Congratulations, you know the basics! Maybe you've even gotten your hands on a few LEDs and started lighting stuff up, that's awesome! How would you like to step up your blinky game? Let's talk about makin' it fancy outside of your standard LED.
Close Up of Super Bright 5mm LED Close Up
Here's the cast of other characters.
RGB (Red-Green-Blue) LEDs are actually three LEDs in one! But that doesn't mean it can only make three colors. Because red, green, and blue are the additive primary colors, you can control the intensity of each to create every color of the rainbow. Most RGB LEDs have four pins: one for each color, and a common pin. On some, the common pin is the anode, and on others, it's the cathode.
RGB Common Clear Cathode LED
Some LEDs are smarter than others. Take the cycling LED, for example. Inside these LEDs, there's actually an integrated circuit that allows the LED to blink without any outside controller. Here's a closeup of the IC (the big, black square chip on the tip of the anvil) controlling the colors.
5mm Slow Cycling LED Close Up
Simply power it up and watch it go! These are great for projects where you want a little bit more action but don't have room for control circuitry. There are even RGB flashing LEDs that cycle through thousands of colors!
Other types of LEDs can be controlled individually. There are different chipsets (WS2812, APA102, UCS1903, to name a few) used to control an individual LED that is chained together. Below is a closeup of a WS2812. The bigger square IC on the right controls the colors individually.
Addressable WS2812 PTH Close Up
What is this magic? An LED with a built-in resistor? That's right. There are also LEDs that include a small, current limiting resistor. If you look closely at the image below, there is a small, black square IC on the post to limit the current on these types of LEDs.
LED with Built-In Resistor Close Up
So plug the LED with built-in resistor to your power source and light it up! We have tested these types of LEDs at 3.3V, 5V, and 9V.
Super Bright Green LED with Built in Resistor Powered
Note: The datasheet for the LEDs with built-in resistor indicates that the recommended forward voltage is around 5V. Testing one out at 5V, it pulls about 18mA. Stress testing with a 9V battery, it pulls about 30mA. This is probably at the higher end of the input voltage. Using a higher voltage can reduce the life of the LED. At about 16V, the LED blew out under our stress tests.
SMD LEDs aren't so much a specific kind of LED but a package type. As electronics get smaller and smaller, manufacturers have figured out how to cram more components in a smaller space. SMD (Surface Mount Device) parts are tiny versions of their standard counterparts. Here's a closeup of a WS2812B addressable LED packaged into a small 5050 package.
Addressable WS2812B Close Up
SMD LEDs come in several sizes, from fairly large to smaller than a grain of rice! Because they're so small, and have pads instead of legs, they're not as easy to work with, but if you're tight on space, they might be just what the doctor ordered.
WS2812B-5050 Package APA102-2020 PackageSMD LEDs also make it easier and quicker for pick and place machines to populate a lot of LEDs onto PCBs and strips. You would probably not to manually solder all of those components by hand.
Close Up of 8x32 Addressable (WS2812-5050) LED Matrix 5M Addressable (APA102-5050) LED Strip PoweredHigh-Power LEDs from manufacturers like Luxeon and CREE, are crazy bright. These are brighter than the super brights! Generally, an LED is considered High-Power if it can dissipate 1 Watt or more of power. These are the fancy LEDs that you find in really nice flashlights. Arrays of them can even be built for spotlights and automobile headlights. Because there's so much power being pumped through the LED, these often require heatsinks. A heatsink is basically a chunk of heat conducting metal with lots of surface area whose job is to transfer as much waste heat into the surrounding air as possible. There can be some heat dissipation built into the design of some breakout board such as the one shown below.
High Power RGB LED Aluminum Back for some Heat DissipationHigh-Power LEDs can generate so much waste heat that they'll damage themselves without proper cooling. Don't let the term "waste heat" fool you, though, these devices are still incredibly efficient compared to conventional bulbs. To control, you could use a constant current LED driver.
There are even LEDs that emit light outside of the normal visible spectrum. You probably use infrared LEDs every day, for instance. They're used in things like TV remotes to send small pieces of information in the form of invisible light! These may look like standard LEDs so it will be hard to distinguish from normal LEDs.
IR LED
On the opposite end of the spectrum you can also get ultraviolet LEDs. Ultraviolet LEDs will make certain materials fluoresce, just like a blacklight! They're also used for disinfecting surfaces, because many bacteria are sensitive to UV radiation. They may also be used counterfeit detection (bills, credit cards, documents, etc), sun burns, the list goes on. Please wear eye protection when using these LEDs.
UV LED Inspecting a US Bill
With fancy LEDs like these at your disposal, there's no excuse for leaving anything un-illuminated. However, if your thirst for LED knowledge hasn't been slaked, then read on, and we'll get into the nitty-gritty on LEDs, color, and luminous intensity!
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