Range
- Small battery range: 240km
- Big battery range: 385km
Motor
- Motor: Single motor, rear wheel drive
- Power: 150kW
- Torque: 264Nm
- 0-100km: 8s
- Top speed: 145km/h
Dimensions
- Bed length: 1.5m
- Vehicle length: 4.4m
- Vehicle height: 1.8m
- Vehicle width: 1.8m
Comparison
- 2025 Kia Niro length: 4.4m
- 2025 Ford Maverick length: 5.1m
- 1985 Toyota Pickup/Hilux length: 4.7m
Weights
- Curb weight 1634kg
- Max payload 650kg
- Max towing 454kg
Charging
- Port: NACS
- Onboard charger: 11kW
- Level 1 AC, 3.6kw, 20-100%: 11h
- Level 2 AC, 11kW, 20-100%: under 5h
- Level 3 DC, 120kW, 20-80%: under 30m
Safety
- Traction Control
- Electronic Stability Control
- Forward Collision Warning
- Automatic Emergency Braking
- 2-stage Driver/Passenger Airbags
- Full Length Side Curtain Airbags (Truck 2) (SUV 4)
- Seat Side Airbags (2)
- Backup Camera
- Pedestrian Identification
- Auto High Beam
More info
+1
Weight is everything. Removing it makes almost literally every aspect of a car better, and it’s usually a terrible negative for EVs.
Interesting! I must say I never considered it. My kia soul EV was heavy but handled very well. Loved that thing.
Oh yeah, its more than that. Low weight helps acceleration, braking (so safety), handling, range, wear on every component, and most of all, cost. The same sized tires will need less pressure, wear much less, and grip harder. If the car is lighter, you don’t need as stiff a chassis, nor as much braking to lock the wheels, less battery, motor, which means you can take even more weight off the car… You get where I’m going.
Racecars are fast because they are light, not because they have big engines and expensive bodies. Little 1500lb cars can lap a $3 million 1500hp (and quite heavy, because of all the stuff in it) Bugatti around a track.
Heavy cars can handle OK, but the cost is big.
EVs have a very low COG due to the batteries being at the bottom of the car. This is a good thing for handling but making them lighter would be even better.