electric vehicle from the design-forward Danish bicycle and
electric bicycle makers
It’s called the SIN — reportedly short for Singapore — and the company unveiled it this week at the CIEE trade fair in Shanghai. Resembling a wooden children’s toy car, the four-door
crossover follows the less-is-more ethos of Scandinavian design, with a few noteworthy ideas. First off is the lack of traditional wheel wells to allow for a skateboard-like flat floor, which Biomega says makes the vehicle easier to navigate in tight urban spaces and keeps its interior, which features four independent seats, simplified and full of space. There’s no hood or trunk. It also uses what it calls a fascia window, where the window glass extends all the way to the floor behind the
brake and accelerator pedals, to maximize the road view.
The SIN is designed to be made of lightweight composite materials including modular
carbon fiber, with a curb weight of around 2,090 pounds. Biomega says pricing, for now, will start below $23,000 (20,000 euros) and a release date could be anywhere between 2021 and 2023. Applications will include ride sharing and traditional
An accompanying video shows us glimpses of a futuristic-looking, minimalist interior, a windshield that runs the length of the vehicle and doubles as a panoramic glass sunroof, that fascia window behind the foot pedals, a rectangular steering wheel and a center touchscreen. Base specs on the concept say it carries a 20 kWh
battery pack, including a 14 kWh permanent unit and a 6 kWh removable pack, presumably for replacing with a fully charged pack for extended range. There are also 15-kilowatt in-hub electric motors on each wheel, good for 82 horsepower and 118 pound-feet of torque. It has a driving range of 99 miles and a top speed of around 80 mph.
Biomega’s founder is the Danish designer
Martin Skibsted, who co-chairs the World Economic Forum’s Global Agenda Council on Design and Innovation and is chairman of the Danish Design Council. The SIN is reportedly the company’s first four-wheeled vehicle design.