Brightek 3030 Series 3030 LEDs Medical Cosmetics type Outline3.0*3.0*3.0mm High efficiency Good thermal dissipation & optical uniformity Table of Contents: Features Features----------------------------------------------------- 1 RoHS and REACH-compliant Product Code---------------------------------------------- 2 MSL2 qualified according to J-STD 020 Product List------------------------------------------------- 3 ESD 2KV (HBM : MIL-STD-883 Class 2) Maximum Rating------------------------------------------ 5 Peak Wavelength Binning------------------------------ 6 Applications Radiant Power Binning --------------------------------- 6 Medical Luminous Flux Binning----------------------------------- 7 Cosmetics Forward Voltage Binning------------------------------- 8 Electronic-Optical Characteristics-------------------- 9 Relative spectral power distribution------------------11 Typical spatial distribution------------------------------11 Thermal Design for De-rating--------------------------12 Dimensions-------------------------------------------------13 Suggest Stencil Pattern---------------------------------13 Packing----------------------------------------------------- 14 Reflow Profile-------------------------------------------- 16 Precautions----------------------------------------------- 17 Test items and results of reliability------------------ 19 Ver. A6 SPEC-0037 1/19 Brightek 3030 Series Product Code 1 - Z - SC30 - D - Q53B - V - 0 - 1 - Z - 2 1 - Z - SC30 - D - V26B - V - 0 - 1 - Z - 2 1 - Z - SC30 - D - F74A - V - 0 - 1 - Z - 2 1 - Z - SC30 - D - Y26B - V - 0 - 1 - Z - 2 1 - Z - SC30 - D - V66B - V - 0 - 1 - Z - 2 Process type Category Specification Lens code 1: Normal process Z: SMD LED SC30: 3030 D: 30 Dice wavelength & Luminous rank Qxxx: UV product Vxxx: Red Fxxx: Infrared product (Emission pipe) Yxxx:Yellow Support code Zener Cap color code V: Substrate Code 0: None Zener Ver. A6 1: Series No. SPEC-0037 Module & Lens code Z: Molding Current code 2 : 150mA 2/19 Brightek 3030 Series Product list Luminous Flux (lm) / Color UV Radiant Power (mW) @150mA Group Min. Max. P12 125 150 P13 150 175 P14 175 200 P21 200 225 B15 18 20 B16 20 22 Red IR Yellow Ver. A6 B17 22 24 B18 24 26 P09 80 90 P10 90 100 P11 100 125 B13 14 16 B14 16 18 B15 18 20 B16 20 22 B17 22 24 Peak Forward Voltage (V) Wavelength @150mA (nm) Viewing Angle Part Number Min. Max. 410-420 3.0 3.8 30 1ZSC30DQ53BV01Z2 628-638 1.8 2.6 30 1ZSC30DV26BV01Z2 825-835 1.4 2.2 30 1ZSC30DF74AV01Z2 585-595 1.8 2.6 30 1ZSC30DY26BV01Z2 SPEC-0037 3/19 Brightek 3030 Series Ultra B06 5 6 B07 6 7 655-665 Red B08 7 8 B09 8 9 1.8 2.6 30 1ZSC30DV66BV01Z2 Notes: 1. Forward voltage (VF) 0.1VRadiant power (PO) 7%Wavelength (p) 1nm Viewing angle(21/2) 10 2. IS standard testing. Ver. A6 SPEC-0037 4/19 Brightek 3030 Series Maximum Rating (Ta : 25) Characteristics Symbol DC Forward Current1 IF Pulse Forward Current2 Min. Typical Max. Unit 150 300 mA IPF 500 mA Reverse Voltage VR -5 V Reverse Current (-5V) IR 10 A Junction Temperature2 Tj 125 Storage Temperature Range Tstg -40 - 100 Operating Temperature Range Topr -40 - 85 Soldering Temperature Tsol 260 Notes: 1. For other ambient, limited setting of current will depend on de-rating curves. 2. When drive on maximum current , Tj must be kept below 125 Ver. A6 SPEC-0037 5/19 Brightek 3030 Series Peak Wavelength Binning Bin code Min. p Max. p (150mA) (nm) (nm) Q410 410 415 Q415 415 420 Y585 585 590 Y590 590 595 R628 628 633 R633 633 638 R655 655 660 R660 660 665 I825 825 835 Bin code Min. Max. (150mA) (mW) (mW) P09 80 90 P10 90 100 P11 100 125 P12 125 150 P13 150 175 P14 175 200 P21 200 225 Radiant Power Binning Ver. A6 SPEC-0037 6/19 Brightek 3030 Series Luminous Flux Binning Ver. A6 Bin code Min. v Max. v (150mA) (Lm) (lm) B06 5 6 B07 6 7 B08 7 8 B09 8 9 B13 14 16 B14 16 18 B15 18 20 B16 20 22 B17 22 24 B18 24 26 SPEC-0037 7/19 Brightek 3030 Series Forward Voltage Binning Ver. A6 Bin code Min. VF Max. VF (150mA) (V) (V) V1416 1.4 1.6 V1618 1.6 1.8 V1820 1.8 2.0 V2022 2.0 2.2 V2224 2.2 2.4 V2426 2.4 2.6 V3032 3.0 3.2 V3234 3.2 3.4 V3436 3.4 3.6 V3638 3.6 3.8 SPEC-0037 8/19 Brightek 3030 Series Electronic-Optical Characteristics 1ZSC30DQ53BV01Z2 Forward Current vs. Forward Voltage (Ta=25) Relative Radiant Power vs. Forward Current (Ta=25) 1ZSC30DV26BV01Z2 Forward Current vs. Forward Voltage (Ta=25) Relative luminous Flux vs. Forward Current (Ta=25) 1ZSC30DF74AV01Z2 Forward Current vs. Forward Voltage (Ta=25) Ver. A6 Relative Radiant Power vs. Forward Current (Ta=25) SPEC-0037 9/19 Brightek 3030 Series 1ZSC30DY26BV01Z2 Forward Current vs. Forward Voltage (Ta=25) Relative luminous Flux vs. Forward Current (Ta=25) 1ZSC30DV66BV01Z2 Forward Current vs. Forward Voltage (Ta=25) Ver. A6 Relative luminous Flux vs. Forward Current (Ta=25) SPEC-0037 10/19 Brightek 3030 Series Relative spectral power distribution 1ZSC30DQ53BV01Z2/1ZSC30DV26BV01Z2/1ZSC30DF74AV01Z2 1ZSC30DY26BV01Z2/1ZSC30DV66BV01Z2 Typical Spatial Distribution Ver. A6 SPEC-0037 11/19 Brightek 3030 Series Thermal Design for De-rating The maximum forward current is determined by the thermal resistance between the LED junction and ambient. It is crucial for the end product to be designed in a manner that minimizes the thermal resistance from the solder point to ambient in order to optimize lamp life and optical characteristics. 1ZSC30DQ53BV01Z2 1ZSC30DV26BV01Z21ZSC30DY26BV01Z2/1ZSC30DV66BV01Z2 1ZSC30DF74AV01Z2 Ver. A6 SPEC-0037 12/19 Brightek 3030 Series Dimensions All dimensions are in millimeters. Tolerance is 0.13mm unless other specified. Suggest Stencil Pattern (Recommendations for reference) 1.60 1.50 0.41 2.40 2.40 0.51 0.64 0.54 RECOMMENDED PCB SOLDER PAD RECOMMENDED STENCIL PATTERN (HATCHED AREA IS OPENING) Suggest stencil t =0.12 mm Ver. A6 SPEC-0037 13/19 Brightek 3030 Series Packing - + Ver. A6 Trailer 160(min) of empty Loaded Pockets Leader 400mm (min) of empty pockets sealed with tape (650 pcs) pockets sealed with tape SPEC-0037 14/19 Brightek 3030 Series Label Label Label Notes: 1. Each reel (maximum is 650 for 30 degree product) is packed in a moisture-proof bag along with a packs of desiccant and a humidity indicator card. 2. A maximum of 5 moisture-proof bags are packed in an inner box (size: 260mm x 230mm x 100mm 5mm). 3. A maximum of 4 inner boxes are put in an outer box (size: 480mm x 275mm x 215mm 5mm). 4. Part No., Lot No., quantity should be indicated on the label of the moisture-proof bag and the cardboard box. Ver. A6 SPEC-0037 15/19 Brightek 3030 Series Reflow Profile IR Reflow Soldering Profile Profile Feature Pb-Free (SnAgCu) Assembly Symbol Unit Minimum Recommendation Maximum Ramp-up Rate to Preheat Time tS (25C to 150C) (TSmin to Tsmax) tS 60 Ramp-up Rate to Peak (TSmax to TP) 2 3 K/s 100 120 s 2 3 K/s Liquidus Temperature TL 217 Time above Liquidus temperature tL 80 100 s Peak Temperature TP 245 260 C Time within 5 C of the specified peaktemperature TP - 5 K tP 20 30 s 3 4 K/s 480 s Ramp-down Rate Time (TP to 100 C) 10 25 C to TP C Notes: 1. Do not stress the silicone resin while it is exposed to high temperature. 2. The reflow process should not exceed 3 times. Ver. A6 SPEC-0037 16/19 Brightek 3030 Series Precautions 1. Recommendation for using LEDs 1.1 The lens of LEDs should not be exposed to dust or debris. Excessive dust and debris may cause a drastic decrease in the luminosity. 1.2 Avoid mechanical stress on LED lens. 1.3 Do not touch the LED lens surface. It would affect the optical performance of the LED due to the LED lens' damage. 1.4 Pick & place tools are recommended for the remove of LEDs from the factory tape & reel packaging 2. Lens handling Please follow the guideline to pick LEDs. 2.1 Use tweezers to pick LEDs. 2.2 Do not touch the lens by using tweezers. 2.3 Do not touch lens with fingers. 2.4 Do not apply more than 4N (400gw) directly onto the lens. Correct ( ) Wrong ( X ) 3. Lens cleaning In the case which a small amount of dirt and dust particles remain on the lens surface, a suitable cleaning solution can be applied. 3.1 Try a gentle wiping with dust-free cloth. 3.2 If needed, use dust-free cloth and isopropyl alcohol to gently clean the dirt from the lens surface. Ver. A6 SPEC-0037 17/19 Brightek 3030 Series 3.3 Do not use other solvents as they may directly react with the LED assembly. 3.4 Do not use ultrasonic cleaning which will damage the LEDs. 4. Carrier tape handling The following items are recommended when handling the carrier tape of LEDs. 4.1 Do not twist the carrier tape. 4.2 The inward bending diameter should not be smaller than 6cm for each carrier tape. 4.3 Do not bend the tape outward. 5. Storage 5.1 The moisture-proof bag is sealed The LEDs should be stored at 30C or less and 90%RH or less. And the LEDs are limited to use within one year, while the LEDs is packed in moisture-proof package with the desiccants inside. 5.2 The moisture-proof bag is opened The LEDs should be stored at 30C or less and 60%RH or less. Moreover, the LEDs are limited to solder process within 168hrs. If the humidity indicator card shows the pink color in 10% even higher or exceed the storage limiting time since opened, that we recommended to baking LEDs at 60C at least 24hrs. To seal the remainder LEDs return to the moisture-proof bag, it's recommended to be with workable desiccants. Ver. A6 SPEC-0037 18/19 Brightek 3030 Series Test Items and Results of Reliability Test Item Thermal Shock High Temperature Storage Test Conditions Duration/ Cycle Number of Damage Reference -40 30min 5min 125 30min 100 cycles 0/22 AEC-Q101 Ta=100 1000 hrs 0/22 1000 hrs 0/22 1000 hrs 0/22 1000 hrs 0/22 1000 hrs 0/22 1000 hrs 0/22 3 Times 0/22 Humidity Heat Ta=85 Storage RH=85% Low Temperature Ta=-40 Storage Life Test Ta=25 If=150mA High Humidity Heat 85 RH=85% Operation If=150mA High Temperature Ta=85 Operation If=150mA ESD(HBM) 2KV at 1.5k;100pf EIAJ ED-4701 200 201 EIAJ ED-4701 100 103 EIAJ ED-4701 200 202 MIL-STD-883 Failure Criteria Item Symbol Condition Forward Voltage VF Reverse Current Luminous Intensity Criteria for Judgment Min Max If=150mA - USL1x1.1 IR VR =-5V - 100A Iv If=150mA LSL2x0.7 - Notes: 1. USL: Upper specification level 2. LSL: Lower specification level Ver. A6 SPEC-0037 19/19