A2B Metro restoration / modification - Fechter's first Ebike

NOW The big concern is how far out of balance are all the cells and how well does the bms limit over voltage on a per cell group for the ten groups? May have to slow charge it for a while with something other than the four amp charger.IMG_0579.JPG
 
Hats of too you getting that hub open and back together what a nightmare.
Tap on back for sorting it go have some well deserved fun.
Give it a slow charge for 12 hours or so and the bms will do the balancing for you just keep it plugged in on slow charge make sure your green light voltage is at the correct overall pack voltage and leave it balance away for a few hour's.
 
Just curious exactly where you attached the charger wires when you were reviving it?

The balancing shunts on the BMS are fairly wimpy. I don't remember what current they run at, but I can check when I get home. If you can charge with a supply that is current limited to less than what the shunts take, you can run it like that for a long time to get the pack balanced. It's in the range of 50mA to 100mA. A seriously out of balance pack is going to take days to balance at 50mA.

As far as I know, the balancing shunts come on at 4.2v. HVC will cut charge off around 4.25v. If the charger is limiting to less then the shunt current, the HVC should never activate.

With just the stock charger, I'm not sure how it behaves when the pack is full. Some chargers will go green and cut off the charge current. Some will keep voltage present. If all you have is the stock charger and you want it to keep going, one trick is to place a load on the output so the current never gets down to the cutoff point. Somewhere in the ballpark of 100mA will keep it going. That light bulb might work.

I had a large supply of used Li-ion packs that were drained to zero by the BMS. These were little 2s-3p packs for equipment. They sat at zero for years. All of them that I revived seemed to return to their original capacity and have worked well. It seems if the cells are drained very slowly, it does not damage them. Same goes for the revival charge. I have had other cells what were very low (and I didn't know about it) that were permanently damaged by charging at full current.
 
I looked at a A2B BMS board and the shunt resistors are 100 ohms, which means the balance shunts will be running 42mA.
 
So if you just plug a 120v 20w bulb into the output plug it will fool the BMS into balancing? Any do and don't on this for Idiot me to avoid when doing this? Thanks.
 
I have never tried this, so I don't know how the charger behaves. It may take a slightly larger bulb since it's only getting 42v. It may not need the bulb at all and work by itself.
 
Nice work Fechter. I still love my 2012 Metro. I got an empty auxiliary battery case and built my own 11S8P battery pack into it a few years ago. My potted frame controller doesn't like more than 50V, so 11S is the max I can feed it. It's working fairly well. Eventually the original frame battery crapped out on me. I finally conquered the hairball and and rebuilt it with LG MJ1 cells.
Somewhere along the way I seem to have killed the BMS. There is a short on the BMS output terminals. I don't have enough electronics knowledge to figure out the defective part and switch it out. :(
Ingo - 1.jpgIngo - 2.jpg
Any idea where to get a replacement BMS?

Since the MJ1 cells have 10A max discharge current I am thinking of using a Grin Phaserunner controller and hopefully fit it inside the frame.
I would still want to limit the max current to 35 or 40 amp. (That's 6.66 A per cell for the frame pack). Does anyone have experience with this kind of setup?
 
Pretty much any generic 10s Chinese BMS should work. The stock one trips around 30A. I'm not sure where all the wires on the stock one are going, but on the newer ones they feed the battery meter, so you would lose this function. A separate voltmeter or CA would be better anyway.
 
The stock pack is made of sanyo ncr cells Ive been balancing external and watching total pack discharge as ncr is a fairly safe 18560 chemistry.
I found that I can use 40 battery amps discharge until I have 50% usable capacity left then I get voltage sag so I back off to 25amps to use the remaining capacity.

I've only done just over 100 miles in total, If I peddle along I can get 30 miles to the stock pack with my setup riding it just like a bike and throttleing when I need help working as a team around the 20mph mark.

Today I picked up my first victim, a drop handle in the lycra thought he could out peddle a silly cargo bike ;) I kept it just around 20mph and peddled along can't even hear it's electric like this it's so silent, after 3 miles of keeping him on the fishing line working him he was so tired he was red in face shouted at me oi mate wtf is that, haha I dropped back to talk and he was f ₩+×ed panting talk and I was fresh as explained my ride brief and powered down some more to complete a 30 mile ride.
 

Attachments

  • _IMG_000000_000000.jpg
    _IMG_000000_000000.jpg
    453.9 KB · Views: 1,709
Sorry guys been off line for a while... The stock charger runs at like 4 amps and when it reaches 42 volts or so and the current starts to drop a little it goes green and disconnects so not much time balancing. I opened up the three pin charge connector and tapped into the red and black wires outside the bike on the charger cord. Works just fine for monitoring the voltage yeah new cells so hopefully they stayed well balanced after being run way down ... Time will tell ... Have not been back to check on it yet... belongs to a client friend but told her to ride it and charge it after she puts some miles on it and runs it down a bit ...maybe keep it away from full charge for a while until I get a chance to check it and slow charge it near full like you say...bring it up to full slowly until it has a chance to balance the cells.
 
Update on the dimmer I posted a few months ago, it works at 12V and 20V. Dimming is tricky to adjust, takes about 2-4 seconds to dim/brighten and I was able to use only 2 brightness settings. When connected to 3 led headlights at 20V, power output is:
Dim - 9W
Full - 28W
Since the amp draw is low at 20V, will just wire it directly to a 3-way motorcycle light switch on my scooter.
 

Attachments

  • IMG_20180509_024451629 - Copy.jpg
    IMG_20180509_024451629 - Copy.jpg
    86.4 KB · Views: 1,546
  • IMG_20180509_034045339 - Copy.jpg
    IMG_20180509_034045339 - Copy.jpg
    137.1 KB · Views: 1,546
fechter said:
I was thinking these things might be installed with Loctite and really take a lot of torque to get off. I found a 29mm socket at Sears, and spent some quality time with my bench grinder thinning out the wall enough to fit into the recess on the top of the fork.

Grinding it down took a while, but it fits nicely. I used a piece of wood to block the forks from turning when I unscrewed the caps.

This is one of the last things I'm trying strip down on my build -- and I'm stuck. I can't get these off, and the parktools socket head I picked up for the right size (29-30mm) is too thick walled. I gave it a go with various vice grips, pliers, etc, but there's just not enough clearance.
 
I think this is the very reason 'fechter' describes: 'quality time with my bench grinder thinning out the (socket) wall enough to fit into the recess on the top of the fork'?

I also made this mod by first grinding down the wall thickness of/around the metal socket head and it then fitted/worked just fine.

PS. Be careful not to damage the fork heads graunching around with inappropriate tools anyway! ;)
 
Whelp, that was my excuse to buy a bench grinder and just spent the evening doing that. (Kids loved the fireworks show :D)

Got it apart. Had to use an impact driver to loosen it (last owner left this outside....)

Failed to read rest of guide and realized I'm missing that super long extension to undo the hex head down the tube. Stellar. Back to the orange store tomorrow, lol.
 
Cool.. sounds like you're getting it all under control now anyhow!

- If I recall correctly, I also took the opportunity to thoroughly clean/flush out the tubes etc & replace a couple of rubber O-rings for good measure, before adding fresh lube prior to final reassembly.

Enjoy your new maneuverability! ;)
 
fechter said:
Also got the MMG moped tire mounted on the rear. It went on easier than the front one, maybe just due to experience.

Moped rear tire 2.jpg
This is a pretty old post to reply to, but:

I am looking at using this same MMG 16x2.75" tire
https://www.amazon.com/gp/product/B00QMJV9VM
on almost exactly the same wheel (one i built using a stromer ultramotor and ypedal ex-zero rim) on the SB Cruiser trike, since my Shinko SR714 16x2.25"
https://www.amazon.com/gp/product/B00274F0G6
on one side is very worn and should be replaced soon, and if I do one side I might as well do both with bigger tires if they'll fit my frame...and that's the question:

If you happen to know, what are the actual tire measurements, on that rim, inflated? Meaning, how "high" does it stick up from the rim edge, and how "wide" is it from outer sidewall to outer sidewall at the widest point?

If you don't know, I can guesstimate by counting pixels vs the known rim size (or other things) in the pic, but an actual measurement would be safer.

I was also considering a similar MMG tire but with a smoother tread pattern as I don't need the traction pattern on the other one; I would guess it would come out close enough to the same size:
https://www.amazon.com/gp/product/B00V6KW2IQ

This is the wheel in question on SB Cruiser with the Shinko on it; the one on the other side (which you can't see) is an MXUS450x (would actually like to try another Ultramotor on that side if I can find one cheap) but it's the same rim:
20210203_153010.jpg
 
Back
Top