A Library of the most accurate cell models.
Explorer View
Library View
Format:
18650
21700
46XX, etc.
pouch
prismatic
Setup View:
Axis
Type
Filter
Capacity
Energy
Power
Current
Format
18650
21700
46XX, etc.
pouch
prismatic
21700
46XX, etc.
pouch
prismatic
18650
21700
46XX, etc.
21700
46XX, etc.
pouch
prismatic
prismatic
Capacity:
The capacity is measured by discharging the cell at an ambient temperature of 25°C from 100% with a constant current C/10 until the lower voltage limit is reached.
Energy:
The energy is measured by discharging the cell at an ambient temperature of 25°C from 100% with a constant current of C/10 until the lower voltage limit is reached.
Power:
The peak power is the power the cell can supply for 5 minutes. The cell is therefore discharged from 100% SOC at an ambient temperature of 25°C with a constant current until it reaches either the lower voltage limit or the maximum surface temperature after 5 minutes. For cells that reach the maximum temperature limit, the measured power is directly taken as peak power. For cells that do not reach the maximum surface temperature after 5 minutes because they reach the lower voltage limit first, the measured power is multiplied by a correction factor that estimates the power that would have heated the cell to the maximum surface temperature within 5 minutes. The thermal boundary condition is free convection. These operating conditions may be outside the cell manufacturer’s specification.
Current:
The peak current is the current that the cell can supply for 5 minutes. The cell is therefore discharged from 100% SOC at an ambient temperature of 25°C with a constant current until it reaches either the lower voltage limit or the maximum surface temperature after 5 minutes. For cells that reach the maximum surface temperature, the measured current is taken directly as the peak current. For cells that do not reach the maximum surface temperature after 5 minutes because they reach the lower voltage limit first, the measured current is multiplied by a correction factor that estimates the current that would have heated the cell to the maximum surface temperature within 5 minutes. The thermal boundary condition is free convection. These operating conditions may be outside the cell manufacturer’s specification.
The capacity is measured by discharging the cell at an ambient temperature of 25°C from 100% with a constant current C/10 until the lower voltage limit is reached.
Energy:
The energy is measured by discharging the cell at an ambient temperature of 25°C from 100% with a constant current of C/10 until the lower voltage limit is reached.
Power:
The peak power is the power the cell can supply for 5 minutes. The cell is therefore discharged from 100% SOC at an ambient temperature of 25°C with a constant current until it reaches either the lower voltage limit or the maximum surface temperature after 5 minutes. For cells that reach the maximum temperature limit, the measured power is directly taken as peak power. For cells that do not reach the maximum surface temperature after 5 minutes because they reach the lower voltage limit first, the measured power is multiplied by a correction factor that estimates the power that would have heated the cell to the maximum surface temperature within 5 minutes. The thermal boundary condition is free convection. These operating conditions may be outside the cell manufacturer’s specification.
Current:
The peak current is the current that the cell can supply for 5 minutes. The cell is therefore discharged from 100% SOC at an ambient temperature of 25°C with a constant current until it reaches either the lower voltage limit or the maximum surface temperature after 5 minutes. For cells that reach the maximum surface temperature, the measured current is taken directly as the peak current. For cells that do not reach the maximum surface temperature after 5 minutes because they reach the lower voltage limit first, the measured current is multiplied by a correction factor that estimates the current that would have heated the cell to the maximum surface temperature within 5 minutes. The thermal boundary condition is free convection. These operating conditions may be outside the cell manufacturer’s specification.
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