Question about 2000 Ford Focus

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Hi my corsa 3cyl 1ltr engine,is getting very very hot at the top end (camshafts,valves) and the exhaust system is too ,but the engine temp is only at 90@c ANY INFORMATION OR HELP I WILL BE SO GRATFUL THANKS

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Try bleading the water jaket first,,,if there is any air in the water jaket it will all be at the top of the engine so it wont be cooling the motor,,,

Posted on Jul 15, 2010

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Posted on Jan 02, 2017

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2008 silverado EGR location on a 5.3 fuel injected v8


Doesn't have a EGR valve ! Has Camshaft Actuator System .
Camshaft Actuator System Description
The camshaft position (CMP) actuator system is used for a variety of engine performance enhancements. These enhancements include lower emission output through exhaust gas recirculation (EGR) control, a wider engine torque range, improved gas mileage, and improved engine idle stability. The CMP actuator system accomplishes this by controlling the amount of intake and exhaust valve overlap. For the 6.0 liter (LY6, L76) and the 6.2 liter (L92) engine, the Park position for the CMP actuator and camshaft is 8.5 degrees before top dead center (BTDC) or 17 crankshaft degrees BTDC. The engine control module (ECM) can only command the CMP actuator to retard the valve timing from the Park position or advance the valve timing back to the Park position. The total range of valve timing authority is 31 degrees camshaft rotation, or 62 degrees of crankshaft rotation. The control range is from the Park position of 8.5 degrees camshaft or 17 degrees crankshaft BTDC, to 22.5 degrees camshaft or 45 degrees crankshaft after top dead center (ATDC).

May 31, 2017 | Cars & Trucks

1 Answer

My 2008 GMC AcadiaSLT2 that is having all sorts of electrical issues. ServiceStabilitracLight on,Traction Control off light, Oil pressure low stop engine. Throws codes P0017,P0016,P0102,P0113,P0700.


DTC P0016: Crankshaft Position (CKP) - Intake Camshaft Position (CMP) Correlation Bank 1

DTC P0017: Crankshaft Position (CKP) - Exhaust Camshaft Position (CMP) Correlation Bank 1
A camshaft actuator stuck in the full actuation position may cause the engine to crank but not start.
The camshaft position (CMP) actuator system is an electro-hydraulic operated device used for a variety of engine performance and operational enhancements. These enhancements include lower emission output through exhaust gas dilution of the intake charge in the combustion chamber, a broader engine torque range, and improved fuel economy. The CMP actuator system accomplishes this by changing the angle or timing of the camshaft relative to the crankshaft position. The CMP actuator simply allows earlier or later intake and exhaust valve opening during the four stroke engine cycle. The CMP actuator cannot vary the duration of valve opening, or the valve lift.
During engine OFF, engine idling conditions, and engine shutdown, the camshaft actuator is held in the park position. Internal to the CMP actuator assembly is a return spring and a locking pin. During non-phasing modes of the camshaft, the return spring rotates the camshaft back to the park position, and the locking pin retains the CMP actuator sprocket to the camshaft. The park position for the CMP actuator and camshaft is 8.5 degrees before top dead center (BTDC), which is equal to 17 crankshaft degrees BTDC. The engine control module (ECM) can only command the CMP actuator to retard the valve timing from the park position, or advance the valve timing back to the park position. The total range of valve timing authority is approximately 20 degrees of camshaft rotation, which is equal to 40 degrees of crankshaft rotation.
Problems with this will cause the PCM to disable traction control and Stabilitrac .How many miles on your vehicle ?
Chevy Colorado P0017 Case Study Part 1 GM is a GM , Chevy , GMC , Buick , Cadillac etc.....

Jan 15, 2017 | 2008 GMC Acadia SLT-2

1 Answer

Where is the erg valve located


EGR valve - exhaust gas recirculation valve .Which engine does your truck have ? 4.8L, 5.3L, 6.0L and 6.2L Not all have an EGR valve , some have Camshaft Actuator System
The cams are controlled allowing exhaust valves an intakes to over lap , allow exhaust gas to be drawn back into the cylinder !
The camshaft (CMP) actuator system is an electro-hydraulic operated device used for a variety of engine performance and operational enhancements. These enhancements include lower emission output through exhaust gas dilution of the intake charge in the combustion chamber, a broader engine torque range, and improved fuel economy. The CMP actuator system accomplishes this by, changing the angle or timing of the camshaft, relative to the crankshaft position. The CMP actuator simply allows earlier or later intake and exhaust valve opening, during the four stroke engine cycle. The CMP actuator cannot vary the duration of valve opening, or the valve lift.

Jul 26, 2016 | 2007 Chevrolet Silverado 1500 2WD

1 Answer

How to change a csmshsft sensor on a 2008 cadillac srx


Before you replace a part you may or may not need . Why ? What code ? Does the vehicle run ? There has been a lot of confusion on these vehicles with variable valve timing , mixing up cam sensors with camshaft actuators
DTC P0008: Engine Position System Performance Bank 1

DTC P0009: Engine Position System Performance Bank 2
The presence of DTCs P0008 and P0009 along with P0016, P0017, P0018, and P0019 indicates a possible condition with the primary timing chain and the alignment between both intermediate sprockets and the crankshaft. Or, the crankshaft reluctor wheel has moved and is no longer referenced to top dead center (TDC).


?€¢
Observe the scan tool CMP Desired, Actual, and Angle Variance parameters before a DTC sets. This may help to isolate whether a condition is specific to one camshaft, one bank, or caused by a condition with the primary crankshaft timing.



DTC Descriptors
DTC P0010: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit Bank 1

DTC P0013: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit Bank 1

DTC P0020: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit Bank 2

DTC P0023: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit Bank 2

DTC P2088: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit Low Voltage Bank 1

DTC P2089: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit High Voltage Bank 1

DTC P2090: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit Low Voltage Bank 1

DTC P2091: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit High Voltage Bank 1

DTC P2092: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit Low Voltage Bank 2

DTC P2093: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit High Voltage Bank 2

DTC P2094: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit Low Voltage Bank 2

DTC P2095: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit High Voltage Bank 2
DTC P0341: Intake Camshaft Position (CMP) Sensor Performance Bank 1

DTC P0342: Intake Camshaft Position (CMP) Sensor Circuit Low Voltage Bank 1

DTC P0343: Intake Camshaft Position (CMP) Sensor Circuit High Voltage Bank 1

DTC P0346: Intake Camshaft Position (CMP) Sensor Performance Bank 2

DTC P0347: Intake Camshaft Position (CMP) Sensor Circuit Low Voltage Bank 2

DTC P0348: Intake Camshaft Position (CMP) Sensor Circuit High Voltage Bank 2

DTC P0366: Exhaust Camshaft Position (CMP) Sensor Performance Bank 1

DTC P0367: Exhaust Camshaft Position (CMP) Sensor Circuit Low Voltage Bank 1

DTC P0368: Exhaust Camshaft Position (CMP) Sensor Circuit High Voltage Bank 1

DTC P0391: Exhaust Camshaft Position (CMP) Sensor Performance Bank 2

DTC P0392: Exhaust Camshaft Position (CMP) Sensor Circuit Low Voltage Bank 2

DTC P0393: Exhaust Camshaft Position (CMP) Sensor Circuit High Voltage Bank 2
I'm sorry but when dealing with these problems your best bet is to take your vehicle to a qualified repair shop , I have never see a DIY'ER correct the problem with these , an in the end always end up taking it to the dealer .

Jul 24, 2016 | 2008 Cadillac Srx

1 Answer

Where is cam shaft sensor located on a 08 saturn aura


Which engine ? This vehicle had option of six different engines , 2.4 , 3.5 , 2.8 , 3.0 , 3.2 , 3.6 And are you picking on the right part ? What code > DTC P0010: Intake Camshaft Position (CMP) Actuator Solenoid Control Circuit

DTC P0013: Exhaust Camshaft Position (CMP) Actuator Solenoid Control Circuit
It may not even be a cam sensor problem !
DTC P0340: Intake CMP Sensor Circuit

DTC P0365: Exhaust Camshaft Position (CMP) Sensor Circuit
DTC P0341: Intake Camshaft Position (CMP) Sensor Performance

DTC P0366: Exhaust Camshaft Position (CMP) Sensor Performance
Camshaft Position (CMP) Actuator System
The camshaft position (CMP) actuator system is an electro-hydraulic operated device used for a variety of engine performance and operational enhancements. These enhancements include lower emission output through exhaust gas dilution of the intake charge in the combustion chamber, a broader engine torque range, and improved fuel economy. The CMP actuator system accomplishes this by changing the angle or timing of the camshaft relative to the crankshaft position. The CMP actuator simply allows earlier or later intake and exhaust valve opening during the four stroke engine cycle. The CMP actuator cannot vary the duration of valve opening, or the valve lift.
During engine OFF, engine idling conditions, and engine shutdown, the camshaft actuator is held in the Park position. Internal to the CMP actuator assembly is a return spring and a locking pin. During non-phasing modes of the camshaft, the return spring rotates the camshaft back to the Park position, and the locking pin retains the CMP actuator sprocket to the camshaft


It may

Jul 06, 2016 | 2008 Saturn Aura

1 Answer

Where is the EGR valve located?


Doesn't have or need an EGR valve it has Camshaft Position (CMP) Actuator System
The camshaft position (CMP) actuator system is an electro-hydraulic operated device used for a variety of engine performance and operational enhancements. These enhancements include lower emission output through exhaust gas dilution of the intake charge in the combustion chamber, a broader engine torque range, and improved fuel economy. The CMP actuator system accomplishes this by changing the angle or timing of the camshaft relative to the crankshaft position. The CMP actuator simply allows earlier or later intake and exhaust valve opening during the four stroke engine cycle. The CMP actuator cannot vary the duration of valve opening, or the valve lift.
During engine OFF, engine idling conditions, and engine shutdown, the camshaft actuator is held in the park position. Internal to the CMP actuator assembly is a return spring and a locking pin. During non-phasing modes of the camshaft, the return spring rotates the camshaft back to the park position, and the locking pin retains the CMP actuator sprocket to the camshaft. The park position for the CMP actuator and camshaft is 8.5 degrees before top dead center (BTDC), which is equal to 17 crankshaft degrees BTDC. The engine control module (ECM) can only command the CMP actuator to retard the valve timing from the park position, or advance the valve timing back to the park position. The total range of valve timing authority is approximately 20 degrees of camshaft rotation, which is equal to 40 degrees of crankshaft rotation.
CMP Actuator System Operation
The camshaft position (CMP) actuator system is controlled by the engine control module (ECM). The ECM sends a pulse width modulated 12-volt signal to a CMP actuator solenoid to control the amount of pressurized engine oil, into the CMP actuator. To regulate the pressurized engine oil into the CMP actuator, the solenoid uses electromagnetic force on the solenoid pintle to pulse the oil control spool valve. The pressurized engine oil is sent to unseat the locking pin, and to the vane and rotor assembly of the CMP actuator, to either retard or advance the valve timing. The ECM will control the amount of ON time applied to the solenoid.

Aug 29, 2015 | 2008 Chevrolet Uplander

1 Answer

1987 toyota 22re. head was taken off by siomeone who did not mark or align anything. I need to know how to get it on the compression stroke.


With the head off, the bottom end doesn't know compression from exhaust from squat. The crank just keeps pushing the pistons up and down. You set the #1 cylinder at the top of travel, the mark on the pointer scale must be at zero, then when you have the head on with the camshaft sprocket on its mark, and the timing belt or chain on, you should be at TDC on the compression stroke. To verify, both valves on #1 should be closed-the camshaft lobes for #1 should be more or less pointing up-away from the valves.
See? The valve train is what determines compression stroke vs. exhaust stroke. On compression, both valves are closed. On the exhaust stroke, the exhaust valve will be open. As long as you get the camshaft sprocket on the right mark and the crank sprocket at zero-or on its mark-the timing should be right.

Jan 20, 2014 | Toyota Pickup Cars & Trucks

1 Answer

Replacement of timing belt on 2001 daiwoo legansa


This should give you a clue as to how to replace the timing belt on the camshaft pulleys.prev.gif next.gif Camshaft and Valve Lifters REMOVAL & INSTALLATION 1.6L Engine
  1. Before servicing the vehicle, refer to the precautions in the beginning of this section.
  2. Relieve the fuel system pressure.
  3. Remove or disconnect the following:
    • Negative battery cable
    • Timing belt
    • Crankcase ventilation tube from the valve cover
    • Spark plug cover bolts and the cover
    • Camshaft Position (CMP) sensor connector
    • Spark plug wires from the plugs
    • Valve cover nuts, washers, cover and gasket
    NOTE: Be very careful not to nick or scratch the camshafts.
  4. Hold the flats of the intake camshaft in position using an open ended wrench and remove the camshaft gear bolt. Remove the gear.
  5. Hold the flats of the exhaust camshaft in position using an open ended wrench and remove the camshaft gear bolt. Remove the gear.
  6. Mark the camshaft cap locations so that they may be returned to their original positions.
  7. Remove the camshaft cap bolts in the sequence illustrated.
  8. Remove the caps and the camshafts. Fig. 1: Loosen the camshaft cap bolts in this sequence using several passes - 1.6L engine 9307zg85.gif
    To install:
  9. Lubricate the camshafts and caps with engine oil.
  10. Install the caps and the camshafts in their original positions.
  11. Tighten the camshaft cap bolts in the sequence illustrated to 12 ft. lbs. (16 Nm). Fig. 2: Tighten the camshaft cap bolts in the sequence illustrated using several passes - 1.6L engine 9307zg84.gif

  12. Measure the camshaft endplay on both camshafts. The endplay should be 0.003-0.009 in. (0.10-0.25mm).
  13. Install the intake camshaft gear. Hold the flats of the intake camshaft in position using an open ended wrench and tighten the camshaft gear bolt to 49 ft. lbs. (67 Nm).
  14. Install the exhaust camshaft gear. Hold the flats of the exhaust camshaft in position using an open ended wrench and tighten the camshaft gear bolt to 49 ft. lbs. (67 Nm).
  15. Apply a small amount of gasket sealer to the corners of the front camshaft caps and to the top of the rear valve cover-to-cylinder head seal.
  16. Install or connect the following:
    • Valve cover, washers and nuts. Tighten the nuts to 89 inch lbs. (10 Nm).
    • Spark plug wires to the plugs
    • Spark plug cover and bolts. Tighten the bolts to 27 inch lbs. (3 Nm).
    • CMP sensor connector
    • Crankcase ventilation tube to the valve cover
    • Timing belt
2.0L and 2.2L Engines
  1. Before servicing the vehicle, refer to the precautions in the beginning of this section.
  2. Relieve the fuel system pressure.
  3. Remove or disconnect the following:
    • Negative battery cable
    • Timing belt
    • Crankcase ventilation tube from the valve cover
    • Spark plug cover bolts and the cover
    • Spark plug wires from the plugs
    • Camshaft Position (CMP) sensor connector
    • Valve cover nuts, washers, cover and gasket
    NOTE: Be very careful not to nick or scratch the camshafts.
  4. Hold the flats of the intake camshaft in position using an open ended wrench and remove the camshaft gear bolt. Remove the gear.
  5. Hold the flats of the exhaust camshaft in position using an open ended wrench and remove the camshaft gear bolt. Remove the gear.
  6. Mark the camshaft cap locations so that they may be returned to their original positions.
  7. Remove the camshaft cap bolts in several passes of one half turn each in the sequence illustrated.
  8. Remove the seal ring from the camshafts. NOTE: Make sure the camshafts detaches evenly from the bearing seats in the front guide bearing.
  9. Remove the caps and the camshafts. Fig. 3: Remove the camshaft cap bolts in several passes of one half turn each in the sequence illustrated - 2.0L and 2.2L engines 9307zg38.gif
    To install:
  10. Lubricate the camshafts and caps with engine oil.
  11. Install the caps and the camshafts in their original positions.
  12. Tighten the camshaft cap bolts in the sequence illustrated to 71 inch lbs. (8 Nm). Fig. 4: Tighten the camshaft cap bolts in the sequence illustrated using several passes - 2.0L and 2.2L engines 9307zg37.gif

  13. Measure the camshaft endplay on both camshafts. The endplay should be 0.0015-0.0056 in. (0.040-0.144mm).
  14. Install the intake camshaft gear. Hold the flats of the intake camshaft in position using an open ended wrench and tighten the camshaft gear bolt to 37 ft. lbs. (50 Nm), retighten the bolt an additional 60 degree turn and finally an additional 15 degree turn.
  15. Install the exhaust camshaft gear. Hold the flats of the exhaust camshaft in position using an open ended wrench and tighten the camshaft gear bolt to 37 ft. lbs. (50 Nm), retighten the bolt an additional 60 degree turn and finally an additional 15 degree turn.
  16. Install or connect the following:
    • Valve cover, washers and nuts. Tighten the nuts to 71 inch lbs. (8 Nm).
    • CMP sensor connector
    • Spark plug wires to the plugs
    • Spark plug cover and bolts. Tighten the bolts to 27 inch lbs. (3 Nm).
    • Crankcase ventilation tube to the valve cover
    • Timing belt
    • Negative battery cable

Feb 04, 2011 | 2001 Daewoo Leganza

2 Answers

I have my check engine light on my 2003 Ford F150 supercrew truck, with 141000 mil, engine is the v8 4.9L my temp gauge pegs out to the hot when i drive a bit and the engine light comes on i am told its a...


here are all poss causes of check engine light.
Generic Trouble Codes

P0001-P0099 – Fuel and Air Metering and Auxiliary Emission Controls

Code Description
P0001 Fuel Volume Regulator Control Circuit/Open
P0002 Fuel Volume Regulator Control Circuit Range/Performance
P0003 Fuel Volume Regulator Control Circuit Low
P0004 Fuel Volume Regulator Control Circuit High
P0005 Fuel Shutoff Valve Control Circuit/Open
P0006 Fuel Shutoff Valve Control Circuit Low
P0007 Fuel Shutoff Valve Control Circuit High
P0008 Engine Position System Performance (Bank 1)
P0009 Engine Position System Performance (Bank 2)
P0010 A Camshaft Position Actuator Circuit (Bank 1)
P0011 A Camshaft Position - Timing Over - Advanced or System Performance (Bank 1)
P0012 A Camshaft Position - Timing Over - Retarded (Bank 1)
P0013 B Camshaft Position - Actuator Circuit (Bank 1)
P0014 B Camshaft Position - Timing Over - Advanced or System Performance (Bank 1)
P0015 B Camshaft Position - Timing Over - Retarded (Bank 1)
P0016 Crankshaft Position - Camshaft Position Correlation (Bank 1 Sensor A)
P0017 Crankshaft Position - Camshaft Position Correlation (Bank 1 Sensor B)
P0018 Crankshaft Position - Camshaft Position Correlation (Bank 2 Sensor A)
P0019 Crankshaft Position - Camshaft Position Correlation (Bank 2 Sensor B)
P0020 A Camshaft Position Actuator Circuit (Bank 2)
P0021 A Camshaft Position - Timing Over - Advanced or System Performance (Bank 2)
P0022 A Camshaft Position - Timing Over-Retarded (Bank 2)
P0023 B Camshaft Position - Actuator Circuit (Bank 2)
P0024 B Camshaft Position - Timing Over - Advanced or System Performance (Bank 2)
P0025 B Camshaft Position - Timing Over - Retarded (Bank 2)
P0026 Intake Valve Control Solenoid Circuit Range/Performance (Bank 1)
P0027 Exhaust Valve Control Solenoid Circuit Range/Performance (Bank 1)
P0028 Intake Valve Control Solenoid Circuit Range/Performance (Bank 2)
P0029 Exhaust Valve Control Solenoid Circuit Range/Performance (Bank 2)
P0030 HO2S Heater Control Circuit (Bank 1 Sensor 1)
P0031 HO2S Heater Control Circuit Low (Bank 1 Sensor 1)
P0032 HO2S Heater Control Circuit High (Bank 1 Sensor 1)
P0033 Turbo Charger Bypass Valve Control Circuit
P0034 Turbo Charger Bypass Valve Control Circuit Low
P0035 Turbo Charger Bypass Valve Control Circuit High
P0036 HO2S Heater Control Circuit (Bank 1 Sensor 2)
P0037 HO2S Heater Control Circuit Low (Bank 1 Sensor 2)
P0038 HO2S Heater Control Circuit High (Bank 1 Sensor 2)
P0039 Turbo/Super Charger Bypass Valve Control Circuit Range/Performance
P0040 O2 Sensor Signals Swapped Bank 1 Sensor 1/ Bank 2 Sensor 1
P0041 O2 Sensor Signals Swapped Bank 1 Sensor 2/ Bank 2 Sensor 2
P0042 HO2S Heater Control Circuit (Bank 1 Sensor 3)
P0043 HO2S Heater Control Circuit Low (Bank 1 Sensor 3)
P0044 HO2S Heater Control Circuit High (Bank 1 Sensor 3)
P0045 Turbo/Super Charger Boost Control Solenoid Circuit/Open
P0046 Turbo/Super Charger Boost Control Solenoid Circuit Range/Performance
P0047 Turbo/Super Charger Boost Control Solenoid Circuit Low
P0048 Turbo/Super Charger Boost Control Solenoid Circuit High
P0049 Turbo/Super Charger Turbine Overspeed
P0050 HO2S Heater Control Circuit (Bank 2 Sensor 1)
P0051 HO2S Heater Control Circuit Low (Bank 2 Sensor 1)
P0052 HO2S Heater Control Circuit High (Bank 2 Sensor 1)
P0053 HO2S Heater Resistance (Bank 1 Sensor 1)
P0054 HO2S Heater Resistance (Bank 1 Sensor 2)
P0055 HO2S Heater Resistance (Bank 1 Sensor 3)
P0056 HO2S Heater Control Circuit (Bank 2 Sensor 2)
P0057 HO2S Heater Control Circuit Low (Bank 2 Sensor 2)
P0058 HO2S Heater Control Circuit High (Bank 2 Sensor 2)
P0059 HO2S Heater Resistance (Bank 2 Sensor 1)
P0060 HO2S Heater Resistance (Bank 2 Sensor 2)
P0061 HO2S Heater Resistance (Bank 2 Sensor 3)
P0062 HO2S Heater Control Circuit (Bank 2 Sensor 3)
P0063 HO2S Heater Control Circuit Low (Bank 2 Sensor 3)
P0064 HO2S Heater Control Circuit High (Bank 2 Sensor 3)
P0065 Air Assisted Injector Control Range/Performance
P0066 Air Assisted Injector Control Circuit or Circuit Low
P0067 Air Assisted Injector Control Circuit High
P0068 MAP/MAF - Throttle Position Correlation
P0069 Manifold Absolute Pressure - Barometric Pressure Correlation
P0070 Ambient Air Temperature Sensor Circuit
P0071 Ambient Air Temperature Sensor Range/Performance
P0072 Ambient Air Temperature Sensor Circuit Low
P0073 Ambient Air Temperature Sensor Circuit High
P0074 Ambient Air Temperature Sensor Circuit Intermittent
P0075 Intake Valve Control Solenoid Circuit (Bank 1)
P0076 Intake Valve Control Solenoid Circuit Low (Bank 1)
P0077 Intake Valve Control Solenoid Circuit High (Bank 1)
P0078 Exhaust Valve Control Solenoid Circuit (Bank 1)
P0079 Exhaust Valve Control Solenoid Circuit Low (Bank 1)
P0080 Exhaust Valve Control Solenoid Circuit High (Bank 1)
P0081 Intake Valve Control Solenoid Circuit (Bank 2)
P0082 Intake Valve Control Solenoid Circuit Low (Bank 2)
P0083 Intake Valve Control Solenoid Circuit High (Bank 2)
P0084 Exhaust Valve Control Solenoid Circuit (Bank 2)
P0085 Exhaust Valve Control Solenoid Circuit Low (Bank 2)
P0086 Exhaust Valve Control Solenoid Circuit High (Bank 2)
P0087 Fuel Rail/System Pressure - Too Low
P0088 Fuel Rail/System Pressure - Too High
P0089 Fuel Pressure Regulator 1 Performance
P0090 Fuel Pressure Regulator 1 Control Circuit
P0091 Fuel Pressure Regulator 1 Control Circuit Low
P0092 Fuel Pressure Regulator 1 Control Circuit High
P0093 Fuel System Leak Detected - Large Leak
P0094 Fuel System Leak Detected - Small Leak
P0095 Intake Air Temperature Sensor 2 Circuit
P0096 Intake Air Temperature Sensor 2 Circuit Range/Performance
P0097 Intake Air Temperature Sensor 2 Circuit Low
P0098 Intake Air Temperature Sensor 2 Circuit High
P0099 Intake Air Temperature Sensor 2 Circuit Intermittent/Erratic

Dec 01, 2009 | 2003 Ford F150 Regular Cab

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