Jabotical said:
Neptronix, do you (or anyone else) happen to have a relevant opinion on the Samsung 30Q vs the 25R?
I ordered a ~15ah 25R pack, which will probably do the job. But for $100 more I can make it a ~18ah 30Q pack.
30Q: 5c, 90A continuous, 18ah
25R: 8c, 120A continous, 15ah
The extra capacity margin would be nice. If I'm generally sustaining at < 30A, would I notice much of a performance difference in real world use?
[EDIT: Fixed which AH went with which battery]
Let's get out calc.exe and look at some data.
Samsung 30Q data sheet
http://www.nkon.nl/sk/k/30q.pdf
Look at the discharge current vs what you get out.
At 1C, you are not even getting the nominal voltage of 3.6v, you're getting 3.53v nominal. Pretty close, and not too saggy.
At 3C, you are getting 3.39v nominal, so 10% of your battery pack's capacity is being turned into heat. If you built a 13S 48v pack, it is going to be 44v average and cut off early if you did 3C all day.
The best use case for any battery, if you want what's promised on the cell spec sheet, the cycles advertised, the voltage advertised, the amp hours advertised, etc...
is to use 1/4th of the maximum C rate specified by the manufacturer. So in this case, 1.25C is what you'd want from a cell like that.
The maximum C rate is basically the point where the battery just barely avoids blowing up or catching on fire in a temp controlled lab, and not enclosed. The manufacturer publishes this and the vendors parrot the figure, but like to leave out the fact that the cell will perform really bad that way. hobbyking and panasonic, samsung, lg etc all do this.
And the capacity is always rated at a really cherry picked 0.2C or 1A figure. Hobbyking is the only manufacturer that underspecifies this... IE, at 0.2C, you will find 16.5-17ah in their 16AH packs.
All you gotta do is google 'cell name data sheet' to get this info.. most data sheets include a discharge graph that shows multiple amperages to show you how bad the voltage drop is. Multiply that voltage drop by the number of cells you have and you can get an idea of how much sag you're gonna hit when you hit the throttle.
Let's look at the samsung 25R, then.
https://www.powerstream.com/p/INR18650-25R-datasheet.pdf
At 5A, which corresponds to 2C, we're getting 3.54v nominal.. so this cell has the same voltage drop as the 30Q at twice the power.
At 10A, or 4C ( 10 / 4 = 2.5ah ), we get a really sad 3.34v nominal. This is similar to the 30Q's voltage drop on 3C.
I don't know why they even listed it, but they did a 10C test. This gives you 3.18v nominal which is lower than lifepo4's nominal voltage. This condition blows 17% of of the pack's energy into heat. So if you had a 1000whr pack running at 10C, the battery is creating 170 watts of heat in an enclosed pack - maybe you'll get 50 cycles out of the pack, lol. Your 48v pack is now 39.85v nominal under load.
So, the 25R can handle around twice the power, until you start really pushing it.
But do you see what i mean about using 1/4th of the rated power for every cell? it rings true with the 25R and the 30Q.. it rings true with RC Lipo, lifepo4, etc etc.
