oil filter JAGUAR XFR 2010 1.G Workshop Manual

Overview
System Operation and Component DescriptionDiagnosis and TestingEngineGeneral ProceduresEngine Oil Draining and Filling
Engine Oil Vacuum Draining and Filling
Fuel Pump Camshaft Timing Check
Fuel Pump Camshaft Timing Adjustment
Valve Clearance Check
Valve Clearance AdjustmentRemoval and InstallationCamshaft LH
Camshaft RH
Crankshaft Front Seal
Crankshaft Pulley
Crankshaft Rear Seal
Cylinder Head LH
Cylinder Head RH
Engine Mount LH
Engine Mount RH
Exhaust Manifold LH
Exhaust Manifold RH
Flexplate
Oil Cooler
Oil Filter Element
Oil Pan
Oil Pan Extension
Oil Pump
Timing Cover
Timing Drive Components
Valve Cover LH
Valve Cover RH
Cylinder Block Oil Gallery Plug
Fuel Pump Camshaft - Assembly Part Number: INA Timing Drive
Fuel Pump Camshaft - Assembly Part Number: Tsubaki Timing Drive
Lower Timing Cover
ValvesRemovalEngineInstallationEngine

Throttle Body303-05D: Accessory Drive - V8 S/C 5.0L PetrolSpecificationDescription and OperationComponent Location
OverviewRemoval and InstallationAccessory Drive Belt
Accessory Drive Belt Idler Pulley
Accessory Drive Belt Tensioner
Supercharger Belt Idler Pulley
Supercharger Belt Tensioner303-06C: Starting System - V8 5.0L Petrol/V8 S/C 5.0L PetrolSpecificationDescription and OperationComponent Location
Overview
System Operation and Component DescriptionDiagnosis and TestingStarting System
Starting System - Vehicles With: Smart KeyRemoval and InstallationStarter Motor303-07B: Engine Ignition - V8 5.0L Petrol/V8 S/C 5.0L PetrolSpecificationDescription and OperationComponent Location
Overview
System Operation and Component DescriptionDiagnosis and TestingEngine IgnitionRemoval and InstallationIgnition Coil-On-Plug - V8 S/C 5.0L Petrol303-08C: Engine Emission Control - V8 5.0L Petrol/V8 S/C 5.0L Petrol
Description and OperationComponent Location
Overview
System Operation and Component DescriptionDiagnosis and TestingEngine Emission Control303-12D: Intake Air Distribution and Filtering - V8 S/C 5.0L PetrolSpecification

Catalyst Monitor Sensor RH
Crankshaft Position (CKP) Sensor
Engine Control Module (ECM)
Engine Coolant Temperature (ECT) Sensor
Engine Oil Level Sensor
Front Knock Sensor (KS) LH
Front Knock Sensor (KS) RH
Fuel Rail Pressure (FRP) Sensor
Heated Oxygen Sensor (HO2S) LH
Heated Oxygen Sensor (HO2S) RH
Manifold Absolute Pressure (MAP) Sensor
Mass Air Flow (MAF) Sensor
Rear Knock Sensor (KS) LH
Rear Knock Sensor (KS) RH
Variable Valve Timing (VVT) Oil Control Solenoid LH
Variable Valve Timing (VVT) Oil Control Solenoid RH307: Automatic Transmission/Transaxle
307-01B: Automatic Transmission/Transaxle - TDV6 3.0L Diesel /V8 5.0L Petrol/V8 S/C 5.0L
PetrolSpecificationDescription and OperationComponent Location
Overview
System Operation and Component DescriptionDiagnosis and TestingDiagnosticsGeneral ProceduresTransmission Fluid Level Check
Transmission Fluid Drain and RefillRemoval and InstallationInput Shaft Seal
Extension Housing Seal
Transmission Control Module (TCM) and Main Control Valve Body
Transmission Fluid Pan, Gasket and Filter
Transmission Support Insulator - V8 5.0L Petrol/V8 S/C 5.0L Petrol
Transmission, Transmission Fluid Cooler and Transmission Fluid Cooler Tubes - V8 5.0L Petrol/V8
S/C 5.0L Petrol
Transmission and Transmission Fluid Cooler - V8 5.0L Petrol/V8 S/C 5.0L PetrolRemovalTransmission - V8 5.0L Petrol/V8 S/C 5.0L PetrolInstallationTransmission - V8 5.0L Petrol/V8 S/C 5.0L Petrol

Speed Control Module
Speed Control Sensor
Speed Control Switch4: Electrical
412: Climate Control System
412-00: Climate Control System - General InformationSpecificationDiagnosis and TestingClimate Control SystemGeneral ProceduresAir Conditioning (A/C) System Recovery, Evacuation and Charging (82.30.30)
Air Conditioning (A/C) System Flushing
Contaminated Refrigerant Handling
Electronic Leak Detection
Fluorescent Dye Leak Detection
Inspection and Assembly Requirements
Manifold Gauge Set Connection
Refrigerant Oil Adding - TDV6 3.0L Diesel /V8 5.0L Petrol/V8 S/C 5.0L Petrol
Refrigerant System Tests
Air Conditioning (A/C) Compressor Commissioning412-01: Climate ControlSpecificationDescription and Operation
Air Distribution and FilteringComponent Location
Overview
System Operation and Component DescriptionHeating and VentilationComponent Location
Overview
System Operation and Component DescriptionAir ConditioningComponent Location
Overview
System Operation and Component DescriptionControl ComponentsComponent Location
Overview
System Operation and Component DescriptionRemoval and InstallationAmbient Air Temperature Sensor
Blower Motor

Viton

In common with many other manufacturers' vehicles, some components installed to the Jaguar range have 'O' rings, seals or
gaskets which contain a material known as 'Viton'.

Viton is a fluoroelastomer, that is a synthetic rubber type which contains Fluorine. It is commonly used for 'O' rings, gaskets
and seals of all types. Although Viton is the most well known fluoroelastomer, there are others, including Fluorel and
Tecmoflon.

When used under design conditions fluoroelastomers are perfectly safe. If, however, they are exposed to temperatures in
excess of 400º C, the material will not burn, but will decompose, and one of the products formed is hydrofluoric acid.
This acid is extremely corrosive and may be absorbed directly, through contact, into the body.

'O' rings, seals or gaskets which have been exposed to very high temperatures will appear charred or as a black sticky
substance.
DO NOT, under any circumstances touch them or the attached components.

Enquiries should be made to determine whether Viton or any other fluoroelastomer has been used in the affected 'O' ring, seal
or gasket. If they are of natural rubber or nitrile there is no hazard. If in doubt, be cautious and assume that the material may
be Viton or any fluoroelastomer.

If Viton or any other fluoroelastomers have been used, the affected area should be decontaminated before the commencement
of work.

Disposable heavy duty plastic gloves should be worn at all times, and the affected area washed down using wire wool and a
limewater (calcium hydroxide) solution to neutralize the acid before disposing of the decomposed Viton residue and final
cleaning of the area. After use, the plastic gloves should be discarded carefully and safely.

Welding

See also Fire, Electric Shock, Gas Cylinders.

Welding processes include Resistance Welding (Spot Welding), Arc Welding and Gas Welding (and cutting).
Resistance Welding (Spot Welding)
This process may cause particles of molten metal to be emitted at a high velocity, and the eyes and skin must be protected.
Arc Welding
This process emits a high level of ultraviolet radiation which may cause arc-eye and skin burns to the operator and to other
persons nearby. Gas-shielded welding processes are particularly hazardous in this respect. Personal protection must be worn,
and screens used to shield other people.
CONTACT LENS WEARERS ARE ADVISED TO REVERT TO ORDINARY SPECTACLES WHEN ARC WELDING as the arc spectrum is
believed to emit microwaves which dry out the fluid between the lens and the eye. This may result in blindness when the lens
is removed from the eye.
Metal spatter will also occur, and appropriate eye and skin protection is necessary.

The heat of the welding arc will produce fumes and gases from the metals being welded, the rods and from any applied
coatings or contamination on the surfaces being worked on. These gases and fumes may be toxic and inhalation of these
should be avoided. The use of extraction ventilation to remove the fumes from the working area may be necessary particularly
in cases where the general ventilation is poor, or where considerable welding work is anticipated. In extreme cases or confined
spaces where adequate ventilation cannot be provided, air-fed respirators may be necessary.
Gas Welding (and Cutting)

Oxy-acetylene torches may be used for welding and cutting, and special care must be taken to prevent leakage of these gases,
with consequent risk of fire and explosion.
The process will produce metal spatter and eye and skin protection is necessary.

The flame is bright, and eye protection should be used, but the ultraviolet emission is much less than that from arc welding,
and lighter filters may be used.

The process itself produces few toxic fumes, but such fumes and gases may be produced from coatings on the work,
particularly during cutting away of damaged body parts, and inhalation of the fumes should be avoided.

In brazing, toxic fumes may be produced from the metals in the brazing rod, and a severe hazard may arise if brazing rods
containing cadmium are used. In this event particular care must be taken to avoid inhalation of fumes and expert advice may
be required.

SPECIAL PRECAUTIONS MUST BE TAKEN BEFORE ANY WELDING OR CUTTING TAKES PLACE ON VESSELS WHICH HAVE
CONTAINED COMBUSTIBLE MATERIALS, E.G. BOILING OR STEAMING OUT OF FUEL TANKS.

Warning Symbols on Vehicles

Decals showing warning symbols will be found on various vehicle components.

9. WEAK VALVE SPRINGS: When the needle oscillation becomes more violent as engine RPM is increased, weak valve
springs are indicated. The reading at idle could be relatively steady.
10. LATE VALVE TIMING: A steady but low reading could be caused by late valve timing.

11.
IGNITION TIMING RETARDED: Retarded ignition timing will produce a steady but somewhat low reading.
12.
INSUFFICIENT SPARK PLUG GAP: When spark plugs are gapped too close, a regular, small pulsation of the needle can
occur.
13. INTAKE LEAK: A low, steady reading can be caused by an intake manifold or throttle body gasket leak.

14.
BLOWN HEAD GASKET: A regular drop of fair magnitude can be caused by a blown head gasket or warped cylinder head
to cylinder block surface.
15.
RESTRICTED EXHAUST SYSTEM: When the engine is first started and is idled, the reading may be normal, but as the
engine RPM is increased, the back pressure caused by a clogged muffler, kinked tail pipe or other concerns will cause
the needle to slowly drop to 0 kPa (0 in-Hg). The needle then may slowly rise. Excessive exhaust clogging will cause
the needle to drop to a low point even if the engine is only idling.

When vacuum leaks are indicated, search out and correct the cause. Excess air leaking into the system will upset the fuel
mixture and cause concerns such as rough idle, missing on acceleration or burned valves. If the leak exists in an accessory
such as the power brake booster, the unit will not function correctly. Always repair vacuum leaks.

Engine Oil Pressure Check


NOTE: Prior to checking the engine oil pressure, a road test of 6 miles (10 kilometres), must be carried out. Do not
attempt to attain engine normal operating temperature by allowing the engine to idle.

1. Disconnect the battery ground cable. Refer to section 414-00 - Charging System - General Information of the workshop
manual
2. WARNINGS:
The spilling of hot engine oil is unavoidable during this procedure, care must be taken to prevent scalding.
Wear protective gloves.

Remove the engine oil filter element
REFER to: Oil Filter Element (303-01C Engine - V8 5.0L Petrol, Removal and Installation).
NOTE: Ensure the oil filter element is not contaminated during this procedure
3. Install the oil filter element into special tool (Oil filter adapter number 303-1451)

4. Install the special tool (Oil filter adapter number 303-1451) to the engine. Torque: 25 Nm

5. Install the special tool (Oil pressure testing gauge, 303-871) and tighten the union
6. Connect the battery ground cable

7. Refer to owner hand book, check and top-up the engine oil if required

8. Start and run the engine
9. Note the oil pressure readings with the engine running at idle and 3500 RPM

10.
Turn off the engine

11.
Disconnect the battery ground cable
12. Remove the special tools
1. Clean the components

13.
Install the engine oil filter element
REFER to: Oil Filter Element (303-01C Engine - V8 5.0L Petrol, Removal and Installation).
NOTE: Ensure the oil filter element is not contaminated during this procedure

14.
Connect the battery ground cable
15. Refer to owner hand book, check and top-up the engine oil if required
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Engine - V8 S/C 5.0L Petrol -
Engine Data Published: 17-Jun-2014

Engine Description Engine Capacity Maximum Engine Torque (EEC) (SAE) Maximum Engine
Power (EEC) (SAE) Compression
Ratio
Bore
Stroke • 90° "Vee" • 8 Cylinder • 32 Valves 4.999 ccm
625 Nm at 2.500 - 5.500
RPM 375 kW at 6.000 - 6.500
RPM 9.5 ± 0.50 92.509 ±
0.009 mm 93 ± 0.1
mm Engine Firing Order
Standard Firing order ISO 1:2:7:3:4:5:6:8 DIN 1:5:4:2:6:3:7:8 Engine Valve Clearance (cold)
Intake Valve Exhaust Valve 0.20 ±0.02 0.25 ±0.02 Spark Plugs
Specification Spark Plug Gap ILKR6C-10 1 mm Lubricants, Fluids, Sealers and Adhesives

NOTE: When servicing or draining the engine oil, the 0w20 oil is compatible with 5w20. Any residue mix is acceptable.

Description Specification Engine Oil - Vehicles built up to March 2014 SAE 5W20 WSS-M2C925-A Engine Oil - Vehicles built from March 2014 SAE 0W20 STJLR.51.5122 Sealant WSE-M4G323-A6 Core plug and stub pipe retainer WSK-M2G349-A7 Jaguar Premium Cooling System Fluid WSS-M97B44-D Capacities

NOTE: For supercharged 5.0L engines.

Description Litres Engine oil, initial fill 8.9 Engine oil, service fill with oil filter change 7.25 Engine oil, service fill without oil filter change 6.75 Capacities

NOTE: For naturally aspirated 5.0L engines.

Description Litres Engine oil, initial fill 8.75 Engine oil, service fill with oil filter change 7.25 Engine oil, service fill without oil filter change 6.75 Cylinder Head and Valve Train
Item Specification Cylinder head maximum permitted warp (flatness specification) 0.2 mm (0.008 in) Valve guide inner diameter (mm) 5.51 ± 0.01 Intake valve effective length (mm) (tip to gauge line) 117.21 ± 0.1 Exhaust valve effective length (mm) (tip to gauge line) 94.39 ± 0.1 Valve stem to guide clearance intake diametrical (mm) 0.022 - 0.057 Valve stem to guide clearance exhaust diametrical (mm) 0.03 - 0.065 Valve head diameter intake (mm) 36 ± 0.1 Valve head diameter exhaust (mm) 30 ± 0.1 Intake valve face angle (degrees) 44.875 ± 0.125 Exhaust valve face angle (degrees) 44.875 ± 0.125 Valve stem diameter intake (mm) 5.4705 ± 0.0075 Valve stem diameter exhaust (mm) 5.4625 ± 0.0075 Valve spring free length (mm) - inlet 46.1 Valve spring free length (mm) - exhaust 46.1 Valve spring installed height (mm) - inlet 35.74 Valve spring installed height (mm) - exhaust 35.1 Camshaft lobe lift intake (mm) 10 Camshaft lobe lift exhaust (mm) 9.36 Camshaft journal to cylinder head bearing surface clearance diametrical (mm) 0.025 - 0.065 Camshaft journal diameter - all positions 26.965 ± 0.01 Bearing diameter - all positions 27.01 ± 0.01

Item Specification Camshaft journal maximum run out limit (mm) Camshaft journals to end journals 0.03 Camshaft journals to adjacent journals 0.015 Camshaft journal maximum out of round (mm) - all journals 0.005 Torque Specification

NOTE: A = Refer to procedure for correct torque sequence.

Description Nm lb-ft lb-in Engine cover mounting bolts 10 7 - Accessory drive belt tensioner retaining bolt 40 30 - Supercharger belt idler/tensioner bracket retaining bolts 25 18 - Secondary drive belt idler retaining bolts 40 30 - Power steering pump pulley retaining bolts 25 18 - Power steering pump retaining bolts 25 18 - Power steering pump bracket to engine retaining bolts 25 18 - Generator retaining bolts 48 35 - Starter motor retaining bolts 48 35 - Air conditioning compressor retaining bolts 25 18 - Engine mounting to engine mounting bracket retaining nuts 48 35 - Engine mounting to subframe retaining nuts 63 46 - Engine mounting bracket to engine retaining bolts 48 35 - Crankshaft damper pulley retaining LH threaded bolt 200 + 270° 148 + 180° - Flexplate retaining bolts 45 + 90° 33 + 90° - Exhaust manifold heat shield retaining bolts A - - Exhaust manifold retaining bolts A - - Engine wiring harness bracket retaining bolts 10 7 - Coolant outlet pipe 10 7 - Intercooler retaining bolts 25 18 - Intake manifold retaining bolts 25 18 - Oil Cooler retaining bolts 13 10 - Knock sensor (KS) retaining bolt 20 14 - Ignition coil retaining bolts 8 - 71 Spark plugs 20 15 - Fuel rail retaining bolts A - - High pressure fuel pipe retaining bolts A - - High pressure fuel pump retaining bolts 12 9 - Oil filter housing assembly retaining bolts 12 9 - Oil filter cap 28 21 - Lifting eye bolts 25 + 90° 18 + 90° - Manifold absolute pressure and temperature (MAPT) sensor sensor retaining bolts 5 - 44 Coolant pump retaining bolts 12 9 - Variable valve timing (VVT) oil control solenoid retaining bolts 10 7 - Camshaft position (CMP) sensor retaining bolts 10 7 - Camshaft cover retaining bolts 13 10 - Front upper timing cover retaining bolts 12 9 - Front lower timing cover retaining bolts A - - Engine rear cover retaining bolts A - - VVT to camshaft retaining bolts 32 24 - Camshaft bearing caps retaining bolts 11 8 - Primary timing chain fixed guide retaining bolts 12 9 - Primary timing chain tensioner retaining bolts 12 9 - Primary timing chain tensioner guide blade retaining bolts 25 18 - Auxiliary chain tensioner guide retaining bolts 21 15 - Auxiliary chain fixed guide retaining bolt 12 9 - Oil pump sprocket retaining bolt 21 15 - Cylinder head retaining bolts A - - Engine oil level (EOL) sensor retaining bolt 12 9 - Oil pan to oil sump body retaining bolts 12 9 - Oil sump body to engine retaining bolts 25 18 - Oil pan drain plug 23 17 - Oil transfer tube to Oil pan body retaining bolts 11 8 - Oil pump to engine block retaining bolts 25 18 - Pick-up pipe to oil pump retaining bolts 12 9 - Windage tray retaining bolts 25 18 - Piston cooling jet retaining bolts 12 9 - Engine block coolant draining plug 50 37 - Connecting Rod bolts Stage 1 10 7 - Stage 2 50 37 -

16 Bias spring 17 Snap ring 18 Reluctor ring 19 Center plate 20 Snap ring 21 Screw (6 off) 22 Spool valve 23 Outer plate Each VCT unit is attached to the camshaft by three bolts. A rotor assembly and a reed plate are installed inside a sprocket housing, which consists of a sprocket, an outer plate and an inner plate held together by six screws.

A reluctor ring, for the CMP (camshaft position) sensor, a center plate and a bias spring are installed at the front of the VCT unit. The ends of the bias spring locate on the center plate assembly and the sprocket housing, to give a turning moment to
the camshaft in the advance direction. A snap ring locates the reluctor ring on to a sleeve installed in the center of the rotor
assembly. The opposite end of the sleeve locates in a bore in the front face of the camshaft, which contains a filter.

A spring and spool valve are installed in the rotor assembly sleeve and retained by a snap ring. The spring keeps the spool
valve in contact with the armature of the related VCT solenoid.
Each VCT unit is supplied with engine oil from an oil gallery in the cylinder head, through the camshaft front bearing cap and a bore in the center of the camshaft.
Variable Camshaft Timing Solenoids
The VCT solenoids control the position of the spool valves in the VCT units.


The VCT solenoids are installed in the front upper timing covers, immediately in front of their related VCT units. Each VCT solenoid is secured with two screws and sealed with an O-ring. A two pin electrical connector provides the interface with the
engine harness.

Each VCT solenoid incorporates a spindle that acts on the spool valve in the related VCT unit to advance and retard the camshaft timing. The VCT solenoids operate independently and are controlled by a PWM signal from the ECM. www.JagDocs.com

1 Oil pump outlet tube 2 Anti-drain valve 3 Oil cooler 4 Oil filter 5 Piston cooling jets 6 Timing chain lubrication jets 7 Oil evacuation tube 8 Oil pump 9 Oil temperature and level sensor 10 Oil pick-up The oil pump is attached to the underside of the windage tray. The input shaft of the oil pump is driven from the front of the
crankshaft, by the auxiliary chain, at 0.87 engine speed.

The oil pump draws oil from the sump pan through a centrally mounted pick-up pipe. The oil is pressurized and pumped
through an output tube to the cylinder block. After passing through an anti-drain valve and a plate type oil cooler, the oil is
filtered by a replaceable cartridge installed on the front of the RH cylinder head. LUBRICATION SYSTEM