Land Rover Body And Paint Air Bag And Safety Belt Rover Manual

							Seat cushion height adjustment3
Forward/Backward adjustment
Push and hold the switch forwards or backwards to move
the seat to the desired position.
Seat back adjustment
Twist the switch forwards or backwards until the desired
seat back angle is achieved.
Seat cushion height adjustment
Push the switch up or down to raise or lower the
cushion.
Front Seat Motors
The seat motors are a permanent magnet motor type
coupled to a rack and pinion assembly. Should the motor
seize or stick an internal thermal cut-out switch will trip
to remove voltage from the motor. Two pins within each
of the seat switch packs control the seat motors. Both
pins are normally earthed. Operating the switch applies
voltage to one of the pins while the other pin remains
earthed. Operating the switch in the opposite direction
reverses power and earth to the motor allowing the
motor to run in the opposite direction.
DRIVERS MEMORY SEAT
Memory store button1
Memory preset buttons2
Seat adjustment controls3
The memory seat control module can store up to three
different driver seating and mirror positions for each
key (up to 3 keys). The three-numbered memory and
single memory store switches control memory storage
and recall operations. Each switch is a momentary action
push switch.
All seat adjustments are available whilst the ignition
key is in position I or II or for a time period from when
either the driver door status is changed or the ignition
key status changes from position I to position 0 (key
in).
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							NOTE: This does not include lazy entry where the door
is not required to be open, or the ignition key is in
position I or II.
The mirror adjustment is only enabled when the ignition
key is in position I or II.
Memory Recall
Memory recall has three memory positions stored for
the seats and exterior mirrors. The switches for this
function are located on drivers seat outer side trim
panel. Pressing the appropriate numbered memory
switch allows the seat to start moving to the position
appropriate to that memory.
When a memory recall is initiated, to limit the overall
current consumption, only two-seat axis will move
towards their intended position at any one time. To
minimise current load as the motors start, the initiation
of each axis is phased with a 10ms delay between each
motor starting.
The cushion slide and backrest will move first, followed
by the cushion height and tilt. If the vehicle is stationary,
the memory recall will operate in a one-touch mode,
whereby the switch can be released and the seat will
continue to move to the memory position. If, however,
the vehicle is in motion when the switch is released,
then the system will operate in manual mode. This
means that when the switch is released, the seat will
stop moving. In order to reach the intended memory
position, the switch must not be released until all
movement has stopped. The instrument cluster will emit
a double chime to indicate that the recall operation has
been successfully completed.
The following procedure will store a memory position:
–Ensure the ignition key is in position I or II
–Ensure reverse gear is not engaged
–Manually adjust the seat to the desired position, using
the seat switches
–Press and release the memory store switch
–Press and release the desired numbered memory
switch within 5 seconds
With the ignition key in position II, a single chime will
be emitted from the instrument cluster to indicate that
the store operation has been successful.
If any of the seat adjustment or memory switches are
activated during a one touch memory recall, the recall
will be overridden and the seat will begin to move in
the direction corresponding to the switch that has been
pressed.
Both mirrors move simultaneously about the vertical
axis first (left/right), and then, once all vertical axis
movements are complete, about the horizontal axis
(up/down). To minimise the number of mirror motors
required, a method of sharing is implemented, which
dictates that all movement about one axis is complete
before movement about the other axis commences.
Mirror movement coincides with the following table:
Control Module Pin
8
Control Module Pin
13
Control Module Pin
7
Control Module Pin
14
Action
---BatteryDriver Mirror Up
---GroundDriver Mirror Down
--Ground-Driver Mirror Left
--Battery-Driver Mirror Right
-Battery--Passenger Mirror Up
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							Control Module Pin
8
Control Module Pin
13
Control Module Pin
7
Control Module Pin
14
Action
-Ground--Passenger Mirror
Down
Ground---Passenger Mirror
Left
Battery---Passenger Mirror
Right
Lazy Entry
Pressing the unlock button on the remote transmitter
will initiate a memory recall. This feature is known as
lazy entry. If the seat movement, memory switch or
the lock button on the remote transmitter is pressed,
then the lazy entry feature will stop immediately.
The memory settings are stored within Electronic
Erasable Programmable Read Only Memory (EEPROM)
of the memory control module each time the ignition
switch is cycled from position II to position I. These are
the positional values that a lazy entry request uses when
the remote unlock button for that particular key is next
pressed.
The lazy entry feature can be activated or deactivated
via the customer personalisation feature of the high line
instrument cluster. This provides the driver with the
option to enable or disable lazy entry as required.
Immediate Adjustment
Pressing one of the manual adjustment switches will
initiate the corresponding motor for that axis until the
switch is released.
Only two seat motors can be driven at any one time.
However, due to the sharing of relays, there are certain
combinations of motors that cannot be driven together.
The following table indicates which axis can and cannot
be operated at the same time:
Slide
Backward
Slide
Forward
Height
Down
Height UpTilt DownTilt UpRecline
Down
Recline
Up
YesYesYesYesYesYesNo-Recline
Up
YesYesYesYesYesYes-NoRecline
Down
No*No*YesYesNo-YesYesTilt Up
No*No*YesYes-NoYesYesTilt Down
No*No*No-YesYesYesYesHeight Up
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							Slide
Backward
Slide
Forward
Height
Down
Height UpTilt DownTilt UpRecline
Down
Recline
Up
No*No*-NoYesYesYesYesHeight
Down
No-No*No*No*No*YesYesSlide
Forward
-NoNo*No*No*No*YesYesSlide
Backward
Key
•- = Not applicable
•Yes = Can be activated together
•No = Can not be activated together (Physically
impossible)
•No* = Can not be activated together (Relay sharing
restriction)
If two axis are being driven and a third axis is requested
to move, the third switch request is ignored until either
of the two axis switches, already active, are released.
The third axis movement may only be initiated providing
the switch has been released and re-selected.
Seat adjustment can be initiated simultaneously with
any mirror movement.
REVERSE GEAR MIRROR POSITION
To give the driver a clear view of the kerbs when
reversing, the exterior door mirrors can be dipped when
reverse gear is selected. The level of mirror dipping is
set to a predetermined amount when the vehicle leaves
the factory but has the ability to be customer
programmed.
The following procedure will store a reverse gear mirror
position:
–Ensure the ignition key is in position I or II
–Perform a memory recall procedure
–Ensure reverse gear is engaged
–Manually adjust the mirrors to the desired position
–Press and release the memory store switch
–Press and release the desired numbered memory
switch
–Reverse gear mirror dip setting will be stored for
that particular memory setting.
A single chime will be emitted from the instrument
cluster to indicate that the store operation has been
successful and Mirror Dip Stored message will be
displayed in the message centre.
Once this sequence has been completed, the stored
mirror position will be the position that the mirrors move
to when reverse gear is next selected.
Storing a memory position with reverse gear selected
only affects reverse gear mirror positions, the remainder
of the memory positions remain unchanged.
To protect against an accidental setting, the mirror
position will only be stored if a mirror adjustment has
been made since reverse gear was selected. If there is
no reverse gear mirror position stored, then a default
setting, stored in the memory control module, is adopted.
There are three customer personalisation memory
settings per key. For each of these settings there are 3
possible reverse gear mirror position stores. This equates
to a possible nine reverse gear mirror position settings.
Personalisation memory setting relates to the 3 most
recent ignition keys.
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							Most recent ignition keyA
Second most recent ignition keyB
Third most recent ignition keyC
First reverse gear mirror position store1
Second reverse gear mirror position store2
Third reverse gear mirror position store3
The reverse gear mirror position feature can be activated
or deactivated via the customer personalisation feature
of the high line instrument cluster. This provides the
driver with the option to enable or disable reverse gear
mirror position as required. Information regarding the
reverse gear mirror status, for both manual and
automatic transmissions, is transmitted as a message on
the Local Interconnect Network (LIN) bus.
When the reverse gear mirror position feature is toggled
OFF, all 3 memory settings associated with that
personalisation memory will return to the default reverse
gear mirror settings.
NOTE: Reverse gear status is only available with the
ignition in position II.
When reverse gear is de-selected, the mirror position
immediately prior to reverse selection will be resumed,
unless a memory recall has been requested whilst reverse
has been selected, in which case the mirrors will move
to the requested memory position when reverse is
de-selected.
On vehicles fitted with the ZF automatic transmission
there is a delay of 0.5 second following the selection of
reverse gear, prior to the reverse mirror position being
recalled. This is to prevent any movement of the mirrors
as the gear selector is moved through the reverse
position on the way to, and from, the park position.
AUDIBLE AND VISUAL
CONFIRMATIONS
An audible confirmation is generated by the instrument
cluster to provide confirmation to the driver that the
requested operation has been successfully completed.
The following operations support an audible
confirmation:
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							ConditionsAudible ConfirmationOperation
Successful store operation completedSingle ChimeMemory Store
Only issued if all axis of movement
successfully reach the intended posi-
tion
Double ChimeMemory Recall
Successful store operation for reverse
mirror position completed
Single ChimeReverse Gear Mirror Position Store
In addition to audible confirmation there is also a visual
confirmation via the instrument cluster message centre.
MEMORY CONTROL MODULE
Memory Control Module Location (LHD shown, RHD
similar)
Memory control module1
The memory control module, located under the drivers
seat, relies upon a number of inputs and controls a
number of outputs. As with all electronic control
modules, the unit needs information regarding the
current operating conditions of the engine and other
related systems before it can make calculations, which
determine the appropriate outputs.
All memory values are stored in the non-volatile
memory, EEPROM. The current motor positions, which
are monitored by the control modules integral Hall
sensors, are stored in the EEPROM. If a loss of power
occurs, upon power reconnection the current motor
position are recalled from memory and adopted as the
current positions. This will allow the relative memory
positions to be retained without any need to re-calibrate.
The memory control module checks the integrity of all
data stored in the EEPROM each time it exits stand-by
mode. In the event that the data is corrupt, the control
module adopts the default values for all of the
programming options. All memory positions are deemed
as invalid and the software will perform as if there are
no memory positions stored. Memory store operations
will reset the relevant memory and allow full
functionality.
Stall Detection
Seat and mirror motors are deemed to have stalled if
there is no change in the inputs that are received from
the corresponding feedback sensors for 200ms while
that axis is being driven.
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							If a stall condition is detected then the drive to that axis
is cancelled for the remainder of that memory operation
(memory recall) or until the switch is re-selected
(manual movement).
If the motor movement has stopped due to loss of sensor
feedback, either stall or sensor failure, then that axis
may be activated again, to move past the stall position,
by re-selecting the appropriate switch. This allows
control of the motor to be maintained if sensor feedback
is lost.
Upon re-selection of movement, if sensor pulses are
detected then the motor will continue to be driven until
the switch is released or another stall condition is
detected. If sensor feedback is not detected then the
motor is only driven for 0.5 second and then stops until
the switch is released and then pressed again, when a
further 0.5 second of activation is permitted, and so on.
For all seat motor manual movements, whenever a motor
is driven and a stall occurs, the memory control module
records the position at which the stall occurred. If
movement occurs beyond a stall position, then that
position is erased from the control modules memory.
This will always allow movement past a previously
recorded stall position once movement has been
registered beyond that position. This is the case for both
manual and memory movement.
Initialisation
When a replacement memory control module is fitted
to a seat it should be initialised so that the control
module can learn the seats maximum and minimum
adjustment values. This is achieved by adjusting all seat
movement axis from one end of travel to the other; slide,
recline, height and tilt.
Battery Monitor
If the battery voltage drops below 10.5 Volts, then the
memory control module ignores all requests for a
memory recall, including lazy entry, until the battery
voltage has reached 11.5 Volts. This will conserve as
much power in the vehicle battery as possible to enable
engine cranking.
Stand-by Mode
The memory control module supports a stand-by mode
to keep power consumption to a minimum.
The control module will enter stand-by mode upon
receipt of LIN bus SLEEP message from the Central
Junction Box (CJB) or, alternatively, a time period of
3 seconds after the LIN bus network has remained quiet
provided there are no motors being driven at that time
and there are no valid switch requests.
If there is a failure with the LIN bus network then the
control module will enter stand-by mode and remain
there until communication is restored. The seat will be
operational in inch mode only if there is a LIN bus
failure.
If the control module is being prevented from entering
stand-by mode due to motor movement, memory recall
or switch operation, then it will enter stand-by mode
when the current function has terminated.
NOTE: In the case of a memory recall, all memory
recall operations should be carried out before entering
stand-by mode, not just the current motor movement.
The control module will exit stand-by mode if there is
any LIN bus activity. When the control module exits
stand-by mode it must verify the System Enable Status
in order to recognise when it should respond to a switch
request.
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							SEAT HEATING
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							Front Seats
Front Seat Heater Switches
The heated front seat system is available on both manual
and electric seats and is controlled by the Automatic
Temperature Control Module (ATCM).
When the front seat heater switch is operated, power is
supplied to the heater elements in the seat, causing the
seat to heat up. The ATCM senses seat temperature via
the sensor in the cushion and regulates voltage to the
seat heater elements to maintain a constant temperature.
Rear Seat Heaters
Rear Seat Heater Switches
NOTE: Rear air conditioning variant shown
The RH and LH rear seats support three integral heating
elements, squab, back rest and bolster. The optional rear
child booster seat also supports an integral seat-heating
element.
NOTE: The rear centre seat is not available with seat
heating.
The rear seat heaters are enabled when the ignition
switch is position II, and operate at one of two
temperature settings. With the first press of a rear seat
heater switch the relative rear seat heat control module
(RH or LH) adopts the higher temperature setting,
supplies a power feed to the related rear seat heater
elements and illuminates two amber LEDs in the switch.
At the second press of the switch the control module
adopts the lower temperature setting and extinguishes
one of the LEDs. At the third press of the switch the
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							control module de-energises the heater elements and
extinguishes the second LED. The seat heaters remain
on until selected off or the ignition is turned off.
The rear seat heat control modules receive an input from
a temperature sensor in RH and LH rear seats, and
regulate the power feed of the heater elements to control
the seat temperature at the appropriate temperature
setting between 35 and 45 °C (95 and 113 °F). The
actual temperature settings vary with the type of seat
covering, to allow for the different heat conduction
properties of the different seat covering materials.
DIAGNOSTICS
The exchange of information between the diagnostic
unit and the memory control module is via the CJB,
which are interconnected via the hi-speed Controller
Area Network (CAN) bus and LIN bus. There is a
non-volatile memory (EEPROM) for saving detected
errors. Its contents are not lost when the power supply
is disconnected. Only the T4 diagnostic tester can erase
the error memory.
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