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TL3GB-NW0 Dataheets PDF



Part Number TL3GB-NW0
Manufacturers Toshiba
Logo Toshiba
Description LED Lamps
Datasheet TL3GB-NW0 DatasheetTL3GB-NW0 Datasheet (PDF)

LED Lamps InGaN and Phosphor TL3GB-NW0,L 1. Applications • General Lighting 2. Features (1) Size: 3.0 (L) mm × 3.0 (W) mm × 0.67 (H) mm (2) High luminous flux LED: 72 lm (typ.) @IF = 100 mA (3) Color: White (color temperature: 5000 K (typ.)) (4) Operating temperature range: Topr = -40 to 100  (5) Reflow-soldering is available. 3. Packaging and Pin Assignment 4-3AA1A TL3GB-NW0,L 1: Cathode 2: Anode Start of commercial production 2014-03 1 2014-08-19 Rev.4.0 TL3GB-NW0,L 4. Absolute Maximum Ra.

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LED Lamps InGaN and Phosphor TL3GB-NW0,L 1. Applications • General Lighting 2. Features (1) Size: 3.0 (L) mm × 3.0 (W) mm × 0.67 (H) mm (2) High luminous flux LED: 72 lm (typ.) @IF = 100 mA (3) Color: White (color temperature: 5000 K (typ.)) (4) Operating temperature range: Topr = -40 to 100  (5) Reflow-soldering is available. 3. Packaging and Pin Assignment 4-3AA1A TL3GB-NW0,L 1: Cathode 2: Anode Start of commercial production 2014-03 1 2014-08-19 Rev.4.0 TL3GB-NW0,L 4. Absolute Maximum Ratings (Note) (Unless otherwise specified, Ta = 25 ) Characteristics Symbol Rating Unit Forward current (DC) See Fig. 4.1. IF 200 mA Power dissipation PD 1.32 W Operating temperature Topr -40 to 100  Storage temperature Tstg -40 to 100  Junction temperature Tj 125  Note: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings. Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook ("Handling Precautions"/"Derating Concept and Methods") and individual reliability data (i.e. reliability test report and estimated failure rate, etc). Fig. 4.1 IF - Ta (Note 1), (Note 2) Note 1: The junction-to-ambient thermal resistance, Rth(j-a), should be kept below 35 /W so that this product is not exposed to a condition beyond the absolute maximum ratings. Rth(j-a): Thermal resistance from the LED junction to ambient temperature Note 2: This LED has a relatively large (mid-range) operating power. When it is mounted in a narrow space or together with other components, they have mutual effects on their thermal characteristics; most notably, Rth(j-a) affects their junction temperatures. Therefore, care should be exercised to thermal management and PCB selection. If this LED operates at high temperatures, be sure to provide adequate heat dissipation by using an MCP, thermally enhanced PCB and the like, and perform thorough evaluation. 2 2014-08-19 Rev.4.0 TL3GB-NW0,L 5. Handling Precautions • This product is sensitive to electrostatic and care must be fully taken when handling products. Particularly in the case that an overvoltage shall be applied, the overflowed energy may cause damage to or possibly result in destruction of the product. Users shall take absolutely secure countermeasures against electrostatic and surge when handling the product. • A damage to the device might create a tiny leakage path, which causes the LED lamp not to light up in the low-current region or causes a drop in the VF rise voltage. Failure criterion: IF ≥ 0.5 mA @ VF = 4 V • If multiple LEDs are connected in parallel, they will experience variations in the forward current due to the characteristics differences in forward voltage. Ensure that the fo.


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