![]() ![]() The brightness of an LED is proportional to the current going through it, but it would be rather difficult to use a microcontroller to accurately control the current flowing through an LED. So the closest we can come to black with our LED is to turn off all three colors. We can control the brightness of each of the red, green and blue parts of the LED separately, making it possible to mix any color we like.īlack is not so much a color as an absense of light. ![]() If we turn off the blue LED, so that just the red and green LEDs are the same brightness, then the light will appear yellow. If we set the brightness of all three LEDs to be the same, then the overall color of the light will be white. You can create one of those three colors – red, green or blue – by activating just one LED.įor example, if you want to produce blue, you activate the blue LED and turn off the other two. This same idea is used in TVs, where the LCD has red, green and blue color dots next to each other making up each pixel. In a way, by using the three LEDs we are playing a trick on the eye. Your eye and brain process the amounts of red, green and blue and convert it into a color of the spectrum. The reason that you can mix any color you like by varying the quantities of red, green and blue light is that your eye has three types of light receptor in it (red, green and blue). Note: If you are using a common ANODE LED instead of common CATHODE, connect the long pin to +5V instead of ground The common anode RGB LED is the most popular type. The longest one is the ground (-) or voltage (+) depending if it is a common cathode or common anode LED, respectively. The 4 pins which can be distinguished by their length. This results in an RGB LED that has 4 pins, one for each LED, and one common cathode or one common anode. ![]() See figure below:Īs you can see, the 3 LEDs can share the cathode or the anode. There are common anode RGB LEDs and common cathode RGB LEDs. By controlling the brightness of each of the individual LEDs you can mix pretty much any color you want. Osoyoo Basic Board (Fully compatible with Arduino UNO rev.3) x 1Īt first glance, RGB (Red, Green, Blue) LEDs look just like regular LEDs, however, inside the usual LED package, there are actually three LEDs, one red, one green and yes, one blue.The name of the model comes from the initials of the three additive primary colors, red, green and blue. In this lesson, we will show how to use a RGB (Red Green Blue) LED with an Arduino. The RGB color model is an additive color model in which red, green and blue light are added together in various ways to reproduce a broad array of colors. Expansion Example - RGB LED Color Control.Note: ALL OSOYOO Products for Arduino are Third Party Board which is fully compatitable with Arduino ![]()
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