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
Car dependency is a dead end for humanity regardless of what shit-boxes they manufacture.
Some of us live in spread out communities or rural areas. You don’t expect all humans to live in a 2x2 ft cube in a 30 story tall building do you? Also, I guarantee not everyone else wants to live right next to other humans. I try to get as far as possible so I can do anything I want (be loud, be outside at any time, have parties etc). There is actually enough livable land on the planet for every single human to have 2 acres worth. Now, should people have children when there is already billions of us, that’s another question.
For urban environments I 100% agree, but e-bikes and public transport can’t help farmers* get their produce to market. I don’t know much about this truck, but if it can fill a similar niche as the Japanese kei truck, I think it’s great to provide people who actually need a pickup with an alternative to the F-150+ behemoths currently available stateside.
*Yes there are some urban farms that totally could operate via ebike/other form of micro mobility, however most farms, even small ones, are located >10 miles outside urban centers, usually in areas only accessible by roads and highways that are currently very dangerous for non-motorized transportation modes. Fixing this problem would take decades and hundreds of billions if not trillions of dollars even if the government were fully on board with the transportation network and/or land use changes necessary to allow for a true car-free society (which of course they aren’t). I’m not such an idealist as to poo-poo a significant short-term improvement to the “oversized working vehicle” problem.
Agreed. Whether everyone should be driving everywhere is a completely separate problem. In the short term, people need replacements for current ICE vehicles, and an inexpensive truck that runs on electricity is fantastic while we figure out the rest of the issues.
I’m guessing eventually farmers won’t need trucks, they’ll need bots that fulfill that need instead.
I don’t think that tractors will ever go the way of the dodo and when you have proper logistics, say a reasonably dense S-Bahn type rail network that can also handle shipping individual containers, a tractor and a trailer is all you need as you only have to haul to the next logistics hub and there’s no truck load even 100 year old tractors can’t tow: When you can pull a plough through soil torque isn’t something you need to worry about, 20 horses at 5km/h go vroom. 20 horses! Do you know how much those eat.
It’s hard to guess the future, but I imagine once we have automated farming, things like tractors will look a lot different. Right now, farmers need versatile equipment for a variety of tasks (plow, till, plant, etc), whereas an automated farm would probably prefer dedicated machines for each. The farmer would become more of a mechanic/planner than the one directly running the equipment.
I don’t know how far out that is, but I imagine once we get reasonable self-driving cars, farming will be the next up.