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Land Rover Defender 1999 2002my Workshop Supplement Body Repair 3rd Edition Rover Manual
Land Rover Defender 1999 2002my Workshop Supplement Body Repair 3rd Edition Rover Manual
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86ELECTRICAL 12 DESCRIPTION AND OPERATION IMMOBILISATION SYSTEM - FROM 02MY Engine immobilisation is available on all 2002MY engine derivatives, although it is not available in selected markets. On Td5 models, the immobilisation system is controlled directly by the anti-theft alarm ECU. On 300Tdi models, the immobilisation system is controlled by an engine immobilisation ECU in conjunction with the anti-theft alarm ECU. When immobilisation occurs on Td5 models, engine crank is disabled by the anti-theft alarm ECU breaking the earth path for the starter relay coil and the ECM disables the fuel pump relay and the glow plug relay. When immobilisation occurs on 300Tdi models, engine crank is disabled by the anti-theft alarm ECU breaking the earth path for the starter relay coil and the engine immobilisation ECU disables the fuel cut-off solenoid, the starter motor solenoid and the glow plug relay. Two types of immobilisation are available; passive and active. Engine Immobilised Warning Lamp The engine immobilised warning lamp is located in the instrument pack. The lamp is used by the anti-theft alarm ECU to show that the engine is immobilised during an attempted engine start. The warning lamp receives a battery supply from the ignition switch position I (aux) via the passenger compartment fusebox. The anti-theft alarm ECU controls the warning lamp. When the warning lamp is not required, the ECU supplies a battery supply to the warning lamp. When warning lamp operation is required, the ECU provides an earth for the bulb. If the ignition switch is moved to the crank position, but operation of the starter motor is prohibited and the engine immobilised warning lamp flashes, then the anti-theft alarm ECU has not received the correct code from the remote handset and the vehicle will remain immobilised. Ensure that the remote handset is in the proximity of the transponder coil. If the remote handset is not available or inoperative, the immobilisation system can be disarmed using the EKA procedure outlined later in this section. If the ignition switch is turned to the crank position III and the remote handset is not in the proximity of the transponder coil, engine immobilisation will remain active and the warning lamp will flash to inform the driver.
ELECTRICAL 13 DESCRIPTION AND OPERATION Passive Immobilisation Passive immobilisation occurs when the key is removed from the ignition switch and the drivers door is opened, after a period of 30 seconds the engine will become immobilised. If the ignition is turned off or the key is removed from the ignition switch and drivers door is not opened, the engine will become immobilised after 5 minutes. The passive immobilisation system operates in conjunction with the transponder coil located around the ignition switch barrel. The transponder coil emits an electro magnetic waveform signal which excites the remote handset into transmitting a remobilisation signal. When remobilisation is requested, the anti-theft alarm ECU transmits an appropriate code to the ECM on Td5 models or the engine immobilisation ECU on 300Tdi models. Active immobilisation Active immobilisation is only invoked when the vehicle is locked using the remote handset. Active immobilisation performs the same engine disable functionality as the passive immobilisation previously described, but includes full CDL and activation of perimetric and volumetric alarm modes.
86ELECTRICAL 14 DESCRIPTION AND OPERATION Emergency Key Access (EKA) If the vehicle is in an immobilised condition and the remote handset is not available or inoperable, an EKA procedure using the vehicle key is available to remobilise the engine systems. The EKA code is supplied with the vehicle and is shown on the security card supplied with the owners handbook. NOTE: This feature is only available in markets where full alarm functionality is specified. The EKA code involves the input of a unique four digit code which is entered using the ignition switch and the drivers door switch. Note that the alarm sounder will operate as soon as the drivers door is opened and will continue until the sequence is successfully completed. To enter the code (2, 3, 4, 5 for example) perform the following steps: 1.Remove the handset from the key ring and position the handset well away from the ignition switch when entering the code. 2.Open the driver’s door and immediately insert the key in the ignition switch and turn the ignition switch to position II. Hold this position until the alarm sounds, then switch the ignition off (position 0) and close the driver’s door. 3.Enter the first digit of the code. Turn the ignition on (to position II) and then off twice. Open and close the driver’s door to enter the first digit. 4.Enter the second digit. Turn the ignition on and then off, three times. Open and close the driver’s door to enter the second digit. 5.Enter the third digit. Turn the ignition on and then off, four times. Open and close the driver’s door to enter the third digit. 6.Enter the fourth digit. Turn the ignition on and then off, five times. Open and close the driver’s door to enter the fourth digit. If the code has been entered correctly, the alarm LED in the instrument pack will extinguish and the engine can be started after the last closure of the driver’s door. If a digit is incorrectly entered, holding the ignition switch in the on position for more than 5 seconds will reset the sequence. The code must then be re-entered from the beginning. If the EKA code is correctly entered, the security LED will illuminate for 1 second, the immobilisation will be disabled and the alarm sounder will cease to operate. If the EKA code is incorrectly entered, the alarm sounder will sound twice and the correct code must be re-entered, If the EKA code is incorrectly entered three times the system invokes a 30 minute lockout. This is signalled by the LED flashing with a long illuminated period followed by a short extinguished period for the lockout duration. NOTE: Disabling the alarm and immobilisation system using the EKA procedure is only valid for one ignition on/off cycle. When the ignition is switched off, the immobilisation system will be activated after a period of 30 seconds. If the remote handset is still unavailable, the EKA procedure will have to be repeated each time the vehicle is to be driven.
ELECTRICAL 15 DESCRIPTION AND OPERATION CENTRAL DOOR LOCKING (CDL) - FROM 02MY The Central Door Locking (CDL) system is a new feature for 2002MY Defender. NOTE: CDL operates all doors on Station Wagon and County Station Wagons. On all other Defender 2002MY variants, CDL operates on the driver and front and rear passenger doors only. General CDL operates on all doors, including the tail door and is operated by pressing the appropriate button on the remote handset, using the vehicle key in the drivers door lock or using the drivers door sill button. The CDL system introduces electrically operated door latches which are controlled by the anti-theft alarm ECU, located behind the instrument pack. The anti-theft ECU receives a permanent power supply from fuse 6 in the passenger compartment fuse box. Each CDL latch motor is connected by two wires to the anti-theft ECU which alternately supplies power and earth connections to drive each motor to the lock or unlock positions. If the latch motors are continually operated in a short period of time, the anti-theft ECU will suspend all CDL latch motor operation for 15 seconds to prevent the motors from overheating. Before suspension occurs the anti-theft ECU ensures that all the doors are left in the unlocked condition. If the vehicle is locked, and the key is in the ignition switch or the ignition is on and the anti-theft alarm ECU inertia switch is tripped, all doors will be unlocked immediately and the hazard warning lamps will operate. To prevent accidental relocking, all latch motors will be inhibited until the anti-theft ECU senses that the drivers door is opened with the key removed from the ignition switch. Locking of the vehicle using the remote handset is inhibited with the key in the ignition switch. Slam Locking With the introduction of CDL, slam locking of the drivers door is disabled. If an attempt is made to slam lock the vehicle, the anti-theft alarm ECU will unlock all doors. CDL Using the Drivers Door Sill Button Each door has a sill button to allow that door to be individually locked from inside the vehicle. The drivers door sill button has additional functionality which allows all doors to be locked from inside the vehicle from this one button. When the driver door sill lock button is depressed, the CDL system enters a sill locked state, where all doors are locked but immobilisation and perimetric and volumetric sensing is suspended. CDL using the drivers sill lock button can be achieved with or without the key in the ignition switch and without the ignition being on. If the CDL is in the sill locked state and the lock button on the remote handset is pressed, the volumetric and perimetric functions of the alarm system will become active and active engine immobilisation will be invoked.
86ELECTRICAL 16 DESCRIPTION AND OPERATION CDL Using the Key The driver and the passenger front doors are fitted with key barrel locks. Using the vehicle key in the passenger door will only lock or unlock that door. Using the key in the drivers door will operate the CDL system and lock or unlock all doors. NOTE: The passenger door key barrel is connected to the door latch and has no electrical input to the anti-theft alarm ECU. The driver door key barrel is also connected to the door latch and its operation is monitored by the ECU only via the latch motor and the two wires connected to it. When the vehicle is locked using the key in the drivers door, only CDL and perimetric protection is invoked. Volumetric protection and active immobilisation is not initiated. CDL Using the Remote Handset The remote handset has two buttons; lock and unlock. A single press on the lock button will lock all doors and invoke perimetric and volumetric protection and active immobilisation. Remote locking is inhibited if the transponder coil senses that the key is in the ignition switch. When the vehicle is locked, a single press of the unlock button will unlock all doors and disable perimetric and volumetric protection. Immobilisation is only disabled using the transponder coil and the remote handset or the EKA procedure. Security LED In addition to the alarm system status indications, the security LED also displays CDL system status. The system confirms that the drivers door is open by illuminating the LED for the 10 second confirmation period. If any other door or the bonnet is open, the LED remains unlit for the 10 second confirmation period. After the 10 second confirmation period the LED reverts to the slow flash deterrent mode if the alarm is armed.
ELECTRICAL 17 DESCRIPTION AND OPERATION Interior Lamp Functionality The anti-theft alarm ECU controls the interior lamp functionality. When the lamps are extinguished, they fade out to the off condition over a 2 second period. The lamps are turned on by: Disarming the alarm using the remote handset Opening any door. When the lamps are on, they will be extinguished by the following actions: If all doors are closed, the lamps will be extinguished after a 15 second delay period If any door is left open, the lamps will be extinguished after an 8 minute delay period If one of the above delay periods is active and the ignition is switched on or the alarm is armed, the lamps will be extinguished. ANTI-THEFT ALARM SYSTEM SELF TEST The anti-theft alarm ECU has a self test feature which allows all alarm inputs to be tested. To enter self test mode the following steps must be completed as follows: 1.Ensure that the driver’s door is closed and the driver’s window is open 2.Open the bonnet and with assistance depress and hold the bonnet switch 3.Release the bonnet switch and within 0.5 seconds turn the ignition switch on to position II 4.Quickly open the driver’s door 5.Turn the ignition switch to the off position 6.Turn the ignition switch back to position II 7.If the self test mode has been entered successfully, confirmation will be given by the alarm sounder. If the ECU has not entered self test mode, repeat the above procedure. Once in self test mode, the following test inputs will cause the security LED to illuminate and the engine immobilised warning lamp and the hazard warning lamps to flash. When an input is operated, non illumination of the security LED, the engine immobilised warning lamp and the hazard warning lamps indicates a fault for that input. Perform the following steps to test each input for correct operation: Close and open the drivers door Open and close each of the passenger doors and the tail door in turn Close and open the bonnet (depress switch if bonnet still open) With drivers door closed, lock and unlock the driver’s door using the vehicle key if spare key available. If spare key is not available, operate driver’s sill button through open window Press the unlock button of the remote handset. This enters the volumetric self test mode and all other inputs will be disabled. Make a movement inside the vehicle. When the volumetric sensor is triggered the security LED will flash. To exit the self test mode, turn the ignition switch to the off position.
86ELECTRICAL 18 DESCRIPTION AND OPERATION FASCIA CONSOLE 1.Rear fog lamp switch 2.Rear wiper switch 3.Heated front screen switch (if fitted) 4.Hazard warning lamp switch 5.Heated rear window switch 6.Rear washer switch 7.Front fog lamps switch (if fitted)8.RH front window switch 9.RH heated front seat switch (if fitted) 10.Headlamp levelling control switch 11.Cigar lighter (if fitted) 12.LH heated front seat switch (if fitted) 13.LH front window switch
ELECTRICAL 19 DESCRIPTION AND OPERATION For 02MY a new fascia console has been introduced to accommodate the additional switches for electric windows etc. The console comprises a plastic moulding secured to the fascia with five screws. The new console allows existing switches to be repositioned and has provided the opportunity to commonise the switches with other Land Rover models. The switches and components located in the console are as follows: Cigar lighter (if fitted) Headlamp levelling control LH and RH heated front seat switches (if fitted) LH and RH front window lift switches Front fog lamp switch (if fitted) Rear fog lamp switch Rear wash/wipe switch Rear wiper switch Hazard warning lamp switch Heated rear window switch Heated front screen switch (if fitted) A central cut-out in the console provides for the installation of the radio, where fitted, or a coin tray for markets without a standard radio installation.
86ELECTRICAL 20 DESCRIPTION AND OPERATION HEATED FRONT SCREEN - FROM 02MY 1.Heated front screen RH connector 2.Heated front screen LH connector 3.Heated front screen ECU (behind instrument pack) 4.Heated front screen relay (passenger compartment fuse box) 5.Heated front screen switch
ELECTRICAL 21 DESCRIPTION AND OPERATION The Heated Front Screen (HFS) is a new feature for 2002MY which is available as part of a cold climate pack on Td5 engine variants only. The HFS system comprises an HFS ECU, an HFS relay, a controlling switch and the HFS elements. The HFS comprises two elements laminated in the windscreen. The elements are connected by bus bars within the screen and therefore the HFS has only one feed and one earth connector. The HFS is controlled by the HFS ECU which determines when HFS operation is permitted. The ECU also has a timer which allows HFS operation for up to 8 minutes. The HFS ECU is located behind the instrument pack, adjacent to the dim/dip relay. The ECU is connected by a multiplug. The ECU receives an ignition feed via the satellite fuse box and an engine running signal from the engine oil pressure switch. A non-latching switch for HFS operation is located in the fascia. The switch has a tell-tale lamp to indicate when the HFS screen is operative. The HFS relay is located in the under seat fuse box and receives a permanent battery voltage supply via fusible link 1 in the under seat fuse box. The relay coil is connected to the HFS ECU and an earth point. When the relay is operated, battery voltage is supplied from the relay, via fuse 25 in the passenger compartment fuse box to the HFS element. When the HFS switch is depressed, a momentary earth path is completed from the HFS ECU, through the switch to earth. This is sensed by the ECU as a request for HFS operation. If the ECU receives an ignition on signal and an oil pressure signal, it allows HFS operation. The ECU provides an output to the coil of the HFS relay. When the coil is energised, the contacts close and battery voltage, via fusible link 1 in the under seat fuse box is supplied to the HFS element, via fuse 25 in the passenger compartment fuse box. The feed is also supplied via a splice joint to the HFS switch to illuminate the tell tale lamp in the switch. The HFS ECU will allow screen operation for up to 8 minutes, after which it removes the feed to the HFS relay coil, which, after the contacts open, removes the supply to the HFS element and simultaneously extinguishing the tell tale lamp in the switch. If, during the timed operation period, the HFS ECU receives an additional request signal from operation of the switch, HFS operation is stopped. When operating, the HFS element draws approximately 25 Amps. To prevent excess drain on the vehicle battery, if the ignition on signal and/or the oil pressure switch (engine running) signal is lost, the HFS ECU de-energises, if already operating, or will not energise the HFS relay.