turbo-1 said:And don't forget redundancy. If you have a stop light made with an array of 100 LEDs and one of them fails, is that going to change the way people behave when the light comes on? At least it's not a single bulb that can burn out and cause confusion (and fender-benders).
If the substrate was silicon, then we might see giant LEDs. Silicon's cheap. Unfortunately, silicon is an indirect-gap material, and most LEDs are made from more exotic direct-gap materials, like Gallium Arsenide and Gallium Nitride. These materials are several times the price of silicon. (Although, I have read that one group is working on making a blue silicon LED, though I have no idea how that would work.)berkeman said:Probably the cost of that large a piece of silicon. It's probably more cost effective to get as much light as you can out of as small a piece of silicon as you can (more die per wafer), and use cheap plastic to distribute that light out.
An LED light array is a group of individual LED lights that are arranged in a specific pattern or formation. These lights work together to create a larger, more powerful source of light.
There are a few reasons why several small LED lights are preferred over one large LED light. First, small LED lights can be more efficient and produce a brighter light than one large LED light. Additionally, having several smaller lights provides more flexibility in terms of placement and customization. In case one light fails, the others can continue to function, whereas if a large light fails, the whole system may be affected.
Each individual LED light in the array emits its own beam of light, which combines with the other lights in the array to create a larger and more powerful light source. This is known as the "coherent superposition" effect, where the individual lights work together to create a more uniform and powerful light output.
Yes, the number of small LED lights in an array can be adjusted depending on the desired outcome. More lights will generally result in a brighter and more powerful light source, while fewer lights may be suitable for smaller or more focused lighting needs. The number of lights in an array can also be adjusted to optimize energy efficiency.
One potential disadvantage of using several small LED lights is the initial cost of the system, as multiple lights may be more expensive than one large light. Additionally, if not properly designed and arranged, an LED light array may produce uneven or inconsistent lighting. However, these potential disadvantages can be mitigated with proper planning and design.