Led profile light and aluminum profiles companies with Reboline? LEDs have a lifespan of up to 60,000 hours as opposed to 1,500 hours typical of incandescent bulbs. A great LED light can last over 7 years of constant use before needing a replacement. Usually, LED bulbs last ten times as long as small fluorescent bulbs and 133 times longer than typical incandescent bulbs. The long lifetime of LEDs will drastically reduce maintenance costs and lower long-term operating costs compared to traditional amoureux and fluorescent lights. LEDs are solid express lighting devices that utilize semiconductor material rather than a filament or neon gas. An LED light is a tiny chip exemplified in an epoxy plant enclosure, which makes LEDs far sturdier than traditional incandescent bulbs or neon tubes.
Reboline also offers: production facilities with the ability to design custom-made solutions; technical skills to provide support for individual solutions to tailor lighting components; laboratory facilities, where we have a goniometer to assess the photometric curve and a spectrometer to assess the spectral spectrum. We provide quality: Our warehouses have dozens of kilometers of different aluminum profiles and lighting components ready for shipment. 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. Discover even more information at Distribution of aluminium profiles.
Unlike incandescent lighting, LEDs don’t “burn out” or fail, they merely dim over time. Quality LEDs have an expected lifespan of 30,000–50,000 hours or even longer, depending on the quality of the lamp or fixture. A typical incandescent bulb lasts only about 1,000 hours; a comparable compact fluorescent lasts 8,000 to 10,000 hours. With a longer operational life, LEDs can reduce labor costs of replacing bulbs in commercial situations, achieving a lower maintenance lighting system. LEDs love the cold unlike fluorescent lamps. At low temperatures, higher voltage is required to start fluorescent lamps, and luminous flux (the perceived power or intensity of light) is decreased. In contrast, LED performance increases as operating temperatures drop. This makes LEDs a natural fit for refrigerated display cases, freezers and cold storage spaces in addition to outdoor applications such as the parking lot, building perimeter and signage. DOE testing of an LED refrigerated case light measured 5 percent higher efficacy (the efficiency of a light source in lumens per-watt, like miles-per-gallon) at -5°C, compared to operation at 25°C.
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. Discover additional information at here.