Recalls

Recalls & faults: Mini R61 Paceman (2013-16)

Recalls: Mini R61 Paceman

Overview

Manufacturers, or importers, issue recalls for defects or faults which have the potential to cause injury. Generally, manufacturers will inform the original buyers if their vehicle is subject to a recall and of the steps required to remedy the defect or fault. Please note that the recalls below (if any) are for Australian-delivered vehicles only. Furthermore, the number of recalls should not be taken as an indication of a model’s reliability or its safety more generally.

Recalls: Mini R61 Paceman

2013 Mini R61 Paceman Diesel: fire hazard

In August 2013, a recall was issued for Mini R61 Paceman vehicles that were fitted with turbo-diesel engines and available for sale prior to 18 March 2013. In these vehicles, moisture could penetrate the plug-in connection of the adapter cable on the electric power steering (EPS) – this could cause electro-corrosion on the contacts and posed a potential fire hazard (PRA 2013/13704).


Problems and faults: Mini R61 Paceman

Overview

This section identifies potential problems, causes and fixes based on the experiences of owners and repairers, online sources and technical service bulletins. This information is provided solely for reference purposes and AustralianCar.Reviews recommends that only properly qualified persons carry out repairs or modifications. Furthermore, the number of items below should not be taken as an indicator of a model’s reliability or the frequency with which they may occur.

To report a problem or fault to the AustralianCar.Reviews team, please use the Contact Us form. Note that AustralianCar.Reviews does not offer advice on automotive problems or disputes; such enquiries will not receive a reply. For vehicles purchased from dealers after 1 January 2011, please see our Australian Consumer Law fact sheet.

MINI R61 JCW Paceman: N14 engine, carbon deposits and misfires

For the MINI R61 John Cooper Works Paceman, the 1.6-litre turbocharged N14 petrol engine is susceptible to developing carbon deposits on the back of the intake valves. Since direct injection engines such as the N14 do not spray fuel on the backside of the intake valves, the detergent properties of the fuel cannot remove the carbon build up (as occurs in port injected engines).

In September 2012, MINI issued Service Information Bulletin SI M12 02 10 for MINI R55/R56/R57/R58/R59 Cooper S models that had N14 engines. According to the service bulletin, vehicles with excessive carbon deposits on the intake valves/ports may exhibit the following symptoms –

  • Illumination of the ‘Service Engine Soon’ (MIL) lamp;
  • Rough running when the engine is cold or warm; and,
  • The following misfire faults: 2771, 2772, 2773, 2775, 2776, 2777, 2779, 277A, 277B, 277D, 277E, 277F – ‘Combustion misfire, cylinder 1..4’. This may appear with faults 2781, 2782 or 2783 – ‘Combustion misfire, multiple cylinders’.

The engine may also be difficult to start or not start at all.

The service bulletin recommended that ‘BMW Group Carbon Blaster’ (part number 81 29 2 208 034) be used to clean the carbon deposits. As a preventative measure, MINI USA recommended that ‘BMW Group Fuel Injection and Induction System Cleaner’ be used annually on N14-powered vehicles to prevent carbon buildup.

For the related MINI R61 Cooper S Paceman, the N18 engine had an updated positive crankcase ventilation (PCV) system whereby the vacuum line was internal to the valve cover, presumably to reduce the propensity for oil particles to pool in the intake manifold. Notwithstanding this design change, the N18 engine should also be regarded as being susceptible to carbon deposits.

MINI R61 Paceman: thermostat housing coolant leak and P0597

For the MINI R61 Cooper, Cooper S and JCW Paceman models (powered by the N12, N14, N16 and N18 ‘Prince’ petrol engines), the plastic thermostat housing can become brittle over time and develop hairline cracks which allow coolant to leak and pool on top of the transmission – these leaks often become apparent after 80,000 kilometres, though individual experiences may vary. As a result of the coolant leakage,

  • Diagnostic Trouble Code (DTC) ‘P0597 Cel:Thermostat Heater Control Circuit/Open’ may be stored because the coolant temperature sensor no longer functions;
  • The engine may take longer to reach operating temperature; and,
  • The engine may overheat.

2013-15 MINI R61 Cooper Paceman 1.6i: N16 engine misfire due to failed ignition coil

In March 2015, MINI issued technical service bulletin SI M12 01 15 for MINI R61 Cooper Paceman vehicles that had naturally aspirated 1.6-litre N16 petrol engines. In these vehicles,

  • The ‘check engine’ or ‘service engine soon’ warnings may appear with a misfire fault(s) stored in the DME; and/or
  • The engine may exhibit ‘intermittent performance’ or rough running without a DME fault stored.

Themost likely cause of these symptoms was the failure of an ignition coil. During operation with high temperature fluctuations, the different materials used in the Bosch ignition coil could deteriorate over time, leading to a failure. For vehicles that had been in service for over 24 months or 10,000 miles (approximately 16,000 kilometres), the service bulletin recommended that all Bosch ignition coils be replaced with Delphi coils (part number 12 13 8 616 153).

2013-15 MINI R61 Cooper Paceman 1.6i: poor throttle response at high ambient temperatures

In July 2015, MINI issued technical service bulletin SI M12 09 15 for MINI R61 Cooper Paceman vehicles that had naturally aspirated 1.6-litre N16 petrol engines, AISIN automatic transmissions and were manufactured prior to 1 July 2015. In these vehicles, engine throttle response when accelerating from rest could be intermittently sluggish at high ambient temperatures. Furthermore, this characteristic may be more noticeable when the fuel tank was only partially filled.

The service bulletin attributed the poor throttle response to the DME software for fuel tank ventilation control. To fix, the software was to be re-programmed using the latest version of ISTA/P (3.56.0 or higher).


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