Technical documents
Specifications
Brand
BivarNumber of LEDs
1
LED Colours
White
Colour Temperature
3100K
Typical Luminous Flux
472 lm
Outer Diameter
19.9mm
Voltage Rating
3.2 → 3.3V dc
Current Rating
1.5A
Secondary Optics Included
Yes
Series
PGW2
Connection Types
2-Pin Connector
Country of Origin
China
Product details
Bivar L2-PG Series
Bivar L2 LED circular arrays with Cree XLamp LEDs are the first light engines available in the industry to offer Cree's XLamp LEDs on a starboard. These starboard light engines are optimized for high output, high colour rendering index, lighting uniformity, making them ideal for directional lighting applications in both indoor and outdoor environments. They deliver light with consistent CCT in a highly efficient package that enables true halogen performance in a thermally constrained design.
Optional pin headers allows quick hook-up
Low thermal resistance
Bivar LED Modules
Stock information temporarily unavailable.
Please check again later.
₪ 94.224
Each (In a Pack of 100) (ex VAT)
₪ 110.242
Each (In a Pack of 100) (inc VAT)
100
₪ 94.224
Each (In a Pack of 100) (ex VAT)
₪ 110.242
Each (In a Pack of 100) (inc VAT)
100
Technical documents
Specifications
Brand
BivarNumber of LEDs
1
LED Colours
White
Colour Temperature
3100K
Typical Luminous Flux
472 lm
Outer Diameter
19.9mm
Voltage Rating
3.2 → 3.3V dc
Current Rating
1.5A
Secondary Optics Included
Yes
Series
PGW2
Connection Types
2-Pin Connector
Country of Origin
China
Product details
Bivar L2-PG Series
Bivar L2 LED circular arrays with Cree XLamp LEDs are the first light engines available in the industry to offer Cree's XLamp LEDs on a starboard. These starboard light engines are optimized for high output, high colour rendering index, lighting uniformity, making them ideal for directional lighting applications in both indoor and outdoor environments. They deliver light with consistent CCT in a highly efficient package that enables true halogen performance in a thermally constrained design.
Optional pin headers allows quick hook-up
Low thermal resistance