An all new
direct injection 5.0 L engine family was introduced in 2009, for the 2010 model year. The AJ133 is a 90° V8 engine available in either supercharged or naturally aspirated form, with a bore & stroke of and a compression ratio of 9.5:1 for the supercharged version and 11.5:1 for the naturally aspirated one respectively. The main structural components of the engine are all manufactured from aluminium alloy. The engine is built around a very stiff, lightweight, enclosed V, deep skirt cylinder block, with an open-deck design. A structural windage tray is bolted to the bottom of the cylinder block to further improve the block stiffness, minimize NVH (noise, vibration and harshness) and help reduce oil foaming. To further enhance the stiffness of the lower engine structure, a heavily ribbed sump body is installed. The sump body also helps to reduce engine noise. A spheroidal graphite cast-iron crankshaft is utilized with high-strength cast pistons and fracture-split forged steel connecting rods manufactured from 36 Mn VS4 steel. The engine uses a
Bosch high pressure direct injection fuel system with fuel pressure provided by two, cam driven high pressure pumps which are driven by a dedicated camshaft. The high pressure pumps supply the fuel rails which in turn supply the four injectors for that bank with fuel at a controlled pressure. The four camshafts incorporate VCT (
variable camshaft timing). VCT allows the timing of the intake and exhaust valves to be adjusted independently of each other. The naturally aspirated engine features cam profile switching and variable tract length inlet manifold. Supercharged engines make use of a sixth-generation 1.9L TVS (Twin Vortices Series) supercharger, which is located in the 'vee' of the engine and is driven from the crankshaft by a dedicated secondary drive belt. Denso's Generation 1.6 Engine Management System was used on earlier models, later switching to Bosch's MED17 engine management 2013+ (except for the XKR and XKR-S). The direct fuel injection system, advanced piston and combustion chamber design and the supercharger provide improved fuel consumption and emissions, as these engines meet EU5 emission regulations in Europe and Rest of World (ROW) and ULEV 70 emission regulations in North American Specification (NAS) markets. The naturally aspirated engine was replaced by the AJ126 supercharged V6 engine starting for the 2013 model year. It has since been replaced by the all-new
Ingenium turbocharged inline-6 engine. As of December 2024, Jaguar has discontinued most of its internal combustion engine (ICE) models, including those featuring the AJ133S, as part of its transition to an all-electric lineup by 2025. The 2024 Land Rover Defender V8 is the final vehicle to use the AJ133S engine. For the 2025.5 model year, it was joined in Defender by BMW’s 4.4L
N63 twin-turbo V8 in the Octa derivative, (NC11 had already been introduced in the 2022 Range Rover and 2023 Range Rover Sport).
AJ133 Land Rover version is called 'LR-V8 Petrol engine'.
AJ133S The AJ133S is the supercharged variant of the AJ133, featuring an Eaton TVS1900R supercharger. It incorporates twin water-to-air intercoolers and a front-mount heat exchanger, with a shared cooling circuit. Differences over the naturally aspirated engine include; flat-top pistons for a lower compression ratio (9.5:1 vs 11.5:1), piston-oil spray jets, and different intake camshafts without cam-profile switching capabilities. All AJ133S engines utilize the same supercharger pulley setup, capable of producing approximately 15PSI of boost. Differences in ECU calibrations determine the final power output. The
Bowler Nemesis and
David Brown Speedback Silverstone Edition also use a variant of this engine producing .
Model year changes Over its production span, the AJ133/S underwent several modifications to enhance performance, reliability, and compliance with evolving emission standards. Key changes by model year include: 2010: • Equipped with 10.5mm cylinder head bolts. • Utilized a Tsubaki timing chain with a 6.35mm pitch (except for X351 XJ and Land Rover models, which used an 8mm pitch chain from INA). • Featured Denso engine management. • Employed a vacuum-actuated supercharger bypass valve. • Supercharged variants had aluminium coolant crossover pipes. 2011: • All AJ133 variants transitioned to an INA timing chain with an 8mm pitch for MY2012 vehicles. • Introduced redesigned timing chain guides and tensioners. • Switched to plastic coolant crossover pipes for supercharged models. 2013 (excluding XKR & XKR-S): • Upgraded to 11mm cylinder head bolts. • Adopted Bosch MED17 engine management. • Implemented an electric supercharger bypass valve. • Added an eco-start-stop starter motor. • Updated air box assemblies, mass air flow (MAF) sensors, and throttle body. 2014: • Further redesigned timing chain guides, incorporating an added steel button for MY2015 vehicles. • Introduced new timing chain tensioners. 2021 (specific to F-Pace SVR & F-Type P450/P575): • Removed the mechanical vacuum pump, replacing it with a blanking plate. 2024: • Updated the coolant crossover pipes to aluminium in MY24 Defender and Jaguar F-Pace SVR vehicles. LR186859 & LR186917. These updates aimed to address known issues and improve the engine’s overall performance and durability. For instance, the timing chain and tensioner revisions were implemented to enhance reliability. Additionally, the shift to Bosch engine management systems facilitated better integration with modern vehicle electronics and emission control systems. ==V6==