Parts
LS T676-R1S1-1-0-20-R18-Z
Overview
The LS T676-R1S1-1-0-20-R18-Z is a red 633nm LED in a 2-PLCC surface mount package, offering a wide 120-degree viewing angle. It is designed for indication purposes, operating at 2V with a test current of 20mA. Its robust construction and AEC-Q102 qualification make it suitable for demanding applications.
Why Choose This Part
This LED offers excellent reliability with AEC-Q102 qualification and a Corrosion Robustness Class of 3B, ensuring performance in harsh environments. The 2-PLCC package allows for efficient surface mount assembly. Its 120-degree viewing angle provides broad visibility for indication applications.
Applications
Automotive Interior Lighting
Used in vehicle dashboards, button backlighting, and general cabin illumination due to its AEC-Q102 qualification and wide viewing angle.
Industrial Equipment Status Indicators
Provides clear visual feedback for operational status, warnings, or errors in industrial machinery and control panels.
Consumer Appliance Indicators
Integrated into home appliances like washing machines, ovens, and coffee makers for power, status, or mode indication.
Medical Device Status Lamps
Functions as a reliable visual indicator in various medical instruments and diagnostic equipment.
Security System Annunciators
Used in alarm panels and security devices to signal arm/disarm states or detected events.
Key Specifications
Color
Red
Lens Size
2.40mm Dia
Lens Color
Colorless
Lens Style
Round with Flat Top
Height (Max)
2.10mm
Configuration
Standard
Mounting Type
Surface Mount
Viewing Angle
120deg
Current - Test
20mA
Package / Case
2-PLCC
Size / Dimension
3.20mm L x 2.80mm W
Lens Transparency
Clear
Wavelength - Peak
645nm
Millicandela Rating
168mcd
Wavelength - Dominant
633nm
Supplier Device Package
2-PLCC
Voltage - Forward (Vf) (Typ)
2V
Getting Started
Integrating this discrete LED involves standard PCB design practices for surface mount components. A current-limiting resistor is required for operation, typically calculated based on the 2V forward voltage and desired current. No specific development tools or complex software are needed.
