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20:50, 4 December 2019
extract from service manual
Normally, the true energy a battery can have is calculated by taking nominal voltage (V) times the current capacity of the battery's cells (Ah) = the energy delivery capacity (Wh) (divide by 1000 for kWh).
PackVoltage<sub>nominal</sub> (V) × CellCapacity (Ah) = EnergyCapacity (Wh)
However, based on industry convention, Zero calculates battery energy (the kWh) by taking the maximum voltage the battery has at 100% capacity times the capacity in Ah, instead of nominal voltage.
: ''Maximum voltage'' is only present at the beginning of discharge when it is full, and then it drops (nonlinearly).
: The ''nominal voltage'' is like the average voltage the battery over the entire discharge range.
: The average is the voltage measured at the battery terminal when it has 50% charge state and is disconnected from any load.
For example, the 2013 S has '''100Ah''' and a nominal '''102V''': the total energy the battery has is:
102V × 100Ah = 10200Wh = 10.2kWh
But if you use maximum battery voltage you get:
116V × 100Ah = 11600Wh = 11.6kWh
This also applies when adding a power tank, confusing customers about the official rating versus what the mobile application reports.
Regardless of this complexity of measurement, Zero's range figures appear reliable in the general context of the test conditions.
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