LED lighting and aluminum profiles providers by Reboline? Superior safety may be the most significant benefit of LEDs. LED lamps generate almost no warmth therefore they are cool to the touch and can be left on for hours without incident or consequence if touched. LEDs produce 3.4 btu’s/hour compared to 85 for incandescent bulbs. In contrast, amoureux lighting expels 90% of the energy it utilizes via heat, making the bulbs hot to the touch. LEDs reduce the potential for safety dangers, such as burns and fires. LEDs are made of non-toxic materials, unlike neon lighting that use mercury that may pose a danger to the environment. LED is recyclable and also considered “green”, or earth-friendly. LED lighting are offered in a variety of base colors, such as red, blue, and amber. Due to the fact that traditional incandescent bulbs use filters to produce colors, they are extremely bad. LEDs can be mixed together to produce large numbers of color options.

We also have the highest quality powder paint facility offering a wide range of colors depending on demand. We provide comprehensive logistics on orders, with shipment for standard solutions within 3-5 working days. Trends on the world markets as well as events of recent months have shown the great advantage of our production in Poland which meets all EU standards. Ease of order completion, high quality, short lead times, availability and communication – all are part of our advantage and competitiveness. Our original designs take into account all technical requirements for specialized aluminum profiles and LED components. Our solutions are of the highest quality, and are precisely tailored to customer needs and specific applications.We use high quality materials for superior performance. ReboLine belongs to a group of lighting companies with over twenty years of experience. Our goal is to provide the highest quality aluminum profiles for LED lighting solutions and implementations. Read even more details at Led profiles.

Without filaments or glass enclosures, LEDs are breakage resistant and largely immune to vibrations and other impacts. Traditional lighting is usually contained in a glass or quartz exterior, which can be susceptible to damage. LEDs, on the other hand, tend not to use any glass, instead they are mounted on a circuit board and connected with soldered leads that can be vulnerable to direct impact, but no more so than mobile phones and similar small electronic devices. Most fluorescent and HID lamps do not provide full brightness the moment they’re switched on, with many requiring three minutes or more to reach maximum light output. LEDs come on at 100-percent brightness almost instantly however, and with no re-strike delay. This can be advantageous following a power outage or anytime employees open a building during early morning hours when it is still dark outside.

The actual LED device is extremely small. Small power devices can be less than a tenth of a single mm2 while larger power devices can still be as small as a mm2. Their small size makes LEDs incredibly adaptable to an infinite number of lighting applications. Different uses for LEDs include a wide spectrum from their roots in circuit board lighting and traffic signals to modern mood lighting, residential, and commercial property applications, and even major stadium lighting. You can read about the history of LED lighting here or the history of lighting in general here. CRI is a measurement of a light’s ability to reveal the actual color of objects as compared to an ideal light source (natural light). High CRI is generally a desirable characteristic (although of course, it depends on the required application). LEDs generally have very high (good) ratings when it comes to CRI. Perhaps the best way to appreciate CRI is to look at a direct comparison between LED lighting (with a high CRI) and a traditional lighting solution like sodium vapor lamps (which generally have poor CRI ratings and are in some cases almost monochromatic). See the following image to compare and contrast the two instances. See more details at here.