So I let it charge last night at max amps (80a set on the inverter) between 00:30 - 04:30
From 30% SOC (5kwh), it went to 90% (15kWh) in about 2 1/2 hours (approx 3am), which according to my inverters battery charge metric is 10 kWh charged. After that it charged very slowly as normal but SOC didnt reach 100%.
here are my charts
looks like it peaks at 51v when it hits 90%, at 15% its around 48v.
I wonder if we can do anything to the pylontech BMS to reduce the percentage when it slows down? Im going to try dropping the minimum SOC to 15% and see if its worth doing anything about not reaching 100% overnight
Kenny000666 wrote: ↑Tue Jan 10, 2023 7:19 pm
So I let it charge last night at max amps (80a set on the inverter) between 00:30 - 04:30
From 30% SOC (5kwh), it went to 90% (15kWh) in about 2 1/2 hours (approx 3am), which according to my inverters battery charge metric is 10 kWh charged. After that it charged very slowly as normal but SOC didnt reach 100%.
here are my charts
looks like it peaks at 51v when it hits 90%, at 15% its around 48v.
I wonder if we can do anything to the pylontech BMS to reduce the percentage when it slows down? Im going to try dropping the minimum SOC to 15% and see if its worth doing anything about not reaching 100% overnight
Relax! Don't mess with anything based on one cycle!
It'll take a few cycles for everything to settle down.
12x 340W JA Solar panels (4.08kWp)
3x 380W JA Solar panels (1.14kWp)
6x 2.4kWh Pylontech batteries (14.4kWh)
LuxPower inverter/charger
(Artist formally known as ******, well it should be obvious enough to those for whom such things are important.)
So i finally got the JK BMS data, without having to do any additional wiring.
I found a repo, and made some modifications, but largely it works out of the box to retrieve the JK BMS data from bluetooth, and sends it to MQTT which i can read using Home assistant.
It looks like the DIY battery club will be getting another member...
I've just pulled the trigger on an order of 17 x EVE LF304 cells, plus a 200A (2A active balancing) JK BMS from Colin at Deriy.
I'm going to go with a slightly different setup than the ones I've seen on this thread so far, building a 17s battery instead of the usual 16s.
My inverter is limited to 65A discharge (67A charge) on the battery side, so the Pylontech stack has always maxed out at about 3100w discharge.
Fine for most situations, but sometimes I'd like a little more headroom to eradicate that last grid import for the kettle, etc.
The inverter can charge at 58v, so a 17s setup will see about 3.41v per cell when charging. My research suggests this won't be an issue, it just might take longer to hit near 100% in the CV stage of charging.
The real benefit will be the higher nominal voltage of the battery (54.4v), unlocking an extra 400w or so of discharge when needed. That plus the 16.5kWh of capacity!
Just got to start ordering cables, crimps, etc now.
10x 405W JA Solar panels (4.05kWp) @ 5 degrees
3x 405W Longi panels (1.22kWp) @ 90 degrees
16.5kWh DIY LifePo4 battery
Solis inverter/charger
0.6kW Ripple WT
64kWh Kia E-Niro
MrPablo wrote: ↑Wed Feb 08, 2023 8:01 pm
It looks like the DIY battery club will be getting another member...
I've just pulled the trigger on an order of 17 x EVE LF304 cells, plus a 200A (2A active balancing) JK BMS from Colin at Deriy.
I'm going to go with a slightly different setup than the ones I've seen on this thread so far, building a 17s battery instead of the usual 16s.
My inverter is limited to 65A discharge (67A charge) on the battery side, so the Pylontech stack has always maxed out at about 3100w discharge.
Fine for most situations, but sometimes I'd like a little more headroom to eradicate that last grid import for the kettle, etc.
The inverter can charge at 58v, so a 17s setup will see about 3.41v per cell when charging. My research suggests this won't be an issue, it just might take longer to hit near 100% in the CV stage of charging.
The real benefit will be the higher nominal voltage of the battery (54.4v), unlocking an extra 400w or so of discharge when needed. That plus the 16.5kWh of capacity!
Just got to start ordering cables, crimps, etc now.
Congratulations, its a great way to expand storage and we all learn as well.
15kW PV SE, VI, HM, EN
42kWh LFPO4 storage
7kW ASHP
200ltr HWT.
73kWh HI5
Deep insulation, air leak ct'd home
WBSx2
Low energy bulbs
Veg patches & fruit trees
MrPablo wrote: ↑Wed Feb 08, 2023 8:01 pm
It looks like the DIY battery club will be getting another member...
I've just pulled the trigger on an order of 17 x EVE LF304 cells, plus a 200A (2A active balancing) JK BMS from Colin at Deriy.
I'm going to go with a slightly different setup than the ones I've seen on this thread so far, building a 17s battery instead of the usual 16s.
My inverter is limited to 65A discharge (67A charge) on the battery side, so the Pylontech stack has always maxed out at about 3100w discharge.
Fine for most situations, but sometimes I'd like a little more headroom to eradicate that last grid import for the kettle, etc.
The inverter can charge at 58v, so a 17s setup will see about 3.41v per cell when charging. My research suggests this won't be an issue, it just might take longer to hit near 100% in the CV stage of charging.
The real benefit will be the higher nominal voltage of the battery (54.4v), unlocking an extra 400w or so of discharge when needed. That plus the 16.5kWh of capacity!
Just got to start ordering cables, crimps, etc now.
Congratulations, its a great way to expand storage and we all learn as well.
@ MrPablo, what are you going to do with your existing Pylontechs ?
18.7kW PV > 110MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 33MWh generated
7 Other RE Coop's
105kWh EV storage
90kWh Home battery storage
40kWh Thermal storage
GSHP + A2A HP's
Rain water use > 530 m3
MrPablo wrote: ↑Wed Feb 08, 2023 8:01 pm
It looks like the DIY battery club will be getting another member...
I've just pulled the trigger on an order of 17 x EVE LF304 cells, plus a 200A (2A active balancing) JK BMS from Colin at Deriy.
I'm going to go with a slightly different setup than the ones I've seen on this thread so far, building a 17s battery instead of the usual 16s.
My inverter is limited to 65A discharge (67A charge) on the battery side, so the Pylontech stack has always maxed out at about 3100w discharge.
Fine for most situations, but sometimes I'd like a little more headroom to eradicate that last grid import for the kettle, etc.
The inverter can charge at 58v, so a 17s setup will see about 3.41v per cell when charging. My research suggests this won't be an issue, it just might take longer to hit near 100% in the CV stage of charging.
The real benefit will be the higher nominal voltage of the battery (54.4v), unlocking an extra 400w or so of discharge when needed. That plus the 16.5kWh of capacity!
Just got to start ordering cables, crimps, etc now.
Thank you Paul for the support
Most customer would go for 15s or 16s
17s is kind of new to us , waiting for the system share when battery arrived
