VLM.334.Series LEDs

Vishay's intertechnology LED family handles drive currents to 70 mA for brighter signage, lighting, and controls

Image of Vishay Semiconductor/Opto Division's VLM.334.. Series LEDsVishay's VLM.334.series LEDs, is an advanced modification of the VLM.31.. series, can incorporate larger chips and are capable of withstanding drive currents up to 70 mA. Utilizing the latest advanced AllnGaP technology, the VLM.334.. series devices provide brightness with a typical luminous intensity of 3760 mcd and maximum luminous intensity of 6052 at 70 mA, while delivering improved thermal performance compared to previous-generation LEDs. At 300 K/W, junction-to-ambient thermal resistance is 25 % lower than the former VLM.333 product.

Features and Benefits Applications
  • PLCC-2 package
  • High drive currents to 70 mA
  • Utilize the latest advanced AllnGaP technology
  • Typical luminous intensity of 3760 mcd and maximum luminous intensity of 6052 mcd at 70 mA
  • Low 300 K/W junction-to-ambient thermal resistance
  • AEC-Q101 qualified
  • Offered in super red, red, amber, and yellow
  • Available in 8 mm tape
  • RoHS-compliant, halogen-free, and Vishay green
  • Compatible with IR-reflow soldering processes and preconditioned according to JEDEC Level 2a
  • Traffic signals and signs
  • Interior and exterior lighting
  • Automotive dashboard illumination
  • Indicators and controls for audio and video equipment
  • LCD switches and symbols
  • Illuminated advertising

VLM.334.. Series

ImagenNúmero de pieza del fabricanteDescripciónColorCantidad disponible
VLMR334BACB-GS08 datasheet linkLED RED 2SMDVLMR334BACB-GS08LED RED 2SMDRojo10895 - Inmediata
Enlace de la página del producto VLMR334BACB-GS08
VLMY334BACB-GS08 datasheet linkLED YELLOW 2SMDVLMY334BACB-GS08LED YELLOW 2SMDAmarillo8701 - Inmediata
Enlace de la página del producto VLMY334BACB-GS08
VLMK334BACB-GS08 datasheet linkLED AMBER 2SMDVLMK334BACB-GS08LED AMBER 2SMDÁmbar6781 - Inmediata
Enlace de la página del producto VLMK334BACB-GS08
Publicado: 2014-01-28