When picking out your lights, there are tons of options to choose from. How do you
know what style of under cabinet lighting is right for your kitchen? This section will help
you find your ideal under cabinet lights based on light source, fixture style, color, cost,
energy-savings, special features, special needs, and how you use your kitchen.
Light Source A great place to start when deciding which under cabinet lights are right for you is to first select the light source. The way each one produces light affects most other aspects as well - the fixture style, the color of light, the efficiency, and the rated life all hinge on this one thing. Here’s what each light source is like:
Fluorescent A regular fluorescent light bulb consists of a glass tube coated on the inside with a phosphorous substance. Inside the tube are mercury vapor and two tungsten coils at opposite ends. To produce light, the tungsten heats up and passes electrons back and forth. The electrons collide with the mercury atoms, sending out UV light. Finally, the UV light, which isn’t visible to the naked eye, passes through the lamp’s phosphor coating, sending out the white light we see. It’s important to note that fluorescent lights have come a long way since the hideous greenish ceiling fixtures found in outdated schools and offices. New ones emit bright white light, and with instant start technology, they can turn on without flickering or buzzing. A fluorescent lamp emits light evenly over its entire surface, so you can have a uniform distribution of light across the length of your countertops. If you like bright reliable light to help you spot even the smallest details on your countertops while making your backsplashes catch the eye, these lights are a great choice.
LED Unlike other light bulbs, LEDs are an electronic light source. They produce light just by the movement of electrons in a semiconductor material. Electrons release energy in the form of photons, or light. In essence, LEDs (light emitting diodes) are tiny light bulbs attached to electrical circuits. Collected together in clusters, they can produce enough light to be useful. Each LED light fixture contains many diodes. Manufacturers can arrange these diodes in almost any configuration, to be as streamlined or as decorative as you want. Just like fluorescent lights, the LED is a newer light source that has come a long way since its start. LEDs seem to be quickly overtaking fluorescent lights as a very popular kind of under cabinet light. This is because they are more efficient, last longer, produce a higher range of color temperatures, and their sleek design lets them fit inside creatively designed fixtures. If you have a custom lighting project in mind, or just like saving energy with your lighting, LEDs are a great choice.
Xenon A xenon lamp is a kind of incandescent light bulb. The lamp has a thin tungsten filament within its glass envelope, and when electricity flows through it, it heats up until the filament glows white hot and produces light. Xenon light bulbs get their name from the xenon gas added within the lamp. Why add gas? Regular incandescent light bulbs have vacuums within their envelopes because air oxidizes the glowing tungsten. An inert gas like xenon slows down this process, prolonging the life of the light bulb. The large gas molecules deflect the tungsten molecules, slowing their rate of evaporation and making the filament last longer.
read more :"U" is for Under Cabinet Lighting
Light Source A great place to start when deciding which under cabinet lights are right for you is to first select the light source. The way each one produces light affects most other aspects as well - the fixture style, the color of light, the efficiency, and the rated life all hinge on this one thing. Here’s what each light source is like:
Fluorescent A regular fluorescent light bulb consists of a glass tube coated on the inside with a phosphorous substance. Inside the tube are mercury vapor and two tungsten coils at opposite ends. To produce light, the tungsten heats up and passes electrons back and forth. The electrons collide with the mercury atoms, sending out UV light. Finally, the UV light, which isn’t visible to the naked eye, passes through the lamp’s phosphor coating, sending out the white light we see. It’s important to note that fluorescent lights have come a long way since the hideous greenish ceiling fixtures found in outdated schools and offices. New ones emit bright white light, and with instant start technology, they can turn on without flickering or buzzing. A fluorescent lamp emits light evenly over its entire surface, so you can have a uniform distribution of light across the length of your countertops. If you like bright reliable light to help you spot even the smallest details on your countertops while making your backsplashes catch the eye, these lights are a great choice.
LED Unlike other light bulbs, LEDs are an electronic light source. They produce light just by the movement of electrons in a semiconductor material. Electrons release energy in the form of photons, or light. In essence, LEDs (light emitting diodes) are tiny light bulbs attached to electrical circuits. Collected together in clusters, they can produce enough light to be useful. Each LED light fixture contains many diodes. Manufacturers can arrange these diodes in almost any configuration, to be as streamlined or as decorative as you want. Just like fluorescent lights, the LED is a newer light source that has come a long way since its start. LEDs seem to be quickly overtaking fluorescent lights as a very popular kind of under cabinet light. This is because they are more efficient, last longer, produce a higher range of color temperatures, and their sleek design lets them fit inside creatively designed fixtures. If you have a custom lighting project in mind, or just like saving energy with your lighting, LEDs are a great choice.
Xenon A xenon lamp is a kind of incandescent light bulb. The lamp has a thin tungsten filament within its glass envelope, and when electricity flows through it, it heats up until the filament glows white hot and produces light. Xenon light bulbs get their name from the xenon gas added within the lamp. Why add gas? Regular incandescent light bulbs have vacuums within their envelopes because air oxidizes the glowing tungsten. An inert gas like xenon slows down this process, prolonging the life of the light bulb. The large gas molecules deflect the tungsten molecules, slowing their rate of evaporation and making the filament last longer.
read more :"U" is for Under Cabinet Lighting
Choosing Under Cabinet Lights
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