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- Through-Hole LED, 5mm Blue 465nm 7500mc 3V 100mW 20mA
Through-Hole LED, 5mm Blue 465nm 7500mc 3V 100mW 20mA
ld5bIn stock
Through-Hole LED, 5mm Blue 465nm 7500mc 3V 100mW 20mA
- Code: ld5b
- Quantity per master box: 50.000 Unit/s
- Availability: In stock
- Only 247440 in stock. Click here to contact us for more information.
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- $66
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- +100-999 Unit/s $63
- +1.000 to + Unit/s $60
Unit price
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Working Current | 20 mA |
Color | Blue |
Wavelength (±5nm) | 465 nm |
Beam Angle | 30 ° |
Luminous Flux | 2 lm |
Luminous Flux per Chip | 7500 mcd |
Luminous Efficacy | 20 lm/W |
Dimmable? | Yes |
Operating Temperature | -22 ~ 176 °F |
Lifespan | 50000 h |
Diameter | 0,2 in |
The 5mm LEDs are encapsulated in a transparent colored resin dome whose utility is to protect the light emitter, it contains three pieces: reflector cup, semiconductor, and conductive wire. Two legs extend below this dome: the longest is of positive polarity and is called the anode, the shortest is of negative polarity and is called the cathode. These pins will indicate the way in which the LED should be connected to the circuit.
These diodes have dominated the high brightness LED market due to their highly reflective design with primary optics and their high brightness range (7,500 mcd). They generate a bright blue light (465nm), which makes them visible at long distances.
They can be used for lighting, posters, traffic lights, flashlights, signaling devices, information panels, medical applications, lighting of liquid crystal screens of mobile phones, calculators and electronic agendas, printers and bicycles, and various adaptations, among others.
How do they work?
LEDs can be used in three different ways:
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Individual: direct LED power from the power supply, either by means of a regulated source or with the use of resistors or regulators. The desired voltage must be supplied to the LED within the working values.
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Parallel configuration: powering a group of LEDs connecting all the anodes together and all the cathodes together, using the required voltage regulated by a single resistor in series.
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Series configuration: powering a group of LEDs connected sequentially. The number of LEDs to be used per series will be limited by the voltage delivered by the power supply. In most cases, a resistor is required to compensate for the differences in supply voltage per series of LEDs, being able to carry out different series in parallel with the same power supply.