Light plays a crucial role in our daily lives, enabling us to see and perform various activities efficiently. With the advent of technology, fluorescent and LED lighting have become increasingly popular. Understanding the differences between these two lighting technologies is crucial, as they can impact our energy consumption, environmental footprint, and overall well-being.
This article will tackle the differences between fluorescent and LED lighting technology. Read on to know more!
What is fluorescent lighting?
Fluorescent lighting is an older technology that uses tubes or fixtures that contain fluorescent material. These cool or warm materials give off light when an electrical current is passed through them. The light emitted from these materials depends on their color temperature, which is the Kelvin rating of fluorescent light.
While these lights are very efficient at converting electricity into light, they have disadvantages. For starters, they are more expensive to produce compared to LED lighting. Moreover, they’re also more costly to maintain because they require more frequent replacement of tubes and filters.
What is LED lighting?
LED, or “light-emitting diode,” is a light source that produces light using semiconductors. Unlike fluorescent light, there are no flammable filaments in LEDs. They emit light without heat or energy loss, making them more efficient and less expensive than fluorescent fixtures.
LED lights have virtually no maintenance and are designed with long lifespans. They also don’t require any external power to work. These features make LED an excellent choice for hospitals, schools, and retail spaces with unstable electricity sources. You may also adjust the brightness and hue of this kind of lighting.
How does fluorescent lighting work?
Fluorescent lights work by generating a continuous stream of ultraviolet radiation. This ultraviolet radiation is absorbed by a fluorescent material, which emits visible light once the electric current is removed. This type of light casts a broader range of wavelengths than visible light, which makes it ideal for germicidal purposes. Suitable fluorescent lights include T5 tubes and fluorescent fixtures with a color ball. This ball has a coating of a specific material that absorbs ultraviolet radiation while emitting all the other wavelengths that make up visible light.
Fluorescent lights can be either warm or cool, depending on their emitted wavelengths. Warm fluorescent lights emit orange and yellow wavelengths, while cool fluorescent lights cast blue and purple wavelengths.
What is fluorescent lighting?
Fluorescent lighting is an older technology that uses tubes or fixtures that contain fluorescent material. These cool or warm materials give off light when an electrical current is passed through them. The light emitted from these materials depends on their color temperature, which is the Kelvin rating of fluorescent light.
While these lights are very efficient at converting electricity into light, they have disadvantages. For starters, they are more expensive to produce compared to LED lighting. Moreover, they’re also more costly to maintain because they require more frequent replacement of tubes and filters.
What is LED lighting?
LED, or “light-emitting diode,” is a light source that produces light using semiconductors. Unlike fluorescent light, there are no flammable filaments in LEDs. They emit light without heat or energy loss, making them more efficient and less expensive than fluorescent fixtures.
LED lights have virtually no maintenance and are designed with long lifespans. They also don’t require any external power to work. These features make LED an excellent choice for hospitals, schools, and retail spaces with unstable electricity sources. You may also adjust the brightness and hue of this kind of lighting.
How does fluorescent lighting work?
Fluorescent lights work by generating a continuous stream of ultraviolet radiation. This ultraviolet radiation is absorbed by a fluorescent material, which emits visible light once the electric current is removed. This type of light casts a broader range of wavelengths than visible light, which makes it ideal for germicidal purposes. Suitable fluorescent lights include T5 tubes and fluorescent fixtures with a color ball. This ball has a coating of a specific material that absorbs ultraviolet radiation while emitting all the other wavelengths that make up visible light.
Fluorescent lights can be either warm or cool, depending on their emitted wavelengths. Warm fluorescent lights emit orange and yellow wavelengths, while cool fluorescent lights cast blue and purple wavelengths.