LEDs are everywhere. There’s a good chance you’re reading this article about LEDs by the light emitted from one or more LEDs. But what exactly is an LED? In this guide, we teach you the basics.
LED Definition
LED stands for Light-Emitting Diode, an electronic device made of two types of semiconductor material. Similar in concept to the semiconductor material used in computer components (such as RAM, processors, and transistors), diodes are devices that allow the flow of electricity to occur in only one direction.
An LED does the same thing. It blocks the flow of electricity in one direction while letting it move freely in the other. When electricity, in the form of electrons, travels across the junction between the two types of semiconductor material, energy is given off in the form of light.
LED History
The credit for the first instance of an LED belongs to Oleg Losev, a Russian inventor who demonstrated an LED in 1927. However, it took almost four decades before the invention was put to practical use.
LEDs first appeared in commercial applications in 1962, when Texas Instruments started selling an LED that gave off light in the infrared spectrum. These initial LEDs were used primarily in remote control devices, such as early television remotes.
The first visible-light LED also made its appearance in 1962, emitting a somewhat feeble, but visible, red light. Another decade would pass before the brightness would be substantially increased, and additional colors, primarily yellow and a red-orange, were made available.
LEDs took off in 1976 with the introduction of high-brightness and high-efficiency models that could be used in a variety of applications, including communications and as indicators in instrumentation. Eventually, LEDs were used in calculators as numeric displays.
Blue, Red, Yellow, Red-Orange, and Green LED Light Colors
LEDs in the late 1970s and early 1980s were limited to only a few colors—red, yellow, red-orange, and green being the most prominent. While it was possible in the lab to produce LEDs with different colors, the cost of production kept additions to the LED color spectrum from reaching mass production.
It was thought that an LED producing light in the blue spectrum would allow LEDs to be used in full-color displays. The search was on for a commercially viable blue LED, which could produce a wide spectrum of colors when combined with existing red and yellow LEDs. The first high-brightness blue LED made its debut in 1994. High-power and high-efficiency blue LEDs appeared a few years later.
The idea of using LEDs for a full spectrum display never got too far until the invention of the white LED, which occurred shortly after high-efficiency blue LEDs appeared.
Although you may see the term LED TV or LED monitor, most of these displays use an LCD (Liquid Crystal Display) for the actual display component and use LEDs to illuminate the LCDs. That’s not to say true LED-based displays aren’t available in monitors and TVs using OLED (Organic LED) technology. These devices tend to be pricey and difficult to manufacture at large scales. However, as the manufacturing process continues to mature, so does LED lighting.
Uses for LEDs
LED technology continues to mature, and a wide range of uses for LEDs have been discovered, including:
- Appliances and consumer electronics: Check that TV remote. Chances are there’s an infrared LED at the business end of the remote.Indicator lights: At one time, neon and incandescent lights were commonly used for commercial and industrial indicator lights. Now LEDs, which are more efficient, have longer lifespans, and are generally less expensive, have taken over.Displays: These uses of LEDs include the alphanumeric displays seen in everything from early calculators, clocks, advertising signs, and transportation displays. It’s also likely that your TV and computer monitor use LEDs to illuminate the display.Light bulbs: LEDs are on the way to replacing the incandescent light bulbs perfected by Thomas Edison. Along the way, fluorescents in homes and commercial venues are also seeing less and less use.
LEDs will continue to be used in a wide variety of products, and new uses are being rolled out all the time.
- What is QLED vs. LED?
- QLED and LED are used in reference to TVs. An LED TV is like an LCD (liquid crystal display) TV, but LED lights serve as the backlight instead of fluorescent lights. A QLED TV is an LED TV that produces brighter and more saturated colors due to a quantum dot layer that sits between the backlight and the LED panel.
- What’s the difference between OLED and LED?
- OLED stands for Organic Light-Emitting Diode. In terms of TVs, an OLED TV doesn’t have a backlight, but an LED TV does. OLED technology uses electroluminescence, meaning millions of tiny pixels create light depending on how much electric current they receive. OLED TVs make excellent colors with sharp contrast ratios.
- Which LED light color is best for sleeping?
- Warm LED colors, such as red and yellow, are considered best for sleeping because eyes are less sensitive to these colors, and their “color temperature” is lower than that of the sun. However, blue light can disrupt your internal clock and disturb your melatonin production, making this cooler color a poor color to surround yourself with when trying to sleep.
QLED and LED are used in reference to TVs. An LED TV is like an LCD (liquid crystal display) TV, but LED lights serve as the backlight instead of fluorescent lights. A QLED TV is an LED TV that produces brighter and more saturated colors due to a quantum dot layer that sits between the backlight and the LED panel.
OLED stands for Organic Light-Emitting Diode. In terms of TVs, an OLED TV doesn’t have a backlight, but an LED TV does. OLED technology uses electroluminescence, meaning millions of tiny pixels create light depending on how much electric current they receive. OLED TVs make excellent colors with sharp contrast ratios.
Warm LED colors, such as red and yellow, are considered best for sleeping because eyes are less sensitive to these colors, and their “color temperature” is lower than that of the sun. However, blue light can disrupt your internal clock and disturb your melatonin production, making this cooler color a poor color to surround yourself with when trying to sleep.
Get the Latest Tech News Delivered Every Day