I can provide some of those.
Battery capacity (I don’t know how much is usable): 55kWh
Range in km (only NEDC): 420 on standard mode and 450 on echo mode
Dimensions in mm: 4410×1800×1660
Weight in kg: 1690
L2 charge from 15% to 100% SoC in hours: 7.5
Fast charge from 30% to 80% SoC in minutes: 45
To help us build the model, would you please also provide as much of the following information as you can find online (Ordered from most to least important):
- Usable Battery Capacity
- Range (WLTP is preferred)
- Weight
- Dimensions (Height, Width, Length)
- Coefficient of Drag
- Coefficient of Rolling Resistance
We can build a model based on only a partial set of these, but the more data you can provide the better the model will be. For charging, at least some of the following data is needed:
- Peak Charge Power
- Charge Time (including start/end %)
- Plot of Power vs SoC %
A video of a charging session from low to high SoC would also work quite well.
Usable Battery Capacity: 55kWh
- Range (NEDC): 420 on standard mode and 450 on echo mode.
- Weight: 1690 Kg
- Dimensions (Height, Width, Length); 4410x1800x1660 (LxAnxAl).
- Coefficient of Drag: I don’t know
- Coefficient of Rolling Resistance: I don’t know how
- Peak Charge Power: I don’t know
- Charge Time (including start/end %)
- Plot of Power vs SoC %
In fast charge
Start 16% - End 100% Time: 1 H 16 Min (46.07 kWh) Chargin a 124A
In media charge 220v
Star 12% - End 100% Time: 8 H 09 Min (47.9 kWh) Chargin 220v
Activity Newest / Oldest
Katya_ABRP
Merged with: JAC E-JS4
henry barquero barrantes
Fabian Chryssopoulos
Malcolm Davis Steele
I can provide some of those.
Battery capacity (I don’t know how much is usable): 55kWh
Range in km (only NEDC): 420 on standard mode and 450 on echo mode
Dimensions in mm: 4410×1800×1660
Weight in kg: 1690
L2 charge from 15% to 100% SoC in hours: 7.5
Fast charge from 30% to 80% SoC in minutes: 45
Katya_ABRP
Status changed to: User feedback
Katya_ABRP
Hi,
Thank you for the suggestion!
To help us build the model, would you please also provide as much of the following information as you can find online (Ordered from most to least important):
- Usable Battery Capacity
- Range (WLTP is preferred)
- Weight
- Dimensions (Height, Width, Length)
- Coefficient of Drag
- Coefficient of Rolling Resistance
We can build a model based on only a partial set of these, but the more data you can provide the better the model will be. For charging, at least some of the following data is needed:
- Peak Charge Power
- Charge Time (including start/end %)
- Plot of Power vs SoC %
A video of a charging session from low to high SoC would also work quite well.
/Katya
Mauricio Campos
Usable Battery Capacity: 55kWh
- Range (NEDC): 420 on standard mode and 450 on echo mode.
- Weight: 1690 Kg
- Dimensions (Height, Width, Length); 4410x1800x1660 (LxAnxAl).
- Coefficient of Drag: I don’t know
- Coefficient of Rolling Resistance: I don’t know how
- Peak Charge Power: I don’t know
- Charge Time (including start/end %)
- Plot of Power vs SoC %
In fast charge
Start 16% - End 100% Time: 1 H 16 Min (46.07 kWh) Chargin a 124A
In media charge 220v
Star 12% - End 100% Time: 8 H 09 Min (47.9 kWh) Chargin 220v
Fabian Chryssopoulos
Could you please review the car again, thanks
Mauricio Campos
Este es