S |
Stephen Collier |
Capacity
Standard 61.4KWh
Long Range 82.5 kWh
AWD 82.5kWh
Wind resistance
0.219Cd (all models)
Curb Weight
Standard 1,885 kg
Long Range 2,015 kg
AWD 2,150 kg
DC Charge
Standard 110 kW
Long Range 150 kW
AWD 150kW
Max Power
Standard 150kW
Long Range 230kW
AWD 390kW
Activity Newest / Oldest
Christian Alban
Any updates ?
Christian Alban
More information: ev-database.org/car/2002/BYD-SEAL-825-kWh-AWD-Excellence
ev-database.org/car/2001/BYD-SEAL-825-kWh-RWD-Design
The Excellence version is also Perfomance in some markets.
Michael Lopez
Katya_ABRP
Merged with: BYD SEAL
Michael Lopez
No byd seal?
Michael Lopez
???
Stephen Collier
bump still no activity - this has been here without any activity for 10 months.
Stephen Collier
Long Range version WLTP (combined) 570km
AWD version WLTP combined 520km
Stephen Collier
Bump is there anything more you need?
Stephen Collier
do you require any other information - no updates for over 2 months
Stephen Collier
Standard Version
Usable Battery Capacity: 61.4kWh
Range: 550 km in CLTC (probably around 430 km in WLTP)
Weight: 1.885 kg
Height: 1.460 mm
Length: 4.800 mm
Width: 1.875 mm
Coefficient of drag: 0,219 Cd
Peak Charge Power: 110kW
Charge Time (including start/end %): 30 minutes from 30 to 80 % at 110 kW
Design/Long Range Version
Usable Battery Capacity: 82.56Wh
Range: 700 km in CLTC (probably around 550 km in WLTP)
Weight: 2015 kg
Height: 1.460 mm
Length: 4.800 mm
Width: 1.875 mm
Coefficient of drag: 0,219 Cd
Peak Charge Power: 150kW
Charge Time (including start/end %): 30 minutes from 30 to 80 % at 150 kW
Performance/Excellence AWD Version
Usable Battery Capacity: 82.56Wh
Range: 650 km in CLTC (probably around 500 km in WLTP)
Weight: 2.150 kg
Height: 1.460 mm
Length: 4.800 mm
Width: 1.875 mm
Coefficient of drag: 0,219 Cd
Peak Charge Power: 150kW
Charge Time (including start/end %): 30 minutes from 30 to 80 % at 150 kW
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