Do you want to know the newest news about usb temperature controller? Do you need to be the first in line about the developments on usb temperature controller? Are you currently itching to obtain as much as the minute information?
This artice may have the facts which you have to have which is fresh in the supply! You may subscribe to our feeds or you may join the mailing list, so you could be sure that you just are in with all the times,and ahead of every person!
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.
This weblog began out as a easy repository of easy data, then it grew to come to be a spot on the net which is unquestionably committed to %keywords%. We thank totally everybody who contributed to our blog as well as the folks who painstakingly take time to study and comment – to make our website the best that it might be.
Marios asked Where is the current regulating circuit located; inside the battery, smartphone itself, or in the charger?
Most smartphone usb wall chargers read on their specifications "IC prevents overcharging" yet I keep reading at forums that the battery itself regulates the charging current. Well, where is located the circuit that regulates the charging current; inside the battery, inside the phone or inside the charger?
And got the following answer:
Yes. That doesn't sound like an answer, let alone the correct one, but it definitely applies. Most chargers that are meant to deal with Li-Ion, Li-Poly or other modern rechargeable batteries containing monitoring chip(s) that act to time the charge or test temperature during charge. In cases where they are designed for each other, it may communicate with another chip in the battery directly to more closely monitor temperature rises, charge current or voltage changes and other factors that may affect more complicated charge profiles for certain chemistry types. Where in phone charging is concerned, some or all of the phone's micro controller power may be used with these chips to signal the charger or send data about the battery condition and preferred charge profile. Charging modern chemistry types of rechargeable batteries is no longer as straight forward as it was for older lead-acid batteries. Some types must not begin charging until fully discharged, so the charger will actually fully discharge the batteries first. Some types actually go through a pre-charge conditioning phase, a phase where charge current and voltage are brought to a maximum charge current and voltage and left there through a final phase while monitoring for the voltage drop that indicates full charge has been reached to shut off the charge. These are examples of why chargers, battery packs and phones or other equipment all do sophisticated monitoring and data gathering processes to charge a battery more safely and as efficiently as possible. I hope this will help you understand more about a complicated issue and why all three can be considered correct. It is also true that more powerful chemistry types come with the ability to explode or vent from less charging instability, so need to be monitored by the equipment to help prevent this. Good luck and stay safe!