Samsung ICR18650-26H Cell Specifications

TheBatteries

Administrator
Joined
Oct 8, 2016
Messages
2,127
Warning: The information in this thread was obtained from various sources on the Internet, including any datasheets linked below, and is provided for reference only. It is not guaranteed to be accurate. To prevent fire or personal injury, never charge or discharge a cell before verifying the information yourself using the original specifications sheet provided by the manufacturer.

Brand:Samsung
Model:ICR18650-26H
Capacity:2600mAh Rated
Voltage:3.63V Nominal
Charging:4.20V Maximum
1300mA Standard
2600mA Maximum
Discharging:2.75V Cutoff
520mA Standard
5200mA Maximum
Description:Pink Cell Wrapper
White Insulator Ring
18650 Form Factor


Data References:
http://grobotronics.com/images/companies/1/datasheets/ICR18650-26H.pdf

Pictures:

image_yvpntg.jpg
 
found 2 packs, (total 12 cells) with these cells in them, every single cell when discharge tested from 4.2v to 3.2v at 1 amp all return between 2600mah - 2700mah. seems kinda weird.
 
nosam_xd said:
found 2 packs, (total 12 cells) with these cells in them, every single cell when discharge tested from 4.2v to 3.2v at 1 amp all return between 2600mah - 2700mah. seems kinda weird.

Have that to, lots of themover 2700 mAh.
 
Geek said:
Datasheet link appears to be broken. Try this one -http://grobotronics.com/images/companies/1/datasheets/ICR18650-26H.pdf?1511772798728

Also check the max charge current and discharge current, they appear to be higher according to several sources.

Might explain why capacities tend to read higher at 1a discharge.

So if Iuse1300mA to discharge,themAhoutcome would be correct?

If yes, does this mean that if I use 1000mA I should divide the outcome by 1.3 to get the correct capacity?

Or is it not this simple...?
 
Jur said:
Geek said:
Datasheet link appears to be broken. Try this one -http://grobotronics.com/images/companies/1/datasheets/ICR18650-26H.pdf?1511772798728

Also check the max charge current and discharge current, they appear to be higher according to several sources.

Might explain why capacities tend to read higher at 1a discharge.

So if Iuse1300mA to discharge,themAhoutcome would be correct?

If yes, does this mean that if I use 1000mA I should divide the outcome by 1.3 to get the correct capacity?

Or is it not this simple...?

Not quite. Cell capacity does read higher at lower discharge rates. Look at some of Thunderhearts graphs.
 
Back
Top