![]() The only problem is how to operate them all from a single location. So now you don't need to run a long thick cable to each remote LED strip, and each strip gets full voltage from a local power supply so it has the same brightness. However the room probably already has multiple mains power points that can be tapped into to supply additional LED drivers. A typical LED strip may draw several Amps - your cable might need to be rated for tens or even hundreds of Amps to match the output voltage of a local controller. Therefore the cable needs to be oversized. So to achieve 'insignificant' power loss the current has to be much lower than the ampacity of the cable. That leaves in the ceiling or under the floor, which makes for a difficult installation.īut let's say you don't mind seeing the extra cable or crawling through the ceiling to get it to the destination - just how much larger does it need to be to eliminate visible loss? The human eye is very sensitive to intensity variations, and the strips have multiple LEDs in series so they are quite sensitive to voltage drop. Not alongside it as that would be unsightly. Where will you put the cable? Not in the LED strip channel because there isn't room. ![]() Watts = Volts x Amps, so the current and wire size required to deliver a certain amount of power with minimal voltage drop is much larger at 12V or 24V than at 110V or 230V, and that thick cable has to be run all the way from the power source. (>1mm), the power loss for runs within a single room seem to be Why not use a single transformer, controller and appropriately thickĬables to wire the strips in parallel? Given a certain thickness This ensures each group of LEDs has current limiting resistors. Only cut where the strip indicates it can be cut. Note: You should observe the same guidelines for cutting LED strips regardless of how they are going to be wired/connected. They will always mirror the other strips (assuming they are the same length). If you do this however, you lose any ability to control the strips independently. Again, this can quickly become a pain due to the extra wiring.Īlternatively, if you don't mind that each addressable strip will have identical behavior and show exactly the same pattern as the other strips connected in parallel, you can connect the data line in parallel just like the power connections. You can still power addressable strips in parallel, but you must connect the third data wire in series to retain full functionality. Addressable LED strips are powered in parallel, but they have a serial data bus connected such that each LED has an input and an output, and they relay the signal from one LED to the next, almost like a fire bucket brigade, only instead of water, its bits. In the case of addressable LED strips, things are different. just having series connected strips without any wires, except for a short length and a locally positioned power supply for it.īut if you had 3 5 meter strips that all begin at roughly the same spot, then in that case it would definitely be preferable to wire them in parallel - and as far as I know, people do do this when the setup allows and with great success.Īll of this is strictly in the context of regular, 'dumb' RGB LED strips. You now have to find a way to run all these extra wires, and it might not look very nice, and greatly complicates things vs. If you need to continue this length beyond 5 meters, to do it in parallel, you now have to run 5 meters of extra wiring. If you have a 5 meter LED strip, in many cases, one end of the strip is going to be roughly 5 meters away, or somewhat less depending on how they're being used. I think the main reason you see strips in series and using amplifiers so much is that, often, one of the main aspects of LED strips is the distance being covered. I don't know why exactly you think people don't do this, as in my experience this is done whenever it is warranted. They're already connected in parallel anyway.Īs long as your power supply can handle the load, you can wire LED strips up to it in parallel and it should 'just work'. one giant strip with the same total number of LEDs. So what that means is there is no difference electrically to powering however many strips of whatever arbitrary lengths in parallel vs. But every cuttable 'unit' is already wired in parallel. More accurately, they tend to be groups of 3 or 5 LEDs that share a set of current limiting resistors - hence why you can only cut the strips at every 3rd (or whatever the grouping is) LED. ![]() ![]() In fact, simply by using an RGB LED strip, you're wiring the LEDs in parallel, as all of those strips are just a bunch of parallel connected RGB LEDs with their own current limiting resistors (which is the important feature that lets them be safely connected this way). Actually, people power RGB LED strips in parallel all the time.
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