We’ve all heard that two heads are better than one. About COB LEDs, this is also the same principle that most LED chip packages use. Accordingly, there are a variety of chip packages out there for you to select. Namely, you can get surface-mounted diodes, chip-on-board LEDs, multiple chips onboard LEDs, and various chips and cups onboard packages.
Nevertheless, in this guide, we will explore COB LEDs and what they are precise. You will find that they are pretty helpful. For instance, you can utilize them in your next DIY LED grow-light project. But first, let us explore what a COB LED is and how it works.
As we described in the introduction, COB stands for chip-on-board. The technology only came to market in the last ten years. Thus, we can consider it relatively new compared to other standards.
COB LEDs consist of multiple LED chips grouped and bonded together to create a single module. There are usually nine chips (or more) in a module. As you can tell, this can amount to more intense lighting that can reach up to 250 lumens (at 20mA) on a large chip. Furthermore, they appear as one light instead of multiple single lights.
This section will cover a few pros and cons of using COB LEDs.
You might be curious as to how you can use COB LEDs. Maybe this section will offer you a bit of inspiration. We will look at a few uses and applications for COB LEDs.
SMD (surface mounted device) LEDs are currently the most popular market. You can consider them to be the predecessor to COB LEDs. SMDs are like COB LEDs in that they do not require direct contact with wires. Instead, they use tiny metallic contacts to function. The LED chip connects to a PCB substrate.
The PCB is usually in the shape of a square or rectangle. You can identify the LED chip by its position on the SMD. It looks like a small black point in the middle of the PCB. SMDs come in various sizes including: 2835 (2.8 x 3.5mm), 3030 (3.0 x 3.0mm) and 3014 (3.5 x 2.8mm). Additionally, you can find them in 5050 (5.0 x 5.0mm) and 5630 (5.6 x 3.0mm) sizes too.
One of an SMD LED’s most outstanding features is when it contains an RGB (red, green, and blue) diode, you can output almost any color. That’s why we use SMD LEDs in cell phone devices. We also use SMD LEDs in strip lights and specialized light bulbs.
Firstly, COB LEDs have nine or more diodes, while SMD LED chips to contain up to three diodes with a circuit attached. Each SMD LED light course has a cathode and anode. Compared to COB LED modules, which have all the diodes connected to a single circuit. Accordingly, light from an SMD LED module looks like it projects from multiple sources. Inversely, light from a COB LED looks like projects from a single unified light source.
However, this also gives the SMD LED module an advantage. This allows it to contain RGB diodes, which we can use in color-changing bulbs. Additionally, SMD LED modules are exceedingly bright. They can produce up to 100 lumens per watt. COB LEDs are still better at single-color applications. Furthermore, they provide you with better lumen per watt ratios when compared to SMD LEDs. They also require less energy to do so.
CREE refers not only to a company but also to the lighting technology they create. The industry considers CREE one of the biggest manufacturers and innovators in bright LED innovation. One of the most notable features of the technology is its lack of mercury.
You can find them with green and blue LED chips. They are powerful enough to deliver up to 815 lumens of light. This is if they are in shatterproof housing. You can use them in radio frequency applications, backlighting, general illumination, solar inverters, and power suppliers.
When you compare CREE light systems to COB LED lights, you will first notice that they look different. CREE LED lighting systems are larger and have a wider PCB area. CREE systems can dissipate more significant amounts of heat thanks to larger surface areas. That is important because it can influence a chip’s lifespan.
Once again, COB LEDs work as a single unified light source. CREE LED systems work very similarly to SMD LEDs. They consist of a variety of components bound to a PCB substrate. Thanks to their design, COB LEDs can illuminate a large visual angle.
Additionally, COB LEDs have better lumen/watt ratios than CREE LEDs. It is also more heat efficient.
Earlier, we briefly touched SMD LEDs and compared them to COB LEDs. Generally, the SMD consists of the LED chip, phosphor encapsulation, L-frame solder points, and a plastic reflector.
Flexible strip lights use miniaturized versions of COB LED. They consist of phosphor film, a chip, and solder points underneath. Hence, they may be a little more simplistic in their design than SMDs, thus why we use LED light strips.
We compact the flip-chip LEDs down the middle of the strip light. You can find up to 512 LEDs for every meter. The best thing about COB-based LED flex strips is the lack of LED hotspots. A hotspot refers to inconsistently bright areas on the SMD LED flex strip.
COB Flex strips produce smooth, consistent strip lighting. COB LED flex strips are also brighter than SMD-based strip lights. The smaller diode size makes them much more flexible and produces less heat. You can cut and shave them. Additionally, they come in a small variety of colors and sizes.
As you can see, COB LEDs are handy. Once again, you can use them to create various projects, such as a COB LED grow light. If you do not have a green thumb and are not fond of plants, you can always create your focused COB LED work light.
You can use individualized COB LED strips, single modules, or a COB LED bulb. The technology is quite versatile.
What are LED corn cob lamps? They are large light bulbs that use rows of individual COB LEDs to emit powerful light. Most people see them as a viable replacement for metal halide bulbs because of their efficiency. The fact that you can replace high-intensity discharge with LED corn cob lamps further highlights their usefulness.
COB LEDs are small, flexible, and power-efficient. They also have excellent heat dissipation when paired with an LED heatsink. Additionally, they deliver incredible lumen/watts per area. They essentially provide you with greater light density.
A COB LED’s lifespan will depend on how you use them and how much heat is around them. The average rated lifespan of a COB LED is 50,000 hours. This is if you use them for an average of 12 hours daily.
COB LEDs do not necessarily require drivers to function. They do, however, require consistent and constant power. The best way to maintain a current to a COB LED is through a driver.
There is strength in numbers, and COB LEDs exemplify this. Furthermore, COB LEDs have a straightforward circuit design. They are easy to use and provide you with high light density. After reading the above guide, you may want to incorporate them into your next project. Nevertheless, we hope you have enjoyed reading this guide. Please visit the rest of the site if you are interested in more information about LEDs and PCBs. Thank you for reading.