Diagnostic Instructions
| • | Perform the Diagnostic System Check - Vehicle prior to using this diagnostic procedure. |
| • | Review Strategy Based Diagnosis for an overview of the diagnostic approach. |
| • | Diagnostic Procedure Instructions provides an overview of each diagnostic category. |
DTC Descriptors
DTC B0012 : Passenger Frontal Deployment Loop (Stage 2) Resistance LowDTC B0013 : Passenger Frontal Deployment Loop (Stage 2) Open
DTC B0014 : Passenger Frontal Deployment Loop (Stage 2) Voltage Out of Range
DTC B0016 : Passenger Frontal Deployment Loop (Stage 1) Resistance Low
DTC B0017 : Passenger Frontal Deployment Loop (Stage 1) Open
DTC B0018 : Passenger Frontal Deployment Loop (Stage 1) Voltage Out of Range
Diagnostic Fault Information
Circuit | Short to Ground | High Resistance | Open | Short to Voltage | Signal Performance |
|---|---|---|---|---|---|
I/P Module Stage 1 High Circuit | B0018 | B0018 | B0017 | B0018 | B0016 |
I/P Module Stage 1 Low Circuit | B0018 | B0018 | B0017 | B0018 | B0016 |
I/P Module Stage 2 High Circuit | B0014 | B0014 | B0013 | B0014 | B0012 |
I/P Module Stage 2 Low Circuit | B0014 | B0014 | B0013 | B0014 | B0012 |
Circuit/System Description
The passenger deployment loop consists of a dual stage inflatable restraint instrument panel (I/P) module. The I/P module high circuits, and the I/P module low circuits exist for both stages 1 and 2. There are 2 shorting bars used within the I/P module connector. These shorting bars short together the I/P module stage 1 high circuits, and low circuits, and the I/P module stage 2 high circuits and low circuits when the connector is disconnected. This prevents unwanted deployment of the inflator module during servicing. During a frontal crash of sufficient force the inflatable restraint sensing and diagnostic module (SDM) will allow current to flow through the deployment loop. This flow of current will deploy the I/P module. The SDM performs continuous diagnostic tests on the deployment loops to check for proper circuit continuity, and for shorts-to-ground or voltage. If a malfunction is detected, a DTC will be stored in memory.
Conditions for Running the DTC
Ignition voltage is between 9-16 volts.
Conditions for Setting the DTC
B0012 Stage 2 or B0016 Stage 1
The I/P module deployment loop resistance is less than 1.3 ohms for 500 milliseconds.
B0013 Stage 2 or B0017 Stage 1
| • | The I/P module stage 1 or stage 2 high circuit is less than 2.4 volts and the I/P module stage 1 or stage 2 deployment loop is more than 6 ohms for 500 milliseconds. |
| • | The I/P module stage 1 or stage 2 deployment loop resistance is more than 4.8 ohms for 500 milliseconds. |
B0014 Stage 2 or B0018 Stage 1
| • | The I/P module stage 1 or stage 2 high and/or low circuits is short to ground or short to voltage for 500 milliseconds. |
| • | The I/P module stage 1 or stage 2 high circuit is less than 2.4 volts and I/P module stage 1 or stage 2 deployment loop resistance is less than 6 ohms for 500 milliseconds. |
Action Taken When the DTC Sets
| • | The SDM commands the AIR BAG indicator ON via class 2 serial data. |
| • | The SIR system is disabled and no deployments are allowed. |
Conditions for Clearing the DTC
| • | The condition responsible for setting the DTC no longer exists and the scan tool Clear DTC function is used. |
| • | A history DTC will clear once 255 malfunction-free ignition cycles have occurred. |
Diagnostic Aids
If there is more than one DTC set, diagnose the open DTC first. The following are possible causes of the malfunction:
| • | A short between the I/P module stage 1 or stage 2, high and low circuits |
| • | An open or a high resistance in the I/P module stage 1 or stage 2, high or low circuits |
| • | A short to ground or a short to voltage in the I/P module stage 1 or stage 2, high or low circuits |
| • | A malfunctioning I/P module connector |
| • | A malfunctioning SDM connector |
| • | A malfunctioning I/P module |
| • | A malfunctioning SDM |
Reference Information
Schematic Reference
Connector End View Reference
Electrical Information Reference
Special Tools Required
| • | J 38715-A SIR Driver/Passenger Load Tool |
| • | J 38715-80 Load Tool Adapter |
Circuit/System Testing
- With the ignition OFF, disconnect the I/P module inline connector. Refer to Inflatable Restraint Instrument Panel Module Replacement for connector location.
- Inspect the component and wiring harness sides of the inline connector for the I/P module for damage or corrosion.
- Use J 38715-80 adapter to connect the J 38715-A to the harness side of the I/P module inline wiring harness connector. Use the BASE of COLUMN and PASSENGER INFLATOR connectors located on the load tool.
- With the ignition ON, use a scan tool to observe the SIR DTC display. Verify DTCs B0012, B0013, B0014, B0016, B0017, or B0018 are set in history.
- With the ignition OFF, disconnect and remove the J 38715-A and adapter.
- Remove the inflatable restraint SDM connector. Inspect the SDM connector for damage or corrosion that may cause a malfunction in the I/P module stage 1 or stage 2 high and/or low circuits. Refer to Inflatable Restraint Sensing and Diagnostic Module Replacement for connector location.
- Test the high and low circuits between the SDM and I/P module for a short to voltage, short to ground, or open/low resistance.
| ⇒ | If the inline connector for the I/P module is damaged, the I/P module must be replaced. |
| ⇒ | If the I/P module wiring harness side connector is damaged, replace the harness side of the connector. |
| ⇒ | If DTC B0012, B0013, B0014, B0016, B0017, or B0018 is history replace the I/P module. |
| ⇒ | If damage or corrosion is found, make the appropriate repair. |
| ⇒ | If circuits test good, then replace the SDM. |
Repair Instructions
Perform the Diagnostic Repair Verification after completing the diagnostic procedure.
| • | Control Module References for SDM replacement, setup, and programming |
