display ASTON MARTIN V8 VANTAGE 2010 Workshop Manual

Vehicle Recovery
0-0-10 Workshop Manual Issue 5, January 2010
Vehicle Recovery
General
Preferred method of vehicle recovery is by flat bed
transporter.
The towing eye is primarily for emergency use when towing
for short distances, e.g. removing vehicle if it is causing an
obstruction or winching vehicl e onto a flatbed transporter.
If moving this vehicle in such a situation, install the towing
eye to the bracket in the lower grille aperture.
Transporting
If vehicle is to be transported on a trailer or flat bed
transporter the handbrake must be applied and the road
wheels must be chocked.
Suspended Towing
Take care when using 'spectacle frame' type towing
equipment that the towing device is well clear of front or
rear apron. Body damage may occur if vehicle passes over
uneven road surfaces.
Front Suspended Tow
1. Remove the ignition key from the ignition.
2. Raise the vehicle using a ‘spectacle frame’ type lifting device with a cradle positioned under each front wheel
as indicated below.
Rear Suspended Tow
1. Set the steering in the ‘straight ahead’ position.
Remove the ignition key from the ignition. Ensure the
steering is locked in the straight ahead position.
2. Raise the vehicle using a 'spectacle frame' style lifting device where a cradle is positioned under each rear
wheel as indicated below.
Adhere to Towing Regulations
In certain countries the regi stration number of towing
vehicle and an ‘ON TOW’ sign or warning triangle must be
displayed in a prominent position at the rear of vehicle being
towed.
To w i n g b y A n o t h e r V e h i c l e
This vehicle may be towed short distances by another
vehicle provided that a speed of 48 km/h (30 mph) is not
exceeded. Ensure the towed vehicle gear selection is in
‘Neutral’ with ignition key turned to position ‘II’ to release
steering lock and to render hor n, indicators and brake lights
operational.
Caution
Take care to protect the paint work when installing the towing eye. Ensure the towing eye is tight.
Caution
Do not tow with ‘sling’ type equipment as this
could result in damage to the bodywork.
WAR NI NG
WHEN THE ENGINE IS NOT RUNNING, THE STEERING WILL NO LONGER BE POWER-ASSISTED AND THE
BRAKE BOOSTER WILL BECOME INEFFECTIVE AFTER A FEW APPLICATIONS OF TH E BRAKES. BE PREPARED
FOR RELATIVELY HEAVY STEERING AND THE NEED
FOR GREATLY INCREASED BRAKE PEDAL PRESSURE.

Issue 6, May 2010 Workshop Manual 1-1-1
Suspension (04.00)
Contents
Road Wheel Alignment (04.00) ............................. 4-0-2Specifications ......................................................... 0-2
Maintenance ........................................................... 0-2All Wheel Alignment .............................................. 0-2
Front Suspension (04.01)....................................... 4-1-1 Description ............................................................. 1-1Suspension Arms .................................................... 1-1
Anti-roll Bar ........................................................... 1-1
Vertical link............................................................ 1-1
Specifications.......................................................... 1-1
Symptoms ............................................................... 1-2
Maintenance ........................................................... 1-3 RH/LH Front Hub and Bearing Assembly
- Renew ................................................................. 1-3
RH/LH Lower Front Suspension Arm Assembly
- Renew ................................................................. 1-4
RH/LH Upper Front Suspension Arm Assembly
- Renew ................................................................. 1-4
Front Anti-Roll Bar - Renew ................................... 1-5
Front Pair Anti-Roll Bar Bushing - Renew................ 1-5
RH/LH Front Anti-Roll Bar Link - Renew ................ 1-5
RH/LH Front Hub Vertical Link - Renew ................ 1-6
Front Suspension Sensor Assembly-Renew ............. 1-7
Rear Suspension (04.02) ........................................ 4-2-1 Description ............................................................. 2-1Suspension Arms .................................................... 2-1
Anti-roll Bar ........................................................... 2-1
Vertical Link........................................................... 2-1
Specifications.......................................................... 2-2
Maintenance ........................................................... 2-2 RH/LH Rear Hub and Bearin g Assembly-Renew ..... 2-2
RH/LH Rear Lower Arm Assembly-Renew .............. 2-2
RH/LH Upper Rear Arm Assembly-Renew .............. 2-3
RH/LH Toe Control Rear Arm Assembly-Renew ..... 2-3
Rear Anti-Roll Bar-Renew ...................................... 2-3
Rear Pair-Anti-Roll Bar Bushing-Renew .................. 2-4
RH/LH Rear Anti-Roll Bar Link-Renew ................... 2-4
RH/LH Rear Hub Vertical Link-Renew.................... 2-4
Rear Suspension Sensor Assembly-Renew .............. 2-5
Shock Absorber System (04.03) ............................. 4-3-1 Description ............................................................. 3-1
Specifications.......................................................... 3-1
Maintenance ........................................................... 3-1Front Spring and Damper Assembly-Pair-Renew .... 3-1
Front Spring-Pair-Renew ........................................ 3-3
Front Damper-Pair-Renew ..................................... 3-4
Rear Spring and Damper Assembly-Pair-Renew...... 3-5
Rear Spring-Pair-Renew ......................................... 3-7
Rear Damper-Pair-Renew ...................................... 3-9
Road Wheels and Tyres (04.04)............................. 4-4-1 Specifications.......................................................... 4-1USA Tyre Gradings................................................. 4-2
Tread Wear ........................................................... 4-2
Traction ................................................................. 4-2 Temperature .......................................................... 4-2
Maintenance ........................................................... 4-3 Safety .................................................................... 4-3
Tyre Replacement and Wheel Interchanging ......... 4-3
Winter (Snow) tyres ................................................ 4-4 Recommended Winter Wheel and
Tyre Combination .................................................. 4-4
Inspection and Verification . ................................... 4-4
Tyre Wear ............................................................. 4-4
Tyre Damage ......................................................... 4-6
Repairs .................................................................. 4-7
Care of Alloy Road Wheels .................................... 4-7
Road Wheel Alignment .......................................... 4-7
Road Wheel and Tyre Balance ............................... 4-8
Torque Tightening of Road Wheel Nuts ................ 4-8
Tyre Pressure Sensing (Option).............................. 4-9 Pressure Sensing with Wint er Wheels and Tyres ..... 4-9
Warnings ............................................................... 4-9
Display Unit ........................................................ 4-10
System Programming ........................................... 4-10

Road Wheels and Tyres (04.04)
Suspension (04.00)4-4-10 Workshop Manual May 2007
Display Unit
The display unit provides additional features when correctly
connected to a previously installed ‘Smartire’ system. The
display unit connects directly to the front of the basic
‘Smartire’ receiver and is powered from the vehicle circuits.
The display will be fully illu minated during use but will go
into ‘Energy Saver’ mode when no activity is detected.
Display Panel
Connection and Normal Operation
1. Remove the front bezel of the Pressure Sensor Receiver. Install the extension lead to the display unit and to the
receiver module. Turn on the ignition.
All icons will illuminate briefly and then extinguish
leaving only the vehicle outline.
2. When tyre pressure data is received, (drive the vehicle
or spin the road wheels), all the road wheel icons will
appear. Press the Tyre icon to access the recorded data
for each of the four road wheels.
3. Press the Mode button to scroll through the pressure, temperature and pressure deviation readings for the
selected tyre. 4. If any tyre pressure sensor is defective, the display will
show three dashes to indicate the absence of data for
that tyre.
5. To return to normal mode, press the SET button.
System Programming
The system may be programmed by the user on three
different levels. Enter Progra mming Mode by pressing the
‘Set’ button:
• 2 seconds to enter level 1
• 5 seconds to enter level 2
• 10 seconds to enter level 3
The following parameters ma y be set in each level:
Level 1 Programming
Cold inflation pressure
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Tyre’ to select the front or rear axle. Front or rear
tyres will be highlighted.
3. Press ‘Mode’ to show the current value. Press ‘Tyre’ to increase or ‘Mode’ to decrease the current value.
4. Press ‘Set’ to save the new values.
5. Repeat steps 2 - 4 to set the cold inflation pressure for other the axle.
Programmed wheel position No data
Data received
Alarm light Low pressure warning
Alert indicatorLearn mode MODE button
Set button
Tyre rotation program
Cold pressure program
Programming mode
Towing vehicle indicator
Numerical display
Units of pressure or temperature TYRE button
36-5-038
36-5-039
Level 1
• Cold Pressure
• Tyre Rotation
• Low Pressure Warning
• Pressure Deviation
• High Temperature Alert
•Units Selection
Level 2 •Slope
• Learn Transmitter ID
Level 3 • Low Pressure Alert
PSI
36-5-045

Road Wheels and Tyres (04.04)
Suspension (04.00)
May 2007 Workshop Manual 4-4-11
Tyre Rotation
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Mode’ repeatedly until ‘Tyre Rotation’ icon is displayed.
3. Press ‘Tyre’ to scroll to a tyre position. Press ‘Mode’ to display the current sensor identity.
4. Ensure that the road wheels and tyres are installed in the correct locations (see the colour code list above). Note
the correct code number for each road wheel.
5. Use ‘Tyre’ or ‘Mode’ to co rrect the sensor identity code
if required.
6. Repeat for the remaining tyres.
7. Press ‘Set’ twice to exit the programme.
Low Pressure Warning
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Mode’ repeatedly until ‘Flat Tyre’ icon is displayed.
3. Press ‘Tyre’ to scroll to th e desired axle. Press ‘Mode’ to
display the current low pressure warning value. 4. Press ‘Tyre’ to increase or
‘Mode’ to decrease current
value.
5. Press ‘Set’ to enter the new value into memory.
Pressure Deviation Alert
This function sets the threshold for warning of a deviation
from normal tyre pressures.
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Mode’ repeatedly until the ‘+-’ icon is displayed.
3. Press ‘Tyre’ to display the current value.
4. Press ‘Tyre’ to increase or ‘Mode’ to decrease the
current value
5. Press ‘Set’ to save the amended value.
6. Press ‘Set’ again to revert to normal operation.
High Temperature Alert
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Mode’ until ‘ale rt’ icon is displayed.
3. Press ‘Tyre’ to display the current value of the high temperature alert.
4. Press ‘Tyre’ to increase or ‘Mode’ to decrease current
value
5. Press ‘Set’ to save the amended value.
6. Press ‘Set’ again to return to normal mode.
Units Selection
Use this function to select the combination of units for
pressure and temperature.
WAR NI N G
THE ROAD WHEELS AND TYRES ARE ASYMMETRICAL AND DIFFERENT SIZES FRONT AND REAR. THEY
MUST NOT BE ROTATED FRONT TO REAR. THIS FUNCTION SHOULD BE USED ONLY TO VERIFY
CORRECT TYRE POSITION. DO NOT CHANGE THE PROGRAMMED DATA.
Each sensor is identified by th e colour of a washer on the
tyre valve. Tyres are always in stalled in fixed positions and
must remain as follows:
• Right Front - Green (Code 1)
• Left Front - Red (Code 2)

Road Wheels and Tyres (04.04)
Suspension (04.00)4-4-12 Workshop Manual May 2007
1. Press ‘Set’ for 2 seconds to enter level 1 programming .
2. Press ‘Mode’ until pressure / temperature units are displayed.
3. Press ‘Tyre’ to enter ‘Units Selection’ mode.
4. Use ‘Tyre’ or ‘Mode’ to scroll through four combinations of pressure / temperature units.
5. Press ‘Set’ to save the selected combination of units.
6. Press the ‘Set’ button again to revert to normal mode.
Level 2 Programming
Slope
Sets rate of pressure change for tyres in use. This parameter
is set at manufacture and is specific only to the
recommended tyres for DB9.
1. Press ‘Set’ for 5 seconds to enter level 2 programming .
2. Press ‘Tyre’ until the desired vehicle axle is displayed.
3. Press ‘Mode’ to display the current SLOPE entry (DB9 is set at?)
4. If required, use ‘Tyre’ to increase or ‘Mode’ to decrease current value.
5. Press ‘Set’ to save the final value.
6. Press ‘Set’ again to return to normal mode.
Transmitter Learn Mode
This mode is used to add or delete transmitters from the
system memory. It is vital that transmitter signals are
correctly recognised to avoid system reaction to other
transmitters (e.g. from passing vehicles with similar sensors).
1. Remove a Redundant Transmitter 1.1 Press ‘Set’ for 5 seconds to enter level 2 programming .
1.2 Press ‘Mode’ to select ‘Transmitter Learn’ mode.
1.3 Press ‘Tyre’ to display possible tyre positions (filled rectangles represent currently programmed
transmitters).
1.4 Press ‘Tyre’ to scroll to the desired position.
1.5 To delete a transmitter, press the ‘Mode’ once.
1.6 If required, scroll to other positions using ‘Tyre’ and, if required, delete any other transmitters using
‘Mode’ button. 2. Add new Transmitters.
2.1 Press ‘Set’ for 5 seconds to enter level 2 programming .
2.2 Press ‘Mode’ to select ‘Transmitter Learn’ mode.
2.3 Press ‘Tyre’ to display possible tyre positions (filled rectangles represent currently programmed
transmitters).
2.4 Press ‘Tyre’ to scroll to the desired position. The chosen road wheel icon will flash.
2.5 Program a new transmitter by either:
2.6 Vigorously shaking the transmitter (bounce the road wheel on the ground) to promote a transmission.
2.7 Inflate or deflate the tyre by more than 3 psi (0.2 bar).
2.8 Press ‘Tyre’ to scroll to the next position. Repeat steps 4 and 5 as required to programme additional
transmitters.
2.9 Press ‘Set’ to save the new transmitter data and to exit ‘learn’ mode. If no error is found, the system will
return to ‘normal’ mode.
Level 3 Programming
Low Pressure Alert
1. Press ‘Set’ for 10 seconds to enter level 3 programming .
2. Press ‘Tyre’ button to scroll to the desired axle.
3. Press ‘Mode’ to view the current low pressure alert value.
4. Press ‘Tyre’ to increase the current value or press ‘Mode’ to the decrease current value.
5. Press ‘Set’ to save when the desired value is reached.
6. Repeat steps 2 to 5 until the Low Pressure Alert Level has been set for all road wheels.
7. Press ‘Set’ button to exit this mode.
8. Press the ‘Set’ button again to return to normal mode.
36-5-052
The unit will ‘beep’ when ne w transmitter is recognised.
36-5-051

Brake Actuation System (06.06)
Brake System (06.00)
May 2007 Workshop Manual 6-6-1
Brake System (06.00)
Brake Actuation System (06.06)
Description
Tandem Master Cylinder
The short-stroke tandem master-cylinder controls two
separate brake circuits which are jointly activated by the
brake pedal. In the event of a major leak in one system, the
other will still function. The two systems are supplied by a
common brake fluid reservoir.
A pressure sensor attached to the master-cylinder provides
the ABS / DSC module with brake pressure information. This
information informs the system how hard the driver is
braking and is used as an aid for the ABS / DSC to achieve
accurate brake pressure control.
Brake Fluid Reservoir
The brake fluid reservoir is mo unted directly on the tandem
master cylinder and secured with a pin. Two stub pipes, on
the base of the reservoir, locate into the primary and
secondary chambers of the tandem master cylinder.
An integral fluid-level switch is incorporated in the reservoir.
If the brake fluid level is low, the brake warning lamp in the
Driver Information Module (D IM) will illuminate and ‘LOW
BRAKE FLUID’ will be displayed in the message center right.
Specifications
Oils/Greases
Brake Fluid Castrol Response Super Dot 4
Torque Figures
DescriptionNm.
Master Cylinder Mount 25 (+/- 4)
Brake Pipe Unions 17
Brake fluid reservoir securing pin 4
Pressure Sensor 35 (+/- 2)

Anti-lock Braking System (ABS) (06.09)
Brake system (06.00)
Issue 4, November 2008 Workshop Manual 6-9-1
Brake system (06.00)
Anti-lock Braking System (ABS) (06.09)
The anti-lock braking system (ABS) is a four-channel system
having independent inputs from all four-wheel speed
sensors.
The ABS module, monitors signals from the sensors to
calculate, brake slip and the acceleration / deceleration of
individual wheels. When the brake pedal is depressed, and
the ABS module detects incipient wheel lock-up from the
incoming signals, it triggers the re-circulation pump inside
the module’s hydraulic modulator, and the solenoid valves
for the wheel(s) concerned. Brake pressure, is then
modulated to increase / decrease or remain constant at the
wheel(s) concerned until whee l lock-up is eliminated. The
ABS provides self-diagnosis and any malfunction within the
system will be indicated to the dr iver by the illumination of
the brake warning light and ‘ABS FAULT’ displayed in the
message centre right. Should a fault develop within the ABS,
the brake system will operate conventionally and with the
same standard of performanc e as a vehicle not equipped
with ABS.
Dynamic Stability Control
Dynamic Stability Control (DSC ) is a closed-loop system
designed to enhance driving safety by improving vehicle
handling when the tyres are at the limits of their grip
capabilities. This is achieved through instantaneous,
electronically controlled, reduction of engine torque and
strategic application of the brakes at individual wheels.
By using the principle that by controlling the brakes
individually it is possible, to an extent, to steer the vehicle.
This principle can be used to enhance driving safety by
correcting the vehicle’s yaw moment (turning force), when
the vehicle fails to follow th e driver’s steering inputs.
Concept
Satisfactory handling is determined according to whether a
vehicle maintains a path, wh ich accurately reflects the
driver

Anti-lock Braking System (ABS) (06.09)
Brake system (06.00)
6-9-2 Workshop Manual Issue 4, November 2008
difference between the ideal and actual response within a
tolerance band. This directly influences the forces on the
tires to generate a corrective yaw moment to reduce the side
forces of the tires where appropriate
System Overview
The DSC system embraces capabilities far beyond that of
ABS, or ABS and traction control combined, while relying on
the components of these systems. It also incorporates these
additional sensors for measur ing the vehicle’s motion and
brake system pressure:
Ya w r a t e s e n s o r - located centrally on the transmission
tunnel.
Lateral acceleration sensor - integrated with the yaw rate
sensor.
Steering angle sensor - located on the upper steering
column.
Pressure transducer - located on master cylinder.
The ABS / DSC module supports data exchange with other
vehicle electronic systems via the CAN network; the module
also enables diagnostic interrogation using WDS.
The following components register driver demand and the
ABS / DSC module processes their signals as a basis for
defining an ideal response:
PCM - position of accelerator pedal.
Brake master cylinder pressure transducer - driver’s
braking effort.
Steering angle sensor - position of steering wheel.
There are many supplementary parameters also included in
the processing calculations these include the coefficient of
friction and vehicle speed. The ABS / DSC module monitors
these factors based on signals transmitted by the sensors for:
• Wheel speed
• Lateral acceleration
• Brake pressure
• Yaw rate
Using these parameters, the function of the ABS / DSC
module is to determine the current vehicle status based on
the yaw-rate signal and the slip as estimated by the ABS /
DSC module. It then maintains the vehicle response within
a tolerance of the ‘normal’ behaviour, which is easily
controlled by the driver.
In order to generate the desired yaw behaviour the ABS /
DSC module controls the selected wheels using the ABS
hydraulic system and engine control system. In the event of
engine intervention, the ABS / DSC module calculates the
torque which should be supplied by the engine to the
wheels, and relays this request signal to the PCM which
implements the torque request.
The PCM receives signals from the DSC system via the CAN
bus and reduces engine torque as follows:
• The throttle is positioned to provide the requested engine target torque. • During the transient phase of torque reduction caused by
mechanical and combustion delays, other alternative
torque reduction methods are used to provide a quicker
response.
• The ignition is retarded and / or the fuel is cut-off at the injectors at selected cylinders.
• Ignition and fuelling are reinstated when the engine torque reaches the requested value
Operation Summary
• DSC is switched ‘ON’ when the engine is started
• When the system is operating , the DSC light in the instrument cluster will flash, at the rate of twice a second
• DSC can be switched ‘OFF / ON’ by pressing the DSC switch
• The DSC light in the instru ment cluster will illuminate
continuously when the system is switched ‘Off’.
• ‘DSC OFF’ will be displayed in the message centre right to indicate the system has been switched ‘OFF’
• A malfunction in the traction control system will be indicated to the driver by the following:
• The DSC light in the instru ment cluster will illuminate
continuously
• The message ‘DSC NOT AVAILABLE’ will be displayed in the message centre right
• If vehicle speed control is engaged it will automatically disengage when traction control is operating .
Traction Control
Traction control is a function of DSC, and is operated in
association with DSC. Traction control prevents excessive
wheel-spin at standing starts, or during acceleration. Wheel-
spin is usually caused by ex cessive use of the accelerator
pedal, or slippery, loose or bumpy road surfaces. To prevent
excessive wheel-spin and mainta in vehicle stability such
situations are overcome by the intervention of the traction
control system by:
• Braking the driven-wheel when it starts to slip
• And / or adapting the engine torque to a level corresponding to the traction available on the road
surface.
Functional Description
Traction control uses the ABS electronic and mechanical /
hydraulic hardware with additional valves to control the
braking pressure at the calipe rs. An engine interface also
enables the engine to respond to torque reduction requests
from the traction control. As with ABS, the signals from the
wheel-speed sensors are supplied to the ABS module, where
they are used to calculate the wheel-slip of the individual
wheels. Traction control intervention is initiated if the slip at
one of the wheels is excessive.

May 2007 Workshop Manual 13-1-1
Information, Gauge and Warning (13.00)
Contents
Instrument Cluster (13.01) .................................. 13-1-2Description ............................................................. 1-2 Information and Warning Lamps ............................ 1-3
DIM Display layout ................................................ 1-4

Instrument Cluster (13.01)
Information, Gauge and Warning (13.00)13-1-2 Workshop Manual May 2007
Information, Gauge and Warning (13.00)
Instrument Cluster (13.01)
Description
The Driver Information module contains the necessary electronic control units and memories to control, process and
present all necessary vehicle information to the driver.
1. Information on vehicle performance is presented in visible form using the instruments and gauges. These
devices present such information as Vehicle Speed,
Engine Speed, Fuel Level and Coolant Temperature.
2. Information on vehicle status is presented by an array of warning lights.
• Red - indicate immediate danger warnings
• Amber - indicate conditions which are serious but not immediately dangerous
• Green and Blue - indicate normal actuation of items such as turn signals or fog lamps
The message centres and the shift position Sensor
display are used to present information on the distance
recorders (trip meters), current gear mode and current
gear engaged.
3. The right message centre is used to display any warning/ information message text. These text messages may be
reinforced in some cases by illumination of the
appropriate warning lamps.
The following table defines all information and warning
lamps and their significance:

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