YoshiMoshi3
Well-known member
- Joined
- Nov 2, 2022
- Messages
- 502
My BMS for my Makita battery pack that I got off Ali has a max continuous discharge of 40 A, and a max instanteous current of 80 A. Do I size my nickel strips to handle 40 A or 80 A? I'm using a 5S3P configruation of 21700 cells. I have found various charts online for current ratings of nickel strips.

I see that most cheap spot welders have difficulty spot welding nickel strips thicker than 0.15 mm. So I could use 0.15 mm x 12 mm nickel strips which are optimal for 17 A.
If I assume I'm design a battery for 40 A (over 80 A) then I would need at least three strips thick.
(40 A/17 A/strip) ~ 2.35 strip
So I need at least three strips for the series connections. But what size should I use for the parallel connections, how much current do they carry?
What size nickel strip should I use for the BMS connections for charging (not battery negative or battery positive)? How much current do these strips need to handle? This is B1, B2, B3, and B4 in the image below.
Could I just use wider nickel strip? How for example do I calculate the optimal current for 0.15 mm x 14 mm nickel strips?
Thanks for any help on this.



I see that most cheap spot welders have difficulty spot welding nickel strips thicker than 0.15 mm. So I could use 0.15 mm x 12 mm nickel strips which are optimal for 17 A.
If I assume I'm design a battery for 40 A (over 80 A) then I would need at least three strips thick.
(40 A/17 A/strip) ~ 2.35 strip
So I need at least three strips for the series connections. But what size should I use for the parallel connections, how much current do they carry?
What size nickel strip should I use for the BMS connections for charging (not battery negative or battery positive)? How much current do these strips need to handle? This is B1, B2, B3, and B4 in the image below.
Could I just use wider nickel strip? How for example do I calculate the optimal current for 0.15 mm x 14 mm nickel strips?
Thanks for any help on this.


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