The innovation in electronic devices has always driven a good market all over the world. When incandescent bulbs were being replaced by CFLs, another technology was pushing its head to replace the newest one–LED. Light Emitting Diode technology has now emerged as a major replacement in many products and has changed the perspective of electronics consumer market. In this article, we provide comprehensive knowledge about LED, its applications, products, market scenario, industry overview and what’s there for new players who want to enter into the business of LED products.
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What is LED
LED or Light Emitting Diode can be understood as an electronic device that gets lighted up while passing electricity through it. LED is a semiconductor light source used as indicator lamp in a number of devices. Today, LEDs are increasingly used for general lighting purpose. In the year 1962, LED found its place into the electronic industry as a practical electronic component. During its early stages, LEDs emitted low-intensity red light. With the advancements in technology, today we find a number of versions of LEDs including visible, ultraviolet and infrared wavelengths offering very bright light. Also, the fact that LEDs are small in size makes them a good choice to display images. LEDs do not burn out like other lights, while they burn on significantly lower power compared to conventional light sources.
There are a number of advantages in LED when compared to incandescent light sources. Some of them are longer lifetime, enhanced robustness, quicker switching, lower energy utilization, smaller size, more durability and reliability. On the other hand, LEDs need an accurate heat and current management as against conventional light sources. Also, the market price of current LED products is expensive when compared to the fluorescent lamp sources of equivalent output.
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Basics and History of LED
LEDs are based on the principle that a semiconductor chip emits light while conducting current through it. LEDs are deemed highly versatile with regard to their capacity to emit almost all spectrums of light. As a diode is switched on, electrons are made to recombine with holes in a given device resulting in the release of energy that is available in the form of photons. Called as electroluminescence effect, the process emits light in different colors depending on the gap of the semi conductor. Usually, the diodes of LED are spaced less than 1mm or 2mm. There are a number of integrated optical components used to shape the resulting radiation pattern and to help in reflection.
Though LEDs that emit a practical spectrum of visible light are being developed since 1960s, it is only recently that LED technology is able to produce lighting sources that are able to emit acceptable levels of illumination which can effectively replace the conventional primary lighting sources in homes and businesses. Today, LEDs are increasingly finding their applications across a diverse range of lighting requirements to replace the conventional light sources. Especially, the prominent applications of LEDs include indicators and traffic signals. Since 2007, Airbus has been using LED lightning in its A320 aircrafts, while Boeing has plans to use the same in the 787.
Over and above, the smaller size of LEDs has enabled the development of innovative text and video displays and sensors, while the high switching rates of LED comes as a welcome factor in using LED in the arena of advanced communications technology. Called as Solid State Lighting (SSL), a new phase of innovative technology in the arena of LED illumination is seen developing at an amazingly fast pace. For instance, the latest bulbs that we can see in the market from EarthLED did not exist a year ago.
How it works
LEDs are commonly seen around us in a number of gadgets. LED is a semiconductor diode that emits light under the process of electroluminescence while passing current through it. In this process, the semiconductor works as the medium for the electrons to move and fall into other energy levels during their transit across the p-n junction. As the electrons jump to a lower energy level, they emit a photon of light. This photon or pack of light might either be in the infrared or ultraviolet or anywhere within the visible spectrum of light. Therefore, we need to pick up a color when we manufacture them to meet our varied requirements. Usually, LEDs are manufactured to emit one color of light, though manufacturing bicolor ones and others can easily be done. In addition, there are ways to increase the intensity of light as well. Therefore, the possibilities of broadening their application in the lighting arena are enormous.
LEDs found in normal applications are not at all voltage dependent. LEDs are manufactured according to the buyer’s color needs. Red, green and blue are the most popular colors in LED, while there are also other colors possible. Big LED color displays make use of a three-LED pixel. With this system, a number of colors can be obtained by driving them in the 3-LED assembly.