Above 50v there are safety considerations that most DIY folks aren't
ready or willing to entertain...? I think even some regulations?
Anyone know more about that?
Cheers,
Jeff LaCoursiere
s/v Angels Quest
On 4/30/21 1:42 PM, Ryan Sweet wrote:
The other thing about 48v vs 96v is really why not
just run at 96v the whole time. Basically if you are making it
possible then all the rest of the system has to be specd to 96v
and I don¡¯t see the reason to not keep it that way??
On Apr 30, 2021, at 11:12, Ryan Sweet
via groups.io <ryan@...> wrote:
?
Another
thing, how about making the motor wattage output
adjustable, so it is possible to use eg. 96V for a
burst mode ? Many 48V motors can be powered by 96V
(or higher).
I assume
that the wiring can handle that. Making two sets
of banks 48V, to be serial connected to 96V.
The
short "event" should of course be managed by the
BMS/power management system.
This is interesting and something Ive wondered about
but from what I¡¯ve been able to discern it requires
dynamically reprogramming the motor controller. ?You could
imagine a switching setup that let you have 48v traction
banks in parallel but then to change them to series. ?I
wasn¡¯t able to figure out a way to use the Seven Gen4 to
do this kind of thing, at least from reading the manual.
?I fear I am about to venture into the world of the DVT
software though and maybe its capable of that. I suppose
if a person spent enough on controllers and cables you
could have a dual system with two controllers and switch
between them but I think you approach the point of
diminishing returns.?
However, it points to a possible opportunity or maybe
just a future feature that advanced motor controllers will
enable. ?With EV regen becoming more popular in
controllers, I would not be surprised if some battery
management features also start to migrate to controllers
as well.?
To be
true, things made in China is not my cup of tea,
but in these days, unfortunately simply
unavoidable !
I was a
supervisor in China for several years, and know
how they make things, and all of QC is not like in
the West.
Buy a
ME1616 electromotor. Made in China, then sold in
the West.
Buy
yourself a german or US car. Half of the smaller
parts in it are made in China by now.
Company
supervisors are not in China now, because of the
Made in China virus.
Who wants
to spend 2-4 weeks in quarantine to go for an
inspection ??
Who's
checking the quality now ?
As I spin up my own commercial efforts I have been
working with colleagues in CN to understand the quality
dynamics and the manufacturing landscape and while I think
some of these comments are in a general sense applicable,
I think that the demands of growing sophistication in
their domestic market, growing domestic regulatory regime,
and a drive to differentiate by rising to the QC and
supply chain standards of Korea, Japan, US, and Europe is
pressuring a lot of CN companies to advance. ?I think now
it is more a story of doing homework to understand your
partners and their processes.
Now, the current chaos of the global shipping /
logistics is another story! The Suez Canal incident has
cost me several weeks and the knock-on effects will
continue for months.?
However,
I believe that new, checked, LiFePO4 batteries
will last my sailing life out, but the electronics
is another concern.
Especially
in a marine environment (humid and salty).
Can you
provide recommendations where to setup these
(rather large) electronic
regulators/inverters/BMS'es in the boat ?
I guess
IP rating is not relevant, if not encapsuled in
IP-rated boxes.
If put
into boxes, then there's a cooling issue...
As far from any wet bilge or dripping shaft or outdoor
moisture as possible. ?In the cabin if you can. If exposed
to moist air frequently try running some electric air
warmer/dryers or a dehumidifier (when on shore power).?
Working
hard on the ultimate solution for my own EMS/Y
system conversion design.
Cheers,
guys
Carsten
Hint :
EMS/Y = Electric Motor Sailing Yacht ;-)
On Friday, 30 April 2021, 02:46:25
GMT+8, Jeff LaCoursiere < jeff@...>
wrote:
We haven't had any bad cells
imported yet, knock wood.? We *are* doing
our best to burn down our offices with our
BMS experiments though :)? Also, our latest
batch was all EVE 280AH cells, the Lishen
272AH are apparently "all gone".
Another cool idea we are
kicking around... we want our 48v pack to
have a 12v tap, so you can use it as your
house battery as well as your traction
battery.? I'm disappointed in the
available downconverters, mostly current
limited to 30-60A.? Maybe that would be
enough for your house, but it wouldn't do
it for mine.
So we want to try to cycle
through internal banks of four cells, very
quickly (like 10khz), connecting them in
turn to the 12v tap.? We believe that this
way you will be able to pull the full 1C
discharge of the 16 cell pack (280A), but
at 12v!? We hope to maintain balance in
discharge by cycling very fast, but the
BMS should pick up the slack.
Cheers,
Jeff LaCoursiere
s/v Angels Quest
On
4/29/21 11:34 AM, Carsten via
wrote:
Hi, Jeff
Did you experience
single/multiple cell dropouts from
Lishen batteries so far ?
On Thursday, 29 April
2021, 23:22:13 GMT+8, Jeff LaCoursiere
<jeff@...>
wrote:
I
wanted to comment on 1) below -
we have that same concept in
mind.? We are working on a BMS
design that will basically allow
cells to be "dropped out" of
series, the output run through a
boost circuit to maintain steady
voltage.? There are of course
limits to how many can drop out
and we are very much at the
experimental stage here, but
there is some hope :)
Jeff
LaCoursiere
s/v
Angels Quest
First Draft of
Schematic. Using Lishen 202Ah. I
decided to go with the BMS only
actively controlling the charge
side of the circuit and opted
for passive monitoring on the
load side. Using a victron 712
for monitoring and hopefully can
connect it to a relay to shut
off charge circuit at
predetermined voltage. Guys
please tell me what I have
missed.
Couple of
points.
1) Passive Load
monitoring. I have decided
to go this route as i
understand that the load BMS
can turn off for 2 reasons,
obviously first is if whole
bank drops to a lower than
20%SOC and secondly if
single cells fail. From my
perspective if I have a
single cell failure I would
rather still be able to use
the other 15 cells than have
no power. If I let my bank
drop to below SOC of 20%
that's?on me.
2) Want to keep
house bank separate?for now,
mainly as if I have to shut
off my 48v bank for low SOC
I don't want to have to
worry about all my
electronics being offline.
3) I want a
separate?relay to shut off
charge current so that I can
set this manually. When I
come back from a sail i want
to be able to top bank up to
about a 70% SOC for storage.
Then on the day I want to
sail I can top it off o 90%
--
Jeff LaCoursiere
StratusTalk, Inc.
703 496 4990 x108
815 546 6599 cell
--
Jeff LaCoursiere
s/v Angels Quest
St Thomas USVI
--
![]() |
Jeff
LaCoursiere
STRATUSTALK, INC. / CTO
| Phone: |
+1 703.496.4990
x108 |
| Mobile: |
+1 815.546.6599 |
| Email: |
jeff@...
|
| Website: |
|
| Address: |
One Freedom
Square
13th Floor
Reston, VA 20190 |
|
| ? ? ? |
--
Jeff LaCoursiere
s/v Angels Quest
St Thomas USVI
--
 |
Jeff LaCoursiere
STRATUSTALK, INC. / CTO
| Phone: |
+1
703.496.4990 x108 |
| Mobile: |
+1
815.546.6599 |
| Email: |
jeff@...
|
| Website: |
|
| Address: |
One
Freedom Square
13th Floor
Reston, VA 20190 |
|
| ? ? ? |
-- Jeff LaCoursiere s/v Angels Quest St Thomas USVI
|
