Tip Of The Day / Battery Power Your Project

Great video. One of the things that I like about this channel are the real world solutions. Thank you. Take care.

jerril

Note that buck converters have a significant voltage drop. Therefore, using a 3.3V buck converter with a 3.7V battery isn't that ideal, as the internal Schottky diodes can drop the voltage by 0.3 - 0.4V itself. This prevents the battery from being fully utilized. For example, Li-ion batteries cut off at 2.7V, but with a 3.3V buck converter, you can't utilize the entire capacity of the battery since the voltage drop of the converter itself reduces the effective range the LORA module or something else can be powered. Buck converters will work if the working voltage is much higher, for example, if you have 2 Li-ion batteries in series or a 12V lead-acid battery.

Also, the power density of LiFePO4 batteries isn't as high as that of Li-ion batteries (if space is a concern), but they are much safer and are superior to lead-acid batteries.

For powering a LORA module, it's better to use a buck-boost converter. It can regulate the output to 3.3V regardless of the battery voltage which ensures an efficient usage of the battery. On the other hand, adding few decoupling capacitors and an inductor on the DC output will help filter and stabilize the power supply!

For reverse polarity protection, it's better to use a 1.5KE TVS diode series (like the 1.5KE6.8A unidirectional TVS diode) because it can dissipate a lot of power. Connect it in reverse and use a sensitive fast-blown fuse to protect the TVS diode from damage. If the batteries are inserted in reverse, the diode will conduct, causing the fuse to blow immediately. Alternatively, you can use a circuit with active components that won't blow any fuses but will prevent the circuit from starting up, but such circuits will consume a bit of power.

SouravTechLabs

For 5V projects, I use 4xAA NiMH batteries (2500mAh). Easy to recharge and I don't want to worry about lithium fire. For 3.3V project, I use smartphone batteries going through HT7833 LDO, as they have nice capacity and reliable safety circuitry.

Friendroid

Amazing. You just gave a lot of usefull information in 5min including protection and charging options.
That's why I subcribe, this channel does not waste my time.

ruben

With a Li-Ion 3.7 V battery, you could use a simple Schottky to introduce a small voltage drop and there you have your reverse polarity protection and also overcurrent protection (since a diode will blow much faster than a fuse). The price of this diode is not higher than a fuse and its holder

davidvb

So many good ideas in such a small amount of time. Thank you.

noweare

This is such an information rich video and yet so short. I really appreciate you making this kind of content. Thank you!

bglet

Thanks!! As usual all the best and most useful info

ericcunningham

Wow, such a lot of useful information on powering our projects in under 5 minutes! It should be noted that the charging voltage and current in 18650 lithium ion batteries is HIGHLY sensitive, down to tenths of a volt or damage will occur. I found this out the hard way, that even with a current limited supply that's not enough. I like your use of the lithium iron phosphate 18500. I will have to consider those in the future. I'm also a fan of the nickle metal hydride batteries. I have some Japan made Evergizers that I bought around 2006 that I bought for my 2 meg pixle digital camera that are still going strong. Watch what brand you buy. A lot of light weight cheap batteries out there that are complete garbage! Thanks for sharing and take care!

WRMD

Last time I looked into charging circuits for small LFP batteries, they didn't really exist. I'm glad to see that we can get them now...which is very cool! I saw a few pictures of a TP5000 charging board similar as to what have and they show a resistor you can change to adjust the charge current. Looks like it might be 0.5, 0.1, and 0.2 Ohms for bulk charge (CC) currents of 2A, 1A, and 0.5A. I was curious as to what rate you were bulk charging your cell at.

My knowledge of LFP exists with large prismatic cells...which most manufactures recommend a charge rate around 1C or lower. I'm also curious if your cells specified a recommended charge rate. For longevity reasons, prismatic manufacturers seem to recommend less than 0.5C. That said, considering the low cost of such a small LFP cell, I highly doubt anybody is trying to get 20 years and 10, 000 cycles out of them.

RK-knud

The nice thing about using AA size batteries is that you can use an alkaline batteries in a pinch.

romancharak

Can you recommend a good (and affordable) source for those LiFePO4 batteries?

Bonus if it ships to Canada without tripling the price.

pileofstuff

Another very useful video, well done!

johncatsoulis

i'm having trouble powering a esp32-cam via a 3.7v lipo. which boost converter do you recommend?

nilbject

its a GREAT explanation, except my proyect is 5v. 2amps....
what can i use?

deletedmediatj