All Charged Up: Opel Grandland X All-Wheel Drive Plug-In Hybrid
- 300hp and AWD: New Grandland X Hybrid4 version tops Opel’s SUV family
- Four driving modes: Fully electric, hybrid, AWD and sport
- Convenient: Lithium ion battery fully charged in as little as one hour 50 minutes
- Efficient: Regenerative braking converts deceleration to electrical energy
- Opel goes electric: Entire product portfolio electrified by 2024
Opel goes electric! The German carmaker continues to implement this key element of the PACE! strategic plan by presenting the new all-wheel drive PHEV (plug-in hybrid electric vehicle) version of the Grandland X. Topping Opel’s SUV offer the elegant Grandland X Hybrid4 with an optional black engine hood combines the power of a 1.6 turbocharged petrol engine and two electric motors for a system output of up to 300hp. Preliminary WLTP1/NEDC2 fuel consumption (weighted, combined) is 2.2 l/100 km with 49 g/km CO2. Planned to go on sale within the next weeks for first deliveries to customers in early 2020, Opel’s first plug-in hybrid will contribute to the electrification of the German brand’s entire product portfolio by 2024. It is also part of the carmaker’s strategy for meeting future CO2 targets. Another step in the process, which also includes highly efficient internal combustion engines, will be the introduction of the fully battery electric version of the next-generation Opel Corsa that goes on sale later this year.
This exciting new Opel PHEV model represents the state-of-the-art in plug-in hybrid technology. The propulsion system of the Grandland X Hybrid4 comprises:
- A WLTP-certified, Euro 6d-TEMP-compliant 147 kW/200 hp, 1.6-litre turbocharged direct injection four-cylinder petrol engine specially adapted to the hybrid application.
- An electric drive system with two 80 kW/109 hp electric motors, all-wheel drive and a 13.2 kWh lithium-ion battery. The front electric motor is coupled to an electrified eight-speed automatic transmission. The second electric motor, inverter and differential are integrated into the electrically powered rear axle to provide all-wheel traction on demand.
The engine will mostly be driven at medium to high vehicle speeds, while the lower speeds of transient driving are covered by the electric part of the powertrain. The Opel Grandland X Hybrid4 can cover up to 50 kilometres in pure electric mode in the WLTP driving cycle (60 km according to NEDC). Studies have shown that in Germany, 80 percent of all daily journeys cover a distance of under 50 km, so for these customers the Grandland X Hybrid4 could potentially drive with zero emissions all of the time.
The Grandland X Hybrid4 will offer four driving modes – electric, hybrid, AWD and Sport – allowing drivers to tailor the car’s characteristics to their wishes or to specific driving conditions. For example, choosing the hybrid mode allows the car to automatically select its most efficient method of propulsion, with the possibility of switching to electric mode for zero-emission driving when reaching a city centre. Selecting AWD mode activates the electrified rear axle for maximum traction on all kinds of roads.
As well as making the newest propulsion systems available to all drivers, the Grandland X Hybrid4 shows how Opel always keeps sight of the customer’s needs. For example, the plug socket for charging the battery via the 3.3 kW on-board charger (a 6.6 kW version is optional) is conveniently positioned on the opposite side of the vehicle to the fuel filler, while the battery is installed under the rear seats in order to optimise space in the interior and the boot.
Charging time depends on the type of charger in use. In addition to the cable supplied with the vehicle for charging from a domestic plug socket, Opel will offer devices for fast charging at public stations and wallboxes at home; the battery charges fully in around one hour and 50 minutes with a 7.4 kW wallbox.
The Grandland X Hybrid4 will also offer the new Opel Connect telematics service. Helpful functions, such as Live Navigation with real-time traffic information, checking key vehicle data via an app, direct connection with roadside assistance and emergency call, give the driver and passengers additional peace of mind. Help can be reached within seconds via the red button. If the seatbelt tensioners or the airbags are deployed, the emergency call is activated automatically.
“One Pedal Driving”: Slowing down with the accelerator
In order to further improve efficiency, the Grandland X Hybrid4 features a regenerative braking system to recover the energy produced under braking or deceleration. In a conventional braking system, the mechanical energy generated by friction in the brakes is lost as heat. By converting this excess kinetic energy into electrical energy, and either using it immediately or storing it in the battery, the all-electric range of the Grandland X Hybrid4 can increase by up to 10 per cent on average.
The driver can even switch to “Regeneration on Demand” for maximum energy recuperation. The drag torque of the electric motor is so high that the brake pedal need not be applied to reduce speed to a full stop in normal traffic. The Grandland X Hybrid4 is thus controlled via the accelerator (One Pedal Driving).
To further leverage the high voltage (300 V) electrical system, the Grandland X Hybrid4 is equipped with an electrical air-conditioning compressor and an electrical heater.
The new Grandland X Hybrid4 belongs to the vanguard of Opel’s next-generation in electrified vehicles. While the Ampera-e remains on sale in selected markets, the manufacturer will globally launch within 20 months the new Corsa, the new Zafira Life MPV, the new Vivaro LCV and the successor of the Mokka X – each of which will feature a fully battery electric version.
 Fuel consumption and CO2-emission data given are preliminary and have been determined according to WLTP test procedure methodology (R (EC) No. 715/2007, R (EU) No. 2017/1151). EG type approval and Certificate of Conformity are not yet available. The preliminary values might differ from official final type approval data.
 Fuel consumption and CO2-emission data given are preliminary and have been determined according to WLTP test procedure methodology, and the relevant values are translated back into NEDC to allow the comparability with other vehicles, according to regulations R (EC) No. 715/2007, R (EU) No. 2017/1153 and R (EU) No. 2017/1151. EG type approval and Certificate of Conformity are not yet available. The preliminary values might differ from official final type approval data.