How to Make a Battery Protection Circuit (over-discharge protection)

*This battery reconditioning program exceeded my presumptions. It worked on any drill battery, several AA and AAA batteries, **batery.repair** and any camera battery. The steps are simple and the act itself is exciting to do. No matter what type of battery you`ve got, it is sure to function again!*

By the way, put that paypal stuff as a link, or make it much more visible somehow. There is nothing wrong with monetizing quality contents like this. And I'd like to compliment you on your commenting style too, very clear and easy to understand.You have made a huge improvement from some of the earlier videos!

I donated a couple of dollars to this. It's incredibly well produced, easy to understand. Highly recommended.

9 years later, still GOLDWORTH thank you very much!

Really well explained! For me what I learned most from was where you ran the almost-completed circuit just to show that the last wire from the button was needed to turn the relay off. A novice like me would never have caught on to that if you hadn't explained it so well, and that kind of teaching is the greatest! Keep it up, your projects are really fun to watch.

So clear, concise, and free of any requirement to understand electrical circuits to any depth. Congratulations!

Dude thank you for churning out these videos! The level of detail and care to educate are awesome. Thank you again.

I am really impressed by the quality of your videos! The animations and overlays are exactly where they're need every time, and they even have sound effects.
Coupled with the excellent technical knowledge displayed in your content, I am a really happy subscriber!
Keep making videos, please.

If this were any better, I could listen once and do it in my sleep. Thanks for such clear and concise instructions!!

I know this isn't really related to the video, but I find your voice and presentation style rather relaxing.

Thank you for this. I use LiPos and LiFe's to power a lot of my film equipment, from my Red on a Ronin to remote monitors. While i am always very aware of voltages and usually manage to keep a good eye on them, I can never trust a director to turn off a remote monitor when he puts it down and walks off for a smoke. I'm sure building a few of these will change my life!

I see that you cut your stripboard with a hacksaw. Have you tried scoring the board on both sides with a box cutter, and snapping it off? It works wonders!

You make the best videos! Brief but thorough description of the underlying basics, great links to resources and background info, very clear description of steps in the project with caveats. I watched many of your videos even though I dont even consider building the shown projects, but just for the knowledge gained and your way of explaining things.
Thank you.

SUPERB quality as always! You should have your own TV show or something!

I absolutely love your videos and this project! I was designing a lipo protection circuit and came across this which saved me tons of time and money going with the little buzzer board! Fair Warning, Depending on the relay you get the the reset and de-energized coils might be flipped. Check Relay before soldering everything up or in my case designing and ordering a PCBs LOL. I do have a gerber file for the PCB and a component BOM which I would be happy to share in case anyone wants to build one of these themselves, it will make it a lot easier. All Credit goes to DIY Perks!

I love your videos so much. Even if I have no intention in making what is shown, the video is always so professionally done and I learn so much. Keep up the great work

i love your editing style, it's so clean and nice

love your latch relay animations, good work!

The Problem of this design is that the battery warning module uses just one of the lipo cells to power it and two cells to power the buzzers...if you leave this circuit working for a few days the first lipo cell will be far out of balance because it had to power the module all the time with its red led display. But still a good design for short time high power usage.

Your videos have a fantastic production standard! It's lovely. :)

Very nicely done Sir! Also, thank you for taking the time to make this very complete and easy to follow. Such a necessary item!

A nice piece of electrical engineering that almost anyone could make - good job.

I don't know what the situation was back in 2014 when this video was made, but these days (2017) you can get complete battery charger and protection circuits from China through sites like eBay for peanuts (or pretty near).
I built a supplementary external battery pack for my laptop using a balance charger+protection board. The pack uses a dozen 3700mAH 18650 cells in a 4P3S arrangement (4 cells in parallel in each group, and each group in series for 11.1V at 44400mAH). The output goes through a double-pole switch to a buck-boost converter which provides a steady 19V output at a maximum of 8 amps, so it runs cool.
The only real down-side is that using a standard laptop charger which provides only 4.5 amps, it takes around 12 hours to fully charge my battery pack. :p
But it works, and I made it myself! :)

This technique is so cool. you could wire leds or apliances or anything to stuff.. It all makes sense now

Good video. Clear and simplistic with great animation.

Great video. Your detail is amazing and appreciated! Keep up the good work!

Thanks for sharing this. I've put this design to use a couple of different ways. Great idea. Works as advertised!

At 7:08 - The high current wires are only separated by the gap between the VERO strips. I would certainly insulate the gap between the wires further - a good blob of hot glue, e.g.
For a version 2, I’d separate these wires by a complete copper strip, and remove the copper from that strip beside the solder joints.
Having seen the power of LiPo batteries of this modelling type, I’m very twitchy - with my safety hat on - that you have put the two ends so close together on the VERO board. The model motor could be drawing 50-100 Amps. The smallest fault here could burn out the VEROboard track, with an associated fire risk.
I’ve been doing model LiPo projects in a School for a while, where we watch the safety aspects very closely.
Otherwise, a great and clearly explained video.
Matt Lee, (aged 56, with a related degree.)

I rarely comment on any video, but today I'd like to thank you. I always been passionate about this electronics "medium/easy" I have equipment but never felt confident to use it. Really good video. I think voltages in US are different that here in Spain, but anyway, I found the video absolutely didactic. I am considering a small donation by the way.

This is great. Even a lunk like me could follow this. My real issue is that I want a protection circuit for overcharging as well so I can keep the battery connected to the item I'm powering.

Nice circuit! One worthwhile improvement might be to make this not draw quiescent current when the battery is fully drained. This could be done my taking the digital electronics out completely and just using the relay and some passives to keep itself latched. A resistor will limit the current to coil, and when the current gets to low for the relay to stay latched, a normally open pair of contacts will open and break the connection to the coil. To relatch the circuit, a short surge of current will need to energize the coil temporary to latch it again. To avoid the problems that using electromechanical devices might pose, one might consider doing something similar with latching transistors and zener diodes

One more tip - if you are dealing with relays, add so called clamper (also called flyback, frewheeling diode) diode in parallel to the coil. It's a good rule of thumb when working with inductive loads

Very nice video and i like the effort you put on the animations for explaining things

Thanks for this clear and well-thought-out explanation.

There's one important thing missing, that might kill the voltage alarm: a freewheeling diode across the relay coil. Whenever you switch an inductive load (basically any coil, e. g. in a motor, relay, transformer) off, it will create a voltage spike. That can easily kill your switching transistors (in this case inside the voltage alarm).
Another thing to consider: the voltage alarm (which in in turn keeps the relais coil under current all the time when the voltage is low) will still draw current from the battery even if the main load has been switched off due to low voltage. It won't be much, but a small battery may be drained by that over time. So you shouldn't see that as a battery protection that's unattended for days.

Wow, I would have left at least a track between the battery leads man. Also, when I use boards like this, I find using a drill bit twisted between your fingers is much better for breaking tracks. Yes, it wastes a "pad" but it's loads cleaner, and also adds anti tracking. If you have an old school printer ink refill kit kicking round, you have the ideal tool for the job.

Someone's been playing with After Effects...? Much improved production quality Matt, well done!

This is a really great video. will remain useful to others forever; thanks!

Living in Norway, finding these parts in a store is close to impossible, would you be able to link the parts, or parts that will work? (like the strip board and all the other parts not listed in the description) I already got all my parts for the LED panel, and currently you are the only one out there who can make a video on something as complicated as this, while still being able to explain it really well and understandable, even for guys new to circuitboards, such as myself! DIY Perks

Great Project! I Bulit a special discharge circuit for discharge 6S Lipos. I need more than 8 or so amps. My circuit can take up to 70A :-) Thanks for the inspiration!

Yea yes yes yes yes I have been waiting for this one ever since you said you was working on it, definitely gonna watch this one later and more than likely build one.

Fantastic DIY tutorial! I've been looking foward to this one.

Awesome! You should do more projects using 18650 batteries like Rinoa Super-Genius and his electric bike.

You should have a website where people can buy all of the things in your videos

Just what I was looking for to make my battery discharger.

When DIY Perks has your back

Thanks. Very detailed and nice for us with little electric knowledge. Maybe now I can try and do the battery drill li-ion conversion you showed earlier. I was hesitant about that because I was a little scared of what would happen WHEN i forgot to turn it off and under discharged it.

if have tought of a different setup for the switch for people that might put the battery away for a long time. You dont want it to drop to low when you put it away for a few months. My idea was to put the sensor ground trough the relay also, so if the voltage drops to low and the relay cuts it off and sensor board will be of too. And then when you connect the charger there should be voltage and the sensor board gets power again because that is all connected to the charger side of the relay then. And because the board has power the relay will close the connection and turn the battery back on.
And if you want to use this system in a power tool better or something make a push button switch on it that gets pushed in when the battery is in place instead of the on off switch DIY Perks suggests.

thank you for making this video it has given me an idea of how to make my cricut for my bluetooth headphones

Before you go and buy one of these low voltage buzzers note that there are 2 versions, one that beeps once (like in the video) and one that beeps twice. The one that beeps twice won't work because when the low voltage is triggered it will beep every second causing your circuit to alternate on/off.

I built mine using some passives, including a zener diode array, which drives a mosfet as long as the voltage is above a certain treshold. It works, but it sometimes oscillates, when the battery voltage jumps back up again.

Most of that went over my head but I love the production value

You know, those main power cables, the thick ones, so close together, scare me. Especially with the solder connections barely touching. I'd prefer them having a blank rail between them. Batteries in general scare me in DIY electronics, mainly because I fear they might blow up on me. So I haven't done a lot with them.

1000000% making one, just what i need for my 100w led torch thanks

I am using an 18v Lithium battery from Ryobi to power my light. These batteries have a protection circuit built in!

Amazing DIY video! I've been looking for something like this, thank you!

Thank you very much for this, I have been looking for exactly this for long time. I myself just lacked the insight in how to go about but do own have the components already. Absolutely wonderful ! Thank you again. Only wish I could buy this a commercial unit that would we a bit smaller. The best circuit I saw since a long time. A find myself quite looking up to you.

Excellent! Well made and exactly what I was looking for. Thank you!

what a neat DIY love it
Greeting from Morocco

There is actually a low voltage cutoff available on eBay for LiPo batteries, and features a brownout delay (it doesn't switch off if the voltage dips below the set cutoff momentarily). Just search for LiPo low voltage cutoff. Be advised, the model I found is for 2S LiPos. There possibly are different models for more cell count.

Your videos are sooo Good! I learn so much! It's like watching Make's DIY weekend project videos! I will come back for more!

very nice build. good advise and hints

High quality video again !

you can make an overdischarge protection circuit with a zener diode and an N channel mosfet.

You are a hero!
I'm going to attempt your LED light board project!
Wish me luck lol.

cheap and simple
just work very fine

How do you edit the overlay effects on your videos? They make a nice touch to understand the steps

i'd also add a led to let you know the disconnect has been 'enabled'... else you might press the button and if the relay doesn't latch, then your stuffed! otherwise, awsome use of those little alarms as a LVC!

Good one. Can you make a video describing how to include the direct battery charging connector without unpluging the connector from the battery protection circuit?

Brilliant work! Thanks for sharing, most useful.

Great job providing detail info. Just a couple of comments and one question.Someone else commented that they would have left an extra track on the board to provide wider spacing between the positive and negative track to the battery. That is good idea as that is where the major power is supplied. I do have question about the relay. The coil is 5V, but the contacts do not appear to be properly rated and it may cause a problem. considering it may be used to cut or supply power to a power tool......power tools can draw 30-50amps(50 amps locked rotor). Yes the relay contact is rated at 2000VA, but at 240V , so it can only handle less than 10amps. Am I missing something?

Doesn’t the built in BMS on 3.7v lipo batteries control this? Thanks for your time!

such a nice video! easy to understand and and made!!

Uhhhh maybe in 2014 they weren't but BMSs most certainly are readily available separately. Appreciate the content and free knowledge but in case making this is too intimidating or difficult for some viewers, they should know Amazon, eBay and a lot of other places sell all kinds of Battery Management Systems and PCBs

you know i always wondered why electrical and electronic technology never had much A students despite how impossible pure mathematics can be (yet u'll always see As) and i think i see why. maybe its because i dont have fundamental knowledge on any of this circuitry and wiring but damn that seems easily confusing yet beautifully rewarding to accomplish. some clever stuff right here

If I may suggest...
You have the high-power leads soldered directly adjacent to each other. When possible it can be safer (and easier) to solder them offset by several holes to each other; preferably in both axes, but at least one axis. It may not look as "neat" as side-by-side connections, but it will be safer during operation (the high-profile solder points less likely to be shorted by something and more forgiving of human hand jitters while soldering). Sometimes it can be difficult to make large volume solder connections so close to each other without accidentally creating a solder bridge between the adjacent solder point. Then you have to clean-up and perhaps redo both connection points because a wire became skewed or even detached from the pad(s) and so on.

VERY GOOD tutorial!!!

Your voice is nice enough..:-) There has not to be any music in the background ( especially for not "english people" )
Great project !!

nice job on the vid. great not too overwhelming but all-you-need-to-know info.

Why wouldnt you just interrupt the negative wire on the alarm? It seems alot easier then that changeover switch.

great vid man !

Excellent, now I won't have to buy a rather expensive Low voltage cto..Thanks!

Great video!! I don't need one of those, but I just watched the video because it's so well done! It's a pleasure to watch you welding! :)
May I ask you one thing I'm curious about? What editing software are you using for your videos? I mean, specially for those wonderful text effects you are using at 0:42 or the diagrams you make at 1:38. It looks very professional! Keep sharing videos! You're really good at it!

DIY Perks Can you make a video tutorial about circuits? from the basics? on how to understand them, i really like the way you explain things, u explain better than my teachers haha.. please? like what is a resistor and then you will show tricks and we go crazy and try it, at the same time we are learning. please? please? please?

Very smart and cheap idea!

Great tutorial! Was curious: could you suggest alternative 5v relays?

Hi, great video. Would this work for a 20 volt Li-ion battery conversion for a drill?

100 uf capacitor are also used in some dash of a car like a Honda dash speaker

Do this with a racing quad and have it fall out of the sky hahah

This is supper awesome. Thanks

Excellent idea and well explained instructable. I especially liked how annotations and switch animation remained aligned with objects during camera rotation. Can I ask what software was this done with?

Nice DIY hack, but you can now buy proper BMS (battery management systems) boards on eBay and they are quite cheap. Search for a 3S board that can do at least 10Amps for the 100W LED project.

Great videos always super helpful. Never knew to do this with my LIPO projects. I was wondering how this would change if you wanted to run say 3 Lipo batteries in parralel to get more amp hours. For the battery #2 would you use the pins 4-6 on the lipo alarm? Also to connect a 3rd battery would it be as simple as connecting a second lipo alarm parallel with the relay where the capacitor is?

For DIY stuff it's easier to just use NiMH and then you don't need to faff around with protection circuits and balance chargers and such.

Great vid and great idea. I'm a novice when it comes to electronics components specs and don't want to purchase the wrong parts. Could we please get a details parts list (e.g. diode, resistor relay...)? Thank you.

Great video. I built the system with all the parts you've shown us. How do you set the voltage value on the alarm? I did a test of the circuit, the light stayed after a voltage drop to 3.2v, so I unplugged it for another recharge. I guess I missed this part in the setup.

great video, I'm going to add this to a lipo powered box mod. what about usb charging

Great DIY. One question though, instead of this main latching switch , why not just use normal one just on first (negative) wire ?
Thx and cheers !

Amazing video. I couldn't find any other videos that covered assembling the circuit, so thanks for showing the assembly process.
What relay could I use to control a 12v lead/acid battery?

God, I wasn't able to follow from about minute 2.
I need some basic I guess.