Product Description
Pro Lighting LED module with 37.5 – 84.5 Watt
Our pro lighting LED comes with 34 – 50 Volt and 37.5 – 84.5 Watt and has an excellent color uniformity from 2700 – 4000 Kelvin. Reliable with extreme brightness and Heat- and UV resistant. Suitable for general lighting including Indoor and Outdoor. LM-80, ROHS, EN62471 / IE62471 approved.
Order Conditions:
MOQ: 1000 PCS
MOQ Stepping: 100 PCS
Warranty: 5 Years
Ready for delivery: 4 – 8 working days after confirmation
General Knowledge:
What are LEDs and how do they work?
LED stands for light-emitting diode. LED pro lighting products produce light approximately 90% more efficiently than incandescent light bulbs. How do they work? An electrical current passes through a microchip, which illuminates the tiny light sources we call LEDs and the result is visible light. To prevent performance issues, the heat Pro lighting LEDs produce is absorbed into a heat sink.
The lifetime of Pro Lighting LED Products
The useful life of pro lighting LED products are defined differently than that of other light sources, such as incandescent or compact fluorescent lighting (CFL). LEDs typically do not “burn out” or fail. Instead, they experience ‘lumen depreciation’, wherein the brightness of the pro lighting LED dims slowly over time. Unlike incandescent bulbs, pro lighting LED “lifetime” is established on a prediction of when the light output decreases by 30 percent.
How are LEDs Used in Lighting
LEDs are incorporated into bulbs and fixtures for general lighting applications. Small in size, LEDs provide unique design opportunities. Some pro lighting LED bulb solutions may physically resemble familiar light bulbs and better match the appearance of traditional light bulbs.
Some LED light fixtures may have LEDs built in as a permanent light source. There are also hybrid approaches where a non-traditional “bulb” or replaceable light source format is used and specially designed for a unique fixture. Por lighting LEDs offer a tremendous opportunity for innovation in lighting form factors and fit a wider breadth of applications than traditional lighting technologies.
LEDs and Heat
LEDs use heat sinks to absorb the heat produced by the LED and dissipate it into the surrounding environment. This keeps LEDs from overheating and burning out. Thermal management is generally the single most important factor in the successful performance of a pro lighting LED over its lifetime. The higher the temperature at which the LEDs are operated, the more quickly the light will degrade, and the shorter the useful life will be.
LED products use a variety of unique heat sink designs and configurations to manage heat. Today, advancements in materials have allowed manufacturers to design pro lighting LED bulbs that match the shapes and sizes of traditional incandescent bulbs. Regardless of the heat sink design, pro lighting LED products that have earned the ENERGY STAR have been tested to ensure that they properly manage the heat so that the light output is properly maintained through the end of its rated life.
How is LED lighting different than other light sources, such as incandescent and Compact Fluorescent (CFL)?
Pro lighting LED differs from incandescent and fluorescent in several ways. When designed well, the Pro lighting LED is more efficient, versatile, and lasts longer.
LEDs are “directional” light sources, which means they emit light in a specific direction, unlike incandescent and CFL, which emit light and heat in all directions. That means LEDs can use light and energy more efficiently in a multitude of applications. However, it also means that sophisticated engineering is needed to produce an LED light bulb that shines light in every direction.
Common pro lighting LED colors including amber, red, green, and blue. To produce white light, different color LEDs are combined or covered with a phosphor material that converts the color of the light to a familiar “white” light used in homes. Phosphor is a yellowish material that covers some LEDs. Colored LEDs are widely used as signal lights and indicator lights, like the power button on a computer.
In a CFL, an electric current flows between electrodes at each end of a tube containing gases. This reaction produces ultraviolet (UV) light and heat. The UV light is transformed into visible light when it strikes a phosphor coating on the inside of the bulb.
Incandescent bulbs produce light using electricity to heat a metal filament until it becomes “white” hot or is said to incandesce. As a result, incandescent bulbs release 90% of their energy as heat.
Source: Learn about LED
Further Reading in our dedicated Article:
LEDs to build sustainable cities
Reviews
There are no reviews yet.