0:41 This module is not optimal. So if you use this component (3.7V) for Lithium Iron Phosphate (3.2 V) how quickly do you believe it would destroy the battery? I think if the device was 3.2V and you charged Lithium Ion then it would be safer because using too low voltage should be harmless, right? I just want to understand the wiggle room of things.
Is this the same as the model of TP4056 that has no OUT+ and OUT-, but has only BAT+ and BAT-? Can they be used in the same way by connecting battery and output together?
Can you simulate the battery with your bench power supply then test the BMS part of the module.. test under voltage protection, and specially test the over current protection. It would be very helpful.. Thanks.
Recently the price of this tp4056 module dropped down to about 13 cents usd for some extreme flash sales online ....which was about 30 cents per piece before. I have ordered 10 of them in only $1.30.... (from Bangladesh)
@@souravchakraborty4571 yes bro... It also has a really low quiescent current.... So it's very convenient... Recently i used a couple of them in my diy solar panel circuitry....
1:22 Which is of 1 Amp If you want to build a battery charger for a quick recharge. Then 1 Amp would not cut it? Mind that you can charge a Tesla very quickly. I think 15-30 Min? Is 1 Amp a standard setting? Maybe more so that it doesn't overheat the charging device? I'm always on the lookout for a quick charging solution because if I'm going on a long ride I would love to park my E-Bike somewhere, take a break for 30 minutes, and then I'm good to go. But at the moment to charge my batteries it takes me about 3.5 hours. Frustrating. I have Iron Phosphate and I love my batteries. Been using them for over 10 years now.
