Ingenium engine family
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The Ingenium family is a range of modular engines produced by Jaguar Land Rover, in both petrol and diesel variants. It uses a modular architecture making it possible to be produced in three-, four- and six-cylinder versions (built around individual 500 cc cylinders), depending on demand and requirements. The Ingenium engine line replaced engines sourced from Ford since late 2015.
Ingenium's design is configurable and flexible for longitudinal and transverse architectures and for front, rear, and all-wheel drive, together with auto and manual transmissions. Hybrid variants are set to be released in the future. Both single- and twin-turbo boosting solutions from Mitsubishi and BorgWarner are used. Particular emphasis has been placed on achieving exceptionally low internal friction, which is described as being 17% less than a current 2.2-litre diesel. "Other details include roller bearings on cam and balancer shafts instead of machined-in bearing surfaces, computer-controlled variable oil and water pumps, a split circuit cooling system enabling fast warm ups, a simplified cam drive system, crankshafts that are offset from the centre of the block and electronically controlled piston cooling jets to improve efficiency in the oil pumping circuit."
In 2017 Jaguar Land Rover licensed the Multiair/UniAir electrohydraulic variable valve lift system from Schaeffler Group, which Schaeffler in turn licensed from Fiat Chrysler Automobiles in 2011. The system, developed by Fiat Powertrain Technologies, is a hydraulically actuated variable valve timing (VVT) technology enabling "cylinder by cylinder, stroke by stroke" control of intake air directly via a gasoline engine's inlet valves.
In February 2019, Jaguar Land Rover announced their long-rumoured inline-six engine. Instead of being a conventional engine, the new 3.0 L petrol inline-six motor is combined with a 48 volt electric architecture to support an electric supercharger, belt starter-generator and extended engine shut offs while coasting and/or while stopped in traffic. The new engine is initially being offered in the Range Rover Sport in two power outputs, 360 PS (265 kW; 355 hp) and 400 PS (294 kW; 395 hp). Both are considered to be mild hybrid electric vehicles.
Engine family list
| Petrol | ||||||
|---|---|---|---|---|---|---|
| Engine ID | Displacement | Power@rpm | Torque@rpm | Year | Features | Applications |
| AJ150 | 1,499 cc (91.4 cu in) | 118 kW (160 PS) (P160) 147 kW (200 PS) (P300e) | 260 N⋅m (192 lb⋅ft) (P160) 280 N⋅m (207 lb⋅ft) (P300e) | 2019–present | DOHC I3, turbocharger, MHEV (P160) & PHEV (P300e) | Land Rover Range Rover Evoque, Discovery Sport |
| AJ200 | 1,999 cc (122 cu in) | 147 kW (200 PS) | 320 N⋅m (236 lb⋅ft) | 2016–present | DOHC I4, turbocharger | Jaguar XE; Land Rover Discovery Sport |
| 1,999 cc (122 cu in) | 180 kW (245 PS) at 5,500 | 365 N⋅m (269 lb⋅ft) at 1,200 – 4,500 | 2016–present | DOHC I4, turbocharger | Jaguar XE, XF, XJ, E-Pace, F-Pace; Land Rover Range Rover Evoque, Range Rover Velar | |
| 1,997 cc (121.9 cu in) | 221 kW (300 PS) at 5,500 | 400 N⋅m (295 lb⋅ft) at 1,500 – 4,000 | 2017–present | DOHC I4, twin-scroll turbochargers, electrohydraulic valvetrain | Jaguar F-Type, E-Pace; Land Rover Range Rover Evoque, Discovery, Defender, Range Rover Sport | |
| 1,997 cc (121.9 cu in) | 297 kW (404 PS) | 640 N⋅m (472 lb⋅ft) | 2017–present | DOHC I4, twin-scroll turbochargers, electrohydraulic valvetrain, PHEV (P400e) | Land Rover Range Rover, Range Rover Sport, Defender | |
| AJ300 | 2,996 cc (182.9 cu in) | 250–265 kW (340–360 PS) | 495 N⋅m (365 lb⋅ft) | 2020–present | DOHC I6, twincharged, MHEV | Jaguar F-Pace; Land Rover Range Rover, Range Rover Sport, Range Rover Velar, Discovery |
| 2,996 cc (182.9 cu in) | 294 kW (400 PS) at 5500 | 550 N⋅m (406 lb⋅ft) at 2,000 – 5,000 | 2019–present | DOHC I6, twincharged, MHEV | Jaguar F-Pace; Land Rover Range Rover, Range Rover Sport, Range Rover Velar, Defender | |
| 2,996 cc (182.9 cu in) | 324 kW (441 PS) at 5500 | 620 N⋅m (457 lb⋅ft) at 2,000 – 5,000 | 2022–present | DOHC I6, turbocharger, PHEV | Land Rover Range Rover, Range Rover Sport P440e | |
| 2,996 cc (182.9 cu in) | 375 kW (510 PS) at 5500 | 700 N⋅m (516 lb⋅ft) at 2,000 – 5,000 | 2022–present | DOHC I6, turbocharger, PHEV | Land Rover Range Rover, Range Rover Sport P510e | |
| Diesel | ||||||
| AJ200D | 1,999 cc (122 cu in) | 110 kW (150 PS) at 4,000 | 380 N⋅m (280 lb⋅ft) at 1,750 – 2,500 | 2015–present | DOHC I4, turbocharger, 2 | Jaguar E-Pace; Land Rover Discovery Sport, Range Rover Evoque |
| 1,999 cc (122 cu in) | 120 kW (163 PS) at 4,000 | 380 N⋅m (280 lb⋅ft) at 1,750 – 2,500 | 2015–present | DOHC I4, turbocharger, 2 | Jaguar XE, XF, F-Pace; Land Rover Discovery Sport | |
| 1,999 cc (122 cu in) | 132 kW (179 PS) at 4,000 | 430 N⋅m (317 lb⋅ft) at 1,750 – 2,500 | 2015–present | DOHC I4, turbocharger | Jaguar XE, E-Pace, F-Pace; Land Rover Range Rover Evoque; Range Rover Velar | |
| 1,999 cc (122 cu in) | 147 kW (200 PS) at 4,000 | 430 N⋅m (317 lb⋅ft) at 1,750 – 2,500 | 2015–present | DOHC I4, turbocharger, 2 | Land Rover Defender; Range Rover Velar | |
| 1,999 cc (122 cu in) | 177 kW (241 PS) at 4,000 | 500 N⋅m (369 lb⋅ft) at 1,500 - 2,500 | 2017–present | DOHC I4, turbocharger | Jaguar XE, XF, E-Pace, F-Pace; Land Rover Discovery; Range Rover Evoque; Range Rover Velar | |
| AJ300D | 2,997 cc (182.9 cu in) | 147 kW (200 PS) | 570 N⋅m (420 lb⋅ft) at 1,250 – 2,250 | 2020–present | DOHC I6, turbocharger, MHEV | Land Rover Defender |
| 2,997 cc (182.9 cu in) | 183 kW (249 PS) | 600 N⋅m (443 lb⋅ft) at 1,250 – 2,250 | 2020–present | DOHC I6, turbocharger, MHEV | Land Rover Range Rover; Range Rover Sport | |
| 2,997 cc (182.9 cu in) | 221 kW (300 PS) | 650 N⋅m (479 lb⋅ft) at 1,500 – 2,500 | 2020–present | DOHC I6, turbocharger, MHEV | Land Rover Range Rover; Range Rover Sport; Jaguar F Pace | |
| 2,997 cc (182.9 cu in) | 257 kW (349 PS) | 700 N⋅m (516 lb⋅ft) at 1,500 – 3,000 | 2020–present | DOHC I6, turbocharger, MHEV | Land Rover Range Rover; Range Rover Sport |
See also
External links
- 22 September 2016 at the Wayback Machine
- 29 March 2018 at the Wayback Machine