The new Renault Twingo E-Tech electric attacks the small-EV problem from the right end. It does not chase headline power, giant battery capacity, or crossover bulk. It goes after the city-car brief with hard numbers: a 27.5 kWh LFP battery, 175 Nm of torque, 262 to 263 km of WLTP range, a 9.9 m turning circle, and a base Dutch on-road price of about $24,340.
That formula works because Renault kept the car tight where buyers need tight, then spent money where daily use hurts most. Specifically, the cabin gets five doors, two independent sliding rear seats, a folding passenger seat, and cargo flexibility that stretches from 260 liters to 1,010 liters. Looking at the data, the Twingo does not try to be a mini family SUV. It tries to be the smartest urban electric car in Europe under the psychological $25,000 line.
Why the new Twingo matters
Renault knows this badge. The original Twingo built its name on packaging efficiency, and the new car follows the same script with electric hardware and tighter cost control.
Three numbers frame the whole pitch:
- 3,789 mm / 149.2 in overall length
- 2,493 mm / 98.1 in wheelbase
- 1,275 kg / 2,811 lb curb-ready mass
That wheelbase-to-length ratio tells the story. Renault pushed the cabin far into the footprint, then added sliding rear seats and a flat-fold passenger seat so the Twingo can carry four adults or swallow long cargo up to 2 meters / 78.7 inches. By comparison, plenty of cheap EVs force buyers to pick one strength: low price, rear-seat room, or usable trunk space. The Twingo tries to hold all three.
Renault Twingo E-Tech electric specs that actually count
| Spec | Renault Twingo E-Tech electric |
|---|---|
| Battery | 27.5 kWh LFP |
| Motor output | 60 kW / 82 hp |
| Torque | 175 Nm / 129 lb-ft |
| WLTP range | 262-263 km / about 163 mi |
| Energy use | 12.2-13.0 kWh/100 km |
| AC charging | 11 kW |
| DC fast charging | 50 kW |
| DC charge time | 10-80% in 30 minutes |
| 0-100 km/h | 12.1 seconds |
| Top speed | 130 km/h / 80.8 mph |
| Length | 3,789 mm / 149.2 in |
| Width | 1,720 mm / 67.7 in |
| Height | 1,491 mm / 58.7 in |
| Wheelbase | 2,493 mm / 98.1 in |
| Turning circle | 9.9 m / 32.5 ft |
| Cargo space | 260-1,010 L / 9.2-35.7 cu ft |
| Seats | 4 |
From an expert perspective, the efficiency figure may be the biggest win here. A claimed 12.2 kWh/100 km works out to roughly 5.1 mi/kWh, which sits right where a well-sorted city EV should land. That lets Renault keep the battery small, the weight down, and the sticker lower than larger EVs that brute-force range with more cells.
The engineering choices make sense
Renault did not arrive here by accident. It made a series of disciplined calls.
- It chose an LFP battery and a cell-to-pack layout to cut battery cost by about 20%.
- It kept output at 60 kW because city driving rewards response and efficiency more than top-end shove.
- It swapped the rear hardware to a simpler torsion-beam style setup instead of a pricier multi-link rear axle.
- It developed the car in 100 weeks, which slashed time and engineering cost.
That last point matters because cost does not vanish. Carmakers either bury it in the sticker or strip the car bare. Renault tried a third route: cut development drag, simplify the chassis, keep the pack small, then spend on things owners touch every day like the cabin layout, the OpenR Link interface, and up to 24 driver-assistance systems.
In addition, Renault says the Twingo's life-cycle carbon footprint lands 60% lower than an equivalent ICE city car. It also adds 38 kg of European low-carbon steel with 75% circular-economy material in the body-in-white. That reads like supplier math until you connect it to the price target. Lower-carbon material and shorter logistics only help if the product still hits a liveable number at the dealer.