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AJ-V8/5HP24 - JagRepair.com - Jaguar Repair Information Resource

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1. Aram 10 Janona acsang 1 reas 34 esssfflesss 27 22lese EM014 EM013 EM012 EMO011 303 129 Connector Pin Circuit Pin Circuit Pin Circuit EM013 001 Fuel pump control 013 VSV2 025 Ignition amplifier 2A 002 EMS programming 014 Throttle motor relay 026 gnition amplifier TA 003 Cruise control switch LED 015 Radiator cooling fans slow 027 Shield ground knock engine 004 016 Radiator cooling fans fast speed and camshaft sensors 005 017 Knock sensor B 028 Engine speed sensor ground 006 018 Knock sensor A 029 Camshaft sensor ground 007 Not used 019 Engine speed sensor 030 Not used 008 020 Camshaft position sensor 031 gnition amplifier 4B 009 021 Not used 032 Ignition amplifier 3B 010 022 Ignition coil relay 033 Ignition amplifier 2B 011 VSV3 023 Ignition amplifier 4A 034 Ignition amplifier 1B 012 VSV1 024 Ignition amplifier 3A EM014 001 Throttle motor power 005 Throttle motor 009 Valve timing ground 002 Throttle motor power 006 Throttle motor 010 Power ground miscellaneous 003 Ignition supply 007 Throttle motor ground 2 011 Throttle motor 004 Signal ground 2 008 Throttle motor ground 1 012 Throttle motor EM015 001 HO2SB heater 009 Valve timing solenoid A 017 Injector 2A 002 HO2S A heater 010 Not used 018 Injector 1B 003 EVAP valve 011 Injector ground 1A 2B 3B 4A 019 004 Injector 3B 012 HO2S heaters ground 020 Not used 005 Injector 2B 013 Not used 021 006 Injector 4A 014 Not used 022 Injector g
2. Retarded TDC 5 a poli 10 Intake Exhaust 50 BDC Advanced TDC Intake BDC 303 068 24 AJ V8 5HP24 VALVE TIMING UNIT Body and Sprocket Assembly n LAA Ring Gears Inner Sleeve Return Spring Piston 303 002 Bush Carrier The bush carrier contains oil passages that link the engine oil supply to the valve timing unit A lug on the bush carrier locates in the central bore of the valve timing unit Two hollow dowels at the bush carrier to cylinder block interface ensure the lug is accurately located A scarf jointed fibre ring seals the joint between the lug and the valve timing unit An integral shuttle valve biased by a coil spring controls the flow of oil through the oil passages BUSH CARRIERS a a K CN 303 003 25 AJ V8 5HP24 VALVE TIMING SOLENOID e A 303 004 Valve Timing Solenoid The valve timing solenoid controls the position of the shuttle valve in the bush carrier A plunger on the solenoid extends when the solenoid is energised and retracts when the solenoid is de energised Operation When the valve timing solenoids are de energised the coil springs in the bush carriers position the shuttle valves to connect the valve timing units to drain In the valve timing units the return springs hold the ring pistons and gears
3. i J S A ee L OG it A 1 LI A Ca AN NO E ET POE EGR System The EGR system is controlled by the ECM and consists of an EGR valve and a transfer pipe The EGR valve is a 4 pole stepper motor installed on the rear of the induction elbow The valve is cooled by the coolant return from the electronic throttle The transfer pipe connects the right exhaust manifold to the EGR valve EGR VALVE AND TRANSFER PIPE 303 048 37 ass Engine Engine Accessories All engine accessories are rigidly mounted to improve refinement ie there are no shock mounts Accessory mounting brackets on the left and right sides of the engine support the A C compressor PAS pump and the generator respectively Dowels between the accessory mounting brackets and the engine ensure the accessory pulleys are accurately aligned with the accessory drive belt for further details of the accessories see Technical Guide XK8 Introduction ACCESSORY MOUNTING BRACKETS 303 019 38 AJ V8 5HP24 ENGINE ACCESSORIES AND DRIVE BELT PAS Pump Generator A C Compressor 303 018 Accessory Drive AUTOMATIC TENSIONER Belt Wear A single seven ribbed belt drives all t
4. which gear to select and for shift energy management Ifa fault occurs the TCM will take default action and inform the driver via the Message Centre and amber warning light TCM Harness Connector The vehicle harness connector for the TCM is an 88 way latching connector The TCM is wired to the electrical pressure regulators solenoids oil temperature sensor and shaft speed sensors in the transmission casing 303 009 Sport Mode When sport mode is selected by the driver using the mode switch the sport pattern is only activated when a set cornering force is achieved or the kickdown switch is pressed The vehicle speed and the difference in speeds between the two front wheels is used to calculate the amount of cornering force Torque Convertor Lock up The torque convertor lock up clutch is engaged as a function of throttle position output speed oil temperature gear shift and shift program Lockup is possible in 2nd 3rd 4th and 5th gears but is usually restricted to 4th and 5th gears During a gear shift the TCM controls the amount of slip of the lock up clutch to enhance shift quality Oil Temperature When the engine coolant or transmission oil temperature exceeds set thresholds a hot mode program is selected which locks the torque convertor clutch minimising the amount of heat entering the engine cooling system from the transmission oil 68 KE Gear Shift Interlock Gear shift interlock is cont
5. 22 F and progressively closes until it is fully closed at 40 C 104 F A flow of engine coolant through the throttle body provides the temperature source to operate the thermostatic air valve SIMPLIFIED VIEW OF ELECTRONIC THROTTLE Mechanical Guard Mechanical Guard Position Sensor Accelerator Pedal Position Sensor Throttle Valve Position Sensor w Spring Force 303 080 28 engine ERR ELECTRONIC THROTTLE Inlet Vacuum Actuator Thermostatic Coolant Air Valve dc Motor Coolant Outlet 303 067 Springs The input shaft spring and the mechanical guard spring oppose movement in the throttle open direction and provide the feel of the accelerator pedal The throttle valve spring and the drive gear spring oppose movement in the throttle closed direction Operation The design of the input shaft and the mechanical guard and the bias of their respective springs means that except in cruise control they always rotate together The throttle cable turns them in the open direction the springs keep their adjacent levers locked together and turn them in the closed direction The ECM monitors the position of the input shaft and mechanical guard using the inputs from the accelerator pedal and mechanical guard position sensors During normal operation when the ECM detects any movement it signals the dc motor to turn the throttle valve and follow the input sha
6. F Drive Reverse gt 10 14 600 25 10 to gt 20 14 to gt 4 625 25 20 to gt 30 4 to gt 22 650 25 lt 30 lt 22 675 25 Engine Speed rpm Park Neutral 650 25 675 25 700 25 725 25 53 AJ V8 5HP24 MA EET antan Vehicle Cruise Control The ECM operates the vehicle cruise control system in all forward gears in response to driver inputs through the master SET SET CANCEL and RES switches When the master switch is pressed two 12 V ignition supplies are connected to the ECM one direct and one via the brake switch The LED in the switch comes on to indicate the system is armed With the system armed a momentary press of either the SET or the SET switch engages cruise control provided the vehicle speed is 303 132 28 km h 17 5 mph or above The ECM memorizes the current road speed as the set speed and signals the vacuum system to operate CRUISE CONTROL STEERING WHEEL the mechanical guard The inputs from the SWITCHES position sensors in the electronic throttle allow the ECM to monitor and adjust the mechanical guard and the throttle valve to maintain the set speed The vacuum components are installed in a line connected between the induction elbow and the vacuum actuator on the electronic throttle In the vacuum system e the check valve isolates the system from the induction elbow at wide open throttle when there is little or no vacuum available e the r
7. Maximum Torque DIN Maximum Speed Limited Coolant Type Coolant Volume Engine Only Complete System Oil Specification Oil Volume Weight With Accessories 90 v8 Dual overhead camshafts 4 valves per cylinder 0 18 to 0 22 mm 0 007 to 0 009 in 0 23 to 0 27 mm 0 009 to 0 011 in NGK PFR5011E platinum tipped center electrode 1 0 mm 0 040 in 1A 1B 4A 2A 2B 3A 3B 4B 86 mm 3 386 in 86 mm 3 386 in 3 996 liters 244 CDI 10 75 1 216 kW 290 BHP at 6100 rpm 393 Nm 290 Ibf ft at 4250 rpm 7100 rpm Water and Jaguar anti freeze to specification ESD M97B49 A see Service Manual for mixture ratio 3 7 liters 0 98 US gallon 10 liters 2 65 US gallons SAE 5W30 API SH ILSAC GF 2 6 5 liters 6 88 US quarts Approximately 200 kg 441 Ib 43 AJ V8 5HP24 MA CA ETAT Catan ECM The engine management system is controlled by the ECM which is installed in the control module enclosure in the engine compartment The ECM provides optimum control of the engine under all operating conditions It also incorporates a comprehensive monitoring and diagnostic capability Software variations ensure that the system complies with the latest diagnostic and emissions legislation of the destination market The ECM receives inputs from engine related sensors and various vehicle systems and provides outputs for the following e electronic throttle e fuel pump e fuel injection e ignition e EVAP
8. an oil gauge dipstick Two driver selected modes are available sport or normal The TCM is programmed with cruise traction gradient warm up and hot mode features It also provides an on board diagnostic capability The engine and transmission meet OBDII USA environmental regulations Default limp home modes for both engine and transmission are provided AJ V8 5HP24 AJ V8 5HP24 303 056 Basic Engine The AJ V8 is an all new 90 V8 liquid cooled engine that gives refined and effortless performance Constructed in aluminum alloy the AJ V8 introduces several innovative design features new to Jaguar engines the most notable of these being e a bedplate e nikasil coated cylinder bores e fracture split connecting rods e variable valve timing e aluminum alloy valve lifters e electronic throttle control ass Engine ENGINE STRUCTURE 1 Cylinder Head 2 Cylinder Block 3 Bed Plate 4 Structural Sump 303 052 Cylinder Block The cylinder block is an enclosed V design which provides an inherently rigid structure with good vibration levels Nikasil a composition of nickel and silicon coated cylinder bores provide good friction heat transfer and piston noise levels A low volume coolant jacket improves warm up times and piston noise levels the longitudinal flow design of the jacket with a single cylinder head coolant transfer port in each bank i
9. emission It is a two position system that operates on the intake camshafts only There are 30 of crankshaft movement between the retarded and advanced positions Engine oil pressure operates the system under the control of the ECM For each intake camshaft there is a valve timing unit a bush carrier assembly and a valve timing solenoid Valve Timing Unit The valve timing unit turns the intake camshaft in relation to the primary chain to advance and retard the timing The unit consists of a body and sprocket assembly separated from an inner sleeve by a ring piston and two ring gears A bolt secures the inner sleeve to the camshaft The ring gears engage in opposing helical splines on the body and sprocket assembly and on the inner sleeve The ring gears transmit the drive from the body and sprocket assembly to the inner sleeve and when moved axially turn the inner sleeve in relation to the body and sprocket assembly Engine oil pressure controlled by the valve timing solenoid moves the ring gears and piston to turn the inner sleeve in the advanced timing direction A return spring moves the ring gears and piston to turn the inner sleeve in the retarded timing direction Additional springs absorb backlash to reduce noise and wear The springs between the ring gears absorb rotational backlash The spring between the inner sleeve and the end of the body and sprocket assembly absorbs axial backlash VALVE TIMING DIAGRAMS
10. guard position idle speed increases to approximately 1400 RPM full throttle available Engine speed limited to 3000 RPM Substitute or default value adopted no noticeable difference in performance Substitute or default value adopted potential difference in performance Action Substitute or DefaultValue If one input fails the input of the other two is used If two inputs fail ECM adopts fixed throttle mode If either input fails ECM adopts mechanical guard mode of operation If fault detected uses substitute value derived from transmission oil temperature If fault detected uses throttle angle as load measurement If fault detected uses a fixed intake air temperature of 50 C 122 F General CHECK Message Warning ENG Lamp Lamp MIL Red On ENGINE FAULT Red On ENGINE FAULT Red On ENGINE FAULT Amber On ENGINE FAULT Amber Off ENGINE FAULT None On None Note In mechanical guard mode fuel intervention smooths the transition from normal to default mode to prevent sudden acceleration of the vehicle Also fuel intervention limits idle speed Without fuel intervention idle speed would be approximately 2000 RPM and cause excessive shock loads on the transmission when shifting out of Park or Neutral When engine load increases idle speed fuel intervention is progressively withdrawn 64 Transmission Introduction The new ZF 5HP24 automatic transmission system features five forward gears a
11. ignition system consists of two ECM controlled ignition amplifier modules which each supply four spark plug mounted ignition coils The 14 mm spark plugs one per cylinder locate in recesses down the center line of each cylinder head The on plug ignition coils are secured to the camshaft covers The engine harness connects the on plug ignition coils to the ignition amplifiers located on the vehicle body A composite cover fits over the on plug coils Crankcase Ventilation The engine is ventilated through a part load and a full load breather The part load breather is a flexible composite hose connected between the oil separator in B bank camshaft cover and the induction elbow A restrictor in the outlet from the oil separator prevents reverse flow The full load breather is a flexible composite hose connected between the oil separator in A bank camshaft cover and the air intake duct The ends of the breather hoses incorporate quick release connectors see figure page 36 The oil separators consist of wire gauze packed into an open ended enclosure below the breather outlet AJ V8 5HP24 IGNITION COIL AND SPARK PLUG 303 049 OIL SEPARATOR 35 AJ V8 5HP24 CRANKCASE VENTILATION SYSTEM Part Load Breather Hose Connector Full Load Breather Hose Connector A
12. iron the crankshaft also has undercut and rolled fillets for improved strength The main bearings are aluminumftin split plain bearings An oil groove in the top half of each bearing transfers oil into the crankshaft for lubrication of the connecting rod bearings A lead bronze thrust washer is installed each side of the top half of the center main bearing The crankshaft rear oil seal a lip seal similar to that used on the AJ16 engine is a press fit in the bedplate to cylinder block interface engine EOE Connecting Rods and Pistons im CONNECTING ROD AND PISTON The connecting rods are manufactured in sinter forged steel The bearing caps are produced by fracturing the opposing sides of the connecting rod at the bearing horizontal center line As well as being easier to manufacture when re assembled the fractured surfaces interlock to form a strong seamless joint The cylinder position is etched on adjoining sides of the joint to identify matching connecting rods and bearing caps The connecting rod bearings are lead bronze split plain bearings The pistons are of the open ended skirt design with flat upper surfaces to reduce heat absorbtion Three piston rings two compression and one oil control are installed on each piston Each piston is installed on a wrist pin located in a lead bronze bushing in the connecting rod 303 014 Sump SEALANT TRACK ON STRUCTURAL SUMP The sump consists of an aluminum alloy
13. maintained even if the sump pan is deformed eg by grounding A mesh screen in the inlet prevents debris from entering the oil system Oil Pump The oil pump is installed on the crankshaft at the front of the engine The pump inlet and outlet ports align with oil passages in the bedplate A rubber coated metal gasket seals the pump to bedplate interface The pumping element is an eccentric rotor which is directly driven by flats on the crankshaft An integral pressure relief valve regulates pump outlet pressure at 4 5 bar 65 25 psi Oil Filter The oil filter is a replaceable cartridge installed on an adapter An internal bypass facility permits full flow bypass if the filter is blocked Oil Pressure Switch The oil pressure switch connects a ground input to the instrument cluster when oil pressure is present The switch operates at a pressure of 0 15 to 0 41 bar 2 2 to 5 9 psi Oil Level Gauge The oil level gauge locates midway along the left side of the oil pan supported in a tube installed in the bedplate Two holes in the end of the gauge indicate the minimum and maximum oil levels There is a difference of approximately 1 liter 1 US quart between the two levels OIL SYSTEM COMPONENTS ON STRUCTURAL SUMP Be Pressure Switch AJ V8 5HP24 ass Engine Variable Valve Timing The variable valve timing system improves low and high speed engine performance engine idle quality and exhaust
14. of the exhaust gases leaving the engine The heater elements improve the response time of the sensors during engine warm up 02S An O2S is installed in the outlet end of each catalytic converter They provide inputs proportional to the oxygen content of the exhaust gases leaving the catalytic converter 02S 303 119 Intake Air Temperature Sensor The intake air temperature sensor is a thermistor integrated into the same housing as the MAFS in the intake duct immediately downstream of the intake air cleaner It provides an input inversely proportional to the temperature of the air in the duct MAFS The MAFS is a hot wire sensor that provides an input which is approximately proportional to mass air flow into the engine N N 303 128 AJ V8 5HP24 RA REE EA ELECTRONIC THROTTLE SENSORS Accelerator Pedal Position and Mechanical Guard Position Sensors Sensor Throttle Position 303 090 50 Camshaft Position Sensor The camshaft position sensor is installed in B bank cylinder head at the rear of the intake camshaft It is a variable reluctance sensor that provides an input of intake camshaft position ECT Sensor The ECT sensor is installed in the coolant outlet duct It provides an input of coolant temperature at the cylinder head outlets Engine Speed Sensor The engine speed sensor is installed at the rear of the bed plate It is a variable reluctance sensor that provides a
15. structural sump bolted to the bedplate and a pressed steel oil pan bolted to the structural sump A windage tray Ono attached to the top of the structural sump isolates the oil pan from the disturbed air produced by the rotation of the crankshaft to prevent oil aeration and improve oil drainage A rubber plug at the rear of the structural sump seals the port that provides access to the torque converter securing bolts The engine oil drain plug is located at the front right corner of the oil pan A silicon rubber in groove gasket seals the joint between the oil pan and the structural sump a bead of sealant seals the joint between the structural sump and the bedplate gt Eno 303 021 AJ V8 5HP24 STRUCTURAL SUMP AND OIL PAN Torque F4 gee Mes 303 010 STARTER MOTOR Starter and Drive Plate The engine starter motor is installed at the rear right side of the engine at the cylinder block to bedplate split line for further details of the starter motor see Technical Guide XK8 Introduction The starter drive plate is attached to the rear of the crankshaft A timing disc for the engine speed sensor is spot welded to the front face of the drive plate 303 062 engine EEE TIMING DISC 303 035 STARTER DRIVE PLATE 303 034 Cylinder Heads The cylinder heads are unique to each cylinder
16. supplies ECM with inputs of throttle valve position 5 Gap maintained between throttle valve and mechanical guard 6 Input shaft at idle position disengaged from mechanical guard Mechanical Guard 1 Throttle cable inputs driver demand 2 Input shaft turns mechanical guard 3 Mechanical guard turns throttle valve 4 dc motor drive disengaged from throttle valve AJ V8 5HP24 ELECTRONIC THROTTLE OPERATING MODES Cruise Crontrol 2 Spring Force AJ V8 5HP24 INDUCTION ELBOW Fuel Tank Vacuum and Pressure Relief Valve Connection Part Load Breather EVAP Valve Vacuum Connection Brake Booster Vacuum Connection SE Vacuum Fuel Pressure Regulator Cruise Control Connection 303 033 SECTION THROUGH INTAKE MANIFOLD 303 051 Induction Elbow The induction elbow provides the interface between the electronic throttle and the intake manifold Connections on the induction elbow provide vacuum take offs for various services A boss on the rear of the elbow accommodates the EGR valve Intake Manifold The intake manifold is manufactured in composite with integrated composite fuel rails and metal thread inserts Individual ducts lead off a central chamber to the inlet ports of each cylinder Silicon rubber gaskets located in channels in the intake manifold seal the joints between the ducts and the cylinder heads 32 KE TE AA Fuel System Fuel i
17. EDUCTION THROTTLE TRACTION STATUS CLE REFERENCE SPEED Instrument cluster BEAM STATUS DLAMP LOW BEAM STATUS DE LAMP STATUS TCM GEAR POSITION SELECTED GEAR SELECTION FAULT KICKDOWN STATUS TOR TOR OUE CONVERTER SLIP QUE CONVERTER STATUS TORQUE REDUCTION REQUEST TRANSMISSION INPUT SPEED TRANSMISSION MALFUNCTION TRANSMISSION OIL TEMPERATURE TRANSMISSION OUTPUT SPEED TRANSMISSION OVERLOAD 48 Brake control module This list does not include network monitoring or diagnostic related messages Message Produced by ECM BRAKE PEDAL PRESSED ENGINE MALFUNCTION ENGINE SPEED ESTIMATED ENGINE TORQUE PEDAL POSITION THROTTLE POSITION TRACTION ACKNOWLEDGE BRAKE PEDAL PRESSED ENGINE COOLANT TEMPERATURE ENGINE MALFUNCTION ENGINE SPEED FUEL USED PARK BRAKE STATUS THROTTLE MALFUNCTION AMBER THROTTLE MALFUNCTION RED CRUISE CONTROL STATUS ENGINE SPEED ESTIMATED ENGINE TORQUE PEDAL POSITION THROTTLE POSITION TORQUE REDUCTION ACKNOWLEDGE AVERE G AJ V8 5HP24 Sensors Engine management sensors that input to the ECM are detailed below OXYGEN SENSORS Barometric Pressure Sensor The barometric pressure sensor is installed in the ECM It senses ambient pressure in the engine management enclosure of the engine compartment H02S HO2S A HO2S is installed in the intake end of each catalytic converter They provide inputs proportional to the oxygen content
18. FUEL PUMP CONTROL B Battery B Ignition Fuel Pump Trunk Fuse Box 303 134 58 Fuel Pump An output from the ECM controls the relay that operates the fuel pump At ignition on the pump will operate for 2 seconds without the ignition switch being set to crank after which time the pump will be de energized Similarly if the engine stops with the ignition on the pump will be de energized after 2 seconds The pump operates continuously while the ignition switch is set to crank or to on with the engine running Fuel Injection The ECM operates eight injectors to provide the engine with fuel The amount of fuel required is determined from a base air fuel ratio which is then adjusted for specific operating conditions The ECM varies the number and duration of injector pulses per engine cycle to regulate the fuel flow Injector timing is synchronised with engine rotation except during starting and acceleration Feedback signals from the two HO2S in the vehicle s exhaust system enable the ECM to exercise closed loop fueling control and adaptive fueling Separate channels in the ECM control each bank of injectors Adaptive fueling accommodates engine efficiency variations system tolerances and engine ageing Adaptations are produced at idle speed and four other points through the RPM load range on a fully warm engine when the adaptive fueling function centralizes the feedback range The ECM retains the adaptation
19. I JAGUAR Technical Guide AJ V8 Engine and 5HP24 Transmission Introduction Published by Service Communications Jaguar Cars Limited Publication Part No JJM 18 15 15 70 August 1996 BY APPOINTMENT TO BY APPOINTMENT TO BY APPOINTMENT TO HER MAJESTY QUEEN ELIZABETH II HER MAJESTY QUEEN ELIZABETH HIS ROYAL HIGHNESS THE PRINCE OF WALES QUEEN MOTHER MANUFACTURERS OF DAIMLER AND JAGUAR CAFS MANUFACTURERS OF DAIMLER AND JAGUAR CARS MANUFACTURERS OF DAIMLER AND JAGUAR CARS JAGUAR CARS LIMITED COVENTRY JAGUAR CARS LIMITED COVENTRY JAGUAR CARS LIMITED COVENTRY JAGUAR Technical Guide AJ V8 Engine and 5HP24 Transmission Introduction Published by Service Communications Jaguar Cars Limited Publication Part No JJM 18 15 15 70 August 1996 AJ V8 5HP24 This Technical Guide introduces the new AJ V8 engine and 5HP24 transmission installed in the XK8 Sports car It is intended to give Jaguar Dealer workshop personnel an overview of their construction and operation and is for information purposes only The contents of this Technical Guide must not be used as a reference source for servicing procedures all servicing procedures must be in accordance with the appropriate Service Manual This Technical Guide will not be updated While every effort is made to ensure accuracy changes may occur between going to press and the equipment being introduced to the market Once the equipment is in service details of
20. IFT MAP TRANSMISSION MALFUNCTION TRANSMISSION FAULT CODES GEAR POSITION ACTUAL GEAR POSITION SELECTED TRANSMISSION OIL TEMPERATURE TRANSMISSION MALFUNCTION TORQUE REDUCTION REQUEST TRANSMISSION OVERLOAD TRANSMISSION INPUT SPEED TRANSMISSION OUTPUT SPEED TORQUE CONVERTER SLIP KICKDOWN SWITCH GEAR POSITION ACTUAL TORQUE CONVERTER STATUS GEAR POSITION SELECTED TRANSMISSION SHIFT MAP TRANSMISSION OIL TEMPERATURE TRANSMISSION MALFUNCTION TRANSMISSION FAULT CODES a 71 AJ V8 SHP24 72 New Tools The table below lists the new service tools required for the AJ V8 engine These are in addition to the tools already in use on 6 and 12 cylinder engines some of which can also be used on the AJ V8 Details of new service tools for the 5HP24 transmission will be supplied at a later date Part Number Description JD 215 Camshaft setting locking tool JD 216 Crankshaft setting locking peg JD 217 Timing chain tensioner tool JD 218 Timing chain wedges 2 each JD 220 Dummy main bearing caps 5 each JD 221 Bore protector connecting rod installation 2 each JD 222 Engine rear lifting brackets 1 pair JD 223 Engine stand mounting brackets 1 pair JD 229 Crankshaft rear oil seal remover replacer JD 230 Belt tensioner release tool JD 231 Fuel injector remover JD 232 Valve lifter hold down tool JD 233 Fan nozzle air gun JD 234 Crankshaft front oil seal remover JD 235 Crankshaft front o
21. M to enable engine cranking While the engine cranks the BPM outputs a hard wired digital engine cranking signal to the ECM which employs engine starting strategies for the duration of the signal If the gear selector is not in Park or Neutral at ignition on the ECM inhibits the fuel injection and ignition functions and withholds the security acknowledge signal to prevent cranking AJ V8 5HP24 MES IN CAVE ET usin 62 HO2S Heaters The ECM energizes the heater elements of the HO2S during engine warm up to shorten the time it takes for them to produce accurate outputs Instrument Cluster The instrument cluster uses CAN messages from the ECM to operate the trip computer tachometer engine coolant temperature gauge and the BRAKE CHECK ENG and general warning lamps Note The CHECK ENG lamp is commonly known as the MIL A C Compressor Clutch Operation of the A C compressor clutch is controlled by the ECM to prevent unnecessary loads on the engine during unfavorable operating conditions On receipt of an A C request signal from the A CCM the ECM immediately energizes the A C compressor clutch relay provided the engine is not at idle speed the coolant temperature is not above 119 C 246 F and the throttle valve is not fully open When the A C compressor clutch relay energizes the relay output is sensed by the A CCM confirming that the A C compressor clutch is engaged If the engine is at idle speed the coolant
22. PM the ECM retards the ignition timing of individual cylinders if it detects detonation Also during acceleration at critical load and speed conditions the ECM retards the ignition timing to prevent the onset of detonation Full Load Advance At full load the ECM advances the ignition timing at the same time as fuel enrichment is applied The degree of advancement is dependent on engine speed Fuel Cut off Interaction Immediately prior to over run fuel cut off the ECM retards the ignition timing to provide a smooth transition between the two states On fueling re instatement the ECM progressively returns the ignition timing to the nominal Throttle valve position and engine speed determine the rate at which the timing is returned to the nominal Starting The ECM incorporates separate timing values for starting EGR The ignition timing is advanced while the EGR system is active The degree of advancement is dependent on engine speed and load Gear Shift Management When the TCM decides a gear shift is necessary it requests a percentage torque reduction using the CAN TORQUE REDUCTION REQUEST message The ECM then retards the ignition timing sufficient to achieve the torque reduction requested As the ECM retards the ignition it changes the CAN TORQUE REDUCTION ACKNOWLEDGE message to the TCM to trigger the gear shift Transient Interaction A correction is applied to the ignition timing during throttle transients T
23. and EGR flow EVAP valve and EVAP purge flow idle speed control misfire detection catalytic converter efficiency e at altitudes of 2652m 8700ft and above the ECM also inhibits diagnostics on HO2S MAFS O2S 63 AJ V8 5HP24 MA IN CAVE TET antan Input Accelerator pedal position x 2 and mechanical guard position Throttle position x 2 Engine coolant temperature Mass air flow Intake air temperature Mode Engine shutdown Fixed throttle Mechanical guard Engine speed limiting Redundancy Exhaust emission Additional Input Checks Additional Strategy Accelerator pedal position input 1 compared to accelerator pedal position input 2 Both accelerator pedal position inputs compared to mechanical guard position input 1 compared to input 2 Input 1 compared to target value target value depends on operating mode eg normal running cruise control traction active After engine start checks that expected temperature increase occurs then monitors for excessive temperature decrease Compares input with predicted air flow derived from a map of throttle angle against engine speed Monitors for too fast change of input and for fixed input Default Modes Effect Activates fuel cut off to stop engine Fixed throttle valve angle of approximately 2 5 set producing maximum engine speed unloaded of approximately 1200 RPM Engine speed increases as throttle valve goes to mechanical
24. ar the fuel vapor from a flooded engine Warm up Enrichment During engine warm up the ECM determines the fuel required from maps which modify an enrichment factor for coolant temperature engine speed and load Transient Fueling During acceleration and deceleration the ECM adjusts fueling to optimise the air fuel ratio for exhaust emission response and economy This function operates over the full temperature range for all acceleration and deceleration rates Full Load Enrichment At full load the ECM inhibits closed loop fueling and increases the fuel supply to enrich the air fuel ratio Full load is derived from throttle valve position and engine speed The degree of enrichment is dependent on engine speed Over run Fuel Cut off When the throttle is closed at high engine speeds the ECM disables fuel injection until the engine is at a lower speed The speeds at which fuel injection is disabled and re instated are mapped against coolant temperature On re instatement the ECM uses a lean air fuel ratio to provide a smooth transition between the two states which it then progressively returns to the nominal The initial injector pulses are given a correction value to compensate for cylinder wall wetting The ECM derives the air fuel ratio for re instatement from throttle valve position and engine speed During over run fuel cut off operation of the EVAP valve EGR valve where fitted and closed loop fueling are inhib
25. bank Deep seated bolts to reduce distortion secure the cylinder heads to the cylinder block Two hollow dowels align each cylinder head with the cylinder block The cylinder head gaskets consist of a silicon beaded composite gasket with metal eyelets for the cylinder bores similar to that on the AJ16 engine Each cylinder head incorporates dual overhead camshafts operating four valves per cylinder via solid aluminum alloy valve lifters Steel shims in the top of the valve lifters enable adjustment of valve clearances The lightweight valve gear provides good economy and noise levels Valve head diameters are 31mm 1 220 in for the exhaust and 35mm 1 378 in for the intake All valves have 5mm 0 197 in diameter stems supported in sintered metal seats and guide inserts Collets valve collars and spring seats locate single valve springs on both intake and exhaust valves Valve stem seals are integrated into the spring seats The camshafts are manufactured in chilled cast iron Five aluminum alloy caps retain each camshaft Location numbers 0 to 4 for the intake camshaft and 5 to 9 for the exhaust camshaft are marked on the outer faces of the caps The rear of B bank intake camshaft has a timing ring for the camshaft position sensor A flat machined near the front of each camshaft enables the camshafts to be locked during the valve timing procedure The 14 mm spark plugs one per cylinder locate in recesses down the center li
26. cal Guard Position Sensor ECT Sensor Knock Sensors 303 130 52 Electronic Throttle The electronic throttle enables the ECM to perform the following functions e engine air flow ie power control e engine idle speed control e vehicle cruise control e stability traction control in response to ABS commands e engine power limiting e vehicle speed limiting e reverse gear torque reduction Engine Air Flow Control During normal operation when the accelerator pedal is above idle the ECM positions the throttle valve in response to the inputs from the accelerator pedal position sensor The throttle valve follows or leads at a minimum distance the mechanical guard as the guard is moved by the accelerator pedal Thus engine power output is directly related to driver demand With the engine running the time for the throttle to travel from idle to fully open is approximately 120 ms maximum and from fully open to idle approximately 140 ms maximum Idle Speed Control During engine idle speed control the ECM operates in a closed speed control loop to maintain a given target idle speed The ECM uses gear selection intake air temperature and battery voltage to determine the required target idle speed Gear selection is derived fro
27. chains The primary chain tensioners act on pivoting flexible tensioner blades The secondary chain tensioners act directly on the chains Guide rails are installed on the drive side of the primary chains Timing Cover The aluminum alloy timing cover accommodates the crankshaft front oil seal a PTFE lip seal and the two variable valve timing solenoids Silicon rubber in groove gaskets seal the joint between the timing cover and the front face of the engine TIMING COVER Crankshaft Front Oil Seal Variable Valve Timing Solenoid 303 015 14 engine ERR Camshaft Covers The camshaft covers are manufactured from vinyl ester composite The A bank camshaft cover incorporates an outlet for the full load engine breather The B bank camshaft cover incorporates the engine oil filler cap and an outlet for the part load engine breather Identical oil separators are incorporated below the breather outlet in each cover see Crankcase Ventilation page 35 Silicon rubber in groove gaskets seal the joints between the camshaft covers and the cylinder heads Together with spacers and seals on the camshaft cover fasteners they also isolate the covers from direct contact with the cylinder heads to reduce noise B BANK CAMSHAFT COVER o ANS DER 6 ACR PEA SIN 303 042 15 ass Engine Exhaust Manifold The thin wall cast iron manifolds are unique for each cylinder bank On engines
28. changes can be obtained from Service Bulletins and revisions to the Service Manuals All rights reserved No part of this publication may be reproduced stored in a retrieval system or transmitted in any form electronic mechanical photocopying recording or other means without prior written permission from the Service Division of Jaguar Cars Limited Contents Subject Glossary Abbreviations Introduction Engine Basic Engine Engine Cooling Engine Lubrication Variable Valve Timing Air Intake System Fuel System gnition System Crankcase Ventilation EGR System Engine Accessories Accessory Drive Engine Harness Engine Covers Engine Specifications Engine Management ECM Electronic Throttle Fuel Pump Fuel Injection gnition EVAP System Variable Valve Timing EGR System Engine Starting HO2S Heaters nstrument Cluster A C Compressor Clutch Windshield and Backlight Heaters Radiator Cooling Fans Diagnostics Transmission Introduction Technical Data Gearshifting Mechanical Description Electrical Description Transmission Management Transmission Management Service Tools New Tools AJ V8 5HP24 Page 17 20 24 27 33 35 35 37 38 39 41 42 43 45 53 58 58 59 60 61 61 61 62 62 62 62 62 63 65 66 66 66 67 68 72 AJ V8 5HP24 The following abbreviations are used in this document Abbreviation Description ABS anti lock braking system A C air conditio
29. enoid valves and five pressure regulators for gear shifting Each of the three solenoid valves control the flow of transmission fluid to the selected clutches One pressure regulator serves as master pressure control for the entire system and one is used exclusively for torque converter clutch lock up operation Replacement transmission units are shipped complete with the torque converter and housing extension housing coupling flange and rotary position switch They are also fully filled with 10 liters 2 645 US gals of oil Consequently when undertaking a transmission replacement oil replenishment should not be necessary The exterior of the transmission is coated with a non drip corrosion protection oil which must not be iglesia AJ V8 5HP24 Electrical Description mistaken for an oil leak a A BAYONET CONNECTOR Electrical Connections Bayonet Connector A round 16 pin bayonet electrical connector is fitted at the rear left hand side of the transmission which communicates with the 5 pressure regulators 3 shift solenoids oil temperature sensor and the input and output EM 046 307 023 Connector Pin Circuit Pin Circuit Pin Circuit shaft speed sensors EM046 006 Turbine Speed Sensor 012 Solenoid Valves 001 Output Speed Sensor 007 Pressure Regulator 3 013 Analog Ground 002 Pressure Regulator 1 008 Shift Solenoid 1 014 Oil Temperature Sensor 003 Pressure Regulator 2 009 Shift Solenoid 2 015 Pre
30. ervention AVERE HT I AJ V8 5HP24 Variable Valve Timing The ECM energizes the valve timing solenoids to advance the intake valve timing and de energizes them to retard it The ECM uses engine load and speed maps to decide when to advance and retard the timing The maps incorporate hysteresis for both engine load and speed to prevent hunting Between 1250 and 4500 RPM nominal at engine loads greater than approximately 25 of the maximum the timing is advanced At low VARIABLE VALVE TIMING MAP engine loads and at the two ends of the RPM 8 range the timing is retarded 8 System operation is inhibited at engine coolant 2 temperatures below 10 C 14 F System 5 operation is monitored using the input from the L camshaft position sensor If a fault is detected the ECM defaults to the retarded de energized condition EGR System 1 2 3 4 5 6 7 Engine Speed RPM x 1000 The ECM operates the 4 pole stepper motor in the EGR valve to control the recirculation of exhaust gases Unlike previous systems there are no temperature or position feedback signals from the valve The ECM monitors EGR operation using changes of mass air flow Retarded Advanced 303 135 Engine Starting At ignition on if the gear selector is in Park or Neutral the ECM enables the fuel injection and ignition functions It also outputs a hard wired digital security acknowledge signal to the BP
31. eservoirs extend the time to approximately 20 minutes that at wide open throttle sufficient vacuum can be maintained in the system to operate the vacuum 308 131 actuator e VSV 1 regulates the vacuum applied to the vacuum actuator to control the position of the mechanical guard e VSV 2 connects the vacuum actuator to atmosphere to release the mechanical guard when cruise control is disengaged e VSV 3 is a back up for VSV 2 because cruise control disengagement is safety critical e filters on the atmospheric ports of VSV 2 and VSV 3 prevent moisture ingress CRUISE CONTROL MASTER SWITCH 54 KE qq CRUISE CONTROL SCHEMATIC B Ignition p Driver s Facia Fuse Box X F14 To Dimmer Switch Master Switch ECM Brake Accelerator Pedal Cancel Position and Switch Mechanical Guard Ignition Switched Basler Position Sensors Ground Brake fi Throttle Valve Steering Wheel Switch Position Sensor Switches N N N N Ti p uA a N T A f ae 5 Vacuum D Actuator dc Motor lt gt ei Parking Z Brake TS 3 Switch Check Valve 2 Engine Q Z Sensor gt VEHICLE SPEED p TRACTION STATUS lt Reservoirs 00 GEAR POSITION SELECTED Gi CAN 00000000O0DODODOOODO0O0O00000000000 I I 303 133 gt AJ V8 5HP24 MET AA CAN ETE Te aaa lal 56 Once cruise control is engaged a further momentary press o
32. essure Switch PIO11 PIO14 B Bank Injectors 1 4 9 PIO18 PIO21 A Bank Ignition Coils 1 4 8 PIOB7 A C Compressor Lock Sensor PIO22 PI025 B Bank Ignition Coils 1 4 9 PIO36 A C Compressor Clutch 10 PIOOG Throttle Position Sensor 20 PIO17 Engine Speed Sensor 303 057 40 engine ERR Engine Harness I narness Hes ea mounted CONNECTORS ON TRANSMISSION electrica components to the vehicle s engine HOUSING BRACKET management harness The connectors that interface with the engine management harness are attached to a bracket on the transmission housing Integral nylon fasteners attach the harness to the engine Connectors on component flying leads are attached to engine mounted brackets 303 061 303 064 FLYING LEAD CONNECTOR BRACKET 303 058 41 AJ V8 5HP24 ENGINE COVERS p N VA 303 055 D 303 040 303 039 42 Engine Covers Engine covers are installed over the fuel injectors The covers are a push fit held in position by mating studs and grommets on the covers and the engine The rubber grommets isolate the covers from the engine to prevent noise A sleeve connects the covers together at the rear engine AY Engine Specifications Configuration Cylinder Head Valve Clearances Cold Intake Exhaust Spark Plug Type Spark Plug Gap Firing Order Bore Stroke Displacement Compression Ratio Maximum Power DIN
33. f the SET or SET switch increments or decrements the set speed by 1 6 km h 1 0 mph The ECM then accelerates or decelerates the vehicle to the new set speed The ECM stores a maximum of five incremental or decremental commands at any one time Once the ECM has actioned the first stored command a further command can be added On momentary operation of the opposite sense switch the ECM deletes the last command from memory Pressing and holding the SET or SET switch causes the ECM to increase or decrease the set speed and smoothly accelerate or decelerate the vehicle until the switch is released To protect against switch failure in the closed position if either switch is held for longer than 10 minutes the ECM disables cruise control until the next ignition cycle The throttle pedal can be used to accelerate the vehicle beyond the set speed without disengaging cruise control since the diaphragm actuator is holding the mechanical guard there is a noticeable reduction in accelerator pedal load up to the point at which the input shaft in the electronic throttle begins to turn the mechanical guard When the pedal is released the ECM returns the vehicle to the set speed in a controlled manner Alternatively a momentary press of the SET or SET switch causes the increased vehicle speed to be adopted as the new set speed On receipt of an input from the CANCEL switch the ECM disengages cruise control and clears the set speed from mem
34. from the accelerator pedal via a conventional throttle cable e amechanical guard to prevent throttle valve position exceeding driver demand and to operate the throttle valve mechanically if the electronic system fails e avacuum actuator to operate the mechanical guard in the cruise control mode of operation e a throttle valve to regulate the air flow e athermostatic air valve to control a bypass flow around the throttle valve e adc motor to operate the throttle valve in response to inputs from the ECM e three position sensors to supply the ECM with the position s of the input shaft ie accelerator pedal the mechanical guard and the throttle valve e springs connected to the input shaft the mechanical guard the throttle valve and the drive gear of the dc motor Vacuum Actuator On vehicles with cruise control the vacuum actuator is connected to manifold vacuum and controlled by the ECM On vehicles without cruise control the vacuum actuator is open to atmosphere and the actuator is inoperative Thermostatic Air Valve The thermostatic air valve is a wax capsule operated valve that enables engine starting at low engine temperatures with the accelerator pedal in the idle position the degree of throttle valve movement available between fully closed and the mechanical guard is insufficient to start the engine at low temperatures The thermostatic air valve is fully open at a coolant temperature of approximately 30 C
35. ft and mechanical guard maintaining a constant gap between the adjacent levers of the throttle valve and mechanical guard The dc motor drive gears turn the throttle valve in the closed direction the throttle valve spring turns the throttle valve in the open direction and keeps the throttle valve in contact with the drive gear Inputs from the throttle valve position sensor enable the ECM to exercise closed loop control The arrangement of the throttle valve drive prevents the ECM from exceeding driver demand since if the motor is driven fully open the throttle valve engages the mechanical guard and disengages from the dc motor drive gears The arrangement of the mechanical guard to throttle valve interface allows the ECM to reduce throttle opening to less than driver demand eg during stability traction control or engine power limiting 29 aw Engine 30 At idle the ECM controls engine speed using the restricted throttle valve movement available between the mechanical guard open limit and a factory set stop on the dc motor drive gear closed limit When cruise control is engaged the ECM calculates the required throttle valve opening and operates the vacuum system connected to the vacuum actuator The vacuum actuator then turns the mechanical guard to a position that allows the required throttle valve opening The inputs from their respective position sensors allow the ECM to monitor and adjust the mechanical guard and t
36. he ECT decreases to a pre determined value whichever occurs first Radiator Fan Switching Points Mode Coolant Temperature C F On Off Slow 90 194 86 187 Fast 97 5 207 5 93 5 200 5 Diagnostics The ECM performs self test routines and monitors engine functions inputs and outputs to ensure correct operation of the engine and the engine management system Hard wired inputs and outputs are monitored for short and open circuits and sensor inputs are also monitored for range Additional checks are run on the more critical sensor inputs to ensure their validity Some of the more critical inputs have substitute or default values which the ECM adopts if the input is diagnosed as faulty Any faults detected are logged in the ECM memory as DTC The ECM also outputs engine malfunction messages on the CAN and adopts a default mode of operation Most default modes retain some degree of engine operation limp home The ECM also stores OBD II related DTC detected by other control modules on the CAN Non OBD II related DTC are retained in the memory of the control module that detects the fault AVERETT Gua AJ V8 5HP24 A C System Pressure Bar psi On Off 12 174 8 116 22 319 17 5 254 To prevent false DTC being logged the monitoring of some inputs and engine functions is inhibited while the vehicle is above a given altitude e at altitudes of 2438m 8000ft and above the ECM inhibits diagnostics on EGR valve
37. he correction is against rate of change for both opening and closing of the throttle Stability Traction Control If the CAN FAST TORQUE REDUCTION IGNITION message from the BCM requests ignition intervention the ECM retards the ignition by the amount requested until the throttle valve reaches its required torque reduction position It also changes the CAN TRACTION ACKNOWLEDGE message to confirm that torque reduction is in progress EVAP System The ECM operates the EVAP valve to purge the fuel vapor from the carbon canister Purge rates ie the amount the EVAP valve opens are a function of engine operating conditions and the vapor concentration level The engine operating conditions that affect the purge rate are e speed and load e coolant temperature e time from start up e closed loop fueling To determine the vapor concentration level the ECM applies stepped opening signals to the EVAP valve and monitors the subsequent fueling correction This is usually performed prior to purging so that when purging starts the EVAP valve can immediately be set to the optimum position If the ECM is unable to determine the vapor concentration before purging it uses a default value which it then modifies while purging is in progress During purging the ECM applies a correction to the basic fueling calculation based on the vapor concentration level Purging is inhibited during fuel cut off and stability traction control fueling int
38. he engine Indicator mounted accessories The torsional vibration damper on the front of the crankshaft drives the Replace Belt belt An automatic tensioner located on the left New Belt Maximum Length accessory mounting bracket keeps the belt at New Belt Minimum Length the correct tension An idler pulley on the right accessory mounting bracket increases the wrap angle around the generator pulley The torsional vibration damper incorporates compressed rubber between its inner and outer diameters to absorb vibration and shock loads The automatic tensioner consists of an idler pulley on the end of a spring loaded pivot arm The pivot arm can be turned counter clockwise viewed from the front of the engine for removal and installation of the belt A belt wear indicator is incorporated on the rear of the pivot arm N sd 303 020 39 ase Engine ENGINE HARNESS Connectors PIOO2 Engine Management Harness On vehicle 1 1 PIO32 B Bank VVT solenoid 2 PIOO1 Engine Management Harness On vehicle 2 PIO27 B Bank Knock Sensor 3 PIO33 Throttle Valve Motor 3 P1004 Engine Coolant Temperature Sensor 4 PIO34 EGR Valve 4 PIO26 A Bank Knock Sensor 5 PIO15 Camshaft Position Sensor 5 PIO31 A Bank Valve Timing Solenoid 6 PIO42 Accelerator Pedal and Mechanical Guard 6 PIO35 MAFS On vehicle Position Sensors 7 PIO50 Generator 7 PIOO7 PIO10 A Bank Injectors 1 4 8 P1040 Oil Pr
39. he throttle valve to maintain the set speed As the driver releases the accelerator pedal the input shaft disengages from the mechanical guard Note that during cruise control when accelerating above the set speed the accelerator pedal has a lighter feel until the input shaft engages with the mechanical guard again Mechanical operation of the throttle valve occurs if the ECM selects the mechanical guard mode of operation after detecting a fault The ECM de energizes the dc motor and the throttle valve spring turns the throttle valve in the open direction until it engages the mechanical guard The input shaft mechanical guard and throttle valve are then effectively locked together by their springs so that the throttle cable is in direct control of the throttle valve When the throttle valve opens it turns the dc motor drive gears On subsequent closing of the throttle valve the drive gears remain in the open position disengaged from the throttle valve Operating Modes Refer to the figure page 31 Normal 1 Throttle cable inputs driver demand 2 Input shaft turns mechanical guard 3 Sensors supply ECM with inputs of driver demand 4 ECM operates dc motor 5 Sensor supplies ECM with inputs of throttle valve position 6 Gap maintained between throttle valve and mechanical guard Cruise Control l Vacuum actuator turns mechanical guard 2 Sensor supplies ECM with mechanical guard position 3 ECM operates dc motor 4 Sensor
40. il seal replacer MS 76 140 5 Valve seat 5 mm pilot for use with existing MS 76 valve seat cutter tools 18G 1437 2 Adapter for use with existing front pulley lock tool 18G 1437 Cranked 13 mm box wrench for starter motor upper securing bolt eg Snap on part number CXM 1113 Spring band hose clamp pliers eg Snap on part number HCP 20 Torque Angle disc for yield tightening of bolts eg Snap on part number TA 360 Valve seal pliers eg Snap on part number YA 8230 24 mm 0 375 inch drive open wrench for knock sensors eg Snap on part number FCOM 24 8 inch long 0 375inch drive angle extension for use with 24 mm open wrench eg Snap on part number FXW 8
41. in the retarded position When the valve timing solenoids are energised by the ECM the solenoid plungers position the shuttle valves to direct engine oil to the valve timing units In the valve timing units the oil pressure overcomes the force of the return springs and moves the gears and ring pistons to the advanced position System response times are 1 0 second maximum for advancing and 0 7 second maximum for retarding While the valve timing is in the retarded mode the ECM produces a periodic lubrication pulse VARIABLE VALVE TIMING OPERATION Retarded Engine Oil Pressure Advanced Engine Oil Pressure 303 005 26 engine ERR This momentarily energises the valve timing solenoids to allow a spurt of oil into the valve timing units The lubrication pulse occurs once every 5 minutes Note With the vehicle stationary and the hood open operation of the valve timing solenoids may be audible when the lubrication pulse occurs at engine idle speed Air Intake System Filtered air from the vehicle s intake ducting is metered by the electronic throttle then directed through the induction elbow into the intake manifold AIR INTAKE SYSTEM Electronic Intake Throttle Manifold lt a gt 303 050 27 asse Engine Electronic Throttle The electronic throttle enables the ECM to control the flow of air into the engine It includes e an input shaft that receives driver inputs
42. ited AVERE Ga AJ V8 5HP24 Engine Overspeed Protection The ECM disables fuel injection if engine speed reaches 7100 RPM Fuel injection is re instated when RPM falls to 7050 Stability Traction Control If the CAN FAST TORQUE REDUCTION CYLINDER message from the BCM requests fuel intervention the ECM reduces engine torque by disabling fuel injection until the throttle valve reaches its required torque reduction position It also changes the CAN TRACTION ACKNOWLEDGE message to confirm that torque reduction is in progress Ignition The ECM supplies two ignition amplifier modules which each supply four spark plug mounted ignition coils The ECM varies the ignition timing to optimise power emissions and driveability at all operating conditions A diagnostic signal from each amplifier module enables the ECM to monitor the supply to each ignition coil If the ECM detects a failure it disables fuel injection to the affected cylinder IGNITION AMPLIFIER MODULES P 303 091 AJ V8 5HP24 MET AA CAN ETE Te aaa lal 60 Base Ignition Map A base ignition map contains optimum timing for a nominal engine throughout the engine speed and load ranges Corrections are then added to adjust for specific operating conditions Temperature Corrections Corrections are added to the ignition timing to compensate for variations in intake air temperature and engine coolant temperature Knock Control Between 700 and 6800 R
43. l Fault Monitoring Diagnostics The TCM constantly monitors the transmission system for faults In the event of a fault occurring the transmission is protected by a limp home mode This mode allows use of P R N and 4 It also signals the ECM to switch on the CHECK ENG MIL lamp The TCM is able to diagnose faults in components which affect exhaust emissions Communication with the PDU is through the J1962 connector which allows accurate diagnosis of transmission problems Additional diagnostic functions facilitate fast repair of faults All transmission OBDII information is stored for future data analysis in the ECM EUREO VERE uua AJ V8 5HP24 69 AJ V8 5HP24 Breese ME Ta te laa tini TCM ID 1 55 eee a e be be bo be bo e be be bo bo he be be be bf 29 88 Ji be bi e ei ye be e bo e e ye be e e e e be be be n n n e a AA 56 307 022 Transmission Control Module Pin Connections Connector Pin Circuit Pin Circuit Pin Circuit EM007 001 Pressure Regulator 2 023 Shield Input Speed Sensor 045 Mode Switch Pin A 002 Mode Switch Illumination 024 ot used 046 003 Not used 025 ot used 047 Not used 004 Pressure Regulator 4 026 Battery Feed 048 005 Pressure Regulator 1 027 ot used 049 006 Power Ground 028 Digital Ground 050 007 Not used 029 Pressure Regulator 3 051 Pressure Regulator 5 008 Position Switch L2 030 Shift Solenoid 1 052 Solenoid valve ve 009 Position Switch LA 031 ot used 053 P
44. l passages All moving parts are lubricated by pressure or splash oil Pressurised oil is also provided for operation of the variable valve timing units and the timing gear chain tensioners The oil returns to the oil pan under gravity Large drain holes through the cylinder heads and cylinder block ensure the quick return of the oil reducing the volume of oil required and enabling an accurate check of the contents soon after the engine stops System replenishment is through the oil filler cap on the B bank camshaft cover With the exception of the pump and level gauge all oil system components are installed on the structural sump TE ANY LUBRICATION SYSTEM 1 Valve Lifter Supply 9 Structural Sump Bedplate Interface 2 Main Bearing Supply 10 Bedplate Cylinder Block Interface 3 Connecting Rod Bearing Supply 11 Oil Pump 4 Bedplate Cylinder Block Interface 12 Primary Chain Tensioner Supply 5 Oil Pick up 13 Cylinder Block Cylinder Head Interface 6 Pressure Relief Valve 14 Variable Valve Timing Supply 7 Oil Pressure Switch 15 Camshaft Bearing Supply 8 Oil Filter 16 Secondary Chain Tensioner Supply 303 007 21 ass Engine OIL PUMP 303 009 22 a A 303 022 Oil Pick up The moulded composite oil pick up is immersed in the oil reservoir to provide a supply to the oil pump during all normal vehicle attitudes The castellated inlet allows the supply to be
45. lector surround During kickdown gear upshifts occur at 6800 RPM engine speed Mechanical Description The unit is an oil filled for life system therefore no dipstick is fitted to the transmission A filling level plug is located at the right hand side rear of the casing for service oil level checking and replenishment if required To achieve effective cooling the oil is pumped from the transmission casing at the front left hand side of the casing to the car mounted oil cooler The oil is returned from the cooler to the inlet connection on the front right hand side of the casing The cooler is a plate type design made from aluminum and is located in the car radiator outlet tank To detect changes in oil viscosity which occur as the oil temperature changes an oil temperature sensor is located in the unit casing sump Also located in the transmission casing are the input shaft speed sensor turbine speed and output shaft speed sensor vehicle speed The torque converter is a lightweight unit which because of its low mass improves engine responsiveness The torque converter bell housing is bolted to the transmission casing Mounting of the transmission is conventional by bolting the torque converter bell housing to the engine The rear extension housing is bolted to the transmission casing and forms the rear engine transmission mounting point It also carries the output shaft oil seal The electro hydraulic module contains three sol
46. m the input of the Park Neutral switch in the transmission rotary switch Battery voltage is monitored and if low voltage is detected 11 8 V and below target idle speeds are increased by up to 50 rpm to increase the output from the generator When the ECM selects a change of target idle speed overshoot is kept to 50 rom maximum Certain vehicle services functions cause a significant change in engine load as they are selected on and off To minimize the effect on idle speed the ECM anticipates the change in load rather than correct the subsequent change in rpm The services functions the ECM anticipates load changes for are e A C compressor clutch e gear shifts between Park Neutral and Reverse Drive AVERE Ga AJ V8 5HP24 e headlamps and side lamps e windshield and backlight heaters e radiator cooling fans The ECM detects gear shifts headlamp status and side lamp status from their related status messages on the CAN data bus The ECM directly controls the A C compressor clutch and the radiator cooling fans The windshield and backlight heaters are controlled by the ACCM upon consent of the ECM via the heater request load inhibit circuits If a fault develops in the idle control function the ECM goes to open loop control During open loop control rpm is within 100 and 0 rpm of the target speed for a warm engine ie when the coolant temperature is gt 30 C 86 F Idle Target Speeds Intake Air Temperature C
47. mproves rigidity and head gasket sealing The right hand cylinder bank is designated as A bank and the left hand as B bank The cylinder bores of each bank are numbered from 1 to 4 starting from the front Engine data is marked at three locations on the cylinder block Component diameters are represented by alphabetical and numerical codes keys to the codes are in the Service Manual ENGINE DATA LOCATIONS Main Bearing Crankshaft Diameters Connecting Rod Bearing Crankshaft Diameters Cylinder Bore Diameters Main Bearing Bore Diameters Serial Number Emissions Code 303 001 CYLINDER BLOCK CRANKSHAFT AND BEDPLATE AJ V8 5HP24 aw Engine SEALANT TRACK ON BEDPLATE 303 012 CRANKSHAFT REAR OIL SEAL 303 013 Bedplate The bedplate is a structural casting bolted to the bottom of the cylinder block to retain the crankshaft The use of a bedplate further improves rigidity Iron inserts cast into the main bearing supports of the bedplate minimise main bearing clearance changes due to heat expansion Two hollow dowels align the bedplate with the cylinder block Beads of sealant seal the joint between the bedplate and the cylinder block Crankshaft Six counter balance weights ensure good vibration levels from the four throw five bearing crankshaft Manufactured in cast
48. n input of engine crankshaft speed and position Knock Sensors The knock sensors are installed in the cylinder block on the inboard side of each cylinder bank They are piezo electric sensors that provide inputs to detect and locate detonation during combustion Accelerator Pedal Position Sensor The accelerator pedal position sensor is connected to the input shaft in the electronic throttle It is a dual track potentiometer that provides inputs of driver demand at the accelerator pedal Mechanical Guard Position Sensor The mechanical guard position sensor is a single track potentiometer connected to the mechanical guard in the electronic throttle It provides an input of the position of the mechanical guard Throttle Position Sensor The throttle position sensor is a dual Hall effect sensor in the motor end of the electronic throttle It provides inputs of the position of the throttle valve Ale Da CM AVE Trete HT I AJ V8 5HP24 ENGINE SENSORS Knock Sensors ECT Sensor Camshaft Position Sensor Engine Speed Sensor 51 AJ V8 5HP24 Engine Management ENGINE MANAGEMENT SCHEMATIC ECM Inputs and Outputs CONOARWN gt N W o A Intake Air Temperature Sensor MAFS Throttle Position Sensor Throttle de Motor EGR Valve Fuel Injector Camshaft Position Sensor On plug Ignition Coil H02S 02S Engine Speed Sensor Accelerator Pedal Position Sensor Mechani
49. nd one reverse gear It also features a filled for life oil system Gearshift management is achieved using a Transmission Control Module TCM TRANSMISSION Rotary Switch Connector Rotary Switch and Oil Inlet Pipe OS 0 Level Filler Plug Oil Outlet Pipe and Selector Cable AJ V8 5HP24 AJ V8 SHP24 66 Tecnical Data Transmission weight including fluid and torque converter 95 8 kg 211 Ibs Oil Type ATF Esso LT71141 Oil Capacity 10 liters 2 645 US gals Gear Ratios 1stGear 3 571 1 2nd Gear 2 202 1 3rd Gear 1 505 1 4th Gear 1 000 1 5th Gear 0 803 1 Reverse 4 095 1 Gearshifting Driver gear selection is transmitted from the gear selector lever by cable to a lever fitted to a selector shaft in the transmission casing This shaft moves the manual valve and the rotary switch The rotary switch signals all gear positions except D to 4 A separate switch in the driver gear selector mechanism detects movement of the selector between D and 4 The communication of driver gear selection to the TCM is made by the rotary switch Gear shift points are selected by the TCM in response to output speed engine load selector position accelerator pedal position and driver mode selection Driver control of the shifting is via the selector lever throttle pedal position kickdown switch and mode switch Two shift modes are available sport and normal controlled by the driver from a switch on the gear se
50. ne of each cylinder head An engine lifting eye is cast into the front of each cylinder head the rear lifting eyes one on each cylinder head are bolt on tools CAMSHAFT POSITION SENSOR TIMING RING 303 054 11 asse Engine A BANK CYLINDER HEAD Exhaust Camshaft Intake Camshaft 303 047 Single row primary and secondary chains drive the camshafts of each cylinder bank The primary chains transmit the drive from two sprockets on the crankshaft to variable valve timing units on the intake camshafts The secondary chains transmit the drive from the variable valve timing units to sprockets on the exhaust camshafts Timing Gear Continued on Page 14 12 AJ V8 5HP24 TIMING GEAR Secondary Chain Tensioner Secondary AL Z Primary Chain Chain Variable Valve Timing Unit Primary Chain Tensioner ass Engine Timing Gear Continued A key locates the two drive sprockets on the crankshaft The crankshaft s torsional vibration damper retains the sprockets in position The variable valve timing units and the exhaust camshaft sprockets are non interference non keyed fits on their respective camshafts the drive being transmitted by the face to face friction load produced by the valve timing unit sprocket securing bolt Each chain has an hydraulic tensioner operated by engine oil A jet of oil from the end of each tensioner lubricates the
51. ning A CCM air conditioning control module BPM body processor module BHP brake horse power C degree Celsius CAN controller area network CDI cubic inch displacement DIN Deutsche Institut f r Normung dc direct current DTC diagnostic trouble code ECM engine control module ECT engine coolant temperature EGR exhaust gas recirculation EMS engine management system EVAP evaporative emission E degree Fahrenheit ft foot HO2S heated oxygen sensor in inch JDS Jaguar diagnostic system b pound bf ft pound force feet g kilogram m h kilometer per hour W kilowatt m meter MAFS mass air flow sensor MIL malfunction indicator lamp mph miles per hour mm millimeter ms millisecond Nm Newton meter NOx nitrous oxide OBD on board diagnostics 02S oxygen sensor PAS power assisted steering PDU portable diagnostic unit psi pounds per square inch PTFE polytetrafluoroethane rpm revolutions per minute SAE Society of Automotive Engineers USA SCP standard corporate protocol TCM transmission control module USA United States of America V volt VSV vacuum solenoid valve Introduction The AJ V8 4 0 litre engine is the first of a new family of Jaguar engines Designed to give excellent performance refinement economy and low vibration levels it also conforms to the strictest emission legislation Weighing only 200 kilograms 441 Ib the engine is shorter by 12 inches 300 mm than the current AJ16 4 0 litre engine Compression ratio is 10 75 1 wi
52. njectors controlled by the ECM are installed in the fuel rails on each side of the intake manifold A cross over pipe connects the two fuel rails together at the front of the manifold A test valve in the cross over pipe allows the fuel rail to be pressurised and depressurised during servicing and troubleshooting A pressure regulator on the rear of the right fuel rail controls the pressure in the fuel rails A return line directs excess fuel from the pressure regulator back to the fuel tank FUEL SYSTEM Fuel Injector Test Valve Fuel Return Intake Manifold Pressure Fuel Pressure Regulator 303 024 059 078 155 33 asw Engine Fuel Injectors ight side fed dual straight jet fuel injectors are installed in the fuel rails The injectors are electromagnetic solenoid valves controlled by the CM Two O rings seal each injector to manifold interface The fuel jets from the injectors are directed onto the back of the intake valves The pressure regulator is a diaphragm operated valve that regulates fuel rail pressure at 2 9 bar 42 05 psi above intake manifold pressure Pressure Regulator FUEL INJECTOR ao 303 025 34 Ignition System The
53. ooo oOoxNoMOoR 020 009 010 011 012 013 009 OoOoOOOoOoOooo QoakKoaoN sOo Circuit ISO 9141 2 Serial Communication in L ISO 9141 2 Serial Communication out K Parking brake switch Park Neutral switch EMS control relay Security acknowledged Not used Not used Sensor ground ECT air intake temperature accelerator pedal position mechanical guard position and throttle position ECT sensor Throttle position sensor 2 Throttle position sensor 1 Sensor ground ECT air intake temperature accelerator pedal position mechanical guard position and throttle position Mechanical guard position sensor Ignition failure amplifier 1 A C clutch relay Not used Air intake temperature sensor MAFS HO2S B HO2SA O2S B where fitted Pin 021 022 023 024 025 026 027 028 014 015 016 017 018 019 020 021 022 Circuit Sensor 5 V supply accelerator pedal position mechanical guard position and throttle position EGR ground Signal ground 1 Not used CAN in CAN in CAN out CAN out Shield ground accelerator pedal position mechanical guard position and throttle position sensors Accelerator pedal position sensor 2 Accelerator pedal position sensor 1 O2S A where fitted MAFS ground MAFS ground Not used Not used Shield ground HO2S and O2S 45 AJ V8 5HP24 MA EET uns ECM PIN CONNECTIONS
54. ory Disengagement is in a controlled manner to provide a smooth return of throttle control to the driver The ECM disengages cruise control clears the set speed from memory and immediately returns control of the throttle to the driver if any of the following occur e the master switch is pressed to switch the system off e a fault is detected in the electronic throttle system the brake switch or the cruise control switches e the parking brake is applied e the engine overspeeds The ECM disengages cruise control immediately returns control of the throttle to the driver and retains the set speed in memory if any of the following occur e the brake pedal is pressed e the vehicle decelerates too fast ie as under heavy braking to guard against sticking contacts in the brake switch e the gear selector moves to neutral park or reverse e after resuming cruise control the vehicle accelerates to only 50 of the set speed eg due to a steep hill e the stability traction control system operates e vehicle speed decreases below 26 km h 16 mph On receipt of an input from the RES switch if a set speed is stored in the ECM memory the cruise control function is re engaged and the vehicle accelerated or decelerated to resume the set speed in a controlled manner The ECM continuously monitors the cruise control switches If a switch fails closed on the initial failure the input is treated as a driver command and the
55. ply 2 EGR Valve 5 Thermostat Housing 8 Bleed Outlet 3 A C Heater Return 6 Vehicle Radiator Reference 303 028 17 asse Engine COOLANT PUMP 303 030 THERMOSTAT HOUSING A C Heater Return 18 By pass 303 029 Coolant Pump The coolant pump is installed between the two cylinder banks on the front face of the cylinder block The pumping element is a shrouded composite impeller Coolant escapes from seal breather holes in the housing if the pump s bearing seal fails An O ring and an edge bonded rubber aluminum alloy gasket seal the pump to cylinder block interface The O ring seals the inlet port from the thermostat The gasket seals the outlet ports into the cylinder banks Thermostat Housing The composite thermostat housing is installed between the two cylinder banks immediately above the coolant pump The thermostat controls the flow of coolant through the radiator It starts to open at 80 to 84 C 176 to 183 F and is fully open at 96 C 205 F A duct in the cylinder block connects the thermostat housing outlet to the pump inlet A stub pipe connects the duct to the air conditioning heater matrix return line An in groove gasket seals the joint between the thermostat housing and the cylinder block In addition to containing the thermostat the composite thermostat housing incorporates connections for the bleed bypass and radiator bottom hoses The bleed outlet
56. ressure regulator ve 010 Not used 032 Shift Solenoid 3 054 Fused Ignition ve 011 Not used 033 Shift Solenoid 2 055 Fused Ignition ve 012 Mode Switch Pin B 034 Power Ground 056 013 Drive to Fourth Switch 035 Not used to 014 Turbine Speed 036 Position Switch L1 081 Not used 015 Shield Output Speed Sensor 037 Position Switch L3 082 CAN Link In ve 016 Output Speed 038 083 CAN Link In ve 017 Not used 039 Not used 084 CAN Link Screen 018 Kickdown Switch 040 085 CAN Link Out ve 019 Not used 041 086 CAN Link Out ve 020 Not used 042 Turbine Speed 087 Not used 021 Analogue Ground 043 Not used 088 Not used 022 Oil Temp Sensor 044 Output Speed 70 ee LE SHESTCHWWERERT Ti AJ V8 5HP24 Can Messages Messages on the CAN data bus used or output by the TCM are detailed below Note This list does not include network monitoring or diagnostic related messages Message Used by TCM Source Used by TRACTION STATUS Brake Control Module ABS STATUS FRONT LEFT WHEEL SPEED FRONT RIGHT WHEEL SPEED Instrument Cluster ESTIMATED ENGINE TORQUE ECM THROTTLE VALVE POSITION ACCELERATOR PEDAL POSITION TORQUE REDUCTION ACKNOWLEDGE ENGINE SPEED CRUISE STATUS BRAKE PEDAL DEPRESSED ENGINE COOLANT TEMPERATURE ENGINE MALFUNCTION Message Produced by TCM TRANSMISSION INPUT SPEED TRANSMISSION OUTPUT SPEED TORQUE CONVERTER SLIP KICKDOWN SWITCH GEAR POSITION ACTUAL TORQUE CONVERTER STATUS TRANSMISSION SH
57. rolled by the BPM part of the SCP network The gearshift release will only be activated when the ignition is in position ll transmission is in Park and the brake pedal is depressed Once transmission is out of Park the brake pedal has no effect on gearshifting and the interlock is disabled Reverse Inhibit Selection of reverse with the vehicle moving forwards above walking pace is electrically inhibited unless the vehicle is in the default limp home mode Kickdown A floor mounted switch pedal position sensor signals the TCM to select the lowest gear to give maximum torque for acceleration Torque Control The TCM synchronises the operation of the transmission clutches and invokes shift energy management to control engine output torque during a gear shift Refer to EMS page 60 Traction Mode The traction program compliments the traction control system and is implemented whenever traction control intervenes to maximize wheel stability Cruise Mode Cruise mode reduces unwanted hunting of the transmission gearshifting and is activated when cruise control is resumed and when the vehicle is cruising near the set speed Gradient Mode The gradient program enhances vehicle performance driveability and cooling when the vehicle is climbing a gradient Start Inhibit The rotary switch also provides the start inhibit function to the ECM which will not allow an engine start until the gear selector is in either Park or Neutra
58. round 1B 2A 3A 4B 007 Injector 1A 015 Injector 4B 008 Valve timing solenoid B 016 Injector 3A 46 AEDE HT I AJ V8 5HP24 ENGINE HARNESS PIN CONNECTIONS S S N N N N N t 303 061 136 137 Engine Harness to Engine Management Harness Pin Connections Connector Pin Circuit P1001 001 Throttle position sensor 2 002 A C compressor lock sensor ground 003 Throttle position sensor 1 004 Shield ground throttle position sensor 005 ECT sensor 006 Sensor ground ECT accelerator pedal position mechanical guard position and throttle position 007 EGR valve 4 008 EGR valve 1 009 EGR valve 2 010 EGR valve 3 011 Generator regulator charge warning 012 Mechanical guard position sensor 013 A C clutch 014 Sensor 5 V supply accelerator pedal position mechanical guard position and throttle position 015 Not used Pin 016 017 018 019 020 021 022 023 024 025 026 027 028 029 030 031 032 033 034 035 Circuit Valve timing solenoid A Knock sensor A Screen ground knock sensor A Knock sensor B Shield ground knock sensor B Engine speed sensor ground Engine speed sensor Screen ground engine speed sensor Camshaft position sensor ground Camshaft position sensor Shield ground camshaft sensor Valve timing solenoid B Valve timing solenoids and MAFS intake air temperature sensor supply Not used njector 1A ntake air temperature sen
59. s in memory for use in subsequent driving cycles If the difference between the new and previous adaptations is excessive a DTC is logged in the ECM memory If the battery supply to the ECM is disrupted eg battery disconnection the adaptations are lost from memory On restoration of the battery supply engine operation may be uneven until the adaptations are restored especially at idle speed The two O2S in the vehicle s exhaust system provide inputs which enable the ECM to monitor the efficiency of the downpipe catalytic converters These inputs also enable the ECM to modify the HO2S inputs to optimise the life of the catalytic converters Base Fuel Map The ECM contains a base fuel map that corrects the base air fuel ratio to the optimum mixture for a nominal engine throughout the engine speed and load ranges Battery Voltage Correction Fuel flow through the injectors changes with voltage so the ECM monitors their supply voltage and compensates for any variation from the nominal Starting The fueling start strategy operates independent of accelerator pedal position or movement with the exception of a wide open throttle The ECM produces steady state running at the target idle speed within 2 seconds of firing after an overshoot of 200 to 300 RPM maximum If the accelerator pedal demands a wide open throttle during cranking the ECM disables fuel injection and signals the throttle valve to the fully open position to cle
60. sor ground jector 2A jector 3A jector AA jector 1B n n n n Pin 036 037 038 039 040 041 042 043 044 045 046 047 048 049 050 051 052 053 054 055 056 057 Circuit Injector 2B Injector 3B Injector 4B Ignition coil 4A Ignition coil 1A Ignition coil 3B Ignition coil 2B Ignition coil 4B Ignition coil 3A Ignition coil 2A Ignition coil 1B EGR valve supply Engine oil pressure sensor Shield ground accelerator pedal position and mechanical guard position sensors Accelerator pedal position 1 Accelerator pedal position 2 MAFS Ignition supply MAFS ground A C compressor lock sensor MAFS ground Intake air temperature sensor 47 AJ V8 5HP24 MA IN CAVE TET antan Connector Pin Circuit Pin Circuit PI002 001 006 Throttle motor 002 Not used 007 Throttle motor 003 008 004 009 Not used 005 Injector supply 010 Message Used by ECM ABS MALFUNCTION CAN Messages Pin Circuit 011 Not used 012 Generator regulator supply 013 Not used Messages on the CAN data bus used or output by the ECM are detailed below Note Source Used by FAST TORQUE REDUCTION CYLINDER FAST TORQUE REDUCTION IGNITION FRO FRO REA REA TOR lt EH NT LEFT WHE NT RIGHT WH R RIGHT WHE F HEA HEA S GEAR POSITION ACTUAL UEL LEVEL DLAMP HIGH EL SPEED EEL SPEED R LEFT WHEEL SPEED EL SPEED QUE R
61. ssure Regulator 5 004 Shift Solenoid Valve 3 010 Output Speed Sensor 016 Regulator 005 Turbine Speed Sensor 011 Pressure Regulator 4 Rotary Switch Connector The rotary switch mounted on the right hand side of the casing has a spline arrangement which prevents misalignment with the selector shaft A locating pin and two bolts secure the rotary switch to the transmission casing This locates the switch with the transmission casing and the shaft in one place only The switch requires no other setting up procedure A 10 way connector with flying lead connects the rotary switch to the engine management harness The connector is retained on a multi EM 047 connector bracket bolted to the transmission N casing torque converter housing joint ROTARY SWITCH CONNECTOR Connector Pin Circuit Pin Circuit Pin Circuit EMO47 00A Position L1 00E Digital Ground 00J 12V Power Supply 00B Position L2 OOF Not Used OOK Park amp Neutral Switch 00C Position L3 00G Not Used 00D Position LA 00H Not Used 67 AJ V8 5HP24 MG EEE Tall Transmission Management The transmission management system uses both analogue and digital signals to control the operation of the transmission Digital signals are processed by the TCM to and from the vehicle multiplex network Other input output analogue signals are hardwired to the TCM This information is used primarily by the TCM to decide which shift program to implement
62. system e variable valve timing ECM 303 118 e EGR system e engine starting e HO2S heaters e instrument cluster e A C compressor clutch e windshield and backlight heaters e radiator cooling fans e diagnostics 44 E Inputs and Outputs Engine Management AJ V8 5HP24 Inputs and outputs are directed to and from the ECM through hard wired connections and the CAN and ISO 9141 2 Serial Communication data buses contained in the engine management harness for further information on the data buses refer to the Technical Guide XK8 1997 Model Year Introduction ECM Pin Connections Connector Pin Circuit EM010 001 Ignition supply 002 Load inhibit 003 Windshield Backlight heater request 004 A C clutch request 005 Ignition supply 006 OK to fuel where incorporated 007 Not used 008 Not used 009 Battery supply 010 Brake switch foot brake on 011 Brake switch cancel cruise control EMO011 001 Cruise control set set acceleration deceleration 002 Not used 003 ECM programming 004 Cruise control on off 005 Cruise control resume cancel 006 Engine crank 007 Not used 008 Sensor 5 V supply accelerator pedal position mechanical guard position and throttle position EMO12 001 EGR valve 1 002 EGR valve 2 003 EGR valve 3 004 EGR valve 4 005 A C high pressure switch 006 AJC low pressure switch 007 Not used 008 Ignition failure amplifier 2 Pin ooOo
63. system responds accordingly However after subsequent disengagement then re engagement of the system the input from the failed switch is diagnosed as a fault On detection of a switch fault operation of cruise control is inhibited until the fault is corrected The ECM also conducts internal checking procedures to ensure that only permitted outputs are generated for given input conditions Ale Da CM AVE Trete HT I AJ V8 5HP24 CRUISE CONTROL VACUUM SYSTEM Reservoirs Check Valve 1 VSV2 VSV 1 VSV 3 303 121 Stability Traction Control If the CAN TORQUE REDUCTION THROTTLE message from the brake control module requests torque reduction the ECM reduces the throttle valve opening It also changes the CAN TRACTION ACKNOWLEDGE message to confirm that torque reduction is in progress Engine Power Limiting If the TCM detects a fault in the transmission it changes the CAN TRANSMISSION OVERLOAD message to request an engine torque limit The ECM then limits throttle valve opening to 18 maximum in all forward gears Vehicle Speed Limiting The ECM uses throttle control to limit the vehicle s maximum speed to 248 km h 155 mph Reverse Gear Torque Reduction When reverse gear is selected the CAN TRANSMISSION OVERLOAD message from the TCM requests an engine torque limit The ECM then limits throttle valve opening to 18 maximum 57 AJ V8 5HP24 MA IN CAVE TET antan
64. temperature is above 119 C 246 F or the throttle is fully open the ECM outputs a load inhibit signal to the A CCM and delays energising the A C compressor clutch relay At idle speed the delay is only momentary in the order of 50 ms while idle speed compensation is implemented after which the load inhibit signal is removed At coolant temperatures above 119 C 246 F or with a fully open throttle the delay is for the duration of the inhibiting condition Similarly with the A C compressor clutch relay already energized if the engine coolant temperature exceeds 119 C 246 F or the throttle goes to fully open the ECM de energizes the A C compressor clutch relay and outputs the load inhibit signal to the A CCM until the inhibiting condition is removed Windshield and Backlight Heaters When the windshield heaters and or the backlight heater are requested on the A CCM sends a screen request signal to the ECM Provided the engine is not at idle speed the coolant temperature is not above 119 C 246 F and the throttle valve is not fully open the ECM takes no action and the A C control module subsequently energizes the heaters If the engine is at idle speed the coolant temperature is above 119 C 246 F or the throttle is fully open the ECM outputs the load inhibit signal the same one as used for the A C compressor clutch operation to the A CCM to delay energising the heaters At idle speed the delay is only momentary
65. th four valves per cylinder The cylinder heads block and bedplate are all cast aluminum Cylinders have electro plated bores which reduce piston friction improve warm up and oil retention A variable valve timing system has been introduced to give improved low and high speed engine performance and excellent idle quality The valve gear is chain driven for durability Low valve overlap improves engine idle speed and low residual fuel levels which improves combustion and reduces hydrocarbon emissions The inlet manifold is a one piece composite moulding with integral fuel rails connecting to the eight side feed fuel injectors Air flow into the engine is via an electronic throttle assembly Movement of the throttle is controlled by sensors in the throttle assembly through the ECM The engine has a low volume high velocity cooling system which achieves a very fast warm up with reduced and even metal temperatures in the combustion chamber and increased bore temperatures The generator A C pump and PAS pump are mounted to the cylinder block on rigid cradle supports Accessory drive is from a single 7 ribbed vee belt Hydraulic engine mounts minimise noise and vibration A new engine management system adjusts fuel and ignition settings monitors and controls exhaust emissions and provides an on board diagnostic capability The transmission is a new ZF 5 speed automatic electronically controlled unit The unit is oil filled for life so does not have
66. vents any air in the system into the vehicle s coolant reservoir The cap of the thermostat housing is removable to allow air out of the system when filling from empty CAUTION Use the correct torque marked on the cap when re installing the cap or the cap thermostat housing could be damaged Coolant Hoses Supply and return hoses for the air conditioning heater matrix are installed between the cylinder banks A connection at the rear of A bank provides the coolant supply for the electronic throttle and the EGR valve The outlet from the EGR valve connects to the return hose of the air conditioning heater matrix engine 3 v 5 724 COOLANT HOSES Electronic Throttle EGR Valve A C Heater Matrix 303 032 ass Engine COOLANT OUTLET DUCT ECT Sensor A C Heater 303 066 20 Coolant Outlet Duct The composite coolant outlet duct connects to the outlet port of each cylinder head to provide a common connection point for the radiator top hose It also incorporates connections for the coolant temperature sensor the supply to the air conditioning heater matrix and the bypass flow to the thermostat housing An in groove gasket seals each of the joints between the outlet duct and the cylinder heads Engine Lubrication Oil is drawn from the reservoir in the oil pan and pressurised by the oil pump The output from the oil pump is then filtered and distributed through internal oi
67. while idle speed compensation is implemented after which the load inhibit signal is removed At coolant temperatures above 119 C 246 F or with a fully open throttle the delay is for the duration of the inhibiting condition Similarly with the heaters already energized if the engine coolant temperature exceeds 119 C 246 F or the throttle goes to fully open the ECM outputs the load inhibit signal to the A CCM and the heaters are de energized until the inhibiting condition is removed Radiator Cooling Fans The ECM monitors inputs from the A C single and triple pressure switches and from the ECT sensor on the engine to control the operation of he two radiator cooling fans Outputs from the ECM control two relays contained in the radiator ans module to operate the fans in off slow or ast mode In the slow mode the fans are connected in series in the fast mode the fans are connected in parallel Hysteresis in the emperature and pressure switching values prevents hunting between modes To counteract the increase in engine coolant temperature that occurs after the engine stops at ignition off e if the fans are already on the ECM keeps them on for 5 minutes or until the ECT decreases to a pre determined value whichever occurs first e ifthe fans are off the ECM determines from ECT and intake air temperature inputs if the fans need to be switched on If they do it switches them on for 5 minutes or until t
68. with EGR the A bank manifold has a connection for the transfer pipe Spacers on the securing bolts allow the manifolds to expand and retract with changes of temperature while maintaining the clamping loads Heat shields are integrated into the exhaust manifold gaskets EXHAUST MANIFOLD 303 023 16 E engine EOE Engine Cooling The cooling system is a low volume high velocity system with good warm up and temperature profile characteristics From the pump the coolant flows into each bank of the cylinder block In each bank 50 of the coolant cools the cylinder bores and 50 is diverted through a bypass gallery At the rear of the banks the two flows mix and enter the cylinder heads The coolant then flows forwards to the outlet ports When the thermostat is closed the coolant returns directly to the pump through the bypass on the thermostat housing When the thermostat is open the coolant returns to the pump via the vehicle s radiator A coolant drain plug is installed on the rear left side of the cylinder block On vehicles with the cold climate package the cylinder block heater replaces the drain plug CYLINDER BLOCK DRAIN HEATER 303 063 Note Coolant is drained from the right bank of the cylinder block by removing the coolant pipe behind the starter motor COOLING SYSTEM DIAGRAM 1 Electronic Throttle 4 Coolant Pump 7 A C Heater Sup

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