Contents Wiring diagrams Section: Automatic HVAC System All sections

Auxilliary Heating Land Rover Range Rover Sport I

Automatic HVAC System 14 illustrations ~2949 words

SPECIFICATIONS

DescriptionNm
Fuel fired booster heater exhaust bracket bolt10
Fuel fired booster heater10

TORQUE SPECIFICATIONS

Scheme 54

Scheme 54: COMPONENT LOCATIONS
ItemPart NumberDescription
1FFBH (fuel fired booster heater)
2Fuel line connection with fuel tank
3Auxiliary fuel pump

GENERAL

In some markets diesel models have auxiliary heating provided by a FFBH, which boosts the temperature of the engine coolant supplied to the vehicle heater assembly. Fuel for the FFBH is taken from the vehicle fuel tank, through a fuel line attached to the fuel pump module. In the FFBH, the fuel is burned and the resultant heat output is used to heat the engine coolant. The FFBH system supplements vehicle heater performance while the engine is running, and is transparent to the driver.

Operation of the FFBH is controlled by the automatic temperature control (ATC) module and a control module in the FFBH. Operation is automatic when the engine is running, depending on the ambient air temperature and the engine coolant temperature (ECT).

AUXILIARY FUEL PUMP

The auxiliary fuel pump regulates the fuel supply to the FFBH. The pump is installed in a rubber mounting attached to the chassis, immediately in front of the fuel tank. The pump is a self priming, solenoid operated plunger pump, controlled by a pulse width modulation (PWM) signal from the control module in the FFBH. When the pump is de-energized, it provides a positive shut-off of the fuel supply.

Sectioned View of Auxiliary Fuel Pump

Scheme 55

Scheme 55: AUXILIARY FUEL PUMP
ItemPart NumberDescription
1Fuel line connector
2Non return valve
3Solenoid coil
4Plunger
5Filter insert
6Fuel line connector
7O-ring seal
8Spring
9Piston
10Bush

The solenoid coil of the auxiliary fuel pump is installed around a housing which contains a plunger and piston. The piston locates in a bush, and a spring is installed on the piston between the bush and the plunger. A filter insert and a fuel line connector are installed in the inlet end of the housing. A non return valve and a fuel line connector are installed in the fuel outlet end of the housing.

While the solenoid coil is de-energized, the spring holds the piston and plunger in the closed position at the inlet end of the housing. An O-ring seal on the plunger provides a fuel tight seal between the plunger and the filter insert, preventing any flow through the pump. When the solenoid coil is energized, the piston and plunger move towards the outlet end of the housing, until the plunger contacts the bush; fuel is then drawn in through the inlet connection and filter. The initial movement of the piston also closes transverse drillings in the bush and isolates the pumping chamber at the outlet end of the housing. Subsequent movement of the piston then forces fuel from the pumping chamber through the non return valve and into the line to the FFBH. When the solenoid de-energizes, the spring moves the piston and plunger back towards the closed position. As the piston and plunger move towards the closed position, fuel flows past the plunger and through the annular gaps and transverse holes in the bush to replenish the pumping chamber.

Scheme 56

Scheme 56: FFBH
ItemPart NumberDescription
1Electrical connectors and control module
2Air inlet muffler
3Exhaust pipe
4FFBH coolant outlet connection
5Circulation pump coolant inlet connection
6Exhaust muffler
7Fuel supply line

The FFBH is installed in the coolant supply line to the heater assembly. The FFBH is located in the front left corner of the engine compartment, on two mounting brackets attached to the wheelarch. Two electrical connectors connect the FFBH to the vehicle wiring.

The FFBH unit consists of

  1. A circulation pump.
  2. A combustion air fan.
  3. A burner housing.
  4. A heat exchanger.
  5. An air inlet hose and muffler.
  6. An exhaust pipe and muffler.
  7. A control module.

Sectioned View of FFBH

Scheme 57

Scheme 57
ItemPart NumberDescription
1Combustion air fan
2Coolant outlet
3Coolant inlet
4Burner insert
5Heat exchanger
6Temperature sensor
7Exhaust
8Fuel inlet
9Evaporator
10Air inlet

Circulation Pump

The circulation pump is installed in the coolant inlet line of the FFBH to assist the coolant flow through the FFBH and the vehicle heater core. The circulation pump is attached to the rear mounting bracket of the FFBH.

The circulation pump runs continuously while the FFBH is active. While the FFBH is inactive, coolant flow is reliant on the engine coolant pump. Operation of the circulation pump is controlled by a power feed direct from the control module within the FFBH.

Combustion Air Fan

The combustion air fan regulates the flow of air into the FFBH to support combustion of the fuel supplied by the auxiliary fuel pump and to purge and cool the FFBH.

Burner Housing

The burner housing contains the burner insert and also incorporates connections for the exhaust pipe, the coolant inlet from the circulation pump and the coolant outlet to the vehicle heater.

The burner insert incorporates the fuel combustion chamber, an evaporator and a glow pin and flame sensor. Fuel from the auxiliary fuel pump is supplied to a venturi, where it evaporates and enters the combustion chamber to mix with air from the combustion air fan. The glow pin and flame sensor provides the ignition source of the fuel: air mixture and, once combustion is established, monitors the flame.

Heat Exchanger

The heat exchanger transfers heat generated by combustion to the coolant. Two sensors are installed in the heat exchanger casing to provide the control module with inputs of coolant temperature. The control module uses the temperature inputs to control system operation.

Air Inlet Hose and Muffler

A canister type muffler is included in the air inlet supply line. The muffler reduces the noise caused by induction roar.

Exhaust Pipe and Muffler

The exhaust pipe and muffler directs exhaust combustion gases to atmosphere below the front left corner of the engine. Exhaust vapor may be visible when the FFBH is running, depending on atmospheric conditions.

Control Module

The control module controls and monitors operation of the FFBH system. An internal flow of air from the combustion air fan ventilates the control module to prevent it overheating.

The control module is powered by a permanent feed from the battery junction box (BJB), and communicates with other systems on the vehicle over the medium speed controller area network (CAN) bus.

FFBH Control Module Harness Connector C0925

Scheme 58

Scheme 58: Control Module

FFBH Control Module Harness Connector C0925 Pin Details

Pin No.DescriptionInput/Output
1 to 3Not used
4Medium speed CAN bus lowInput/Output
5Auxiliary fuel pump power feedOutput
6Not used
7Medium speed CAN bus highInput/Output
8Not used

FFBH Control Module Harness Connector C0926

Scheme 59

Scheme 59

FFBH Control Module Harness Connector C0926 Pin Details

Pin No.DescriptionInput/Output
1Permanent battery power supplyInput
2GroundOutput

Operation of the FFBH is controlled by a status message from the ATC module to the control module. A similar status message, from the control module to the ATC module, advises the ATC module of the current operating status of the FFBH.

While the engine is running, if the ambient air temperature is less than 9°C (48°F) and the ECT is less than 75°C (167°F) the ATC module changes the status message from 'heater off' to 'supplemental heat'. The control module then changes the status message it sends the ATC module to 'supplemental heat' and starts the FFBH. The control module will not start the FFBH, or will discontinue operation, if any of the following occur

  1. The control module is in the error lockout mode (see «Diagnostics»(/land-rover/range-rover-sport/i-2005-2009/remont/automatic-hvac-system/#auxilliary-heating__diagnostics) , below).
  2. A crash message is received from the restraints control module (RCM). For additional information, refer to: «Air Bag And Safety Belt Pretensioner Supplemental Restraint System (SRS)»(/land-rover/range-rover-sport/i-2005-2009/remont/airbag/#supplemental-restraint-system) information.
  3. A low fuel level message is received from the instrument cluster. For additional information, refer to: «Instrument Cluster»(/land-rover/range-rover-sport/i-2005-2009/remont/gauges-instrument-panels/#instrument-cluster) information.
  4. The engine is not running, or stops running for approximately 4 seconds. The time delay is included for stall protection.

If the control module does not start the FFBH, or discontinues operation, the status message to the ATC module remains at, or changes to, 'heater off'. If the ambient air temperature increases to 9°C (48°F), or the ECT increases to 75°C (167°F), the ATC module cancels supplementary heating, by changing the status message to the control module back to 'heater off'. The control module then cancels FFBH operation and changes the status message to the ATC module to 'heater off'.

The FFBH is controlled at one of two heat output levels, 2.8 kW at part load combustion and 5 kW at full load combustion. The control module transmits the amount of fuel used by the FFBH to the instrument cluster, and the FFBH coolant temperature to the ATC module.

Start Sequence: At the beginning of a start sequence, the control module energizes the glow pin function of the glow pin and flame sensor, to pre heat the combustion chamber, starts the combustion air fan at slow speed and energizes the coolant circulation pump. After approximately 30 seconds, the control module energizes the auxiliary fuel pump at the starting sequence speed. The fuel delivered by the auxiliary fuel pump evaporates in the combustion chamber, mixes with air from the combustion air fan and is ignited by the glow pin and flame sensor. The control module then progressively increases the speed of the auxiliary fuel pump and the combustion air fan. Once combustion is established the control module switches the glow pin and flame sensor from the glow pin function to the flame sensing function to monitor combustion. From the beginning of the start sequence to stable combustion at full load takes approximately 150 seconds.

Coolant Temperature Control: While the FFBH is running, the control module cycles the FFBH between full load combustion, part load combustion and a control idle phase of operation, depending on the temperature of the coolant in the heat exchanger.

Switching Point Diagram

Switching Point Temperatures

Switching PointTemperature,°C (°F)
Figure Item No.Description
1Full load to part load87 (188)
2Part load to control idle90 (194)
3Control idle to part load79 (174)
4Part load to full load76 (168)

After the start sequence, the control module maintains full load combustion until the coolant temperature reaches switching point temperature 1. At this temperature, the control module decreases the speed of the auxiliary fuel pump and the combustion air fan to half speed, to produce part load combustion. The control module maintains part load combustion while the coolant temperature remains between switching point temperatures 2 and 4. At part load combustion the temperature of the coolant will increase or decrease depending on the amount of heat required to heat the vehicle interior. If the coolant temperature decreases to switching point temperature 4, the control module increases the speed of the auxiliary fuel pump and the combustion air fan to full speed, to return to full load combustion. If the coolant temperature increases to switching point temperature 2, the control module enters a control idle phase of operation.

On entering the control idle phase, the control module immediately switches the auxiliary fuel pump off, to stop combustion, and starts a timer for the combustion air fan. After a 2 minute cool down period, the control module switches the combustion air fan off and then remains in the control idle phase while the coolant temperature remains above switching point temperature 3. If the coolant temperature decreases to switching point temperature 3, the control module initiates a start to part load combustion. A start to part load combustion takes approximately 90 seconds.

In order to limit the build up of carbon deposits on the glow pin and flame sensor, the control module also enters the control idle phase if continuous combustion time exceeds 72 minutes (at part load, full load or a combination of both). After the cool down period, if the coolant is still in the temperature range that requires additional heat, the control module restarts the FFBH.

Shutdown: To stop the FFBH, the control module de-energizes the auxiliary fuel pump to stop combustion, but continues operation of the combustion air fan and the circulation pump for a time, to cool down the FFBH. The cool down time is 100 seconds if the FFBH was operating at part load combustion and 175 seconds if the FFBH was operating at full load combustion.

Diagnostics

The control module monitors the FFBH system for faults. Any faults detected are stored in a volatile memory in the control module, which can be interrogated by T4 via the medium speed CAN bus. A maximum of three faults and associated freeze frame data can be stored at any one time. If a further fault is detected, the oldest fault is overwritten by the new fault.

The control module also incorporates an error lockout mode of operation that inhibits operation to prevent serious faults from causing further damage to the system. In the error lockout mode, the control module immediately stops the auxiliary fuel pump, and stops the combustion air fan and circulation pump after a cool down time of approximately 2 minutes. Error lockout occurs for start sequence failures, combustion flameouts, heat exchanger casing overheat and if battery voltage is out of limits. The error lockout mode can be cleared using T4, or by disconnecting the battery power supply (connector C0926) for a minimum of 10 seconds.

Start Failure and Flameout: If a start sequence fails to establish combustion, or a flameout occurs after combustion is established, the control module immediately initiates another start sequence. The start failure or flameout is also recorded by an event timer in the control module. The event timer is increased by one after each start failure or flameout, and decreased by one if a subsequent start is successful. If the event timer increases to three (over any number of drive cycles), the control module enters the error lockout mode.

Heat Exchanger Casing Overheat: To protect the system from excessive temperatures, the control module enters the error lockout mode if the heat exchanger coolant temperature exceeds 125°C (257°F).

Battery Voltage Limits: 10.25 - 15.5 volts.

AUXILIARY HEATING CONTROL DIAGRAM

Note. A = Hardwired connections; D = High speed CAN bus; N = Medium speed CAN bus

Scheme 60

Scheme 60: AUXILIARY HEATING CONTROL DIAGRAM
ItemPart NumberDescription
1Fuse 28E, BJB
2FFBH
3Auxiliary fuel pump
4Instrument cluster
5Engine control module (ECM)
6ECT sensor
7ATC module
8Ambient air temperature sensor

OVERVIEW

For information on the description and operation of the system, REFER to: AUXILIARY HEATER

INSPECTION AND VERIFICATION

  1. Verify the customer concern.
  2. Visually inspect for obvious mechanical or electrical faults. Visual Inspection Mechanical Electrical Fuel fired heater assembly Combustion air fan Coolant inlet/outlet Heat exchanger Temperature sensor Exhaust Fuel inlet Air inlet Evaporator Auxiliary fuel pump and lines Auxiliary coolant pump Fuses Harnesses Electrical connector(s) Controller area network (CAN) circuits Control module(s)
  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.
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 tested and/or the donor vehicle.

Note. If the control module or a component is suspect and the vehicle remains under manufacturer warranty, 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.

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).

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

Note. Inspect connectors for signs of water ingress, and pins for damage and/or corrosion.

Note. If DTCs are recorded and, after performing the pinpoint tests, a fault is not present, an intermittent concern may be the cause. Always check for loose connections and corroded terminals.

The table below lists all Diagnostic Trouble Codes (DTCs) that could be logged in the Fuel Fired Booster Heater Module, for additional Diagnosis and Testing information refer to the relevant Diagnosis And Testing Section.

DTC INDEX

Note. Where an 'on demand self-test' is referred to, this can be accessed via the 'DTC Monitor' tab on the manufacturers approved diagnostic system.

DTCDescriptionPossible CausesAction
B1A00-16Control Module - circuit voltage below thresholdFuel fired booster heater module power circuit fault Battery/charging system faultCheck other modules for related diagnostic trouble codes If other modules contain low voltage related diagnostic trouble codes, suspect a common cause (battery/charging system fault) If not, refer to the electrical circuit diagrams and check the power and ground circuits to the fuel fired booster heater module Check for stored diagnostic trouble codes Check for correct operation
B1A00-17Control Module - circuit voltage above thresholdCharging system fault Fuel fired booster heater module failureCheck other modules for related diagnostic trouble codes If other modules contain high voltage related diagnostic trouble codes, suspect a common cause (battery/charging system fault) If not, refer to the electrical circuit diagrams and check the power and ground circuits to the fuel fired booster heater module Check for stored diagnostic trouble codes Check for correct operation
B1A00-43Control Module - special memory failureFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for reoccurrence of the diagnostic trouble code If the diagnostic trouble code returns Install a new fuel fired booster heater module as required 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
B1A00-49Control Module - internal electronic failureFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for reoccurrence of the diagnostic trouble code If the diagnostic trouble code returns Install a new fuel fired booster heater module as required 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
B1D22-11Coolant Temperature Sensor - circuit short to groundFuel fired booster heater coolant temperature sensor internal faultCheck and install a new fuel fired booster heater coolant temperature sensor Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D22-15Coolant Temperature Sensor - circuit short to battery or openFuel fired booster heater coolant temperature sensor internal faultCheck and install a new fuel fired booster heater coolant temperature sensor Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D23-13Overheat Sensor - circuit openFuel fired booster heater coolant temperature sensor internal faultCheck and install a new fuel fired booster heater coolant temperature sensor Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D24-11Glow Plug - circuit short to groundFuel fired booster heater glow plug internal faultCarry out circuit checks, inspect the glow plug cables and connector. Repair the circuit or check and install a new fuel fired booster heater glow plug as required REFER to: Fuel Fired Booster Heater Glow Plug And Burner Assembly . Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D24-15Glow Plug - circuit short to battery or openFuel fired booster heater glow plug internal faultCarry out circuit checks, inspect the glow plug cables and connector. Repair the circuit or check and install a new fuel fired booster heater glow plug as required REFER to: Fuel Fired Booster Heater Glow Plug And Burner Assembly . Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D25-11Heater Fuel Pump - circuit short to groundHeater fuel pump circuit short to ground Heater fuel pump failureRefer to the electrical circuit diagrams and check the fuel fired booster heater fuel pump and circuit for short to ground Repair the circuit or check and install a new fuel fired booster heater fuel pump as required Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D25-15Heater Fuel Pump - circuit short to battery or openHeater fuel pump circuit short to power, open circuit Heater fuel pump failureRefer to the electrical circuit diagrams and check the fuel fired booster heater fuel pump and circuit for short to power, open circuit Repair the circuit or check and install a new fuel fired booster heater fuel pump as required Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D26-11Combustion Air Blower - circuit short to groundFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) If the diagnostic trouble code reoccurs check and install a new fuel fired booster heater module 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
B1D26-15Combustion Air Blower - circuit short to battery or openFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) If the diagnostic trouble code reoccurs check and install a new fuel fired booster heater module 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
B1D26-92Combustion Air Blower - performance or incorrect operationFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for reoccurrence of the diagnostic trouble code If the diagnostic trouble code reoccurs check and install a new fuel fired booster heater module 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
B1D26-93Combustion Air Blower - no operationFuel fired booster heater module failureUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for reoccurrence of the diagnostic trouble code If the diagnostic trouble code reoccurs check and install a new fuel fired booster heater module 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
B1D27-11Heater Coolant Pump - circuit short to groundHeater coolant pump circuit short to ground Heater coolant pump failureRefer to the electrical circuit diagrams and check the fuel fired booster heater water pump and circuit for short to ground Repair the circuit or check and install a new fuel fired booster heater water pump as required Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D27-15Heater Coolant Pump - circuit short to battery or openHeater coolant pump circuit short to power, open circuit Heater coolant pump failureRefer to the electrical circuit diagrams and check the fuel fired booster heater water pump and circuit for short to power, open circuit Repair the circuit or check and install a new fuel fired booster heater water pump as required Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D29-93No Start, Even After Restart Attempt - no operationNo fuel present at fuel fired booster heater module Exhaust system blocked Air intake blockedCheck vehicle fuel level Check fuel lines to fuel fired booster heater module for blockage, kinking or damage Check exhaust system and air intake for blockage, kinking or damage Check fuel for aeration and correct fuel delivery Check vehicle is not parked on an incline when parking heater is operated Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D30-93No Start In Test Mode - no operationNo fuel present at fuel fired booster heater module Exhaust system blocked Air intake blockedCheck vehicle fuel level Check fuel lines to fuel fired booster heater module for blockage, kinking or damage Check exhaust system and air intake for blockage, kinking or damage Check fuel for aeration and correct fuel delivery Check vehicle is not parked on an incline when parking heater is operated Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D31-94Flame Detected Prior to Normal Operation - unexpected operationNOTE: The glow plug and flame sensor are a combined unit Glow plug circuit faultCheck exhaust system and air intake for blockage, kinking or damage Carry out circuit checks, inspect the glow plug cables and connector. Repair the circuit or check and install a new fuel fired booster heater glow plug as required REFER to: Fuel Fired Booster Heater Glow Plug And Burner Assembly . Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D32-92Multiple Flame Interruption During Heating Cycle - performance or incorrect operationNo fuel present at fuel fired booster heater module Exhaust system blocked Air intake blockedCheck vehicle fuel level Check fuel lines to Fuel fired booster heater module for blockage, kinking or damage Check exhaust system and air intake for blockage, kinking or damage Check fuel for aeration and correct fuel delivery Check vehicle is not parked on an incline when parking heater is operated Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D33-92Flame Interruption During Normal Operation - performance or incorrect operationNo fuel present at fuel fired booster heater module Exhaust system blocked Air intake blockedCheck vehicle fuel level Check fuel lines to fuel fired booster heater module for blockage, kinking or damage Check exhaust system and air intake for blockage, kinking or damage Check fuel for aeration and correct fuel delivery Check vehicle is not parked on an incline when parking heater is operated Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
B1D34-68Heater In Lock Out Mode - event informationFuel fired booster heater system faultNOTE: For information only, rectify other stored fuel fired booster heater diagnostic trouble codes prior to this diagnostic trouble code Using the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for stored diagnostic trouble codes Check for correct operation
U007308Vehicle Communication Bus A - Bus Signal/Message FailuresMedium speed CAN communication bus off Fuel fired booster heater module failureUsing the manufacturer approved diagnostic system, complete a CAN network integrity test
U016487Lost Communication With HVAC Control Module - Missing messageCAN bus circuit fault Module internal faultCheck other modules for related diagnostic trouble codes Using the manufacturer approved diagnostic system, complete a CAN network integrity test
U1A00-08Private Bus CircuitNOTE: Telestart vehicles only Signal/Message failure/error occurred in W-Bus communicationRefer to the electrical circuit diagrams and check the circuit between the fuel fired booster heater module and the fuel fired booster heater receiver
U1A03-95Car Config Parameter - Incorrect assemblyFuel fired booster heater module not configured or incorrectly configuredRe-configure the fuel fired booster heater module using the manufacturer approved diagnostic system (Module programming/Configure existing module/Auxiliary heater control module)
U1A37-87Crash Status Telegram Bus Signal/Message Failures Missing messageCrash signal received over CAN networkNOTE: Event information - the restraints control module has recorded a crash event Using the manufacturer approved diagnostic system, check other modules for related diagnostic trouble codes
U1A44-6CLow fuel warningFuel level below thresholdAuxiliary heater has used the low fuel warning lamp signal CAN message, to turn itself off, and save the remaining fuel for the engine After the fuel tank is refilled, and the warning lamp goes off, it will operate as normal Advise customer of this feature, and recommend that they keep the fuel level higher, to ensure auxiliary heater stays on
U300055Control Module - Not configuredFuel fired booster heater module not configured or incorrectly configured Central junction box not configured correctlyUsing the manufacturer approved diagnostic system, record then clear any stored diagnostic trouble codes then conduct the fuel fired booster heater operation test (Setup and configuration/auxiliary heater/operation test) Check for reoccurrence of the diagnostic trouble code If the diagnostic trouble code returns Using the manufacturer approved diagnostic system check and up-date the car configuration file as required Re-configure the fuel fired booster heater module using the manufacturer approved diagnostic system Check for stored diagnostic trouble codes Check for correct operation
NOTE
The glow plug and flame sensor are a combined unit
NOTE
For information only, rectify other stored fuel fired booster heater diagnostic trouble codes prior to this diagnostic trouble code
NOTE
Telestart vehicles only
NOTE
Event information - the restraints control module has recorded a crash event

REMOVAL

Note. Some variation in the illustrations may occur, but the essential information is always correct.

Scheme 61

Scheme 61: REMOVAL

Scheme 62

Scheme 62

Scheme 63

Scheme 63

Scheme 64

Scheme 64

Scheme 65

Scheme 65

Scheme 66

Scheme 66
  1. Disconnect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  2. Raise and support the vehicle.
  3. Carefully release the wheel arch liner, to allow access to the fuel fired burner heater (FFBH) exhaust clamp retaining bolt.
  4. Release the exhaust clamp.
  5. Disconnect the fuel fired booster heater fuel line. Release the clip.
  6. Lower the vehicle.
  7. Release the power steering fluid reservoir.
  8. Disconnect the fuel fired booster heater inlet and outlet coolant hoses. Clamp the hoses to minimize coolant loss. Release the 2 clips.
  9. Remove the fuel fired booster heater. Disconnect the 2 electrical connectors. Remove the 3 bolts. Release the fuel pipe from the clip.

Scheme 67

Scheme 67: INSTALLATION
  1. Install the fuel fired booster heater. Tighten the bolts to 10 Nm (7 lb.ft). Connect the electrical connectors. Secure the fuel pipe in the clip.
  2. Connect the fuel fired booster heater coolant hoses. Secure with the clips. Remove the clamps.
  3. Connect the fuel fired booster heater fuel hose. Secure with the clip.
  4. Raise the vehicle.
  5. Tighten the exhaust clamp. Tighten to 10 Nm (7 lb.ft).
  6. Secure the wheel arch liner. Install the two retaining screws. Install the clip.
  7. Lower the vehicle.
  8. Install the power steering fluid reservoir.
  9. Connect the battery ground cable. For additional information, refer to: «Specifications»(/land-rover/range-rover-sport/i-2005-2009/remont/charging-system/#battery-and-charging-system-general-information__specifications) information.
  10. Connect exhaust extraction hoses to the tail pipes.
  11. Fill the cooling system expansion tank until the coolant level becomes static with in the "COLD FILL RANGE".
  12. Start the engine and allow to idle.
  13. Disconnect the fuel cooler coolant return line. Allow any trapped air to escape.
  14. Connect the fuel cooler coolant return line.
  15. When coolant runs from the expansion tank bleed point bubble-free, tighten the bleed screw.
  16. Add coolant to the expansion tank until the coolant level is 25 mm (0.98 inch) above the "COLD FILL RANGE" upper mark.
  17. Hold the engine speed at 2, 000 RPM for 25 seconds.
  18. Allow the engine to idle for 30 seconds.
  19. Repeat the above 2 steps 3 times or until hot air is emitted from the heater.
  20. Allow the engine to idle for 30 seconds.
  21. Add coolant to the expansion tank until the coolant level is 25 mm (0.98 inch) above the "COLD FILL RANGE" upper mark. Install the coolant expansion tank cap.
  22. Start and run the engine until the thermostat opens. Switch the engine off and allow to cool.
  23. Check and top-up the coolant if required.