Ember E1150Z Snap-In – Brushed Nickel – Round – Cool White Light
Product Highlights:
- 2.5 watts
- 9-30V DC input/9-15 AC Input
- 0 to 100% Dimming
- Stainless Steel Construction
- Asymmetric Light Distribution
- Wide lateral angle
- 6 Vibrant Color Options
- IP67, Exterior Rated
- Up to 50,000 Hours of Operation
Features:
- Advanced optical system – Asymmetric beam angle eliminates glare while providing excellent surface illumination
- 0 – 100% Dimming – Connection with i2Systems LightLink Series allows simple and seamless integration to most of today’s conventional dimming systems
- Rugged design – Stainless steel construction, sealed design, and electronic regulation to the LED source ensure product longevity
- No heat or UV in the light beam – Fixture lens remains much cooler than halogen sources, allowing safe and “burn free” operation
- In addition, no UV means reduced risk of fading or deteriorating products or artifacts on display
- Stainless Steel Trim with PVD – Removable trim ring and Physical Vapor Deposition (PVD) coating provides a very durable surface finish which will not tarnish or discolor
- Snap-in Installation – Simply bore a 1.25″ diameter hole and snap the fixture into place
- Fixture accomodates wall thicknesses ranging from .125″ to .625″
Exclusive Technology:
- SmartDriver Integrated – i2Systems SmartDriver Technology is integrated directly inside every fixture
- Connect the Ember to a wide range of voltages without sacrificing light output or lifetime
- No external drivers are required and wiring is made simple
- AccuWhite – i2Systems AccuWhite Technology allows integration of Ember fixtures to traditional applications without sacrifice in color temperature (CCT) or color rendering (CRI)
- AccuWhite ensures and accurate and consistent color matching from fixture to fixture and across product lines
- LightLink Compatible – i2Systems LightLink controllers represent the next generation in lighting control and connectivity
- LightLink modules provide seamless integration of today’s marine dimming systems through a wide variety of desirable interfaces