Techniniai dokumentai
Specifikacijos
Markė
VishayPeak Wavelength
940nm
Pakuotės tipas
PLCC 2
Radiant Flux
40mW
Radiant Intensity
60mW/sr
Tvirtinimo tipas
Surface Mount
Number of LEDs
1
Number of Pins
2
Matmenys
3 x 2.8 x 1.75mm
Lens Shape
Round
LED Material
GaAlAs
Produkto aprašymas
Vishay VSML3710 Series IR Emitting Diodes
The VSML3710 family, from Vishay Semiconductors, are high power Infrared (IR) emitting diodes. The VSML3710 surface mount (SMT) IR LEDs are in PLCC-2 packages which use double hetero (DH) technology. This enables a high radiant power output. Suitable applications for the VSML3710 IREDs include; photointerrupters, reflective sensors, househole appliances, tactile keyboards and IR emitter applications where space is limited.
Infrared (IR) Light Emitters, Vishay
Sandėlio informacija laikinai nepasiekiama.
Patikrinkite dar kartą.
€ 0,427
Už kiekviena vnt. (tiekiama riteje) (be PVM)
€ 0,517
Už kiekviena vnt. (tiekiama riteje) (su PVM)
20
€ 0,427
Už kiekviena vnt. (tiekiama riteje) (be PVM)
€ 0,517
Už kiekviena vnt. (tiekiama riteje) (su PVM)
20
Pirkti dideliais kiekiais
kiekis | Vieneto kaina | Per Ritė |
---|---|---|
20 - 180 | € 0,427 | € 8,55 |
200 - 480 | € 0,406 | € 8,13 |
500 - 980 | € 0,358 | € 7,16 |
1000 - 1980 | € 0,313 | € 6,26 |
2000+ | € 0,293 | € 5,86 |
Techniniai dokumentai
Specifikacijos
Markė
VishayPeak Wavelength
940nm
Pakuotės tipas
PLCC 2
Radiant Flux
40mW
Radiant Intensity
60mW/sr
Tvirtinimo tipas
Surface Mount
Number of LEDs
1
Number of Pins
2
Matmenys
3 x 2.8 x 1.75mm
Lens Shape
Round
LED Material
GaAlAs
Produkto aprašymas
Vishay VSML3710 Series IR Emitting Diodes
The VSML3710 family, from Vishay Semiconductors, are high power Infrared (IR) emitting diodes. The VSML3710 surface mount (SMT) IR LEDs are in PLCC-2 packages which use double hetero (DH) technology. This enables a high radiant power output. Suitable applications for the VSML3710 IREDs include; photointerrupters, reflective sensors, househole appliances, tactile keyboards and IR emitter applications where space is limited.