39
Increase
of the internal
resistance
Eciency
energy circuit
Eciency loss
energy circuit
Expected
service life
Expected
service life
<50% >80% <10% 1000 cycles depending on use
Part B: Explanation of the conditions for derivation of the
parameters from Part A
Applied discharg-
ing capacity
Applied charg-
ing capacity
Ratio between the
nominal output
of the battery [W]
and the battery
capacity [Wh]
Discharge depth
during cyclic
service life
test
Capacity at 80%
and 20% charge
state (SoC)
6 A discharge cur-
rent to estimate
the cyclic service
life, 16 A to deter-
mine the energy
cycle eciency.
4 A charg-
ing capacity
1.74 W/Wh 2.5V per cell 100%
Additional information:
No decrease in output performance in software-dened batteries.
Internal resistance: No voltage drop in software-dened batteries.
11.4. Licenses and copyrights
Information on licenses and copyrights can be found under:
https://instagrid.co
12. Contact
support@instagrid.co
https://instagrid.co
+49 7141 69624 0
In case of damage or repair:
support@instagrid.co
+49 7141 69624 0
instagrid GmbH
Hermann-Hagenmeyer-Straße 1
71636 Ludwigsburg
GERMANY
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