Jaguar XJ (X350)


The Jaguar XJ is a full-size four-door luxury sedan/saloon manufactured and marketed worldwide by British automobile manufacturer Jaguar Cars for model years 2003–2009 as the third generation of the Jaguar XJ saloon — carrying the internal designation X350 and the internal designation X358, following its 2007 intermediate facelift.
Both the X350 and X358 were available with a six-speed automatic transmission, a range of gasoline and diesel engines, numerous trim levels — and short wheelbase or long wheelbase configurations. Extended-length models were the longest vehicles Jaguar had manufactured.
The X350 was noted for its advanced electrical systems, self-leveling adaptive air suspension and full aluminum unibody chassis and bodywork, among the first for a mass-produced automobile. The bodyshell was 40 per cent lighter and 50 percent stiffer than its predecessor, despite its increased overall size.
Styling of the third generation was a conservative evolution of the previous XJ's styling; its slatted grille recalling the grille of the original 1968 XJ. Exterior styling was by principal designer Tom Owen along with Sandy Boyes, under the design directorship of Geoff Lawson, who died midway through the project, and his successor Ian Callum. the XJ's interior was styled by Giles Taylor. Manufacturing took place at Jaguar's Castle Bromwich Assembly in Birmingham.
With an unpainted and highly polished example of its all-alloy body shell on display, the X350 debuted at the 2002 Paris Motor Show. The full X350/358 generation largely coincided with Jaguar's ownership by Ford's Premier Automotive Group — until Tata Motors purchased Jaguar in 2008. Production ended in March 2009 after seven years with a total production of 83,566.

X350

Body and chassis

The X350's aluminum bodyshell used a aerospace construction method, a hybrid of adhesive bonding and rivet joinery and known as rivet-bonding or riv-bonding — an industry first in volume automotive production. Both chassis and body formed an aluminum unibody structure. Using aluminum rather than steel required new techniques, technological development and production layout along with significant investment.
The stressed aluminum unibody used 15 aluminum castings, 35 extrusions and 284 stampings bonded using 120 yards of robotically-applied, heat-cured, aerospace-grade epoxy adhesives and approximately 3,200 self-piercing zinc-coated, boron steel rivets — Jaguar's first use of self-piercing rivets. In addition to the rivets, which do not require a predrilled or punched hole, each rivet making its own hole on insertion, the process also uses a small number of nuts, bolts, and spot welds. Castings and extrusions accounted for about 11 percent of the XJ bodyshell.
To ensure manufacturing feasibility, numerous styling elements required redesign to accommodate forming in aluminum rather than steel, including the hood/bonnet profiles, especially around the headlamps; the radii in the fender-to-bumper gaps and the rear fender/door shut pressing; the side light configuration and the bodyside ‘haunch’. Chief Program engineer Russ Varney said the XJ also taught Jaguar "about the springback of stamped parts, where the pieces won't keep their exact shape."
To reduce front-end collision repair cost and ameliorate increased insurance rates associated with aluminum construction, the body was designed to withstand an impact of 10 mph without structural damage and used a bolt-on front-end module. A hydroformed aluminum extrusion with an energy absorbing foam cover formed a bumper beam cross-member, to provide strength and crushability in the event of a minor collision. Sacrificial extruded aluminum "crash cans" were designed to protect the body structure and front-end componentry.
Steel is used for front and rear subframes and magnesium is used for seat frames and lateral instrument panel beam.
Jaguar had previously and prominently used aluminum construction, in the XK120 which was produced in the 1940s and used aluminum panels, along with its C‑Type and D‑Type race cars as well as the 1960s E-Type which used aluminum chassis and body design.
Ford retained the bonding and riveting patents of the XJ's aluminum monocoque body, when it sold Jaguar to Indian automobile manufacturer Tata Motors in 2008.

Design and engineering

The X350 employed a multi-link layout with four-wheel self-levelling adaptive air suspension instead of the previous generation's double wishbone IRS. Suspension was controlled electronically, requiring no intervention from the driver, to adjust damper settings and adjust ride and handling under varying conditions — its electronic control system marketed as Computer Active Technology Suspension. The air suspension was designed to activate every 24 hours to level the vehicle when parked and not in use.
From the previous generation, the overall body was wider, longer and higher — with increased head, leg, shoulder and cargo room — and carried a.32 coefficient of drag. Door shut lines were engineered uniformly to a 3.8 mm gap to adjacent body elements. The hood and trunk were engineered to 3.5 mm to adjacent body elements. The doors opened to 62 degrees front and 65 degrees rear. The long wheelbase model, introduced in 2005, was the longest vehicle Jaguar had manufactured at the time. With a five inch extension behind the B-pillar, the extended model had a wheelbase and overall length of — the bodyshell's weight increased by and the roof height increased by over the standard wheelbase XJ. Turning radius was increased by 13 inches over the standard wheelbase model.
The 12-volt wiring system used multiplexing to integrate four systems: low-speed, event-driven communications around the body; high speed powertrain system ; fiber-optic communication protocol for telematics, navigation, phone, voice activation, audio and multimedia systems; and safety systems protocol.

Equipment

At introduction, standard equipment included mirror-matched walnut burl wood grain trim throughout the interior, piano-black center console trim, leather seating, wood-trimmed steering wheel, leather-covered overhead assist handles, dual zone automatic climate control, glass electric tilt and slide moonroof with single-touch open/close, rain-sensing automatic wipers, automatic headlights, front fog lights, 24 lamp LED taillights, front and rear parking sensors, trunk/boot power latching mechanism, electrically adjustable steering wheel with memory and entry/exit function, electrochromic self-dimming side mirrors with compass, a trip computer, electrically adjustable pedals with 2.5 inch travel, 4 power points, all window one-touch up/down power operation, metallic paint, a full-size spare tyre, electronically tilt and telescoping steering wheel, keyless entry, puddle lamps, electronic park brake, and 8-speaker, 320-watt sound system with trunk-mounted 6-CD changer and in-dash CD player.
Safety systems included four-channel anti-lock brakes with emergency brake assist; traction control;, dynamic stability control; and front, side thorax as well as full-length side curtain airbags. Electronic coordination of seatbelts and airbags, marketed as Advanced Restraint Technology System, was designed to sense crash severity, driver position and seatbelt status using ultrasonic and seat weight sensors to optimize airbag deployment force.
Optional equipment included xenon headlights, headlight powerwash, adaptive cruise control, multi-stage heated seats, heated steering wheel, DVD navigation, soft-grain ruched leather seats and trim, electrically adjustable pedals and rear-seat multimedia entertainment system for CD listening or DVD movie watching via front seat head restraint-mounted video screens.
At introduction, upper trim levels offered soft grain leather, leatherette fascia top and contrasting seat piping, inlain Peruvian boxwood trim, lambswool rugs, 320-watt, 12-speaker audio system, 4-zone heating and cooling system, 16-way adjustable front seats, rear heated seats — and optional electrically reclining rear seat and power rear center sunblind.
The rear seating of long wheelbase models could be equipped with fixed or power-adjustable bench or individually powered and heated seats.

Engines

The V8 engines remained in the new model, but were the revised and more powerful versions found in the 2003 S-Type. The 294 PS 4.0 L and 375 PS 4.0 L supercharged engines from the X308 Mk II were replaced by the S-Type's 4.2 L and 4.2 L supercharged units respectively, while a new 3.5 L V8 was also introduced for the European market which was derived from the 4.2 L engine and was rated at.
The 3.2 L V8 from the previous model was replaced by the 3.0 L V6 from the X-Type and S-Type. The V6 powers the XJ6, while the XJ8 was powered by a naturally aspirated V8. The XJR was powered by a supercharged 4.2 L V8. The XJ6 and the XJ TDVi are the only X350 models not sold in the Americas.
In 2005, Jaguar introduced the diesel-powered XJ TDVi, featuring the same Ford-Peugeot-developed 2.7-litre twin-turbocharged V6 found in the S-Type. The engine, known as the AJD-V6, is rated at and of torque, and was fitted with electronically controlled active engine mounts to minimise vibration at idle.
Both X350 and X358 used a six-speed automatic transmission manufactured by ZF Friedrichshafen.
North American XJ models were equipped with the naturally aspirated engine or an optional supercharged 4.2 L V8 engine. The latter engine's valvetrain had a dual overhead cam design with four valves per cylinder and its top speed was electronically limited to.

Trim levels

At introduction, the XJ was marketed worldwide in numerous trim levels, including XJ8, XJ Vanden Plas and XJR in North America, and XJ6, XJ8, XJ Sovereign in the UK. For the 2005 model year, Jaguar introduced a long wheelbase variant of the X350. For 2007, the premium model was the reintroduced as the Jaguar Sovereign when the Super V8 and Daimler versions were dropped.
The facelifted X350 debuted in February 2007 for model year 2008 with a revised front grille and front bumper assembly featuring a prominent lower grille. A Jaguar emblem within the grille replaced the previous bonnet-mounted hood ornament.
The front lights were revised and door mirrors incorporated side repeaters. The front fenders/wings had prominent faux side vents, and the side sills, rear bumper and tail lights were revised. The interior featured redesigned front seats.

Trim levels

Markets

UK:

As of November 2007, the following XJ models were available in the UK:
Models with the 2.7-litre diesel or with the 3.0-litre petrol V6 engines are also known as the XJ6, while the 4.2-litre V8 petrol engine mounted in the Sovereign results in that model being known as the XJ8. Also notice that the model list for the UK does not include the 3.5-litre V8 engine available in Germany, for example.
Germany:

From May 2007, the following models were available in Germany:
North America:
From May 2007, the following XJ models were available in North America:
Note: the XJ6 and the XJ 2.7D are not available in the US, unlike in Europe. The 'L' on the XJ8L badge denotes the long-wheelbase version.

Engines

All engines were paired with a ZF six-speed automatic transmission. The XJ6 petrol versions have a lower final drive ratio.
ModelType Power and torque Acceleration 0–100 km/h Top speed
2.7-litre V6 diesel twin-turbocharged V6, x at 4,000, at 1,9008.2
3.0-litre V6 petrol V6, x at 6,800, at 4,1008.1
4.2-litre V8 petrol V8, x at 6,000, at 4,1006.6
4.2-litre V8 petrol Supercharged supercharged V8, x at 6,100, at 3,5005.3

In popular culture

The Jaguar X358 TDVi was featured in an episode of BBC 2's Top Gear, where it drove from Basel to Blackpool Tower on one tank of fuel. Despite the pre-defined range, Jeremy Clarkson, who was driving the car at the time, had actually driven, and after examining the tank, had enough fuel to do another, making its range about. Clarkson then described the car as "astonishing" and "the second most economical car in the world", finishing just after Richard Hammond in a Polo.