Making the JK-BMS work for us. Should we start this adventure? Battery 2.0

Leave the poor BMS alone and avoid more problems. Just connect externally to your 16mm cable. Bolt on using the existing lugs or cut off the lugs and do a good soldered splice. The short length of the smaller cable won't be significant. Whatever you do, heat shrink over the connection, preferably two layers. I make one layer 3-5cm longer so it extends past the shorter layer a cm or two on each end.

nothing in life is perfect. simply a matter of perspective. no matter how you set it up, you will eventually want to change something. so just make decisions and move on

I don’t like to modify standard things to fit and I think it’s better to design the host system to accept standard parts. On that premise, I would mount two small bus bars to accept the BMS cables and then run heavier cables from the bus bars to the battery and the breaker.

So here's some technical advice for all you people who, like me, love reading the comments.
Get the T-shirt, get the Hoodie, that way on those days when the sun doesn't want to come out and play you can wear both, be warm and totally stylish.
My ageing 48v SLA battery bank hasn't dropped below 85% SOC since I started wearing them and to top it off I had a record input day with of 20.4 KW/H last Sunday, that's 4.088kWh/kW efficiency.
Even my Solar setup gets inspired by Andy.

Just have a beer, and truly enjoy all you have done and how much information you have passed on.
Great work Andy.

If it was me I would just clip off the lugs on the BMS wires and combine them into a single high quality barrel crimp and terminate the other end of the barrel crimp with the single heavier cable but I am guessing you won't be satisfied with that. For my own system I have the BMS terminated on one side with a 150A fuse to the busbar and on the otherside I have it terminated to a single post and then have that post connected to a 5 foot 1/0 AWG 105C cable. Having the separate posts makes it easy to swap the BMS when one potentially dies.

Why does the resistance (assuming it's small) make any difference? doesn't the BMS measure the voltage with very minimal current so small resistance won't make a difference?
Also, I won't touch the BMS. If anything, I'd solder a thicker cable do the blue/black cables a few CM from the BMS (if you don't want to use a stud to connect) - you can even connect 2xblue/black to one very tick orange cables to have less wires all over the place and make the setup cleaner.

Concerning cable lugs problems - we face such problems very often during various progects. And it is not a big problems - we also use files, metal scissors to cut lugs to appropriate dimensions. Also, attention must be paid to flatness of lug'g contact surface. Because some lugs could be produced by press-and-cut machine in such way, that lug would have non-flat surface at the edges. That will prevent its "full-surface" contact with busbar or CB's terminal. We detecting these surface problems by observing lug's edges and fixing it with filing adges to flatten contact surface. Maybe, it is not an issue in yours lugs, but we often observe these defects at our domestic (russian) made lugs, especially at sizes from 35 sq mm to 150 sq mm. So, it is our rule to check flatness of lug's contact surface before mounting it to busbar.

While soldering would be possible, the easier way would be to extend the cable with a crimp connector.
You can get thosemin a similar style as the ring lugs, just a metal tube with hole on both sides and a center indent.

I love little chalenges like the issue with the cable lugs. The feeling of accomplishment is great when it all finally gets together. Wish i had more time for my hobby

To solve the hole size in lugs, I buy lugs with the smallest hole size and use a step drill bit to expand hole to the bolt size I need.

My advice would be to bench test the BMS before changing the wires. Hook it back up to your battery and attach an inverter and draw as many amps as you can then check the temperature of the cables to make sure they don't overheat. I run the same Bms with a 2p16s 560ah battery connected to 4600w of solar and a 4400w inverter and never had the cables even get warm.

Re balance lead resistance, if you increase resistance the cell voltage will bounce more when balancing. Use big wire and big fuses.

I’m using a 4 ga crimp barrel splice with the two 7ga in one end, 4 ga in the other. I’m not installing fuses on 26 ga wires. If they ever short, I’ll just install a new BMS and leads. I’m not worried about a fire, my batteries are encased in 1/4” concrete board. No wood, no plexiglass, no plastic sheets.

Andy, you may want to do a test to insure the Bluetooth signal from the BMS can communicate from inside the aluminum walled shelf. Better to know now if you need to mount the BMS on an external wall for the sake of that signal.

I personally would just solder on new cables, the amount of heat that those components near it are rated for is pretty high, plus they don't appear to be on the same pad directly, so the heat will dissipate through the circuit board vs heating up 1 single component. Just remember the maximum junction temp of the inside of a transistor is something around 150c and the body can withstand heat up to 350c directly.

The BMS PCB looks a little shiny so they might have conformally coated the board after it was assembled. That would make soldering the larger cable a little more difficult (removing the coating as needed). You would need a high wattage soldering iron too. If you are able to heat one connection so it is hot enough, then the other 3 connections would probably melt also. Having these connections on both sides of the board make it even more difficult. I would just use the existing wiring as is and use your thicker wire to connect the existing bms cable lugs to the battery/circuit breaker.

Andy, do not change the original wires. The bigger the cross section, the more heat will need to have it soldered. You need in those points a VERY good soldering with very low resistance and high mechanical strengh. You definetivelly will face big dificulties and frustration if try the replacement (and maybe even damage the unit). Also, the tin will enter inside the coper wire due to capilarity and will make the wire hard as iron making imposible to bend near the soldering point. Don´t do that.
As solution, cut away the original hole terminals and use a junction sleeve to convert 2x10mm to 1x35mm (or whatever). You can crimp it or solder the junction assembly.
As a second issue, the resistance of the balancing leads is not so important. 30 mOhm is really not an isue, since the current through the leads are just a few amps and the looses in that resistance will be part (small portion) of the balancing process. If the diferent lenghts are important or not depends only of the software: if the individual cell voltage is measured without load (before sinking energy to be transfered to other cell) or loaded (during the energy transfer peak). In the first case, since there is not current through the balancing wire, there will not any drop (no matter the lenght). In the second case the current through the wire can make the measurement influenced by the diferent lenghs.
Could you take apart the white thermal tape over the transistors and show us what transistors JK is using in both ways? (charge and discharge), Thanks in advance,
Jose (Madrid)

You’ll always have a solution to this situation . You might can try L ing the single orange wire strip end across the soldering terminals and then out the sides . May the solar be with you .

personally I wouldn't mess with the original soldering. The main concern is if you will be able to solder it as precisely so no connection is done to the case - a tolerance is almost inexistent there.

I at the point where you have opened up the BMS. My thought is that you could extend the bus bars to outside the case ending with proper lugs. Overall for the effort I think it would be best just to use the existing wires and separate lugs. More straightforward to replace the BMS. Maybe put a vertical stand on the shelf next to the battery. I believe you mentioned previously you wanted to make that area a compartment so it out be a perfect area to mount the BMS to. The voltage test wires should all have the same resistance and length. Adding more resistance with fuses will not matter much for purposes of measuring the voltages of the cells which is relative.
If I understood you don't want you have the shelf fronts acrylic because acrylic is combustible. You used it for the shelves... There is also more expensive polycarbonate.

Well you make all the balance leads and then cut the fuses to different lengths to balance all the balance leads 😄 NOW that’s an adventure!

I would like to share my bank with you but unfortunately can not share pictures here.
Anyway, instead of soldering large wires inside BMS use the same two wires with one terminal and connect with the terminal block.

EE here. 10-20 mOhm is about right for those little fuses. It's the resistance of the tiny little fuse wire that is inside the glass body, compounded by the crappy nickel plated steel wires they use. You'll find the same lead wires on leaded resistors.Try measuring one of those some time. As far as the importance of the resistance, it really only matters if you want the 2nd and 3rd decimal point to be really accurate. If you're balancing to the 3rd decimal point, you need to know the cable resistance, and yeah, the JK has that capability and you should use it. For measuring 0.001V changes, cable resistance can be a big deal. For situations where current is flowing, like this one, it's a fact.

Closing the case of the BMS (without electronics of course) and than use your conical dril to enlage the cable holes to the desired dimension. go for it.

Hi Andy. You can take a copper tube of the required diameter on one side to insert two thinner wires, and on the other the wire is twice as thick, and crimp the tube.

Do not change the wires you will end up with a lot of problems. Just connect the wires to a regular bolt and put shrink tubing ( 2 layers perhaps) around bv it. You should not have any problems. Why would you use the fuses anyway. These are just for balancing. It's not like 18650 cells. Always looking forward to yet an other episode.

Andy, those fuses are designed for PCB use. They're soldered right onto the board and the excess leads are cut off keeping the resistance of the fuse as low as possible. Also, T-Shirts came in last week. Can't wait to see the expressions when people see the shirt and get that WTF? look. I might even meet someone who watches you here in Canada, who knows?

Yes 👍 ⚡

Bonjour ANDY, dans la continuité des réflexions diverses pour cette armoire ! très intéressant l'évolution de la positon du BMS. bonne journée et dans l'attente de la prochaine vidéo. ;-)

Do the cables! Finally you opened it😁

you should use flux to minimize the time to heat the BMS busbars, and pre tin the splitted wire to solder faster.

0.053ohm @ 2 amp = 0.106v drop down the cable when there is 2 amps flowing. V = IxR. I'd be interested to see if the resistance affects the current balancing as I assume the discharge transfer is constant current?

It is good idea to replace original cables to 2 x 16 sq mm ones. I think, that BMS and its MOSFETs will not overheated to failure - all BMS PCB will act as a huge heatsink. More likely, BMS PCB must be preheated in busbars zone to allow successful unsoldering existing cables and soldering a new ones. Also, suggest to spread strands of 1/2 of cable's core along busbar at each side to lower soldering's height and to ease soldering of huge amount of fine strands.

AHH yes. The reverse Midas touch. I've had days like that 😀

Thanks Andy for your energetic videos. I have learned quite a lot and will follow you all the way.
Regards,
Peter

Servus Andy, every clamping point is a source of error. Your project will be a collection of clamping points. You already have 9 clamping points on the load side until you reach the upper copper rail. In my opinion, it is easier to solve with cables than with copper bars. But it looks cool with the rails.
Cutting a thread in the copper is not enough. Then you would have to counter with a nut at the back. To loosen the cable or turn the cable lug, you have to open two things. It is easier and safer to drill a normal hole and use press-in nuts. Everything else has already been tested.
Best regards from fu**ing foggy austria

No!!!! Agh!!! Why? It works & like my father used to say “if it isn’t broken then don’t fix it.”

Why are you using only red cable for the power distribution and not red for + and black for - ? Using the same colour is asking for an accidental mix-up if you aks me.

Apply cold spray for the parts you don't want to heat up, i do it all the time when soldering on logicboards.

Andy, can you run the numbers and explain to those who don't understand, just how much difference those extra milliohms would actually make, and if that is a significance difference to NOT having the fuses in?

I agree with the earlier comments but I think you should put the BMS in a new bow, cut the P- and B- cables outside the original case, extend them with your preferred cable inside the new box, with the correct length, drill holes in the new box and pass the extended cables to the breaker and the battery. Just my 2 cents!

Hammer and anvil will straighten them right out.
Compare the 6mm and 8mm -- is the body the same size with a different hole? If so, then stock up only on the smaller hole size. In commercial production you need to just grab the right lugs and go, but for home use I find it effective to stock only the smaller hole size and drill it out when I need a larger. This reduces inventory by a factor of 3 or 4, while also helping to qualify for quantity discounts.

I would never mess with the pre-soldered cables. I know my limits.😬
You could solder extensions to the existing cables. I'd like to see how that works.
This could be achievable for me as well. As they say: Heat shrink and paint make me the solderer I ain't.😜

Are you going to shrink wrap the lug to cable joins? With OCD comes great consternation!

'It's called bended cable'! As my teacher used to say 'You might be sitting at that back making jokes but at least that proves you are paying attention'.
Personally I would make the cables from the BMS as short as possible and change the terminals to ones with the correct size holes and then connect them to the single pole bus bars that are then connected to much larger diameter cables. This way you have absolutely minimised voltage drop as much as you can. A short section of undersized cable within a longer section of correctly sized or oversized cable will have little or no effect. You have to calculate the voltage drop over a length based on all the cable used in the circuit. Messing with the solder will be a total disaster in a DIY environment.

MOSFETS can handle heat.
Good MOSFETs can get so hot they melt the solder and fall off the board, and they'll still be good.
I've done it.

Just a thumbs up with your stud mounts, if they are the same as I have used, they can be modified to accept 2 x 8mm or 1 x 10mm bolt through the plastic, this my give you a option for cables, you might notice the holes in the plastic already there for these options, the back cover pops off

Go for it Andy. Your viewers wants to know and I bet you do to.

Many electronic components have connecting wires made out of iron. Check with magnet - should be same with resistors. Teh iron would explain the resistance you measured. You might want to solder wires close to the galss body of the component in order to overcome the problem.
In case you want so solder at your BMS please cover all electronics thorougly i.e. with tape. Any small solder splash might destroy your BMS.
It is essential to solder those fat wires quickly along a powerful soldering iron in oder to not stress your device too much. Provide a suiting jig that holds the wires in place while they are hot as you might want to cool them down after soldering as soon as possible.
Alternative: If you hesitate to stress your BMS you might want to just cut the fat wires at your BMS short and crimp them together with your neu fat welding wire. After crimping you can solder this connection point easily while avoiding too much stress for the BMS itself.

If you don't mind modifying the BMS case you could eliminate soldering the bigger cable buy removing the smaller cable by cutting them off near solder or de- solder...... Then drill through the BMS board attach a bolt ..... then put a single lug on the new wire and mount..... I would also keep wire length same size on input and output

Lithium solar tested wires that were soldered together and found that resistance was less than non cut cable. Maybe cause diameter increased!

Heya, yes put some ticker cables on it. it's already open so don't think off warranty lol

Flip the + and negative on the breaker and move the Bms to the top and mount it to the right and you have tons of room and you can extend the cable on the bottom of the shelf above to the battery.

I don't think short cable is a problem, because BMS in nature is a smart contactor and my battery will always have 3 power terminals : Positive, Negative and Protected Negative by BMS.
Negative and Protected Negative terminals are very near from each so short cable is perfect

Go for it it will work

I think I would cut off the 8mm lugs and extend the cables with the 35mm cable. Use some sort of crimp and solder to make the join. And you could do a test before hand to see what the losses would be. And you can make the tails on the BMS as short as you dare.

If u have to solder anything ....go with battery bus bars...few cooper leaf's ....
All in all more direct lines less problems....

Do not touch their soldered joints as it might be tricky to solder a bigger cable with heat damage. Maybe shorten and then connect to as large a cable you need connecting to rest of circuit with right size lugs. (Unless you are drawing more Amps than these cables are rated for!).
Why extend bms leads, just mount Bms close enough so their power (B-) reaches without e tension, and hopefully BMS leads reach w/o extension.
Not sure you need fuses on this BMS leads anyway. If a short occurred in BMS, then the fine leads will fuse anyway. Just route them so the do not sit on and bus bars etc.

Andy. Many comments here that there is probably no current flowing in the balance leads when the BMS is measuring the cell voltage, and therefore the additional resistance of the fuse (which is very small anyway) will have no impact. HOWEVER, many BMS stress that the balance leads should be the same length. If balance lead resistance is not a factor, then why the precaution on lead length by the BMS manufacturer (and in so many forums)?
Mmmm ... Since there does not seem to be any consistency in "common knowledge" I think the only solution is for a test in your garage. 4S configuration with a BMS that has a higher current active balancer, and where two of the balance leads have a higher resistance. Does it make a difference to the final balance numbers? Only your garage experiment will tell us ...

how long are the balancer cables of the JK-BMS? could not find any numbers about it, seeing pictures i would guess something between 600 and 800mm? And maybe 150mm for the 7awg?
for the 7awg, would it maybe be possible to solder not 2x 16mm2 to it but something like short busbar-plates to the bms to then have a point to screw usual cables on?

Great video. Just bought 2 of these. What size lug did you end up with the the 7awg, 10 or 16 mm2? Thanks. Sorry if this was asked before.

Hi Andy, thanks for showing the inside of the JK BMS. Why not crimp the extension cable to the BMS, saves a lot of soldering which will need a lot of thought not to break the BMS?

Andy, don't mess with re-soldering the BMS leads. They are sized to match the capacity of the BMS. Terminate the ends of the BMS cables on the one stud terminals on each side of the BMS then use whatever size cable from there to the battery and breaker. Realistically, how much will you be pushing the limits of the BMS capacity in real life usage? Probably not often at 48V.

Servus aus Austria
Schönes Projekt Videos und Tests sehr lehrreich.
Würde vom Hauptschalter Kupfer Schiene verwenden kurz ,da kann man dann beidseitig das BMS klemmen .
Kannst dann ebenso mit deinen einzelklemmen eine zweite kleine Schiene für BMS Eingang und weiter zu den Akkus .Hast dann auch die Möglichkeit Kabel parallel zu verlegen
Lg
Anton

A little Flux on the bms and heavy solder on the cable tip. Bms should be just fine. Looks like they used plenty of heat on the one side and it works fine. (#Quitoverthinking it Andy). This build is going to turn out amazing.

Hallo Andy!
Also ich würde das BMS nicht modifizieren.
Nachdem du so viel Platz hast, würde ich einen eigenen "BMS Bereich" machen.
Also sauber horizontal mit den M3, vielleicht auf einem kleinen Gestell, verschrauben.
Die dicken Kabeln des BMS würde ich dann beidseitig über eigene Terminals (die du eingeblendet hast) verlängern.
Klar ist, dass du dann wieder mehr "Klemmstellen" hast die man ja vermeiden möchte, aber auf das kommt es auch nicht mehr an.
Noch dazu tust du dir viel leichter, falls du das BMS mal tauschen musst.
Viele Grüsse

Es gibt Reihenklemmen mit Sicherung, vielleicht könnte das helfen

Andy this happens to me all the time but just file it square it will work perfect

Bloody cane toads, I alway order the wrong things, Andy. The green tree frogs sound good in the background, how I miss Queensland.

Hi Andy. I'm so happy you're using the JK BMS. I have one that I'm going to use on my battery system thanks to your earlier videos (and that one from Lithium RV).
Just a comment/thought - you were talking about adding insulation to one of your big cables that was touching a bus bar mount and saying that it shouldn't matter as there is no movement in the system.
I've seen cables move on their own when there is a big shock current go through them.
This might not be an issue or even happen - but maybe it could? Short loads on the system could cause the cables to move, even ever so slightly (i.e. fractions of a mm at a time), but maybe this might be enough over a long enough period to warrant your concerns about rubbing through?
What do you think?
Also - the split soldered cables - are they split exactly in half? i.e. what happens if you don't split your 16mm2 cables in half exactly and solder (for example) 1/3 to one side and 2/3 of the cable to the other side??

Actually their is movement under high loads. I hit 150 amps at 60v setup and the wires begin to vibrate and you can hear it. So yes wires do infact vibrate 8n small fast movements.

Why dont you solder the 35mm to the end of the two Cables? I woldnt mess with the Board. Or take a look at wago 285-139

I'd just extend the cables that are there, using the single pin bus bar you mentioned.

why not a table for the BMS to sit on at the same height as breaker & battery? if cables still a bit short, move battery closer. just a thought.

Good day. Thank you for the awesome channel, please could you see if you could do a video on the rs485/comm on the JK BMS. I'm sure you did say you would connect the comm cable to your Victron inverter and I would love to see how you do that and how well it works. I would also love to see a bench test and review of the new LiFePO4 Blade Battery Cells
Again thank you for the informative channel I love it and I'm so close to building my own battery 🔋 with your channels help.

Yes do it, connect new wires to it then test it to make sure it works, test it to max power output for 30mins and see how hot it gets.
To be honest i think you would be fine soldering the new wire in without any problems

Remove wires and add better bus bars on PCB. Or. Remove ring connectors from existing wires and combine them into one 6mm ring connector. I am the one that asked for interior look while back. Thanks for doing that. Wiring part of design of the JKBMS is not that great. Reason for such a high pressure on wires from enclosure is because they want to eliminate possible de lamination of copper from PCB while wires are being moved around. Missed opportunity on JKBMS part to truly make a good BMS.

Maybe you could increase the length of the fuse cable for shorter BMS cables to make them all the same resistance despite being different lengths.

I would like for you to add a tab to your website where subscribers could upload their photos to share their great ideas on how they did things.

I would leave the BMS alone. I would "bug" the connection by using a lugs and machine screw ,nut, washer Place lugs on the BMS wire "Back to Back" to give a more slim profile.
Connect the orange cable and lug 180 degrees out (in line) with the BMS wire.Tape and shrink the connection. Add sleving for protection. The connection is very low resistance and can carry high current. Conductor wise the bms is the weakest link.

If the lugs aren't perfectly flat you can rotate the changeable dies in your hydraulic lug crimper upside-down to give a flat surface and use it to flatten the lug perfectly flat ;)

As for your fuses... you just need to snip out a section of the BMS sensing cable that has an equivalent resistance to the fuse that you are adding.... or recalibrate the BMS to allow for it.

Hello again
What will happen with the BMS when one fuse get damaged ? and it cant messure the voltage of these Cell !!! Will it measure up two times voltage at the next Cell = Cutoff because Cell overvoltage !!!
I playing arround with a mounting plate for the BMS with the M3 screws and two Terminals. Still at work, i print it today.
In my case with M10 screws.

Hiya!
I'm guessing the chip doing the voltage measurement in the BMS will have very high input impedance: hundreds of k-ohms at least. The measuring current will be very small and a few milliohms worth of fuses and cables should not have an appreciable effect. (If you can figure out what chip the JK BMS is using, this might be specified in the datasheet.) Good luck!

My suggestion would be that you cut the balancing cables so they are 10-20cm for into the BMS and that you use "regular" cables for electricity (0.75-2.5mm2 so what you have lying at home) up to the poles of the cells that you solder in the fuse. The cables for BMS, I would probably try to put on a 10mm or two 6mm cables and cut them and put them in one that is made for 35mm (becomes 31-34mm2) so it should fit and reduce the losses but I do not think they is so much losses and then you still do not take out as much as 100A but it is barely 50A as max

I highly doubt you are going to melt the mosfets by soldering to the bussbar, they were soldered on there somehow so they can take a bit of heat.

Hi,
Nice and inspiring videos.
Why don't you simply add one or two 10mm2 wires?wouldn't this be easier and less risky?
Greetings from old Europe

Hehe, just make sure to have a powerful solder iron (atleast 150W) so you don need to heat up for a long time, then it "should" be fine :)

I am slightly confused and in a similar pickle. If I use the standard wires and I use a bus bar as you suggested. Wouldn't the pieces that are the smaller wires/cables still heat up during continuous discharge and charging, even though after the busbar we have better wires? Would that be a potential risk/problem/factor?

Why not splice your cable onto the pair of cables from the bms? Then you can put on your 6mm lug and whatever length of cable.

Have a go ya mug. ;) What's the worst that could happen? All the heat will be sucked up the copper cables. Spread them on the bars on the board. It will look heaps better with right length cables on it with no joins. You know you want to. Hahaha. Good luck.

Damn...That would be the JK Overkill BMS....

Is there enough height between the PCB and the aluminium enclosure to house the thicker cable-end and solder without shorting?

LOL Didn't read my comment about buying all 6mm and then drilling the to the exact size needed. The lugs are all the same size, so a quick drill and you get the perfect size. So fed up with loads of 10s and 12s left over when I need a bloody 6. Also, I seem to get a better fit if I drill them. Bonus. These lugs are the same ones I get off ebay, very nice. Narva 35mm x 6mm. The others are cheap crap and dangerous. I pulled one of my factory cables apart. Scary they'd use cheap crap lugs.

Carroll or Cabac lugs are better i have found, the narva are kind of in between cheap lug thickness and good lug thickness. Put them away as spares for another project you will be surprised how many things use 8mm lugs. I myself have about $500 of lugs in all sizes in stock at all times in my inventory and i find i use them all so it pays to have a mix handy.

Would it be possible to put the BMS wires into the top of the breakers to make it fit better for you? That would also bring the harness out the bottom of the BMS.

I would assume the measurements are made between balance bursts at zero(ish) current. The balance cable resistance shouldn’t matter in that case.

I am seriously wondering why you would need those fuses? Current will flow along those cables only if a device pushes or pulls it. I guess if something went catastrophically wrong with the battery cells, you might get a flash, but if that happens the battery and anything close to it (like the BMS) will be toast (with cells that size, your whole garage would be at risk), with the big breaker you have protecting the inverter etc. The BMS draws a tiny amount of current from one cell (cell 16 I think), but if something happens to cause the BMS to draw more than normal, a component or fuse in the BMS is far more likely to blow first, probably meaning you have to replace the BMS anyway. As the BMS has an active balancer in it, it also has a capacitor capable of delivering 6 or 7 watts at most. If something goes wrong with that, then the capacitor will blow, likely meaning a new BMS is needed. So I am not sure what the fuses will protect? If you DO need fuses, surely 6A DC breakers (which you can pick up for just over a dollar each (Taixi brand DZ47-6B DC), or about $25 for 16 delivered. If they do trigger, they are easy to reset, rather than digging around in the battery and resoldering. I now have much the same setup as you (no fuses on the balance cables), but used pre-made 35mm2 (my battery is designed to pull only 50-60 amps, which is about 0.2C for the 280Ah cells) tinned braided wires with copper terminal bars on each end, with one fly lead cable soldered off the braid. I have a small (100mm) DIN rail with 17 Wago 2102-5301 3-conductor through terminal blocks (with lever and push-button) to join the cables and allow a second cable to be added if I need to. Those Wago blocks are about one dollar each from a local electrical wholesale outlet. Crimp bootlace ferrules to the cables, job done.

"there is no movement" let me tell you NOTHING is rigid and EVERYTHING moves lol, the "triple insulation" is certainly good because hard plastic will not break or cut as easily as soft silicone. So it is certainly a step up.