Esk8 Battery Building for Dummies

Originally published at:

Whats up you cool cats and kittens. The Robot is busy, so I robbed him blind and took over his build guide plans. The duck’s in charge now. 

Today we are going to learn about building a “DRI 12S4P FlexPCB Battery Kit!” This thing is as simple as it gets, so even a bunch of knuckle-draggers like yourselves should be able to do it, provided that you have the necessary materials and equipment. Here is what we are making:

Materials and

Equipment: 🛠️



Step 1:

Prep ✅

Test each cell with the multimeter first to make sure they are all within +/-0.05v of each other (or as close as you feel comfortable with). Pretty much just pull any cells that are much lower than the others, and replace it with one of your extra cells. You took my advice and bought extras, right? Good.

Now hot glue or silicone your cells together into groups of 4. If you are using silicone, get ready to wait 6 to 8 hours per side for it to cure. This is also a great time to insulate the positive terminals with fish paper rings. Make sure you get the rings centered so they cover the shoulder of the cell all the way around.

You’re also going to want to solder on the balance plug (or your BMS’s wiring harness) at this point. Definitely don’t forget this and then do it later when all the cells are welded and soldered in place. That would be bad and dumb, and greatly increase your chances of a short.

Step 2:

Spot weld 💥

I used some little magnets to hold down the nickel tabs while I did my first welds.

These tabs are 0.2mm thick, so if you are used to welding 0.1mm or 0.15mm, you will have to turn that shit up, yo. You know your welder better than I do, so just make sure you’ve got good welds.

Also make sure you dont accidentally weld a tab backwards, because ripping it off will probably ruin it (assuming your welds are decent).

Step 3:

Splooge 💦

Fish paper the sides (or more) of each welded p-pack to protect from shorts.

Splooge a bunch of neutral cure silicone onto the PCB and stick each p-pack down.

You will have to insert the tabs through the slots at this point, so it may help to have the PCB propped up with something (I used the empty boxes my cells came in). Make sure you are lining the p-packs up with the positive and negative markings printed on the PCB.

Once this is all done and you flip the pack over for step 4, you should probably cover all your exposed terminals with painters tape or whatever to avoid shorts. Don’t say I didn’t warn you.

Step 4:

Spot welding

pt.2 💥💨

Your spot welder power should be much lower when welding nickel to PCB than when welding nickel to cells

At this point it is also probably good to bring up that the copper pours on this PCB should never be carrying the full series current of your pack on their own. Therefore the spot welds we are doing here is just to stick everything together before we beef up the connections in the next step.

The footprint of the bush terminal encroaches a bit on the nickel, so trim that away.

Like so.

For the single-slit connections, fold the first nickel tab down and spot weld it in place. (You are going to smell the PCB. That’s normal and probably fine. As with any welding or soldering, do this in a well ventilated space.) Then fold down the second tab right on top of it and weld it down.

For the double-slit connections, you have two options. The first option is to fold each tab away from each other, and then bridge the gap between them with other nickel or soldered wires or something. That’s dumb though, so don’t do it.

The better option is to fold them in towards each other and weld them together just like the single-slit connections. Whichever tab you fold down first is going to be a little too long, so trim 2 or 3 millimeters off it and then weld. Then fold the next down and weld.

When you get to the packs on the end, there is no slit. The tab just folds over the end of the board.

Step 5:

Beef up them

series connections 💪

As I mentioned, you will want more than just your nickel tabs and copper pour on the PCB carrying the series current. The simplest way to do this is just flood each joint with solder.

You are going to want a big hot iron for this so you can melt a lot of solder really quick. While we are not soldering straight to the cells, the nickel tabs will conduct the heat back to the cells if you don’t work quick enough. I used a 260w Weller soldering gun and thick rosin core solder. Use what works for you.

When you get to the ass end of the PCB, you are going have to add something bridging the two terminals. You can spot weld on more nickel and flood each end with solder, solder on some silicone wire, or choose the best option and use some flat copper braid. Flood both pads with solder, and then press the braid into the pool of molten solder while adding more on top. Work quick so the solder doesnt wick too far, and you will be golden. Beware of cold solder joints.

On the terminal end of the PCB you also have to solder in the bush terminals. I found it was easiest to use a long m5 bolt as a standoff against your table to hold the terminal into place while you solder. This also keeps you from accidentally filling the threads with solder. Same story, flood the pad with solder.

Step 6:

Insulate 🧻

Ok, home stretch. Can you feel the amps yet? Can you taste the watt hours? Getting tingly? Good, now stop licking the battery leads and get back to work. This is the easy part.

Fish paper the terminals.

And the ends.

On the ass end, make sure you use a large enough piece of fish paper for it to fully wrap around all 3 sides (i.e. covering the top and back as you can see in the pic, as well as the copper braid you laid down in the last step).

Kapton tape that bitch up. I did one wrap horizontally around each of the 3 sections, and then banded around that. Line up your bands such that they also hold down your fish paper on the terminals.

Since you did all the steps in proper order and definitely did not forget to solder the balance plug on until just now, I’m sure you already fish papered the through-hole pins of the plug. Go ahead and kapton tape that whole end as well.

Step 7:

Battery leads 🔋

Crimp the lugs onto your wire, and then flood it with solder. If you don’t have crimpers, shame on you. Just flood it with solder like a normie then. Use whatever plug you want, but I’m a firm believer that battery leads should always be female XT90S (for the anti-spark properties). Bolt it on with your m5x10mm bolts (should be the perfect length to not stick out the back of the bush terminals) and you are ready to rock!

Step 8:

Glamour shots! 📸

This step is the most important. Snap some pics of your beautiful build and post them on the forum! Feel free to let us know what cells you are using, as well as any issues you ran into or tips and tricks you picked up along the way!


Hehe😈 One step closer to the 7th circle, boys. Im almost to the back room where @BillGordon and @Dareno are having an eyes-wide-shut orgy.


Oh yeah, so there is no confusion, this is a re-post of this thread:

Simply re-formatted for WordPress so it can go up as an article. Thanks @BillGordon for inviting me to contribute in this way!


Is that red tray the new 'tiller enclosures coming out?


Its designed specifically to fit his new 12s2p recycled Samsung Galaxy S5 lipo pouch battery pack, and mount perfectly to a plank of cedar plywood. Over-engineering is for nerds.


I just might have to follow this guide for my first battery build. Looking at the Kweld system… :thinking:


If you plan to do that, go here and use these instructions instead. Formatted much better for actual use, and there are some good tips and tricks in the replys.