Land Rover Discovery
Land Rover Discovery is a series of mid-size luxury SUVs
Land Rover Discovery is a series of mid-size luxury SUVs, produced under the Land Rover marque, from the British manufacturer Land Rover (becoming Jaguar Land Rover in 2013). There have been five generations of the vehicle, the first of which was introduced in 1989, the second called the Series II update in 1998, the third generation, titled Discovery 3, launched in 2004 and was marketed in North America and The Middle East as the Land Rover LR3. The fourth in 2009 was the Discovery 4—Land Rover LR4 for North American and Middle Eastern markets. The fifth generation Discovery was introduced in 2017, and omits the numeric suffix of the previous two versions.
On 2 April 2004, Land Rover introduced the Discovery 3, marketed as the LR3 in North America and The Middle East. It retained the key features of the Discovery, such as the stepped roofline and steeply raked windscreen. The LR3 name was chosen for North American and Middle Eastern markets due to negative quality associations with the Discovery name and (according to Land Rover) a preference in the American market for alpha-numeric model designations – the second generation Freelander was also re-designated for the North American and Middle Eastern market as the LR2.
Land Rover developed a body construction method for the Discovery 3, marketed as Integrated Body Frame (IBF). The engine bay and passenger compartment are built as a monocoque, then mated to a basic ladder-frame chassis for the gearbox and suspension. Land Rover claims IBF combines the virtues of monocoque and ladder-frame – though it makes for a heavier vehicle than a monocoque construction, compromising performance and agility somewhat but adding strength, toughness and adaptability.
Interior
The LR3 features full independent suspension (FIS). Like the Range Rover L322, this is an air suspension system, enabling ride-height adjustment by simply pumping up or deflating the air bags. The vehicle can be raised to provide ground clearance when off-road, but lowered at high speeds to improve handling. Land Rover developed ‘cross-linked’ air suspension. When needed, the suspension mimics the action of a beam axle (as one wheel drops, the other rises). If the chassis of the vehicle contacts the ground when the suspension was at its ‘off-road’ height, the system senses the reduction in load on the air springs and raises the vehicle an extra inch. In the UK and European markets, a coil-spring independent suspension system was offered on the base model. This model was unique in the range by having only five seats and only being available with the 2.7-litre diesel engine. This model lacked the Terrain Response system.
The engines used in the Discovery 3 were all taken from Land Rover’s sister company at the time, Jaguar. A Ford/PSA-developed 2.7-litre, 195 hp (145 kW), 440 Nm V6 diesel engine (the TdV6) was intended to be the biggest seller in Europe. For the US market and as the high-performance option elsewhere, a 4.4-litre petrol V8 of 300 hp (220 kW) was chosen. A 216 hp (161 kW) 4.0-litre SOHC Ford V6 petrol engine was available in North America and Australia.
The gearboxes on the Discovery 3 were also all-new. For the diesel engine, a six-speed manual transmission was standard. As an option, and as standard on the V8 engine, a six-speed automatic transmission was available. Both came with a two-speed transfer box and permanent four-wheel-drive. A computer controlled progressively locking central differential ensured traction was retained in tough conditions. A similar differential was available on the rear axle to aid traction.
The Discovery 3 was fitted with multiple electronic traction control systems. Hill Descent Control (HDC) prevented vehicle ‘runaways’ when descending steep gradients and 4-wheel Electronic Traction Control (4ETC) prevented wheel spin in low-traction conditions. An on-road system, Dynamic Stability Control (DSC), prevented skidding when steering and braking at speed. The vehicle also featured the ‘Terrain Response’ system. Previously, off-road driving had been a skill that many drivers found daunting. A wide-ranging knowledge of the vehicle was needed to be able to select the correct gear, transfer ratio, various differential systems and master various techniques required for tackling steep hills, deep water and other tough terrain. Terrain Response attempted to take away as many of the difficulties as possible. The driver selected a terrain type (“Sand”, “Grass, Gravel & Snow”, “Mud & Ruts” and “Rock Crawl”) on a dial in the cab of the vehicle. The on-board computer systems then select the correct gearbox settings, adjust the suspension height, adjust the differential lock settings and even alter the throttle response of the engine suitable for the terrain. For example, in “Rock Crawl”, the suspension is raised to its maximum height and set to allow maximum wheel articulation, the differentials are locked, the driver is prompted to switch to Low Range, and the throttle response is altered to provide low-speed control. In “Sand” mode, the traction control system is ‘primed’ to be more sensitive to wheelspin, the differentials are partly locked, and the throttle response is re-mapped to produce high power outputs with short pedal movement. The driver retained some manual control over the off-road systems, being able to select the Transfer Box ratio and the suspension height manually, although use of the Terrain Response system is needed to allow full use of the vehicles’ capabilities.
As well as new mechanical and electronic systems, the Discovery 3 introduced a new design to the interior and exterior of the vehicle. The Discovery 3 was able to have a fresh, minimalist style. The interior featured a flexible seven-seat layout. Passengers in the rearmost row now entered through the rear side doors, instead of the tailgate as in previous versions. The driver benefitted from a DVD navigation system, including some optional features like Bluetooth telephony in later models. Like the Range Rover, this audio, information & entertainment (“infotainment”) system in the Discovery 3 adopted an electronics architecture whereby the system’s distributed control units pass information and audio amongst one another and throughout the vehicle via optical links based on the MOST (or, Media Oriented Systems Transport) fibre-optic automotive networking standard (informally called the “MOST-bus”). The system’s navigation functions were unique to Land Rover because, in addition to the typical road map navigation, benefits included an off-road navigation and four-wheel drive information mode. When in four-wheel drive information mode, the screen showed a schematic of the vehicle, displaying the amount of suspension movement, angle the front wheels were steering, the status of the locking differentials and icons showing which mode the Terrain Response was in, and what gear was selected on automatic versions.
In 2006, Land Rover used the Discovery 3 in its G4 challenge, alongside the Range Rover Sport. The vehicles used were all in standard mechanical form, except for the fitment of additional Land Rover off-road equipment.
The first all-new model placement since the Freelander, the Range Rover Sport is based on the Discovery 3 platform, rather than on the larger Range Rover.
A 2008–2009 facelifted model of the Discovery 3 offered a Harman/Kardon stereo system upgrade, six-CD changer, clear side indicator lights, and body-colour bumpers.
A driverless version of the LR3 finished 4th in the DARPA Urban Challenge.