DOMINANT Opto Technologies Innovating Illumination TM DATA SHEET : PrimaxPlus 100 InGaN White : PQW-SSG Primax TM Synonymous with function and performance, enter the Primax, the new era of high intensity illumination in LED. With its high flux output and high luminous intensity, Primax transcends today LED lightings technology and how we perceive it. The small package outline and high intensity make it an ideal choice for backlighting, signage, exterior automotive lighting and decorative lighting. Features: > > > > > > > > Super high brightness surface mount LED 120° viewing angle. Compact package outline (LxW) of 3.7 x 3.5 mm. Ultra low height profile - 0.8mm. Low thermal resistance. Compatible to IR reflow soldering. Environmental friendly; RoHS compliance. Compliance to automotive standard; AEC-Q101. Applications: > Automotive Interior Lighting (Dome lamp, map lighting, and trunk lighting) > Industrial Illumination. > White Goods Lighting. All rights reserved. Product specifications are subject to change without notice. 1 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Optical Characteristics at Tj=250C Part Ordering Number Color PQW-SSG-QR3-1 White Luminous Flux @ 100mA (lm) Min. Typ. Max. Viewing Angle˚ 30.6 120 39.8 51.7 NOTE 1. Luminous intensity is measured with an accuracy of ± 11%. 2. Wavelength binning is carried for all units as per the wavelength-binning table. Only one wavelength group is allowed for each reel. 3. High color rendering index (CRI). Minimum CRI of 80. Electrical Characteristics at Tj=250C Part Number PQW-SSG Vf @ If = 100 mA Min. (V) 2.8 Typ. (V) Max. (V) Vr @ Ir = 10uA Min. (V) 3.1 3.4 5 Forward Voltages are tested using a current pulse of 1 ms and has an accuracy of ± 0.1 V. Absolute Maximum Ratings Maximum Value Unit DC forward current 180 mA Peak pulse current 200 mA 5 V ESD threshold (HBM) 2000 V LED junction temperature 150 ˚C Operating temperature -40 … +125 ˚C Storage temperature -40 … +125 ˚C 45 K/W Reverse voltage Thermal resistance - Junction / solder point, Rth JS (Typ = 30K/W) 2 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination PQW-SSG, White Color Grouping 4 0.3045 0.2715 0.3005 0.2825 0.3130 0.2840 0.3100 0.2970 0.3386 0.3235 0.3386 0.3426 0.3484 0.3388 0.3484 0.3571 0.3130 0.2840 0.3100 0.2970 0.3205 0.2956 0.3197 0.3131 0.3582 0.3542 0.3582 0.3715 White Bin Structure 1 0.2960 0.2590 0.291 0.2680 0.3045 0.2715 0.3005 0.2825 0.3288 0.3081 0.3288 0.3282 0.3386 0.3235 0.3386 0.3426 0.3100 0.2970 0.3070 0.3120 0.3197 0.3131 0.3189 0.3302 0.3484 0.3388 0.3484 0.3571 0.3900 0.3800 0.3700 PL 0.3600 OL 0.3500 NL 0.3400 0.3300 ML 0.3200 0.3100 OK NK MK LL 0.3000 PK LK KL 0.2900 KK JL 0.2800 0.2700 JK 0.2600 0.2500 0.2400 0.2300 0.2700 0.2800 0.2900 0.3000 0.3100 0.3200 0.3300 0.3400 0.3500 0.3600 0.3700 Chromaticity coordinate groups are measured with an accuracy of ± 0.01. 1 2 3 4 Cx 0.2960 0.2910 0.3005 0.3045 Cy 0.2590 0.2680 0.2825 0.2715 Cx 0.291 0.2850 0.2960 0.3005 Cy 0.2680 0.2790 0.2955 0.2825 Cx 0.3045 0.3005 0.3100 0.3130 Cy 0.2715 0.2825 0.2970 0.2840 Cx 0.3005 0.2960 0.3070 0.3100 Cy 0.2825 0.2955 0.3120 0.2970 Cx 0.3288 0.3288 0.3386 0.3386 Cy 0.3081 0.3282 0.3426 0.3235 Cx 0.3288 0.3288 0.3386 0.3386 Cy 0.3282 0.3453 0.3591 0.3426 Cx 0.3386 0.3386 0.3484 0.3484 Cy 0.3235 0.3426 0.3571 0.3388 Cx 0.3386 0.3386 0.3484 0.3484 Cy 0.3426 0.3591 0.3730 0.3571 Cx 0.3100 0.3197 0.3205 0.3130 Cy 0.2970 0.3131 0.2956 0.2840 Cx 0.3070 0.3189 0.3197 0.3100 Cy 0.3120 0.3302 0.3131 0.2970 Bin JK JL KK KL NK NL OK OL LK LL 3 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination 1 2 3 4 Cx 0.3197 0.3288 0.3288 0.3205 Cy 0.3131 0.3282 0.3081 0.2956 Cx 0.3189 0.3288 0.3288 0.3197 Cy 0.3302 0.3452 0.3282 0.3131 Cx 0.3484 0.3484 0.3582 0.3582 Cy 0.3388 0.3571 0.3715 0.3542 Cx 0.3484 0.3484 0.3582 0.3582 Cy 0.3571 0.3730 0.3792 0.3715 Bin MK ML PK PL InGaN wavelength is very sensitive to drive current. Operating at lower current is not recommended and may yield unpredictable performance. Current pulsing should be used for dimming purposes. 4 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Luminous Intensity Group at Tj=250C Brightness Group Luminous Flux IV (lm) Q2 30.6 ... 34.8 Q3 34.8 ... 39.8 R2 39.8 ... 45.2 R3 45.2 ... 51.7 Luminous intensity is measured with an accuracy of ± 11%. Vf Binning (Optional) Vf @ If = 100mA Forward Voltage (V) V1 2.80 ... 3.00 V2 3.00 ... 3.20 V3 3.20 ... 3.40 Forward voltage, Vf is measured with an accuracy of ± 0.1V. Please consult sales and marketing for special part number to incorporate Vf binning. 5 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Forward Current Vs Forward Voltage Relative Luminous Flux Vs Forward Current Relative Flux Lumionous Flux Current Vs Forward Current Relative Lumionous Vs Forward ФV/ФɎVV(100mA) = f(I ); T = 25°C /Ɏ (100mA) = f(I ); T Ɏ j = 25°C /ɎV(100mA) V= f(IVF);F Tj = j25°C F 1.6 1.4 RelativeFlux Lumionous FluxCurrent Vs Forward Current 1.6 Relative Lumionous Vs Forward = f(IF); Tj = 25°C ɎV=/Ɏ f(IVF(100mA) ); Tj = 25°C ɎV/ɎV(100mA) 1.6 1.4 180 160 1.4 1.2 1.4 1.2 140 160 1.2 1.0 120 140 0.6 0.4 0.4 0.2 0.2 0.0 0.6 0.4 0.4 0.2 0.2 0.0 0 20 0 200 180 200 160 180 0 40 120 140 100 120 80 100 60 80 40 60 20 60 40 80 60 100 80 120 100 140 120 160 140 180 Forward Current IIFF (mA) (mA) Forward Current IF (mA) Forward Current 0 20 40 60 80 100 40 60 80 100 120 140 120 160 140 180 Maximum Current Vs Temperature Maximum Current Vs Temperature Forward Current I (mA) = f (T) Forward IIFF(mA) F f (T) IF = Current Maximum Current Vs Temperature 200 Maximum Current Vs Temperature Maximum Current Vs Temperature IIF=f(T) IF = f (T) F = f (T) 180 200 TS 160 180 TS 140 160 20 Forward Forward CurrentCurrent IF (mA)IF (mA) 140 160 Allowable Allowable ForwardForward CurrentCurrent IF( mA )IF( mA ) Allowable Forward ¨Cx, ¨Cy Allowable Forward CurrentCurrent IF( mA I)F( mA ) ∆Cy ∆Cx, 0.03 100 0.02 100 0.01 0.00 -0.01 10 -0.02 120 140 100 120 80 100 60 80 40 60 80 -0.04 IF (mA) 40 60 20 120 140 100 120 80 100 60 80 40 60 160 0 1802.6 2.6 1.0 0.9 TS 1.0 0.8 0.9 0.7 0.8 0.6 0.7 0.5 0.6 0.4 0.5 0.3 0.4 0.2 0.3 0.1 0.2 0 20 2.7 2.62.8 2.72.9 2.83.0 2.93.1 3.03.2 3.13.3 3.23.4 3.3 0 Forward Forward VoltageVVFF(V) (V) Forward Voltage VVoltage F (V) 2.7 2.6 2.8 2.7 2.9 2.8 3.0 2.9 3.1 3.0 3.2 3.1 3.3 3.2 3.4 3.3 Relative Spectral Emission Relative Spectral Emission Forward Voltage V (V) Forward = f(Ȝ); = 25°C; IF =F100mA rel f(Ȝ); Tj Ɏ =Voltage 25°C; IFVT =Fj (V) 100mA Ɏrel = Relative Spectral Emission 1.0 Relative Spectral Emission Relative Emission Фrel =Spectral f(λ); T = 25°C; IF = 100mA IjF =T100mA Ɏrel = f(Ȝ); Tj =Ɏ25°C; rel = f(Ȝ); j = 25°C; IF = 100mA 0.9 1.0 1 1 10 10 0.7 0.8 0.6 0.7 0.5 0.6 0.4 0.5 0.3 0.4 0.2 0.3 0.1 0.2 0.0 0.1350 400 450 500 550 600 400 450 500 550 600 650 700 750 850 800 850 0.0 350 140 Ȝ (nm) Wavelength Wavelength Ȝ (nm) 0.0 400 450 350 500 400 550 450 600 500 650 550 700 600 750 650 800 700 850 750 800 850 40 1 10 1 10 Duty Ratio, %Duty Ratio, % 60 80 100 120 140 160 650 750 700 800 Wavelength ȜWavelength (nm) Wavelength λȜ (nm) (nm) Radiation Pattern 30° 20° 10° 0° 1.0 100 100 100 100 Duty Ratio, % Duty Ratio, % 0.1 3.4 0.0 0.1 140 350 ¨Cx 0.1 3.4 0.8 0.9 ¨Cy 100 10 j 20 40 200 180 TS F 140 160 40° 10 0.1 0 60 80 100 0.1 10 -0.03 80 100 160 20 40 Point TS = Temperature Solder Point Temperature TS = Solder 0 0 20 20 0 20 60 40 80 60 100 80 120 100 140 120 0 T = 20 40 Solder Point TS =Temperature Solder Point Temperature S T(°C) TemperatureTemperature T(°C) 0 0 0 20 0 40 20 60 40 80 60 100 80 120 100 140 120 Allowable Forward Current Vs Duty Ratio Allowable Forward Current Vs Duty Ratio T(°C) Temperature T(°C) 25°C; ) = 25°C; tp (T10ȝs ) tp 10ȝs (Temperature TjTemperature j = T(°C) 1000 1000 Allowable Forward Current Vs Duty RatioVs Duty Ratio Allowable Forward Current ) ( Tj = 25°C; tp (T10ȝs tp 10ȝs ) j = 25°C; Chromaticity Coordinate Shift Vs Forward Current 1000 1000 Chromaticity Shift Vs=Forward Current ∆Cx,Coordinate ∆Cy = f(I );T 25°C F j ¨Cx, ¨Cy = f(IF);Tj = 25°C 0.04 20 40 100 120 20 40 0.0 0.0 Forward Current (mA) Forward Current IF (mA) IFIF(mA) Current Forward 0.8 0.6 Current Forward Forward Current IF Forward Current IF 0.8 0.6 1.0 0.8 F 180 160 Luminous Relative Luminous FluxФ Ɏrel Relative Relative Luminous FluxFlux Ɏrel rel 1.0 0.8 Forward Current IF Forward Current IF 1.2 1.0 180 Relative Luminous Flux Ɏrel Relative Luminous Flux Ɏrel Relative Luminous Flux Ɏrel Relative Luminous Flux Ɏ rel Relative Luminous Ɏrel Relative Luminous Flux ɎFlux Luminous Relative rel Flux Фrel 1.6 Forward Current Vs Forward Voltage Forward Current I Vs = Forward f(V=Ff(V ); FT);Voltage = 25°C j Tj = 25°C IF = f(VFF); Tj =IF25°C Forward CurrentVoltage Vs Forward Voltage 180 Forward Current Vs Forward F = f(VF); Tj = 25°C I = f(V ); T =I25°C 50° 0.6 60° 0.4 70° 0.2 80° 90° 180 0.8 0 (mA) Forward CurrentIFIF(mA Forward Current 6 10/05/2016 V2.0 0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Relative Forward Voltage Vs Junction Temperature Relative Forward Voltage Junction Temperature Relative Forward Voltage VsVs Junction Temperature = f(T =100mA ¨V¨V ==V=VV- V-- V (25°C) = f(T ∆V V(25°C) (25°C) =F I=100mA f(T ); IF =100mA F j); jI); FF F F FF F F F j Relative Luminous Flux Vs Junction Temperature Relative Luminious FluxVs Vs Junction Temperature Relative Luminious Flux Junction Temperature ɎV/ɎV(25°C)== =f(T f(T 100mA ɎV/ɎV(25°C) = F =100mA j);j);IFI); ФV/ФV(25°C) f(T I = 100mA j F 2.0 2.0 0.40.4 1.8 1.8 0.30.3 1.6 1.6 Relative Luminious Flux Ɏ Фrel Flux Luminious Relative rel 0.20.2 Relative Luminious Flux Ɏrel Relative Forward Voltage ¨VF (V) Relative Forward Voltage ¨VF (V) ∆V (V) Voltage Forward Relative F 0.50.5 0.10.1 0.00.0 -0.1 -0.1 -0.2 -0.2 -0.3 -0.3 -0.4 -0.4 1.4 1.4 1.2 1.2 1.0 1.0 0.8 0.8 0.6 0.6 0.4 0.4 0.2 0.2 0.0 0.0 -50 -30 -30 -10 -10 1010 -50 -0.5 -0.5 110 130 130 150 150 -50-50 -30-30 -10-10 1010 3030 5050 7070 9090 110 Junction Temperature T j(°C) Junction Temperature T j(°C) Junction Temperature Tj(°C) 3030 50 50 70 70 90 110 110 130 130 150 150 90 JunctionTemperature TemperatureTT Junction j(°C) j(°C) Junction Temperature Tj(°C) Chromaticity Coordinate ShiftVs Vs Junction Temperature Chromaticity Coordinate Shift Junction Temperature ¨Cx, ¨Cy = f(Tj); IF = 100mA ∆Cx, ∆Cy = f(Tj); IF = 100mA 0.05 0.04 0.03 ¨Cx, , ∆Cy ∆Cx¨Cy 0.02 ¨Cy 0.01 0.00 ¨Cx -0.01 -0.02 -0.03 -0.04 150 -0.05 -50 -30 -10 10 30 50 70 90 110 130 150 JunctionTemperature Temperature T j(°C) Junction T (°C) j 7 10/05/2016 V2.0 DOMINANT TM PRELIMINARY InGaN White: PQW-SSG UNDER DEVELOPMENT Opto Technologies DOMINANT Opto Technologies Innovating Illumination Engineering reference data are not verified. The specifications are subject to PrimaxPlus 100 InGaN White: PQW-SSG Package change without notice. Outlines PrimaxPlus 100mA Warm White: MAF-PSC Note : Primary thermal path is through Cathode lead of LED package Material Super high brightness surface mount LED. 120 viewing angle. Compact package outline (LxW) of 3.7 x 3.5 mm. Ultra low height profile – 0.8 mm. Low thermal resistance. Lead-frame Material Cu Alloy With Ag Plating Package Compatible to IR reflow soldering. High Temperature Resistant Plastic Encapsulant Silicone Resin Soldering Leads NiPdAu Plating Note: This product is Pb free 24/09/13 PrimaxPlus 100 InGaN Warm White MAF-PSC -pv3.docx 8 Page 1 of 14 10/05/2016 V2.0 DOMINANT TM PRELIMINARY InGaN White: UNDER DEVELOPMENT Opto Technologies DOMINANT Opto Technologies Innovating Illumination PQW-SSG Engineering reference data are not verified. The specifications are subject to Recommended Solder Pad change without notice. Solder Pad Design. 9 20/10/13 PrimaxPlus 100 InGaN Warm White MAF-PSC -pv3.docx 10/05/2016 V2.0 Page 10 of 14 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Taping and orientation DOMINANT Opto Technologies DRND-008 • Reels come in quantity of 1000 units. • Reel diameter is 180 mm. New 4. Reason for change: The pocket dimensions are changed to ensure optimum fitting. 5. Target conversion date: Samples with new carrier tape will be available upon request. New carrier tape will be used for manufacturing for lots taped beginning of Aug 15th 2013. 10 Note : Any questions or requests for additional information should be directed to our Sales personnel 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination DOMINANT TM Preliminary Draft Opto Technologies Packaging Specification Innovating Illumination This specification does not constitute a final offer InGaN White: PQW-SSG Packaging Specification 11 11 10/05/2016 V2.0 30/04/2015 PV1.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Packaging Specification Existing BPL Moisture sensitivity level size - 87mm x 45mm. As part of improvement and also in response to customers’ request; BPL f Barcode label changed to the following. DOMINANT Opto Technologies (L) Lot No : lotno ML TEMP 2 260˚C RoHS Compliant (P) Part No : partno (C) Cust No : partno (Q) Quantity : quantity (G) Grouping : group (D) D/C : date code Made in Malaysia (S) S/N : serial no New BPL size - 110mm x 55mm. Additional information are now included in the label. 2D and 3D barc Reel implemented now for every data field. Label Moisture absorbent material + Moisture indicator Issue No : 1 The reel, moisture absorbent material and moisture indicator are sealed inside the moisture proof foil bag Weight Weight(gram) (gram) Average 1pc PrimaxPlus 1 completed bag (1000pcs) 0.041 0.034 230 ± 10 190 10 Cardboard Box DOMINANT TM For PrimaxPlus Cardboard Box Size Dimensions (mm) Empty Box Weight (kg) Reel / Box Super Small 325 x 225 x 190 0.38 7 reels MAX Small 325 x 225 x 280 0.54 11 reels MAX Medium 570 x 440 x 230 1.46 48 reels MAX Large 570 x 440 x 460 1.92 96 reels MAX 12 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Recommended Pb-free Soldering Profile Classification Reflow Profile (JEDEC J-STD-020C) 300 255-260˚C 10-30s 275 250 225 Temperature (˚C) Ramp-up 3˚C/sec max. 217˚C 200 60-150s 175 150 125 Rampdown 6˚C/sec max. 100 75 Preheat 60-180s 50 25 480s max 0 50 100 150 200 Time (sec) 13 10/05/2016 V2.0 DOMINANT TM InGaN White: PQW-SSG Opto Technologies Innovating Illumination Revision History Page Subjects Date of Modification - Initial release 18 Apr 2016 8 Typo error on material 10 May 2016 NOTE All the information contained in this document is considered to be reliable at the time of publishing. However, DOMINANT Opto Technologies does not assume any liability arising out of the application or use of any product described herein. DOMINANT Opto Technologies reserves the right to make changes to any products in order to improve reliability, function or design. DOMINANT Opto Technologies products are not authorized for use as critical components in life support devices or systems without the express written approval from the Managing Director of DOMINANT Opto Technologies. 14 10/05/2016 V2.0 DOMINANT TM Opto Technologies Innovating Illumination InGaN White: PQW-SSG About Us DOMINANT Opto Technologies is a dynamic Malaysian Corporation that is among the world’s leading SMT LED Manufacturers. An excellence – driven organization, it offers a comprehensive product range for diverse industries and applications. Featuring an internationally certified quality assurance acclaim, DOMINANT’s extra bright LEDs are perfectly suited for various lighting applications in the automotive, consumer and communications as well as industrial sectors. With extensive industry experience and relentless pursuit of innovation, DOMINANT’s state-of-art manufacturing, research and testing capabilities have become a trusted and reliable brand across the globe. More information about DOMINANT Opto Technologies can be found on the Internet at http://www.dominant-semi.com. Please contact us for more information: DOMINANT Opto Technologies Sdn. Bhd Lot 6, Batu Berendam, FTZ Phase III, 75350 Melaka, Malaysia. Tel: +606 283 3566 Fax: +606 283 0566 E-mail: [email protected] DOMINANT Opto Technologies Innovating Illumination TM