![]() ![]() The Hue controller is at the top, and the Hue lightstrip begins at the bottom. The controller is responsible for receiving commands over these protocols, understanding them, and then changing the color (or brightness) accordingly. Some smart lightstrips work over WiFi, whereas some (including Philips Hue’s lightstrips) work over Zigbee. Whereas the pin(s) responsible for the white LEDs will receive more power and come on brightly. If you chose a white color, the RGB (red, green, blue) pins may receive no power – and hence not come on. When you chose a light orange color, the pins responsible for red and white will receive more power than some of the other pins. Smart lightstrips are RGB, meaning they can be set to loads of different colors. Regulate how much power is sent to each ‘pin’ for color changes.When you dim your LED lightstrips, this will alter the amount of electricity consumed – and your controller is what drives this. Dial down the voltage further to support dimming (i.e.Hence an LED controller’s first – and arguably most important – function is often to act as a transformer, taking mains voltage and dialing it down to an acceptable voltage for the lightstrip.īut with smart lightstrips, the controller must do more than just be a transformer: However mains power is much higher than this: anything from 120-240V depending on where you live in the world. Many LED lightstrips are fairly low power: Philips Hue’s runs at 24V and 0.83A, for example, meaning they run at just under 20W. A Zigbee controller (not from Philips Hue) ![]()
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