download
1. At the crank position sensor, check for battery voltage to be present on the Red wire with the key on and cranking. The Black wire should be a good ground and the Blue wire should have 5 volts on it from the computer. One may have to disconnect the crank sensor to check for the 5 volt reference. 2. During crank look for a good 5 volt square wave signal on the Blue wire. 3. Check at the ignition coils for good battery voltage key on and cranking. If there is a loss of voltage during crank check the ignition failsafe relay. 4. Check for any stored engine codes. Crankshaft Position (CKP) Sensor Ignition Failsafe Sensor The ignition failsafe sensor supplies battery voltage to the ignition coils. The ignition coils can look like they have good battery voltage key on but during crank the ignition failsafe relay can stop sending voltage to the ignition coils.

download
1. Disconnect battery ground cable (14301) . 2. Disconnect fuel charging wiring (9D930) from distributor stator (12A112) (camshaft position sensor). 3. Remove stator camshaft position sensor retaining screws and distributor stator (camshaft position sensor) from camshaft position sensor housing. 4. If removing camshaft position sensor housing from the engine front cover (6019) , proceed with Removal Step 5. If camshaft position sensor housing is not being removed, proceed to Installation Step 6. 5. CAUTION: Before proceeding with this procedure, set cylinder No. 1 to 26 degrees After Top Dead Center (ATDC) of the compression stroke. Then note the position of the stator (camshaft position sensor) electrical connector. The installation procedure requires that the connector be located in the same position. Remove retaining bolt and hold-down clamp (12270) . 6. NOTE: The oil pump intermediate shaft (6A618) should be removed with the camshaft position sensor housing. Remove camshaft position sensor housing from engine front cover . Installation 1. CAUTION: If the replacement distributor stator (camshaft position sensor) does not contain a plastic locator cover tool, a special service tool such as Syncro Positioning Tool T89P-12200-A must be obtained prior to installation of the replacement distributor stator (camshaft position sensor). Failure to follow this procedure will result in improper stator (camshaft position sensor) alignment. This will result in the fuel system being out of time with the engine, possibly causing engine damage. If the plastic locator cover tool is not attached to the replacement distributor stator (camshaft position sensor), attach Syncro Positioning Tool T89P-12200-A as follows: a. Engage camshaft position sensor housing vane into the radial slot of the tool. b. Rotate tool on camshaft position sensor housing until tool boss engages notch in camshaft position sensor housing. The cover tool should be square and in contact with entire top surface of camshaft position sensor housing. 2. Transfer oil pump intermediate shaft from old camshaft position sensor housing to replacement camshaft position sensor housing. 3. CAUTION: If stator (camshaft position sensor) electrical connector is not positioned properly (for example, contacting the A/C compressor bracket), DO NOT reposition the connector by rotating the camshaft position sensor housing. This will result in the fuel system being out of time with the engine, possibly causing engine damage. Remove the camshaft position sensor housing and repeat installation procedure, beginning with Step 1. Install camshaft position sensor housing so that drive gear engagement occurs when arrow on locator tool is pointed approximately 30 degrees counterclockwise from the front face of the cylinder block (6010) . This step will locate stator (camshaft position sensor) electrical connector in the pre-removal position. 4. Install hold-down clamp and retaining bolt and tighten bolt to 20-30 Nm (15-22 lb-ft). 5. Remove Syncro Positioning Tool T89P-12200-A. 6. CAUTION: If stator (camshaft position sensor) electrical connector is not positioned properly (for example, contacting the A/C compressor bracket), DO NOT reposition the connector by rotating the camshaft position sensor housing. This will result in the fuel system being out of time with the engine, possibly causing engine damage. Remove the camshaft position sensor housing and repeat installation procedure, beginning with Step 1. Install distributor stator (camshaft position sensor) and retaining screws. Tighten screws to 2.5-3.5 Nm (22-31 lb-in). 7. Connect fuel charging wiring connector to distributor stator (camshaft position sensor). 8. Connect battery ground cable .

download
CAUTION: Prior to removal of the camshaft position sensor (CMP sensor) (12126) , set cylinder No.1 to zero degrees top dead center (TDC) of compression stroke. Then note the position of the camshaft position sensor electrical connector. The installation procedure requires the connector be located in the same position. Removal 1. Disconnect battery ground cable (14301). Refer to Section 14-01. 2. Disconnect fuel charging wiring connector from camshaft position sensor. 3. Remove camshaft position sensor retaining screws and camshaft position sensor from camshaft position sensor housing. 4. If removing camshaft position sensor housing from the cylinder block (6010), proceed with Removal Step 5. If not removing camshaft position sensor housing, proceed to Step 6 of the installation procedures. 5. Remove hold-down clamp (12270) (bolt and washer assembly). 6. NOTE: Remove the oil pump intermediate shaft (6A618) with the camshaft position sensor housing. Remove camshaft position sensor housing from cylinder block. Installation 1. CAUTION: If the replacement camshaft position sensor housing does not contain a plastic locator cover tool, a special service tool must be obtained prior to installation of the replacement camshaft position sensor. Failure to follow this procedure will result in improper camshaft position sensor alignment. This will result in the ignition fuel system being out of time with the engine, possibly causing engine damage. NOTE: For 3.0L engines, use Syncro Positioning Tool 303-589. For 3.8L engines, use Syncro Positioning Tool 303-562 (T96T-12200-A). If the plastic locator cover tool is not attached to the replacement camshaft position sensor housing, attach syncro positioning tool as follows: a. Engage camshaft position sensor housing vane into the radial slot of the tool. b. Rotate tool on camshaft position sensor housing until tool boss engages notch in camshaft position sensor housing. 2. Transfer oil pump intermediate shaft from old camshaft position sensor housing to replacement camshaft position sensor housing. 3. Install camshaft position sensor housing so drive gear engagement occurs when arrow on syncro positioning tool is pointed approximately as shown in the illustrations. This step will locate camshaft position sensor electrical connector in the pre-removal position. 4. Install hold-down clamp (washer and bolt assembly) and tighten bolt to 20-30 Nm (15-22 lb-ft). 5. Remove syncro positioning tool. 6. CAUTION: If camshaft position sensor electrical connector is not positioned properly, DO NOT reposition the connector by rotating the camshaft position sensor housing. This will result in the fuel system being out of time with the engine, possibly causing engine damage. Remove the camshaft position sensor housing and repeat installation procedure, beginning with Step 1. Install camshaft position sensor and retaining screws. On 3.0L engine, tighten screws to 2.5-3.5 Nm (23-30 lb-in). On 3.8L engine, tighten screws to 4.5-7 Nm (40-61 lb-in). 7. Connect fuel charging wiring connector to camshaft position sensor. 8. Connect battery ground cable. Refer to Section 14-01. Camshaft Position Sensor—3.0L Engine

download
OVERVIEW: This bulletin involves rotating all engine exhaust valves, replacing the valve spring retainer locks with a new design to increase valve rotation at lower RPM, inspecting/replacing the MAP sensor (as necessary), and decarbonizing the combustion chamber. MODELS: 2004 – 2006 2005 – 2006 (CS) (LX) Pacifica Chrysler 300/Magnum/Charger SYMPTOM/CONDITION: The customer may experience occasional engine misfire (rough running engine) during certain vehicle operating conditions. In addition, MIL illumination may also have occurred due to Diagnostic Trouble Code (DTC) P0300 – Multiple Cylinder Misfire. Various single cylinder misfire DTC’s may also be present. If the frequency of misfire is high, the Powertrain Control Module (PCM) may place the engine in “Limp-In” mode. The misfire condition may be caused by one or more engine exhaust valves that are slow to close due to a build up of carbon on the valve stem. DIAGNOSIS: 1. This condition may occur when the engine is not allowed to run at engine RPM’s that are greater than 3,500 RPM. At 5,000 RPM or higher the engine exhaust valves will rotate if not impeded by high carbon deposits. Low engine RPM’s and high carbon deposits are associated with short trip driving where the engine is not allowed to fully warm to normal engine operating temperatures. Cold ambient temperatures will increase engine warm-up time and increase the likelihood of carbon deposit build-up on the stem of the engine exhaust valve. Fuel detergent quality may also contribute to the condition; the customer may want to try a different brand of fuel. 2. Verify that the engine misfire condition is not caused by faulty engine mechanical or electrical components. 3. If the engine mechanical and electrical systems are operating properly perform the Repair Procedure.

download
Generic Scan Tool Code (1) DRBIII(R) Scan Tool Message P0031 O2 SENSOR HEATER CIRCUIT LOW 1/1 P0032 O2 SENSOR HEATER CIRCUIT HIGH 1/1 P0051 O2 SENSOR HEATER CIRCUIT LOW 2/1 P0052 O2 SENSOR HEATER CIRCUIT HIGH 2/1 P0071 AMBIENT TEMP SENSOR PERFORMANCE P0107 MAP SENSOR VOLTAGE TOO LOW P0108 MAP SENSOR VOLTAGE TOO HIGH P0112 INTAKE AIR TEMP SENSOR VOLTAGE LOW P0113 INTAKE AIR TEMP SENSOR VOLTAGE HIGH P0117 ECT SENSOR VOLTAGE TOO LOW P0118 ECT SENSOR VOLTAGE TOO HIGH P0121 TPS VOLTAGE DOES NOT AGREE WITH MAP P0122 THROTTLE POSITION SENSOR VOLTAGE LOW P0123 THROTTLE POSITION SENSOR VOLTAGE HIGH