Are you on the lookout for critiques about 5v 3a power supply? study the product evaluations, we are going to tackle the unique aspects, fundamentals as well as other points of interest about 5v 3a power supply. Quite a few readers find that this weblog is a good location to start if you would like to purchase the prodct about 5v 3a power supply.
We will supply detailed resources like evaluations, photos, articles, videos and links that might be of superior use for those who want to make a additional detailed study about it.” when you wish to get more information about 5v 3a power supply. just see clearly as below.
Reviews: customer reviews...
List Price: unavailable
Sale Price: Too low to display.
No description available.
No features available.
There was an error connecting to the Amazon web service, or no results were found for your query.
I hope this write-up has provided you new insight around the topic and provided you some things to take into consideration. Although there’s definitely absolutely nothing new under the sun, the info and information which you’ve got just completed reading is presented in a fresh and fascinating way.
One point is for confident, information on this subject is supplied all over the net and this write-up is 1 of lots of articles obtainable around the topic. We adore writing on this topic and have presented our point of view. Genuinely really feel cost-free of charge to appear about and discover our web-site for a lot extra %keywords% information.
Mister Pink asked How to get 5V 3A from a PC Power Supply?
Hello, I'd like to make my own lab power supply with the precise output of 5V for 3 Amps. I got ahold of an old PC Power Supply and managed to manually turn it on by shorting the green wire to a COM black wire. When I put my meter to the 5V cable, it indicates an amperage of only 1 Amp. Yet on the power supply it indicates a potential amperage of 10 Amps for 5V. My question is how I can I get the 3 Amp output. I intend to use it for a perchlorate production cell and connect the wires to anode and cathode. Sorry for being so ignorant about that 🙂
And got the following answer:
Well, the supply has nothing to do with how much current is drawn. It has a MAXIMUM current rating, but that's all. The circuit is what determines how much current is actually drawn out of the power supply. Assuming the output is actually 5V, if your circuit has a resistance of 1.6 ohms, then 3 amps will flow. If the resistance is higher, less current will flow. If it is lower, then more will flow up to the limit of the power supply. At that point either the fuse will blow, or the voltage will drop to protect the power supply, depending on the type of supply. I don't know anything about perchlorate production. But perhaps your solution isn't correct or there is a problem with your anode/cathode that is increasing their resistance. Or perhaps your anode and cathode don't have enough surface area?