Contents Wiring diagrams Section: Charging System All sections

Battery and Charging System - General Information Land Rover Range Rover L322

Charging System 1 illustration ~4926 words

SPECIFICATIONS

Engine variantsItemSpecifications
All Gasoline (Petrol) ModelsTypeMaintenance free lead-calcium
Capacity690 amps - 75 amp/hour ( Ah )
Reserve capacity150 minutes @ 25 amps
Diesel ModelsTypeMaintenance free lead-calcium
Capacity825 amps - 90 Ah
Reserve capacity190 minutes @ 25 amps
Vehicles with 5.0L engineTypeFlooded Lead Calcium
Capacity90 Ah
Cold cranking amps to the rest of the world800 CCA
Cold cranking amps to Norway, Finland, Sweden, Russia, Canada950 CCA
Reserve capacity150 minutes
Vehicles with 4.4L TdV8 engineTypeFlooded Lead Calcium
Capacity90 Ah
Cold cranking amps950 CCA
Reserve capacity150 minutes
Vehicles with 3.6L TdV8 engineTypeLow maintenance Lead-Silver-Calcium
Capacity90 Ah
Cold cranking amps950 CCA
Reserve capacity150 minutes

BATTERY

CAUTIONThe vehicle status and battery condition must be established before attempting battery disconnect/connect. Reference must then be made to the following table to establish the relevant procedure to be followed.
CAUTIONAfter connecting the battery, the steering wheel must be turned to full left-hand and full right-hand lock with the engine running. This allows the dynamic stability control system to calibrate the steering wheel position. Failure to follow this instruction will result in a variety of instrument cluster warning lights being illuminated.

Note. If there is insufficient capacity in the battery to disarm the alarm, the alarm may sound on connection of the battery - turning the ignition key to position II will disarm the alarm.

Vehicle statusBattery chargedBattery discharged
ProcedureProcedure
Engine running1
Vehicle powered down, locked and alarmed23
Vehicle unlocked45

BATTERY DISCONNECT/CONNECT

Disconnect the batteryConnect the battery
1. If possible, apply the parking brake or chock the wheels1. Ensure that all electrical loads are switched OFF
2. Set the ignition to the OFF position.2. Connect battery leads - GROUND lead last
3. Wait 2 minutes for the engine management system to POWER DOWN3. Switch on ignition
4. Open the hood4. Operate parking brake switch several times until parking brake warning lamp is extinguished
5. Disconnect the battery - GROUND lead first5. Reset electric window one-touch facility. Power window up to hard stop, release switch, reapply and hold for 1 second (relay in door will click). One touch should now work

PROCEDURE 1

Disconnect the batteryConnect the battery
1. Unlock the vehicle and disarm the alarm using the PLIP button1. Ensure that all electrical loads are switched OFF
2. Enter the vehicle, turn the ignition key to position II, apply the parking brake or chock the wheels and then turn the ignition key to position 0. Remove the key to POWER DOWN the ICE system2. Connect battery leads - GROUND lead last
3. Wait 2 minutes for the engine management system to POWER DOWN3. Switch on ignition
4. Open the hood4. Operate parking brake switch several times until parking brake warning lamp is extinguished
5. Disconnect the battery - GROUND lead first5. Reset electric window one-touch facility. Power window up to hard stop, release switch, reapply and hold for 1 second (relay in door will click). One touch should now work

PROCEDURE 2

Note. 1. Disconnect battery - The door unlock process initializes the ICE system.

Disconnect the batteryConnect the battery
1. Unlock the vehicle from the driver's door using the key1. Make sure that all the electrical systems and ignition are switched OFF
2. Enter the vehicle, turn the ignition key to position II, apply the parking brake or chock the wheels and then turn the ignition key to position 0. Remove the key to POWER DOWN the ICE system2. Connect the battery - GROUND lead last
3. Wait 2 minutes for engine management system to POWER DOWN3. Switch on ignition
4. Open the hood4. Operate parking brake switch several times until parking brake warning lamp is extinguished
5. Disconnect the battery - GROUND lead first5. Reset electric window one-touch facility. Power window up to hard stop, release switch, reapply and hold for 1 second (relay in door will click). One touch should now work

PROCEDURE 3

Note. 2. Disconnect battery - The door unlock process initializes the ICE system.

Note. 3. Connect battery - If there is insufficient capacity in the battery to disarm the alarm, the alarm may sound on reconnection of the battery - Step 3 will disarm the alarm

Disconnect the batteryConnect the battery
1. Enter the vehicle, turn the ignition key to position II, apply the parking brake or chock the wheels and then turn the ignition key to position 0. Remove the key to POWER DOWN the ICE system1. Ensure that all electrical loads are switched OFF
2. Wait 2 minutes for the engine management system to POWER DOWN2. Connect the battery - GROUND lead last
3. Open the hood3. Switch on ignition
4. Disconnect the battery - GROUND lead first4. Operate parking brake switch several times until parking brake warning lamp is extinguished
5. Reset electric window one-touch facility. Power window up to hard stop, release switch, reapply and hold for 1 second (relay in door will click). One touch should now work

PROCEDURE 4

Disconnect the batteryConnect the battery
1. Enter the vehicle, turn the ignition key to position II, apply the parking brake or chock the wheels and then turn the ignition key to position 0. Remove the key to POWER DOWN the ICE system1. Ensure that all electrical loads are switched OFF
2. Wait 2 minutes for engine management system to POWER DOWN2. Connect the battery - GROUND lead last
3. Open the hood3. Switch ON ignition
4. Disconnect battery - GROUND lead first4. Operate parking brake switch several times until parking brake warning lamp is extinguished
5. Reset electric window one-touch facility. Power window up to hard stop, release switch, reapply and hold for 1 second (relay in door will click). One touch should now work

PROCEDURE 5

Note. 4. Disconnect battery - If the remote control module (RCM) is not functioning, it will be necessary to manually unlock the vehicle using the key.

Carry out the following operations in the sequence given
1. Connect one end of the BLACK (-) booster cable to the GROUND (-) battery terminal of the DONOR vehicle
2. Connect the other end of the BLACK (-) booster cable to a good earth point e.g. unpainted metal surface or engine mounting at least 0.5 m (20.0 in) from the battery or fuel lines on the DISABLED vehicle
3. Connect one end of the RED (+) booster cable to the positive (+) battery terminal of the DONOR vehicle
4. Connect the other end of the RED (+) booster cable to the positive (+) battery terminal of the DISABLED vehicle
5. Start the engine of the DONOR vehicle and allow it to idle for a few minutes
6. Start the engine of the DISABLED vehicle
7. Allow the engines of both vehicles to idle for a few minutes, then switch off the engine of the DONOR vehicle
8. Disconnect the RED (+) booster cable from the battery of the PREVIOUSLY DISABLED vehicle
9. Disconnect the RED (+) booster cable from the battery of the DONOR vehicle
10. Disconnect the BLACK (-) booster cable from the earth point of the PREVIOUSLY DISABLED vehicle
11. Disconnect the BLACK (-) booster cable from the battery of the DONOR vehicle

VEHICLE JUMP (EMERGENCY) STARTING - USING ANOTHER VEHICLE

WARNINGDuring normal use, batteries emit explosive hydrogen gas sufficient to cause severe explosions and capable of causing serious injury - keep sparks and naked lights away from the engine compartment.
WARNINGDO NOT attempt to start the disabled vehicle if it is suspected that the electrolyte in the battery is frozen.
WARNINGSuitable eye protection must be worn when working in the vicinity of the battery.
WARNINGTake care when working near rotating parts of the engine.
WARNINGPrior to attempting to start the disabled vehicle, ensure that the parking brake is applied or suitably chock the wheels. Ensure that 'P' - PARK - Automatic Gearbox or NEUTRAL - Manual Gearbox is selected.
CAUTIONEnsure that all electrical loads are switched OFF prior to connecting booster cables and disconnect booster cables prior to using any electrical equipment.
CAUTIONEnsure that the battery of the DONOR vehicle is of 12 volt capacity and that all electrical loads on the disabled vehicle are switched OFF prior to connecting booster cables.
CAUTIONEnsure that there is no physical contact between the donor and disabled vehicles other than the booster cables.
Carry out the following operations in the sequence given
1. Connect the end of the BLACK (-) booster cable to the ground (-) battery terminal of the vehicle
2. Connect the end of the RED (+) booster cable to the positive (+) battery terminal of the vehicle
3. Start the engine of the vehicle and allow it to idle
4. Disconnect the RED (+) booster cable from the battery terminal of the vehicle
5. Disconnect the BLACK (-) booster cable from the battery terminal of the vehicle

VEHICLE JUMP (EMERGENCY) STARTING - USING A SLAVE BATTERY/STARTING AID

WARNINGDuring normal use, batteries emit explosive hydrogen gas sufficient to cause severe explosions and capable of causing serious injury - keep sparks and naked lights away from the engine compartment.
WARNINGDO NOT attempt to start the disabled vehicle if it is suspected that the electrolyte in the battery is frozen.
WARNINGSuitable eye protection must be worn when working in the vicinity of the battery.
WARNINGTake care when working near rotating parts of the engine.
WARNINGPrior to attempting to start the disabled vehicle, ensure that the parking brake is applied or suitably chock the wheels. Ensure that 'P' - PARK - Automatic Gearbox or NEUTRAL - Manual Gearbox is selected.
CAUTIONEnsure that all electrical loads are switched OFF prior to connecting booster cables and disconnect booster cables prior to using any electrical equipment.
CAUTIONEnsure that the battery of the DONOR vehicle is of 12 volt capacity and that all electrical loads on the disabled vehicle are switched OFF prior to connecting booster cables.

1. INTRODUCTION

This document sets out the requirements for care and maintenance of batteries and thereby the standard of battery care at dealers and retailers for new vehicles

This applies to all types of 12 Volt Lead Acid Batteries used in Jaguar and Land Rover vehicles whether they are conventional flooded technology or Absorbed Glass Mat (AGM - also known as Valve Regulated Lead Acid (VRLA)) technology and also applies to both Primary and Auxiliary Batteries. AGM batteries offer improved resistance to cycling as seen in stop start applications.

In order to prevent damage to the battery and ensure a satisfactory service life, all processes detailed within this document must be rigorously adhered to.

It is equally important therefore to note the following key points

  1. All new vehicles leave the factory with either a transit relay installed and/or have a transit mode programmed into the vehicle control modules. The transit relay must be removed and the transit mode disabled (where applicable) using an approved diagnostic system, NOT MORE THAN 72 HOURS before the customer takes delivery.
  2. The battery can be discharged by the following mechanisms
  3. Self Discharge: - A lead acid battery will very slowly discharge itself due to its own internal chemical processes whether it is connected to a vehicle or not.
  4. Quiescent Discharge: - The vehicle electrical systems when connected to the battery will draw charge from the battery.

12 Volt Lead Acid Batteries rely on internal chemical processes to create a voltage and deliver current. These processes and the internal chemical structure of the battery can be damaged if the battery is allowed to discharge over a number of weeks / months, or is left in a discharged state for a lengthy time period.

  1. On vehicles with conventional ignition keys, these must not be left in the ignition lock barrel when the transit relay has been removed, otherwise quiescent current will increase and the battery will discharge more rapidly.
  2. For keyless vehicles, the Smart Key must be stored at least 5m away from the vehicle when the vehicle is parked or stored.
  3. AGM Batteries are fully sealed and cannot have the electrolyte level topped up.

Note. Dealers and retailers involved in the storage / handling of vehicles and replacement batteries have a responsibility to ensure that only a fully charged battery may be processed through the distribution selling chain.

2.1 DEALER DEMONSTRATION VEHICLES

Vehicles used as dealer demonstrator(s), in a showroom, must be connected to a showroom conditioner capable of delivering 50 Amps. This will prevent the battery from being damaged.

Due to the high electrical current demand and high depth of Discharge that can occur during vehicle software re-flash activities, SDD work or ignition on related work in the workshop, vehicles that are undergoing such activities MUST have a power supply capable of delivering 50 Amps or more.

2.3 EXTENDED VEHICLE REWORK

For any extended vehicle rework that results in consuming vehicle power, either the battery should be disconnected or a suitable power supply connected.

2.4 JUMP STARTING NEW VEHICLES BEFORE THEY HAVE BEEN DELIVERED TO THE CUSTOMER

  1. It is the dealer / retailers responsibility to make sure the battery is not allowed to go flat by following the instructions and processes defined in this manual.
  2. However, if circumstances dictate that a new vehicle must be jump started due to a flat battery while the vehicle is in the dealer / retailers care, the battery on this vehicle must be replaced with a new one prior to delivery to the customer at the dealer / retailers liability.
  3. The vehicle should also undergo investigation as to why the battery went flat.
  4. Do not connect the jump starting cable to the negative (-) terminal of the battery. Always connect to the recommended earth point. As defined in the owners handbook or service documentation for that vehicle.

2.5 AGM BATTERIES

  1. AGM batteries must not be charged above 14.8 Volts. Doing so will damage them.
  2. AGM Batteries must be tested with a capable battery tester as detailed in the equipment section (Section 5) of this procedure.

Note. Under no circumstances should the battery be disconnected with the engine running because under these conditions the alternator can give a very high output voltage. This high transient voltage will damage the electronic components in the vehicle. Loose or incomplete battery connections may also cause high transient voltage.

3. HEALTH AND SAFETY PRECAUTIONS

WARNINGBATTERY CELLS CONTAIN SULFURIC ACID AND EXPLOSIVE MIXTURES OF HYDROGEN AND OXYGEN GASES. IT IS THEREFORE ESSENTIAL THAT THE FOLLOWING SAFETY PRECAUTIONS ARE OBSERVED.
WARNINGBatteries emit highly explosive hydrogen at all times, particularly during charging. To prevent any potential form of ignition occurring when working in the vicinity of a battery
  1. Do not smoke when working near batteries.
  2. Avoid sparks, short circuits or other sources of ignition in the battery vicinity.
  3. Switch off current before making or breaking electrical connections.
  4. Ensure battery charging area is well ventilated.
  5. Ensure the charger is switched off when: a) connecting to a battery; b) disconnecting from the battery.
  6. Always disconnect the ground cable from the battery terminal first and reconnect it last.
WARNINGBatteries contain poisonous and highly corrosive acid. To prevent personal injury, or damage to clothing or the vehicle, the following working practices should be followed when topping up, checking electrolyte specific gravity, removal, refitting or carrying batteries
  1. Always wear suitable protective clothing (an apron or similar), safety glasses, a face mask and suitable gloves.
  2. If acid is spilled or splashed onto clothing or the body, it must be neutralized immediately and then rinsed with clean water. A solution of baking soda or household ammonia and water may be used as a neutralizer.
  3. In the event of contact with the skin, drench the affected area with water. In the case of contact with the eyes, bathe the affected area with cool clean water for approximately 15 minutes and seek urgent medical attention.
  4. If battery acid is spilled or splashed on any surface of a vehicle, it should be neutralized and rinsed with clean water.
  5. Heat is generated when acid is mixed with water. If it becomes necessary to prepare electrolyte of a desired specific gravity, SLOWLY pour the concentrated acid into water (not water into acid), adding small amounts of acid while stirring. Allow the electrolyte to cool if noticeable heat develops. With the exception of lead or lead-lined containers, always use non-metallic receptacles or funnels. Do not store acid in excessively warm locations or in direct sunlight.
WARNINGDue to their hazardous contents, the disposal of batteries is strictly controlled. When a battery is scrapped, ensure it is disposed of safely, complying with local environmental regulations. If in doubt, contact your local authority for advice on disposal facilities.

4.1 RECEIPT OF A NEW VEHICLE

Within 24 hours of receipt of a new vehicle, a battery condition check must be carried out in accordance with the battery test process utilizing an appropriate tester as outlined in the equipment section (Section 5) of this procedure.

Note. The midtronics code must be recorded on the form.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

4.2 NEW VEHICLE STORAGE

If the vehicle is to be stored the transit relays MUST be refitted and / or the vehicle put into transport mode.

Transit relay removal / vehicle placed in normal mode should only be completed a maximum of 72 hours prior to handover to customer

For vehicles without either a transit mode or transit relay the battery negative cable must be DISCONNECTED from the battery.

Note. The midtronics code must be recorded on the form.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

4.3 PDI / DELIVERY TO CUSTOMER

Before the vehicle is handed over to the customer and as part of the PDI, the condition of the battery needs to be confirmed. The battery condition must be checked in accordance with the battery test process utilizing an appropriate tester as outlined in the equipment section (Section 5) of this procedure.

Note. The midtronics code must be recorded on the form.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

4.4 REPLACEMENT BATTERIES FOR SERVICE

All service replacement batteries must have the battery condition checked within 24 hours of receipt and controlled on a 'First In First Out' basis to ensure batteries are not allowed to age unnecessarily.

For batteries in storage and not yet fitted to a vehicle, they must be stored in a dry environment, not in direct sunlight or under any direct heat source. Any batteries exhibiting any forms of damage or corrosion must not be fitted to any vehicle. Any batteries which are dropped must be scrapped, this applies even if no external damage is apparent.

The battery condition must be checked every 30 days in accordance with the battery test process utilizing an appropriate tester as outlined in the equipment section (Section 5) of this procedure.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

4.5 BATTERY MAINTENANCE

Any battery whether it is in a vehicle or a replacement part must be tested and/or re-charged every 30 days and MUST be re-charged after every 90 day period.

4.6 BATTERY TEST PROCESS

It is recommended that this test is conducted at least 24 hours after the vehicle engine has been run or the battery charged to avoid the need of surface charge removal. If time constraints make this unacceptable then the surface charge must be removed.

Surface Charge Removal: A vehicle which has had its battery charged or been driven in a 24 hour period before the test, must have its surface charge removed.

  1. Turn on the ignition but do not start the vehicle
  2. Switch on the headlamps on high beam for a minimum 3 minutes
  3. Switch off the headlamps
  4. Wait a minimum of 5 minutes before recording test results for any battery measurements

Battery Test: The battery may be tested either on a bench or on the vehicle.

The battery condition must be checked in accordance with the battery test process utilizing an appropriate tester as outlined in the equipment section (Section 5) of this procedure.

Note. The midtronics code must be recorded on the form.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

CAUTIONDO NOT connect the tester to any other circuit or chassis point other than the battery negative terminal.

5. EQUIPMENT

All equipment used must be functionally capable of meeting the compliance requirements. Please refer to the approved equipment document.

In the case of batteries fitted to a new vehicle at the dealership, battery condition should be measured using the appropriate hand-held Midtronics tester as follows

Battery TypeBattery TesterBattery Tester
ManufacturerJaguarLand Rover
FloodedMidtronics MCR 394 & 494 Midtronics EXP1080 & GR1/GRXMidtronics MCR 393 & 493 Midtronics EXP1080 & GR1/GRX
AGMMidtronics EXP1080, GR1/GRXMidtronics EXP1080, GR1/GRX

The test results must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

Note. All equipment must be calibrated

6. BATTERY CHARGING AND MAINTENANCE

TESTER RESULTSACTION
GOOD BATTERYReturn to service.
GOOD RE-CHARGEFully charge battery and return to service.
CHARGE AND RE-TESTFully charge battery. Remove surface charge. Re-test battery. If same result replace battery.
REPLACE BATTERY OR BAD CELL BATTERYVerify surface charge removed. Disconnect battery from vehicle and re-test. If result repeats after surface charge removal, replace battery. DO NOT RECHARGE.
UNABLE TO DO TESTDisconnect battery from vehicle and re-test.

7. CHARGING SYSTEM TEST AND DIAGNOSIS

It is essential that a suitably ventilated defined area exists in each dealership / retailer for battery charging.

CAUTIONIt is very important that when charging batteries using the traction charger or other stand-alone chargers that the charger is set for the correct type of battery before charging commences. If the wrong switch is selected the result would be a battery that is not charged fully and / or overheating can occur. Follow the manufacturers operating instructions.

Batteries MUST BE tested and if necessary charged every 30 days and charged after 90 days irrespective of any test. It is recommended that dealers / retailers always have fully charged batteries ready for use.

CAUTIONDo not charge AGM batteries with voltages over 14.8 Volts as this will damage the battery.

A designated controlled area must be allocated for scrap batteries and clearly controlled as such.

To bring a discharged but serviceable battery back to a fully charged condition proceed as follows

  1. Check and if necessary top-up the battery electrolyte level. (Flooded maintainable batteries only)
  2. Charge the battery using a charger as detailed in the approved equipment document following the manufacturers operating instructions.

Note. When using the Midtronics Diagnostic Charger, automatic mode must always be used. After charging and analysis, the charger may display 'Top-Off Charging', Hit STOP To End. Do not stop charging until the current falls to 5A or less, otherwise the battery will not be fully charged.

Following charging a post charge battery condition test must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure.

Note. The midtronics code must be recorded on the form.

Any actions must be carried out in accordance with the table shown in the determining battery condition section (Section 6) of this procedure. The details must be recorded on the New Vehicle Storage Form which is part of the new vehicle storage document.

For additional information, refer to: New Vehicle Storage Form (100-11, Description and Operation).

8. VEHICLE QUIESCENT CURRENT TESTING

If it is determined that a battery requires replacement, always refer to the appropriate section of the workshop manual for instructions on removing and installing the battery from the vehicle.

On in service vehicles fitted with a Battery Monitoring System (BMS), the BMS module must be reset following the installation of a new battery. The BMS module reset procedure must be performed using an approved diagnostic system.

9. CONFIRMING ELECTROLYTE LEVEL

WARNINGBEFORE CHECKING AND TOPPING-UP THE BATTERY ELECTROLYTE, REFER TO THE HEALTH AND SAFETY PRECAUTIONS SECTION.
WARNINGAGM TECHNOLOGY BATTERIES ARE FULLY SEALED FOR LIFE AND NO ATTEMPT SHOULD BE MADE TO CHECK OR TOP UP THE ELECTROLYTE LEVEL.

On certain types of battery the electrolyte level may need to be checked.

  1. Make sure the battery is of a type suitable for topping up. These types of batteries will have cell plugs visible on the top face of the battery or a removable access panel to allow access to the cells.
  2. On batteries with a clear or opaque case and level marks, check the electrolyte level by visual inspection of the maximum level indicator mark on the battery casing indicating adequate level above the battery separators.
  3. On batteries with black cases, remove the cell plugs or access panel and ensure the electrolyte level is level with the indicator in the cell hole. A flashlight may be required to see the electrolyte level on this type of battery.
  4. If the electrolyte level is low, top-up using distilled water.

Note. Maintenance free and Valve Regulated (AGM) batteries are sealed and therefore cannot be topped up.

CAUTIONDO NOT overfill.

VEHICLE QUIESCENT CURRENT TESTING

On vehicles fitted with a Battery Monitoring System (BMS), the diagnostic routine for quiescent drain testing in the approved Jaguar or Land Rover diagnostic system should be utilized.

If a customer complains of a vehicle battery that discharges continuously or when left for a prolonged period of time, it is recommended that a quiescent drain test is performed as described below.

The battery drain should be measured using the approved Jaguar or Land Rover diagnostic system or a Digital Multi-Meter (DVOM). A procedure for quiescent drain measurement using the diagnostic system is available in the Diagnosis and Testing section of the Workshop Manual. The vehicle should be in the locked/armed state (for example vehicle alarm fully armed), all doors, engine and luggage compartment lids are open and latched (so as to appear closed from an electrical point of view). The test should take place after the vehicle has entered shutdown mode. The time taken for this to occur after the ignition is switched off varies according to model (Refer to the Topix On line resource for details).

When the vehicle is armed, the effect of the security system Light Emitting Diode (LED) flashing is to cause a pulsation in the measured current drain. In this case, either the average current should be taken (using a Digital Multi- Meter (DVOM) with an averaging system) or the current reading taken, ignoring the brief high current peaks.

EQUIPMENT

Approved Jaguar or Land Rover diagnostic system with current probe OR Digital Multi-Meter (DVOM) with current probe.

METHOD OF MEASUREMENT

Using an Approved Jaguar or Land Rover Diagnostic System.

  1. Switch off all electrical loads and ensure that the ignition is off
  2. Connect the current probe to the approved Jaguar or Land Rover diagnostic system
  3. Calibrate the probe
  4. Install a clamp around the battery lead/junction box lead
  5. Go to the Quiescent Current Testing section in this procedure

Using a digital multimeter

Do not use an in-line DVOM to measure the quiescent drain on vehicles fitted with an electronic throttle (for example Range Rover 2002 MY onwards). The current exceeds the maximum amount the fuse in the DVOM is capable of handling.

  1. Switch off all electrical loads and ensure that the ignition is off
  2. Connect the current probe to the digital multimeter
  3. Calibrate the probe
  4. Install a clamp around the battery lead/junction box lead
  5. Go to the Quiescent Current Testing section in this procedure

QUIESCENT CURRENT TESTING

  1. Switch ignition to 'on' or select ignition mode in keyless vehicles and switch to 'off' (do not crank)
  2. Remove key from ignition switch (if equipped)
  3. Open and latch all doors, hood and luggage compartment lid
  4. Lock the vehicle using the remote function on the remote handset. (Single lock only to avoid volumetric alarm arming)
  5. Remove any other potential electrical drains such as accessories plugged into accessory sockets
  6. Record the amperage readings after the shutdown period referenced in the Topix on line resource for details. Note all cars from 2010 MY onwards should be less than 30mA after 30 minutes
  7. Record the final reading on the battery report form

The preferred method of testing following an excessive current consumption figure is to use a current probe around individual junction box leads to the various suspected circuits to identify a potential cause. This is in preference to the old method of removing fuses for the following reasons

  1. The drain may be caused by a module remaining active and preventing the quiescent drain from reducing to normal levels
  2. The drain may be caused by a relay winding that is activated. Pulling the fuse can allow this to 'reset' and the drain will be lost and go un-diagnosed

QUIESCENT DRAIN - TYPICAL VALUES

MODELSHUT DOWN PERIOD (minutes)TYPICAL VALUES BATTERY DRAIN (mA)
Range Rover (LM) - Up to 2009MY30<30
Range Rover (LM) - From 2010MY20 (after lock/arm condition) (2)<30
Range Rover (LG) From 2013MY33 (unlocked)<30
<10 (after lock/arm condition) (2)<20
Range Rover Sport (LS) - Up to 2007MY<20 (unlocked)<20
30<30
Range Rover Sport (LS) - From 2007MY to 2010MY30<30
Range Rover Sport (LS) - From 2010MY33 (unlocked)<30
10 (after lock/arm condition) (2)<20
Range Rover Evoque (LV) - From 2012MY30 (unlocked)<20
20<22
Discovery 3/LR3 (LA) - Up to 2007MY<20 (unlocked)<20
30<30
Discovery 3/LR3 (LA) - From 2007MY to 2010MY30<30
Discovery 4/LR4 (LA) - From 2010MY33 (unlocked)<30
<20 (after lock/arm condition) (2)<20
Freelander (LN) - Up to 2007MY<20 (unlocked)<20
30<30
Freelander 2/LR2 (LF) - From 2007MY35 (single locked or unlocked)<25
Defender (LD) - 1998MY to 2007MY15 (double locked)<25
30<25
Defender (LD) - from 2007MY<30<30
Discovery Series 2 (LT)30<30
() The total current drain will be higher if certain approved accessories are fitted (for example: tracker, trailer module, etc.) (2) Applies to vehicles without Tire Pressure Monitoring System (TPMS). Vehicle shut-down period with TPMS is approximately 15 minutes.
()The total current drain will be higher if certain approved accessories are fitted (for example: tracker, trailer module, etc.)
(2)Applies to vehicles without Tire Pressure Monitoring System (TPMS). Vehicle shut-down period with TPMS is approximately 15 minutes.

LAND ROVER QUIESCENT DRAIN VALUES

PRINCIPLE OF OPERATION

For a detailed description of the charging system and operation, refer to the relevant Description and Operation section of the workshop manual. Refer to GENERATOR - DESCRIPTION & OPERATION

INSPECTION AND VERIFICATION

CAUTIONDiagnosis by substitution from a donor vehicle is NOT acceptable. Substitution of control modules does not guarantee confirmation of a fault and may also cause additional faults in the vehicle being checked and/or the donor vehicle.

Note. Check and rectify basic faults before beginning diagnostic routines involving pinpoint tests.

  1. Verify the customer concern.
  2. Visually inspect for obvious signs of mechanical or electrical damage. VISUAL INSPECTION Mechanical Electrical Generator Auxiliary drive belt Auxiliary drive belt tensioner Generator pulley Check the security of the generator fittings Generator Battery Starter motor Harnesses and connectors Fuses Charge warning light function Engine control module (ECM)
  3. If an obvious cause for an observed or reported concern is found, correct the cause (if possible) before proceeding to the next step.
  4. If the cause is not visually evident, verify the symptom and refer to the Symptom Chart, alternatively check for Diagnostic Trouble Codes (DTCs) and refer to the DTC Index.

SYMPTOM CHART

SymptomPossible CausesAction
Charge warning indicator does not come onBulb/Circuit fault Generator fault Controller Area Network (CAN) circuit fault Engine Control Module (ECM) faultUsing the manufacturer approved diagnostic system, check the Engine Control Module (ECM) for related DTCs and refer to the relevant DTC index
Charge warning indicator stays on / battery dischargesAuxiliary drive belt broken Generator pulley slipping on shaft Generator fault Battery cable fault Controller Area Network (CAN) circuit fault Engine Control Module (ECM) faultRefer to the electrical circuit diagrams and test the generator circuit for short circuit to ground, short circuit to power, open circuit, high resistance Using the manufacturer approved diagnostic system, check the Engine Control Module (ECM) for related DTCs and refer to the relevant DTC index Check the auxiliary drive belt condition and tension Check that the pulley does not rotate independently of the generator
Charge warning indicator intermittentAuxiliary drive belt slipping Battery cable fault Generator wiring fault Generator fault Controller Area Network (CAN) circuit faultRefer to the electrical circuit diagrams and test the generator circuit for short circuit to ground, short circuit to power, open circuit, high resistance Using the manufacturer approved diagnostic system, check the Engine Control Module (ECM) for related DTCs and refer to the relevant DTC index Check the auxiliary drive belt condition and tension Check that the pulley does not rotate independently of the generator
Battery discharges without the charge warning indicator staying onBattery fault Battery quiescent drain Intermittent generator faultRefer to the relevant section of the workshop manual and test the battery Refer to the relevant section of the workshop manual and test the battery quiescent drain Using the manufacturer approved diagnostic system, check the Engine Control Module (ECM) for related DTCs and refer to the relevant DTC index
Noise (mechanical)Auxiliary drive belt slipping Generator faultCheck the auxiliary drive belt condition and tension Remove the auxiliary drive belt and check that the generator rotates freely

DTC INDEX

OVERVIEW

For battery condition indicator information: Refer to Battery and Cables . For battery charging and testing, refer to the instructions for the equipment in use in your own workshop.

The generator operates within a "smart" system, able to allow for temperature variations and optimize battery charging.

For information on the description and operation of the system: Refer to relevant Generator information.

  1. Verify the customer concern.
  2. Visually inspect for obvious mechanical or electrical faults. VISUAL INSPECTION Mechanical Electrical Generator Drive belt Drive belt tensioner Generator pulley Check the security of the generator fittings Generator Battery Starter motor Harnesses and connectors Fuses Battery junction box (BJB) - fuse 20E Starter motor megafuse Charge warning light function Controller area network (CAN) circuits Engine control module (ECM)
  3. If an obvious cause for an observed or reported concern is found, correct the cause (if possible) before proceeding to the next step.
  4. Use the approved diagnostic system or a scan tool to retrieve any diagnostic trouble codes (DTCs) before moving onto the symptom chart or DTC index. Make sure that all DTCs are cleared following rectification.
SymptomPossible CauseAction
Charge warning lamp does not illuminateWarning lamp/circuit - fault Generator - internal fault CAN Bus - circuit fault Engine control module - internal faultCheck the warning lamp function with the ignition on and the engine off Repair the circuit as necessary Check for DTCs indicating a generator, CAN or engine control module fault
Charge warning lamp stays on/battery dischargesAccessory drive belt - fault Generator pulley slipping on shaft Generator - internal fault Battery cable - fault CAN Bus - circuit fault Engine control module internal fault Central junction boxCheck the battery and generator cables Refer to the electrical guides Check for DTCs indicating a generator fault Check the accessory drive belt condition and tension Check that the pulley does not rotate independently of the generator Check for DTCs indicating a CAN, central junction box or engine control module fault
Charge warning lamp intermittentAccessory drive belt slipping Battery cable - fault Generator - circuit fault Generator - internal fault CAN Bus - circuit faultNOTE: Use of a power pack or boost charger may bring the warning lamp on until disconnected Check the accessory drive belt condition and tension Check the battery and generator cables refer to the electrical guides Check for DTCs indicating a generator or CAN circuit fault
Battery discharges without the charge warning lamp staying onBattery - fault Battery quiescent drain Intermittent generator - faultCheck the battery condition Check for battery quiescent drain Check for DTCs indicating a generator fault If no other reason for discharge can be found, check the circuit. Refer to the electrical guides
Noise (mechanical)Accessory drive belt slippingCheck the accessory drive belt condition and tension Disconnect the accessory drive belt and check that the generator rotates freely
NOTE
Use of a power pack or boost charger may bring the warning lamp on until disconnected

Note. Generic scan tools may not read the codes listed, or may read only 5-digit codes. Match the 5 digits from the scan tool to the first 5 digits of the 7-digit code listed to identify the fault (the last 2 digits give extra information read by the manufacturer-approved diagnostic system).

For a full list of Engine control module (ECM) DTCs: Refer to appropriate Electronic Engine Controls information.

PINPOINT TEST A: DENSO NON-BMS GENERATOR DIAGNOSTIC FLOW CHART

Pinpoint Test A

A1 Midtronics Battery Test
  1. NOTE: The battery must be fully charged and any battery defects rectified before continuing with generator diagnosis
  2. NOTE: The voltmeter must display readings to three decimal places (i.e. 0.001V)
  3. NOTE: Ignition on is position 2 on a keyed ignition system
  4. Using a Midtronics hand held tester or the Midtronics GR-1 diagnostic charger, carry out the "Midtronics battery test" as detailed in the battery care manual. See «Battery Care»(ref-514850-S18026676092012112600000) .
  5. Record battery diagnostic result on the provided form
Does the battery pass the "Midtronics battery test"?
YES Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .
NO Rectify any battery defects before continuing with generator diagnosis Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .

PINPOINT TEST B: DENSO NON-BMS GENERATOR DIAGNOSTIC FLOW CHART

Pinpoint Test B

B1 Generator Duty Cycle
  1. NOTE: The heated rear screen is timed to operate for 10 minutes, then cycle on and off dependent on external conditions. This test requires completion within this 10 minute period
  2. Using the manufacturer approved diagnostic system, select Measurement Application . Select Complete Vehicle Data-logger . Select 303-00 Engine System . Select the data-logger parameter "Generator Command" to view the PWM duty %
  3. Connect a voltmeter to the vehicle battery
  4. Switch ignition state to on (engine off)
  5. Turn off all electrical loads e.g. (blower, radio, interior lights etc.)
  6. Start the engine, switch on the heated rear screen
B2 on
B3 (V1)
  1. Record battery voltage (V1) and generator regulator control PWM Duty %. . Using the graph, plot the battery voltage from your multi-meter (V1) and duty cycle readings from the manufacturer approved diagnostic system
  2. Switch off engine
Does the generator regulator control PWM duty alternate between 40.1% and 3% in 5 sec intervals?
YES Refer to «Pinpoint Test C»(ref-514850-S35011130402012112600000) .
NO Use the comparison graph and instructions (below) to diagnose battery voltage (V1)

PINPOINT TEST C: CIRCUIT CHECK

Pinpoint Test C

C1 Circuit Check
  1. Refer to the electrical circuit diagrams and check ALT MON and ALT COM circuit for short circuit to ground, short circuit to power, open circuit, high resistance
Did the circuit check pass?
YES Install a new generator. Refer to the warranty policy and procedures manual, or determine if any prior approval program is in operation, prior to the installation of a new module/component
NO Repair the circuit as required Refer to «Wiring Harness»(ref-514941-S03183415702012112600000) . Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .

Scheme 1

Scheme 1: BATTERY VOLTAGE V1 GRAPH COMPARISON

Plot on the graph the band to which battery voltage reading (V1) relates

To which band did the battery voltage (V1) apply?

Use the table below to continue diagnosis

VoltageGraph BandLink to Test Procedure
Voltage (V1) plotted during pinpoint test B1Area 1 of the graphRefer to Pinpoint Test D .
Voltage (V1) plotted during pinpoint test B1Area 2 of the graphRefer to Pinpoint Test E .
Voltage (V1) plotted during pinpoint test B1Area 3 of the graphRefer to Pinpoint Test F .
Voltage (V1) plotted during pinpoint test B1Area 4 of the graphRefer to Pinpoint Test G .

PINPOINT TEST D: GRAPH COMPARISON AREA 1

Pinpoint Test D

D1 Graph Comparison Area 1
  1. When the voltage (V1) was compared to the graph above
Did the voltage (V1) = area 1 of the graph?
YES The output is within the expected range. Do not replace the alternator . If customer concern is still evident contact dealer technical support
NO No further action required

PINPOINT TEST E: CIRCUIT CHECKS

Pinpoint Test E

E1 Circuit Checks
  1. Refer to the electrical circuit diagrams and check BATT SENSE circuit for short circuit to ground, short circuit to power, open circuit, high resistance between
E3 Did the circuit check pass?
Did the circuit check pass?
YES Install a new generator. Refer to the warranty policy and procedures manual, or determine if any prior approval program is in operation, prior to the installation of a new module/component
NO Repair the circuit as required Refer to «Wiring Harness»(ref-514941-S03183415702012112600000) . Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .

PINPOINT TEST F: GRAPH COMPARISON AREA 3

Pinpoint Test F

F1 Graph Comparison Area 3
  1. When the voltage (V1) was compared to the graph above
Did the voltage (V1) = area 3 of the graph?
YES Install a new generator. Refer to the warranty policy and procedures manual, or determine if any prior approval program is in operation, prior to the installation of a new module/component
NO No further action required

PINPOINT TEST G: GRAPH COMPARISON AREA 4

Pinpoint Test G

G1 Graph Comparison Area 4
  1. When the voltage (V1) was compared to the graph above
Did the voltage (V1) = area 4 of the graph?
YES Refer to «Pinpoint Test I»(ref-514850-S20078067802012112600000) .
NO Carry out the diagnostic once more Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) . If customer concern is still evident contact dealer technical support

PINPOINT TEST H: REGULATOR CONTROL DUTY CYCLE

Pinpoint Test H

H1 Regulator Control Duty Cycle
  1. Using the generator regulator control duty cycle reading PWM Duty %
Is the generator regulator control PWM duty cycle stuck at 100%?
YES Refer to «Pinpoint Test J»(ref-514850-S36559434602012112600000) .
NO Refer to «Pinpoint Test K»(ref-514850-S40297959802012112600000) .

PINPOINT TEST I: CIRCUIT CHECKS 1

Pinpoint Test I

I1 Circuit Checks 1
  1. Refer to the electrical circuit diagrams and check ALT MON and ALT COM circuits for short circuit to ground, short circuit to power, open circuit, high resistance
Did the circuit checks pass?
YES Install a new generator. Refer to the warranty policy and procedures manual, or determine if any prior approval program is in operation, prior to the installation of a new module/component
NO Repair the circuit as required Refer to «Wiring Harness»(ref-514941-S03183415702012112600000) . Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .

PINPOINT TEST J: CIRCUIT CHECKS 2

Pinpoint Test J

J1 Circuit Checks 2
  1. NOTE: The heated rear screen is timed to operate for 10 minutes, then cycle on and off dependent on external conditions. This test requires completion within this 10 minute period
  2. Connect a voltmeter to the vehicle battery
  3. Switch ignition state to on (engine off)
  4. Turn off all electrical loads e.g. (blower, radio, interior lights etc.)
  5. Start the engine, switch on the heated rear screen
J2 on
  1. Voltage measurement
J3 (V2)
  1. Voltage measurement
J4 generator B+
Does the voltage drop value (V2) or (V3) = less than 0.3 Volts ?
YES Install a new generator. Refer to the warranty policy and procedures manual, or determine if any prior approval program is in operation, prior to the installation of a new module/component
NO Switch off Engine. Refer to the electrical circuit diagrams and check the generator, battery and engine, power and ground circuits for loose or corroded connections. Repair the circuit as required Refer to «Wiring Harness»(ref-514941-S03183415702012112600000) . Refer to «Pinpoint Test B»(ref-514850-S26354770992012112600000) .