Well established. And future-ready.

From humble beginnings, the technology behind internal combustion engines has developed at an exponential pace, toward more power and torque, but also toward greater efficiency and emission reduction. Hyundai has evolved as a global leader in all of those areas.

What is the difference?

Diesel engines work by compressing the air inside the cylinder. This increases the air temperature enough to ignite the atomised diesel fuel injected into the combustion chamber. Petrol engines use spark plugs to ignite the air-fuel mixture.

Modern engine technology: Smartstream.

'Smart’ technological objectives of saving fuel, improving performance, and reducing gas emissions were applied to every step of the ‘Stream’ when Hyundai engineers developed our latest powertrain technology: the stream of air and fuel injected in the engine, and its explosive power delivered to the wheels via the transmission.
  1. Crankshaft of the Hyundai continuously variable valve duration technology.

    Continuously Variable Valve Duration (CVVD).

    CVVD optimises both engine performance and fuel efficiency. The valve control technology regulates the duration of valve opening and closing according to driving conditions, achieving a 4% boost in performance and a 5% improvement in fuel efficiency. All this, while cutting emissions by 12%.
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  1. Fuel injection illustration of the Hyundai dual-port fuel injection technology.

    Dual-Port Fuel Injection (DPFI).

    DPFI uses two injectors for each intake port to better maintain the stable air/fuel ratio in the mixer, which also improves the Exhaust Gas Recirculation (EGR) ratio, benefitting the engine's fuel economy. By atomising fuel droplets, DPFI also reduces the emission of harmful particulate matter.
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  1. Graph of the integrated thermal management system of Hyundai.

    Integrated Thermal Management System (ITMS).

    ITMS regulates engine temperature while also controlling the vehicle’s heating and air conditioning. A 3-way valve placed next to the engine regulates the flow of engine coolant to the radiator, transmission oil warmer and heater. The valve can not just open and shut but also control the amount of coolant flow setting the overall coolant flow pattern that bests suits the engine’s status.
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Smart transmission technologies.

In internal combustion engine vehicles, transmissions serve the important role of situationally adjusting the engine RPM to allow controlled application of power. Appropriate shifting of gears lets the engine continuously function at high efficiency, improving both performance and fuel economy.

8-speed wet Dual-Clutch Transmission (DCT).

Dual-Clutch Transmissions (DCT) combine the advantages of manual transmission and automatic transmission. Their fast shifting and highly efficient power delivery combines the convenience of automatic with the fuel efficiency of manual transmissions. Wet DCTs use oil to cool the clutches, withstanding the higher torques of our most powerful engines.

48V mild hybrid.

The 48V mild hybrid powertrain system supports the combustion engine, adding electric power during the different stages of driving. Find out more about this innovative fuel-saving system.
  1. Illustration of the Hyundai TUCSON showing the start of 48V mild hybrid system.

    Comfort Start.

    The mild hybrid system is particularly useful in city traffic, with the Mild Hybrid Starter Generator (MHSG) supporting the combustion engine when re-starting after traffic stops. It supports a faster and smoother engine start with supplemental torque, drawing on energy from the 48V battery.
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  1. Illustration of the Hyundai TUCSON showing the acceleration of the 48V mild hybrid system.

    Acceleration.

    Under acceleration, the starter generator supports the engine with 4 to 10 kW of power, depending on the battery system’s charge and the driver's accelerator input. Once the required speed is reached, the system shifts to neutral mode, delivering no power. As a result, CO2 emissions and fuel consumption can be reduced.
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  1. Illustration of the Hyundai TUCSON showing how the 48V mild hybrid system is charging while driving.

    Charging while driving.

    At a constant speed, the system either is at idle or acts as a generator charging the 48V battery, depending on the battery state of charge.
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  1. Illustration of the Hyundai TUCSON showing the recuperation of the 48V mild hybrid system.

    Recuperation.

    In active braking or overrun phases, the rotating crankshaft powers the starter generator, which then recuperates a maximum output of 10 to 12 kW. The generator converts the kinetic braking energy into electricity and feeds it back into the 48V battery.
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  1. Illustration of the Hyundai TUCSON showing the extended start-stop functionality of the 48V mild hybrid system.

    Start-stop and coasting.

    When coasting at low speeds, the start-stop function activates at 30 km/h. At speeds between 30 and 0 km/h, and with the clutch disengaged, the engine switches off completely.
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Centre console of a Hyundai with an iMT gearstick. 
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Intelligent Manual Transmission (iMT).

Designed specifically for mild hybrid engines, the iMT increases fuel efficiency by automatically engaging coasting mode whenever you release the accelerator.

Performance Powertrains: Hyundai N.

Hyundai N models push the limits and let drivers discover how much fun one can have behind the wheel. N was developed to deliver thrilling cornering abilities coupled with everyday sports car drivability.
  1. Infographic showing 392 Nm torque and 280 PS.

    2.0 T-GDi with 280 PS.

    The i30 N's flat power tune provides more torque and power at lower RPM's, utilising more of the engine’s potential in everyday driving situations. The Performance Package now comes with 280 PS. The wet-type eight-speed dual clutch transmission with paddle shifters promises more control and faster shifts. Max. torque: 392 Nm. Top speed: 250 km/h.
  2. Infographic showing 353 Nm torque and 250 PS.

    2.0 T-GDi with 250 PS.

    With the standard trim, the new i30 N is equipped with a six-speed manual transmission and delivers a maximum power output of 250 PS with a maximum torque of 353 Nm. Top speed: 250 km/h.
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  1. Infographic showing 275 Nm torque and 204 PS.

    1.6 T-GDi with 204 PS.

    The newest generation 1.6-litre turbocharged GDi engine with six-speed manual transmission (using CVVD technology) delivers a maximum output of 204 PS and a maximum torque of 275 Nm.
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Efficient and powerful: our petrol and diesel engines.

Hyundai offers a wide range of highly efficient and powerful internal combustion engine, which are designed to meet a variety of personal preferences and regulatory guidelines.
Petrol Engines Power Torque Models
1.0 MPi 67 PS 96.1 Nm i10
1.2 MPi 84 PS 117.6 Nm i10 | i20 | BAYON
1.0 T-GDi 100 PS 172 Nm i10 | BAYON
1.0 T-GDi 120 PS 171.6 Nm i20 | BAYON
1.5 DPi 110 PS 144 Nm i30
1.0 T-GDi MT 120 PS 172 Nm i30 | KONA
1.0 T-GDi 48V 120 PS 172 Nm i30 | KONA
1.0 T-GDi DCT 120 PS 200 Nm KONA
1.5 T-GDi 48V 159 PS 253 Nm i30
1.6 T-GDi (low) 150 PS 250 Nm TUCSON
1.6 T-GDi 48V 150 PS 250 Nm TUCSON
1.6 T-GDI (high) 48V 180 PS 265 Nm TUCSON
2.0 T-GDi (low) 250 PS 353 Nm i30 N
2.0 T-GDi (high) 280 PS 392 Nm i30 N
1.6 T-GDi Smartstream 204 PS 275 Nm i20 N
Diesel Engines Power Torque Models
1.6 CRDi MT 115 PS 280 Nm i30 | TUCSON
1.6 CRDi DCT 136 PS 320 Nm i30 | TUCSON
1.6 CRDi 48V 136 PS 300 Nm i30 | TUCSON
2.2 SmartStream 202 PS 440 Nm SANTA FE
2.5 CRDi  136 PS 343 Nm H-1
2.5 CRDi with WGT 170 PS 441 Nm H-1

Discover more Hyundai powertrains.

From hydrogen fuel cell electric powertrains to electrified engines like a 48-volt mild hybrid, hybrid, plug-in hybrid or an all-electric vehicle, you can find more information here.