C-7A ~ EGR System Check

Diagnostic Chart:

Wiring Schematic:

Circuit Description:

A properly operating Exhaust Gas Recirculation (EGR) system will directly affect the air/fuel requirements of the engine. Since the exhaust gas introduced into the air/fuel mixture is an inert gas (contains very little or no oxygen), less fuel is required to maintain a correct air/fuel ratio. If the EGR system were to become inoperative, the inert exhaust gas would be replaced with air and the air/fuel mixture would be leaner. The Engine Control Module (ECM) would compensate for the lean condition by adding fuel, resulting in higher block learn values.

The engine control system operates within two block learn cells, a closed throttle cell and an open throttle cell. Since EGR is not used at idle, the closed throttle cell would not be affected by EGR system operation. The open throttle cell is affected by EGR operation and when the EGR system is operating properly, the block learn values in both cells should be close to being the same. If the EGR system was inoperative, the block learn value in the open throttle cell would change (become higher) to compensate for the resulting lean system, but the block learn value in the closed throttle cell would not change.

This change or difference in block learn values is used to monitor EGR system performance.

Diagnostic Aids:

The EGR valve chart is a check of the EGR system. If the EGR system works properly, check other items that could result in high block learn values in the open throttle cell, but not in the closed throttle cell.

CHECK

EGR Passages

Restricted or blocked

Manifold Absolute Pressure Sensor

A manifold absolute pressure sensor may shift in calibration enough to affect fuel delivery. Use CHART C-1D, manifold absolute pressure output check.