Engine Cranks But Does Not Run

CIRCUIT DESCRIPTION
The ignition system of the 2.0L engine uses a coil-on-plug design. The Powertrain Control Module (PCM) controls the 4 individual coils with reference pulses from the Camshaft Position (CMP) sensor and other information sensor inputs. Battery voltage is applied to the ignition coils when the ignition switch is turned to the ON or START positions. The ignition control module circuitry within the coil assemblies toggles the primary windings of the ignition coil in order to induce a high voltage in the secondary windings of the ignition coil. The high voltage induced in the secondary windings of the ignition coils is applied through the coil boots to the spark plugs. In order for the engine to start and run, the correct amount of good quality fuel must be properly delivered to each cylinder. The timing of the valve train operation in relation to piston position is also critical, as is mechanical compression of the air/fuel mixture.

DIAGNOSTIC AIDS
Check for any of the following conditions:
^ Insufficient fuel can cause a no start condition. Thoroughly inspect the fuel delivery system for sufficient fuel volume to the fuel injectors. Inspect the fuel supply components for partial blockage or restrictions.
^ There may be fuel spray at the fuel injectors and the indicated fuel pressure may be correct, yet there may not be enough fuel to start the engine. If the fuel injectors and the injector circuit are OK, and fuel spray is detected, the fuel injector ON time may be inadequate. If the PCM receives incorrect inputs from the various information sensors, the fuel delivered by the fuel injectors may be inadequate to start the engine. Check all the engine data parameters with a scan tool and compare the values indicated with the expected values or the values from a known good vehicle.
^ Check the battery condition and the engine cranking speed. The engine will not start and improper diagnosis may occur if the starting system is not operating to necessary levels. Refer to Engine Cranks Slowly in Starting and Charging. Starting and Charging
^ Water or foreign material can cause a no start during freezing weather. The engine may start after sitting in a heated garage. The malfunction may not recur until the vehicle is parked overnight in freezing temperatures.
^ The PCM relies on the CMP sensor for engine reference. Without continuous accurate reference signals, there is no reliable spark or fuel injector pulse. The scan tool engine speed display should be about 200 RPM while cranking. If erratic values, such as sudden spikes in engine speed are displayed, the engine reference signal may not be stable enough for the engine to start and run properly. Inspect the CMP sensor signal circuit for Electro Magnetic Interference (EMI) or poor electrical connections.
^ A vehicle that starts and runs after being brought to the shop for an engine cranks but will not run complaint, may have an ignition system that is susceptible to moisture. Spray water on the ignition system components and wiring in order to check for an engine miss or stall.
^ A vehicle that starts and runs only when holding the accelerator pedal down slightly, may have a fault in the IAC system. Turn OFF the ignition and disconnect the idle air control (IAC) valve. If the engine will now start and stay running, refer to Idle Air Control (IAC) System Diagnosis. Component Tests and General Diagnostics
^ Check for a malfunctioning main relay. Intermittent main relay operation can cause no MIL and an engine that cranks but will not run. Refer to Ignition Relay Diagnosis. Component Tests and General Diagnostics

An intermittent malfunction may be caused by a problem in the ignition system electrical circuit. Inspect the wiring harness and components for an intermittent condition. Refer to Intermittent Conditions. Intermittent Conditions

TEST DESCRIPTION

Steps 1-7:

Steps 8-16:

The numbers below refer to the step numbers in the diagnostic table.
1. The Diagnostic System Check-Computers and Control Systems prompts the technician to complete some basic checks and stores the freeze frame data on the scan tool if applicable. This creates an electronic copy of the data taken when the fault occurred. The information is then stored in the scan tool for later reference.
2. The PCM relies on the CMP sensor for engine reference. Without engine reference signals there is no spark and no fuel injector pulse. A DTC P0340 sets after 3 seconds when cranking the engine if no CMP sensor signal is present.
3. This step checks the Throttle Position (TP) sensor, the Engine Coolant Temperature (ECT) sensor, and the Manifold Absolute Pressure (MAP) sensor for a faulty signal. A faulty sensor input to the PCM may cause a fueling condition that results in a no start.
4. This step checks for adequate secondary ignition voltage at the spark plugs.
6. This step checks to see if the fuel system pressure is within specifications with the ignition On and the fuel pump running. The fuel pump may be operated with the scan tool Output Control feature when the fuel level is more than 20 percent.
9. Fouled or contaminated spark plugs indicate that another malfunction exists. If the engine starts and runs after cleaning or replacing the spark plugs, inspect for the cause of the spark plug condition. Road testing the vehicle and inspecting vehicle performance with a scan tool can prevent a no start from reoccurring.
11. Fuel injectors with partially blocked and restricted nozzles, or a malfunctioning solenoid, can cause a no start condition. The fuel injector inspections can locate faulty injectors.
14. This step checks to see if the engine will start and run. The repair that may have led to this step may only have been a secondary cause of the no start condition, such as fouled spark plugs. The diagnostics in this table may need to be performed a second time in order to discover the root cause of the no start condition.