SMB1N-D630 v 1.2 11.07.2014 Description SMB1N-D630 is a surface mount AlGaInP High Power LED with a typical peak wavelength of 630 nm and radiation of 330 mW. It comes in SMD package (PA9T) with silver plated soldering pads (lead free solderable), copper heat sink, and molded with silicone resin. Maximum Ratings (TCASE=25°C) Parameter Values Symbol Min. PD IF IFP VF RTHJA TJ TCASE TSTG TSLD Power Dissipation Forward Current 1 Pulse Forward Current * Reverse Voltage Thermal Resistance Junction Temperature Operating Temperature Storage Temperature 2 Lead Solder Temperature * Unit Max. 1000 350 500 5 10 120 + 100 + 100 + 250 - 40 - 40 mW mA mA V K/W °C °C °C °C 1 * duty=1%, pulse width = 10 µs 2 * must be completed within 5 seconds Electro-Optical Characteristics Parameter Symbol Conditions λP ∆λ VF VFP Peak Wavelength Half Width Forward Voltage 1 Radiated Power * 2 Radiant Intensity * 3 Luminous Flux * Photosynthesis Photon Flux Density Viewing Angle Rise Time Fall Time (TCASE=25°C) PO IE ΦV PPFD φ tR tF IF=350mA IF=350mA IF=350mA IFP=500mA IF=350mA IFP=500mA IF=350mA IFP=500mA IF=350mA IFP=500mA IF=350mA IF=100mA IF=350mA IF=350mA Min. 620 Values Typ. 630 16 2.2 2.4 330 460 120 160 52 73 83 126 160 160 Max. 640 2.8 Unit nm nm V mW mW/sr lm µmol/m²s deg. ns ns 1 * measured by S3584-08 2 * measured by Tektronix J-6512 3 * irradiation distance: 100 mm www.roithner-laser.com 1 Typical Performance Curves Rel. Radiant Intensity vs. Forward Current Forward Current [mA] Relative Radiant Intensity [A.U.] Forward Current vs. Forward Voltage Forward Current [mA] Forward Current vs. Pulse Duration Allowed Forward Current vs. Ambient Temperature Forward Current [mA] Allowable Forward Current [mA] Forward Voltage [V] Ambient Temperature [°C] Forward Voltage vs. Ambient Temperature Rel. Radiant Intensity vs. Ambient Temperature Forward Voltage [V] Relative Radiant Intensity [A.U.] Duration tw [ms] Ambient Temperature [°C] www.roithner-laser.com Ambient Temperature [°C] 2 Relative Spectral Emission Peak Wavelength [nm] Relative Radiant Intensity [A.U.] Peak Wavelength vs. Ambient Temperature Wavelength [nm] Radiation Characteristics Radiation Characterisitcs Angle (deg.) Relative Radiant Intensity [A.U.] Ambient Temperature [°C] Relative Radiant Intensity (A.U.) Angle [edg.] Outline Dimensions SMB1N flat Lead Description Pin a1 Pin c1 LED Anode LED Cathode All Dimensions in mm www.roithner-laser.com 3 Precautions Soldering: • • • • • Do avoid overheating of the LED Do avoid electrostatic discharge (ESD) Do avoid mechanical stress, shock, and vibration Do only use non-corrosive flux Do not apply current to the LED until it has cooled down to room temperature after soldering Recommended soldering conditions: This LED is designed to be reflow soldered on to a PCB. If dip soldered or hand soldered, its reliability cannot be guarantee. Nitrogen reflow soldering is recommended. Air flow soldering conditions can cause optical degradation, caused by heat and/or atmosphere. IR Reflow Soldering Profile (Lead-free Solder) Recommended Soldering Patterns Unit: mm Above table specifies the maximum allowed duration and temperature during soldering. It is strongly advised to perform soldering at the shortest time and lowest temperature possible. Cleaning: Cleaning with isopropyl alcohol, propanol, or ethyl alcohol is recommended DO NOT USE acetone, chloroseen, trichloroethylene, or MKS DO NOT USE ultrasonic cleaners Static Electricity: LEDs are sensitive to electrostatic discharge (ESD). Precautions against ESD must be taken when handling or operating these LEDs. Surge voltage or electrostatic discharge can result in complete failure of the device. Radiation: During operation these LEDs do emit high intensity light, which is hazardous to skin and eyes, and may cause cancer. Do avoid exposure to the emitted light. Protective glasses are recommended. It is further advised to attach a warning label on products/systems. Operation: Do only operate LEDs with a current source. Running these LEDs from a voltage source will result in complete failure of the device. Current of a LED is an exponential function of the voltage across it. Usage of current regulated drive circuits is mandatory. © All Rights Reserved The above specifications are for reference purpose only and subjected to change without prior notice www.roithner-laser.com 4