5A max is certainly for the adapter, not the pins. Pins are an implementation detail, that sticker is telling you what the supply is capable of.
Also, check the power rating. 60W, 12V means a max 5A output.
If I have a device that needs 12v at 8 amps but each pin is rated for max 5a I can deliver 12v at 4-5 amps through two pins and tie them both to the power rail on the pcb to get a full 8a capacity
That’s interesting and perhaps it explains why there would be two 12v pins (so they can be combined to give double the current). But the question remains as to whether “5A max” on the label implies 5A max per pin, or 5A max total when combined.
scribbler@lemmy.world 1 month ago
litchralee@sh.itjust.works 1 month ago
Generally, assume the lower result unless explicitly stated otherwise. If there are two pins supplying 12vdc but only a single output rating, then the assumption should be that the PSU produces a single 12vdc rail, and the total of both pins is 5A max. It is implied (unless otherwise stated) that the full rating of 5A can be drawn from just a single pin.
From a marketing perspective, if there were multiple output rails, they have an incentive for them to list them out in detail. ATX PSUs for PCs do this.
From a safety perspective, it would be downright irresponsible to design a connector on a finished product (like this standalone PSU) that has a lower per-pin rating that what the supply can offer, so any decent pre-built PSU will not have per-pin limits that are lower than the total output limit of that group of pins. As a counterexample, ATX PSUs are a component in a larger product (a computer) and so individual pin limits must be adhered to.