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Intro to LED Technology
LEDs, or light-emitting diodes, are based on semiconductor technology and were initially used as red-colored, low-intensity indicator lamps on electronic equipment and appliances starting back in the early 1960s.
Modern LEDs are still used as indicators, but many more applications now exist for their use as high-intensity, bright lighting available across the entire color spectrum, as well as on infrared and ultraviolet wavelengths.
Unlike incandescent lighting, which produces its light in a vacuum or fluorescent lighting that emits its light energy in a gas, an LED produces its light from a solid piece of material called a semiconductor. Because of this, it’s known as solid-state lighting. This solid-state configuration is also what allows LED bulbs to be more robust (less delicate) and more durable than incandescent/fluorescent bulbs.
LEDs produce light when excited electrons careen around within the solid structure of a semiconductor. That semiconductor is made of two components – one positive part and one negative part.
The positive layer contains openings through which electrons are able to travel. The negative portion contains innumerable free electrons that, when acted on by introduction of an electrical charge, find themselves traveling from the negative layer to the positive layer of the semiconductor through the holes, causing these electrons to emit light.
They contain no filament to burn out and they don’t get particularly hot, making them much more efficient and durable than other types of lighting.
Modern LEDs are still used as indicators, but many more applications now exist for their use as high-intensity, bright lighting available across the entire color spectrum, as well as on infrared and ultraviolet wavelengths.
Unlike incandescent lighting, which produces its light in a vacuum or fluorescent lighting that emits its light energy in a gas, an LED produces its light from a solid piece of material called a semiconductor. Because of this, it’s known as solid-state lighting. This solid-state configuration is also what allows LED bulbs to be more robust (less delicate) and more durable than incandescent/fluorescent bulbs.
LEDs produce light when excited electrons careen around within the solid structure of a semiconductor. That semiconductor is made of two components – one positive part and one negative part.
The positive layer contains openings through which electrons are able to travel. The negative portion contains innumerable free electrons that, when acted on by introduction of an electrical charge, find themselves traveling from the negative layer to the positive layer of the semiconductor through the holes, causing these electrons to emit light.
They contain no filament to burn out and they don’t get particularly hot, making them much more efficient and durable than other types of lighting.
What can they do?
LEDs are basically tiny light bulbs that can easily be connected to an electrical circuit. For decades they have been used for numerous tasks, including:
• Forming the numbers on digital clocks and lighting up digital watches
• Indicating when electrical equipment or an electrical appliance is operating
• Transmitting remote control signals
• Backlighting cell phones, tablets, PC monitors and televisions
• Providing Christmas lighting
• Providing illumination for flashlights, traffic lights, car lights and much, much more.
LED technology has been called “almost perfect” because of the so many advantages LEDs have over previously-used, conventional lighting. Until recently, the only two downsides of LEDs preventing total dominance in the marketplace has been its inability to provide pure white light for use in home lighting, task lighting, etc., and the much higher cost of producing LEDs compared to traditional types of light bulbs.
• Forming the numbers on digital clocks and lighting up digital watches
• Indicating when electrical equipment or an electrical appliance is operating
• Transmitting remote control signals
• Backlighting cell phones, tablets, PC monitors and televisions
• Providing Christmas lighting
• Providing illumination for flashlights, traffic lights, car lights and much, much more.
LED technology has been called “almost perfect” because of the so many advantages LEDs have over previously-used, conventional lighting. Until recently, the only two downsides of LEDs preventing total dominance in the marketplace has been its inability to provide pure white light for use in home lighting, task lighting, etc., and the much higher cost of producing LEDs compared to traditional types of light bulbs.