- The New i20 offers a choice of three petrol engines.
The Kappa 1.0-litre T-GDI comes with a choice of two power outputs: 73.6 kW/100 PS, available with a 5-speed manual transmission (combined fuel consumption under NEDC conversion: 56.5 mpg; CO2 emissions under NEDC conversion: 114 g/km*) or 88.3 kW/120 PS mated to a 6-speed manual transmission (combined fuel consumption under NEDC conversion: 54.3 mpg; CO2 emissions under NEDC conversion: 118 g/km*).
As an alternative, the 73.6 kW/100 PS 1.0-litre T-GDI powertrain can be combined with a 7-speed dual-clutch transmission (7DCT) – a Hyundai first in the i20 range. The 7DCT offers two drive modes: Normal and Sport. The 1.0-litre T-GDI is now equipped with a built-in particulate filter to reduce exhaust emissions.
Hyundai’s Kappa 1.2-litre engine is available in the i20 with 61.8 kW/84 PS (combined fuel consumption under NEDC conversion: 51.4 mpg; CO2 emissions under NEDC conversion: 126 g/km*) or with 55.2 kW/75 PS (combined fuel consumption under NEDC conversion: 48.7 mpg; CO2 emissions under NEDC conversion: 130 g/km*). Both versions are mated to a 5-speed manual transmission.
The Idle Stop and Go (ISG) is a standard feature the i20, which contributes to lower fuel consumption, lower CO2 emissions and higher efficiency. The fuel savings of using the ISG are especially apparent when driving in urban areas, as the ISG automatically switches off the engine when the car comes to a halt.
By concentrating on efficient petrol engines in the i20 range, Hyundai is responding to market demand. The whole i20 powertrain line-up is fully compliant with Euro 6d TEMP regulations.
Ride and handling
The New i20 has enhanced driving dynamics. The steering feels more direct, more agile and more fun-to-drive due to a better on-centre steering response giving the driver quicker feedback from the road.
The damping ability of the chassis and wheels is enhanced to reduce impact on the passengers giving a smoother driving experience even on bumpy roads.
* For further details on fuel consumption and CO2 emissions please refer to the Technical Data chapter.