this is a follow on from this thread:
http://visforvoltage.org/forum/13672-vectux-charger-dead-now-what
1) (= fast summer charge for NiMH 102 cells):
Start charge at 0.5A and increase to voltage dependent values below over 30seconds (soft start for generators etc).
If voltage is below 125V, charge at 0.5A until 125V.
If voltage is between 125V and 130V, charge at 3A.
If voltage is between 130V and 135V, charge at 6A.
If voltage is between 135V and 140V, charge at maximum amps.
If voltage is between 140V and 142V, charge at 6A.
If voltage is between 142V and 145V, charge at 1.5A.
If voltage is 145V, charge in CV mode.2) (= gentle summer charge NiMH when not in a hurry):
Start charge at 0.5A and increase to voltage dependent values below over 30seconds (soft start for generators etc).
If voltage is below 125V, charge at 0.5A until 125V.
If voltage is between 125V and 130V, charge at 3A.
If voltage is between 130V and 135V, charge at 6A.
If voltage is between 135V and 140V, charge at 6A.
If voltage is between 140V and 142V, charge at 6A.
If voltage is between 142V and 145V, charge at 1.5A.
If voltage is 145V, charge in CV mode.3) (= emergency charge from a weak source):
Start charge at 0.5A and increase to voltage dependent values below over 30seconds (soft start for generators etc).
If voltage is below 125V, charge at 0.5A until 125V.
If voltage is between 125V and 130V, charge at 3A.
If voltage is between 130V and 135V, charge at 3A.
If voltage is between 135V and 140V, charge at 3A.
If voltage is between 140V and 142V, charge at 3A.
If voltage is between 142V and 145V, charge at 1.5A.
If voltage is 145V, charge in CV mode.
I haven't played around with the different charge profile options (nor do I know how to change between them)
for what it's worth, Elcon and TC Charger aren't the same company, I'm not even sure who the manufacturer is, but they have a common one
The 10 charge profile option may be specific to Elcon
I normally deal with TC Charger - the ones I get from them only have one charge profile, which I can specify at the time of ordering
so for a nimh batttery, I would specify 10A 145v, cc-cv (or maybe even 10A, 1.5A, 145v) cc-cc-cv (not sure how many phases are possible)
I would then put a trim-pot across the enable circuit to lower the current limit from 10A to whatever I want
as for mods needed for the charger:
a fan is a yes - the heatsink won't have the right orientation for passive cooling to work properly, but with forces cooling it should be ok
The case will need to be modified - I'm hoping I can send a CAD drawing and have the charger come with the right case
My other option is to manufacture heaps of the right case shape and sell/ship them separately (swapping the cases just involves undoing tek screws, nothing major)
Matt
I haven't had any problems (yet) with my original charger, but it's nice to know there are options available when the time comes.
Would one of these TC, or Elcon chargers work with my 50AH LiFePo battery?
yes - I have actually used one on my own vectrix for the past 4 years
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
The TC Charger bracket are now available, that allow you to install a 1500W TC Charger in the same place as the original Vectrix charger, using the same bolt holes
The Price of the bracket is AUS$90 + shipping or $120 + shipping including a fan
The bracket replaces the original TC Charger casing
The fan is needed to improve the cooling of the charger, as the heatsink isn't oriented properly for passive cooling to work
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
NICE.
Put me down for one, the LED power supplies I use work, but 600W charging is sloooooow when you use 30AH.
Are those leaf cells I spot as well? I'm in the middle of leafing (another) Vectrix. I've gone overkill on the cell interconnects though. (25mm X 9mm busbars!)
they sure are
I'll email you regarding payment and sending the bracket over and such
I use the interconnects from the nimh cells - they're just the right size
also they're pretty heavy, but 9mm x 25mm is huge!!
I'm using a CAN based BMS - with a display that shows every cell voltage on my bike
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
If it has not already been mentioned elsewere: could you enlighten us on the exact type/make/availability of that CAN-based BMS?
My rides:
2017 Zero S ZF6.5 11kW, erider Thunder 5kW
It's manufactured by a friend's company:
http://www.zeva.com.au/
I use 3 x 12 cell BMS modules, with an EVMS Lite and an EVMS display for my leaf module conversion.
I plan on making a kit out of it, I just have to finish my first one, and ride it around for a while to make sure there are no issues.
The BMS is programmable, so it can be used with any chemistry
4 x 12 cell modules would be needed for a LiFePO4 pack.
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
Thanks for the info, antiscab :-)
My rides:
2017 Zero S ZF6.5 11kW, erider Thunder 5kW
Hello all,
I am new in this forum. First I want to thank all forum members for sharing so much information. Specially Mik and Antiscab. Without your posts it would be much harder for me to convert my Vectrix to different cells.
I am in the middle of converting a Vectrix to 72Ah Calb Cam cells. I use an Elcon charger of 2500 W. This has the same size as the 1500W version, bus has a fan for cooling. I fitted the charger just the other way round as Antiscab did. Antiscabs way is smarter in the sense that he did not need to move the AC wire. In my case the original position of the AC wire would have collided with the front forks.
That's a 2500W version?
Do you have any closer pictures of the mountings on that? I've got one of those chargers already, didn't think it would fit.
If you have access to CAM cells, the 80Ah cells will also fit
was this a special order? I tried to buy one from TC Charger early in the year and they said they no longer made the 2500W charger
If installing with the heatsink not well oriented (as we both have to in order to fit in the original charger position) you either need to increase the cooling or decrease the charger output
I thought the 2500W was the same size as the 2000W?
I'm very interested if they are the same size as the 1500W :D
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
@heathyoung: the original mountingflaps of the charger will make it impossible to fit. I made a new housing for the charger with some new mountings to fit the Vectrix brackets.
@ antiscab: you are correct, the 1500W version is a bit smaller. according to elconchargers.com the size for 1500W is 352x175x139mm; the 2500W is 352x195x139mm. The 2500W version does fit! I ordered the charger last September and it was no problem (rebbl.com in Holland).
The 2500W version has a fan mounted on its housing for cooling. I asume that the orientation for natural flow is somewhat less important as the flow caused by the fan is much more than natural air flow through temerature differences. But I am aware that the cooling finns are not in the "optimal" position and that the flow inside the Vectrix bodywork is restricted. So I will keep an eye on the temperature! I have the possibility to restrict charge current. During the tests now, it charges the pack with about 16A.
I could not get hold on the CAM80 cells. I read about the cam 80 I think at EV TV or so. Are they the same size? I can get 38 cell in the "basement" of the Vectrix, 4 cells have to go on the "first floor" so hight matters. The calb cam 72 cells are listed on the calb website, the 80's are not. The cam 72 cells are available in the Netherlands and Germany.
I thought so - I was going to remove all of the mounting tabs off my 2Kw unit and use some 90 degree angle iron either welded or riveted to the case.
Did you have problems with the positioning of the cable glands as well?
Those cells are interesting. Quite small!
having seen how the 2000W could fit - I could look into making up a new mounting bracket for the 2000W TC Charger as well
Don't hold your breath though, the bracket for the 1500W took me 14 months to sort out :p
Once the EMW 12kw charger is a bit more proven, I'll see if I can cram the water cooled version of that in
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
Wow! They make some very useful gadgets.
How does the built-in CAN-Bus get along with the EVMS Lite and the display? Or do you wire a separate CAN-Bus for the ZEVA gadgets?
Can you use the 110km/h MC software with this setup?
This information may be used entirely at your own risk.
There is always a way if there is no other way!
@ heathyoung: sorry for the delayed answer. I tried to answer, but somehow it didn't work.
Removing the mounting tabs and use angle iron should do the trick. I did move the AC wire cable gland. You could try facing the cooling fins to the steering head as Antiscab did. It could be that you don't need to move the AC wire when you do that.
And yes, the Calb Cam cells are small for prismatic LiFePO4 cells with that capacity!
Hi Mik,
sorry for the delayed response - my first one disappeared
at present the BMS is on it's own separate CAN-Bus
at some point I would like to merge the two - that would require some modification of both the charger firmware, the MC firmware and the ICMR firmware to be useful
the MC firmware is irrelevant - so yes you can load the 110kmh firmware
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
Very nice job!!! Best of luck!
I'm looking for the same solution (Vectrix + CAM72's) for myself
I see 38 cells, are you going to put 4 more?
By removing the old charger everything still works? No SW issues, make this an plug and play solution?
Thanks!
Some pictures during the conversion... The 4 more cells are on the "second floor". Removing the Original charger doesn't give any problems. The only thing is that the estimated range does not work anymore and the SOC bargraph changes to a voltage bargraph. For that reason a made a Arduino based SOC gauge.
Lairds SW or still original? Personally, with LFP batteries, I would prefer to see battery amps in the bargraph.
Where can we see the Arduino SOC gauge, parts, BOM, schematics, etc?
Original software. I can see the amps on my SOC meter. I will make a seperate thread for my Vectrix.
That's weird... My local Vectrix guy says that the bikes do not work without the original charger plugged!
Antiscab, Mik or Zrwtw, are you sure no other mod for the charger removal to work?
Thanks!
the original fuel gauge does not work, but everything else still works
I haven't had an original charger installed for 4 years
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
Hi Antiscab,
Firstly, I'm a fan of your work and videos, thanks.
Like I asked before, no other mod is necessary? Just remove the old charger and install the new one? No programming, nothing?
And this only works with Nimh bikes with ESD chargers or all Vectrix are the same regarding this?
Thanks!
It will work with all nimh bikes
the official lithium bikes I haven't tested enough with - the original BMS may not work (and I would replace anyway) and the MC might be needing some info from the charger
Easy enough to test, just unplug the charger on your bike and take it for a ride
If it rides normally, you don't need the original charger
Daily Ride:
2007 Vectrix, modified with 42 x Thundersky 60Ah in July 2010. Done 194'000km
I tested this , li vectrix works with charger unplugged. And makes sense: imagine a vectrix at 110 km/h on a hiway, and the charger dies! The system MUST keep the wheel spinning without the charger!