Our 10mm Dot-Less LED Strip is a premium product designed to provide smooth, continuous lighting with no visible dots. Perfect for architectural and retail applications, this high-quality strip offers the following features:
Product Highlights:
(These numbers account for 20% spare capacity and do not include voltage drop considerations.)
Installation Instructions:
Please note, Flexible Neon is not responsible for any issues arising from the installation process. This guide reflects our recommended installation method for the Dot Less LED Strip.
Product Description:
Introducing our Dot Less 10mm LED Strip (5mtr) in 5000K: a premium lighting solution that offers an impressive dotless illumination. This LED strip is perfect for applications where the light source is visible, as its dotless technology ensures a smooth and uniform light output without any visible dots or hotspots. With its cool white colour temperature of 5000K, it creates a crisp and vibrant lighting environment. The 5-meter length provides ample coverage for your lighting project. Upgrade your space with our Dot Less 10mm LED Strip (5mtr) in 5000K and enjoy its remarkable dotless technology, premium quality, and stunning illumination that enhances any environment.
Specs
Dimensions |
10mm x 4mm |
Material |
Silicone |
Warranty |
2 years |
Lifetime (approx) |
30,000 Hours |
Max Run Lengths |
|
Single Feed |
5m |
Lumens approx. (LM/M) |
869 lm (LM80 Compliant) |
Electrical |
|
Voltage |
24V DC |
Power Consumption (W/M) |
10W/M |
Constant Voltage/Constant Current |
Constant Voltage |
Physical |
|
Dimmable |
Yes |
Cutting Intervals (mm) |
25mm |
Bending |
Vertical |
Safety |
|
IP Rating |
IP65 |
Standard Deviation Colour Matching |
< 5 |
CRI |
> 90 |
Certifications | LM80 Compliant |
Features |
Slim size, no light spot, Injection moulding plug, Frosted, dust-proof process, anti-UV |
The above data are typical values. Due to tolerances in the production process, characteristics of electronic components, and other factors, the test parameters will have an error of ±10%.