14+1.7x0=88 o C If heat sink area is 600cm Rth=0.8 T=40+14+0.8x0=70 o C Electrical & Optical Curves-Spectrum 100 White V(λ ) 80 Irel(%) 60 40 0 0 400 45 450 475 500 55 550 575 600 65 650 675 700 75 λ -Wavelength(nm 100 80 V(λ ) Warm White Irel(%) 60 40 0 0 400 45 450 475 500 55 550 575 600 65 650 675 700 75 750 775 λ -Wavelength(nm 13
Typical Radiation Pattern (5W, 10W, 0W, White, Warm White, Blue, Green, Amber and Red) Luminous Flux v.s. Junction Temperature 14
Package dimensions 5W,RGB star (100 pcs) 10W, 0Wstar (5 pcs) Tray Dimension: 33x33 cm (5W) x4 cm (10W) x4 cm (0W) Antistatic bag Dimension: 55x55 cm 5 trays inside for 5W 10trays inside for 10,0W Package Dimension: 70x70x15 cm 5 antistatic bags inside (500 pcs for 5W) (50 pcs for 10W and 0W) Emitter(g) Tray(g) Antistatic bag(g) Package(g) 5W, RGB 1.5 00 1000 6500 10W, 0W 4.0 130 1300 8000 15
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Handling Precausions: 1. Please do not use tweezer to touch the surface of silicone (emitting area).. Please do not press or touch the surface of silicone (emitting area). 3. Please wear anti-static wrist or glove to prevent ESD damage when assembling. 4. Please do not let Edi emitter fall down or press the surface of ceramic Simple Test Method Actually, constant current circuit is strongly suggested. The constant voltage circuit as below is not a good method to use though it is simple. Heat dissipation must be cared even testing pulse is short, otherwise some interface will be damaged. 5W 110 or 0VAC AC/DC Trans former + R Vout=1VDC - R=4Ω for white, warm white, Green and Blue R=6Ω for red and Amber 17
10W 110 or 0VAC AC/DC Trans former + R Vout=4VDC - R=10Ω for White, Warm White, Green, Blue R=Ω for Red and Amber 0W 110 or 0VAC AC/DC Trans former + R Vout=4VDC R=5Ω for White and Warm - 18