P006F Turbo/Supercharger Boost Control A Voltage High
Description and meaning of DTC p006f
This is a generic powertrain diagnostic trouble code (DTC) and typically applies to OBD-II vehicles. That may include but is not limited to vehicles from Chevy (Chevrolet), GMC (Duramax), Dodge, Ram (Cummins), Isuzu, Ford, Vauxhall, VW, etc. Although generic, the exact repair steps may vary depending on year, make, model and powertrain configuration. Turbochargers, superchargers, and any other forced induction (FI) systems for that matter, use energy generated from the engine (i. e. : exhaust pulses, belt-driven screw-type, etc. ) to increase the amount of air that can be introduced to the combustion chamber (increased volumetric efficiency). Given the fact that, in forced induction systems, intake pressures need to vary and need to be adjusted according to the operator's many power needs. Manufacturers use a form of boost control valve (AKA, Waste-gate, boost control solenoid, etc. ), which is monitored and controlled by the ECM (Engine Control Module), to make sure the air/fuel mixture is stoichiometric (ideal). It does this, by mechanically adjusting the "vanes" in the charger. These vanes are responsible for adjusting the amount of boost (intake pressure) to the chamber. As you can imagine, a problem within the boost controlling component, may cause drivability issues. The problem is, when the ECM loses control of the boost, typically, your vehicle goes into "limp" mode to avoid engine damage (via over/under-boost conditions causing a potentially damaging rich and/or lean A/F mixture). As far as the letter "A" goes here, it could be to distinguish a connector, wire, circuit group, etc. That said, the manufacturer's specifications is the best resource you could have for this. The ECM illuminates the check engine light (CEL) with P006F and related codes when it detects a fault within the boost control system. The P006F DTC is activated when the ECM (Engine Control Module) detects a higher than expected electrical value within the "A" boost control supply voltage circuit.
p006f diagnostic trouble code symptoms
Symptoms of a P006F trouble code may include: Low, erratic and/or abnormal power levelsOverall poor drivabilityDecrease in throttle responseTrouble driving up hillsVehicle enters "limp" mode (i. e. fail-safe)Intermittent driveability symptoms
DTC p006f - possible causes
Causes for this P006F code may include:Defective or damaged boost control solenoid (e. g. lever stuck, broken, bent, etc. )Corrosion causing high resistance (E. G: Connectors, pins, grounds, etc. )Wiring issue (e. g. Frayed, open, short to power, short to ground, etc. )ECM (Engine Control Module) internal issueExcessive exhaust soot in vanes of charger, causing stagnant high/low/incorrect boost levelsBoost control module issueExhaust leak
How to fix OBD-II diagnostic trouble code p006f
Basic Step #1An important note to remember is that, forced induction systems generate a dangerous amount of heat and will seriously burn your skin if unprotected and/or engine is cool. That said, visually locate the boost control solenoid. Typically, these are mounted directly to the charger itself but not all times. Once located, make sure its mechanical functionality is up to par. This is imperative because after all, it mechanically controls your charger and boost pressures. If you can manually move the lever from the solenoid to the charger housing, that's a good sign. Keep in mind though, in some systems, it way not be possible to do this. Basic Step #2I've seen, at times, these solenoids possess adjustable levers which aids in finding the "sweet" spot. Of course, this varies significantly between manufacturers so do your research first. NOTE: Be as non-invasive as possible here. You do not want to damage charger components as they tend to be expensive. Basic Step #3Depending on your particular setup, the module may be mounted directly to the boost control. As an assembly let's say. If so, Make sure there is no signs of water intrusion. Any sign of corrosion/water/damage, and the assembly (or if possible, just the module) will most likely need to be replaced. Basic Step #4Pay close attention to the harnesses going to the boost control solenoid. These are routed in close proximity to a damaging amount of heat. The majority of the time, if heat damage is present, this will be evident early in the troubleshooting steps.