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DTC P0BCD:00, P0BCE:00, P0BCF:00, P0DF4:00, P0DF5:00, P0DF6:00, P0DF7:00, P0DF8:00, P0DF9:00, P1BD0:00, P1BD1:00, P1BD2:00, P1BD3:00, P1BD4:00, P1BD5:00, P1BD6:00, P1BD7:00 OR P1BD8:00 [INTEGRATED STARTER GENERATOR (ISG)]

DTC P0BCD:00, P0BCE:00, P0BCF:00, P0DF4:00, P0DF5:00, P0DF6:00, P0DF7:00, P0DF8:00, P0DF9:00, P1BD0:00, P1BD1:00, P1BD2:00, P1BD3:00, P1BD4:00, P1BD5:00, P1BD6:00, P1BD7:00 OR P1BD8:00 [INTEGRATED STARTER GENERATOR (ISG)]

id140202300300


Outline

System malfunction location

P0BCD:00: Integrated starter generator (ISG) (internal FET temperature sensor) U-phase: Sensor characteristic malfunction

P0BCE:00: Integrated starter generator (ISG) (internal FET temperature sensor) U-phase: Low input

P0BCF:00: Integrated starter generator (ISG) (internal FET temperature sensor) U-phase: High input

P0DF4:00: Integrated starter generator (ISG) (internal FET temperature sensor) V-phase: Sensor characteristic malfunction

P0DF5:00: Integrated starter generator (ISG) (internal FET temperature sensor) V-phase: Low input

P0DF6:00: Integrated starter generator (ISG) (internal FET temperature sensor) V-phase: High input

P0DF7:00: Integrated starter generator (ISG) (internal FET temperature sensor) W-phase: Sensor characteristic malfunction

P0DF8:00: Integrated starter generator (ISG) (internal FET temperature sensor) W-phase: Low input

P0DF9:00: Integrated starter generator (ISG) (internal FET temperature sensor) W-phase: High input

P1BD0:00: Integrated starter generator (ISG) (internal FET temperature sensor) X-phase: High input

P1BD1:00: Integrated starter generator (ISG) (internal FET temperature sensor) X-phase: Low input

P1BD2:00: Integrated starter generator (ISG) (internal FET temperature sensor) X-phase: Sensor characteristic malfunction

P1BD3:00: Integrated starter generator (ISG) (internal FET temperature sensor) Y-phase: High input

P1BD4:00: Integrated starter generator (ISG) (internal FET temperature sensor) Y-phase: Low input

P1BD5:00: Integrated starter generator (ISG) (internal FET temperature sensor) Y-phase: Sensor characteristic malfunction

P1BD6:00: Integrated starter generator (ISG) (internal FET temperature sensor) Z-phase: High input

P1BD7:00: Integrated starter generator (ISG) (internal FET temperature sensor) Z-phase: Low input

P1BD8:00: Integrated starter generator (ISG) (internal FET temperature sensor) Z-phase: Sensor characteristic malfunction
Detection condition
P0BCD:00:
•  The difference between the input signal voltage of the U-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the U-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
P0BCE:00:
•  The input signal voltage of the U-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P0BCF:00:
•  The input signal voltage of the U-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
P0DF4:00:
•  The difference between the input signal voltage of the V-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the V-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
P0DF5:00:
•  The input signal voltage of the V-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P0DF6:00:
•  The input signal voltage of the V-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
P0DF7:00:
•  The difference between the input signal voltage of the W-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the W-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
P0DF8:00:
•  The input signal voltage of the W-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P0DF9:00:
•  The input signal voltage of the W-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
Detection condition
P1BD0:00:
•  The input signal voltage of the X-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
P1BD1:00:
•  The input signal voltage of the X-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P1BD2:00:
•  The difference between the input signal voltage of the X-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the X-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
P1BD3:00:
•  The input signal voltage of the Y-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
P1BD4:00:
•  The input signal voltage of the Y-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P1BD5:00:
•  The difference between the input signal voltage of the Y-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the Y-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
P1BD6:00:
•  The input signal voltage of the Z-phase FET temperature sensor in the integrated starter generator (ISG) is 2.95 V or more for a continuous 0.5 s.
P1BD7:00:
•  The input signal voltage of the Z-phase FET temperature sensor in the integrated starter generator (ISG) is 1.44 V or less for a continuous 0.5 s.
P1BD8:00:
•  The difference between the input signal voltage of the Z-phase FET temperature sensor input to the microcomputer in the integrated starter generator (ISG) and the input signal voltage of the Z-phase FET temperature sensor input to the stator coil driver circuit control IC in the integrated starter generator (ISG) is 0.2 V or more for a continuous 1 s.
Fail-safe
•  Stops power supply from the Mazda M Hybrid battery and supplies power to the vehicle’s electrical devices (12 V power supply) from the 12 V battery.(If the vehicle continues to be driven while the DTC is detected, the 12 V battery will be depleted and the vehicle can no longer be driven.)
•  Inhibits the i-stop control.
•  Inhibits the non-power generation control.
•  Inhibits regenerative braking by the integrated starter generator (ISG).
•  Inhibits motor assist control by the integrated starter generator (ISG).
Possible cause
•  Integrated starter generator (ISG) malfunction
System wiring diagram
•  Not applicable
Connector diagram
•  Not applicable


Diagnostic Procedure

Step

Inspection

Results

Action
1
RECORD VEHICLE STATUS WHEN DTC WAS DETECTED TO UTILIZE WITH REPEATABILITY VERIFICATION
•  Record the snapshot data.
Note
•  Recording can be facilitated using the screen capture function of the PC.
Go to the next step.
2
VERIFY WHETHER MALFUNCTION IS PRESENT OR PAST
•  Perform the DTC inspection for the integrated starter generator (ISG).
•  Is DTC P0BCD:00, P0BCE:00, P0BCF:00, P0DF4:00, P0DF5:00, P0DF6:00, P0DF7:00, P0DF8:00, P0DF9:00, P1BD0:00, P1BD1:00, P1BD2:00, P1BD3:00, P1BD4:00, P1BD5:00, P1BD6:00, P1BD7:00 or P1BD8:00 a present malfunction?
Yes
Go to the next step.
No
Go to Step 4.
3
VERIFY WHETHER MALFUNCTION IS PRESENT OR PAST AGAIN
•  Switch the ignition off.
•  Switch the ignition ON (engine off or on) and wait for 10 s or more.
•  Perform the DTC inspection for the integrated starter generator (ISG).
•  Is DTC P0BCD:00, P0BCE:00, P0BCF:00, P0DF4:00, P0DF5:00, P0DF6:00, P0DF7:00, P0DF8:00, P0DF9:00, P1BD0:00, P1BD1:00, P1BD2:00, P1BD3:00, P1BD4:00, P1BD5:00, P1BD6:00, P1BD7:00 or P1BD8:00 a present malfunction?
Yes
Refer to the controller area network (CAN) malfunction diagnosis flow to inspect for a CAN communication error.
(See CONTROLLER AREA NETWORK (CAN) MALFUNCTION DIAGNOSIS FLOW [(E)].)
If the CAN communication is normal, perform the diagnosis from Step 1.
•  If the malfunction recurs, replace the integrated starter generator (ISG).
Go to repair completion verification.
No
Go to the next step.
4
VERIFY INTEGRATED STARTER-GENERATOR (ISG) FOR MALFUNCTION DEPENDING ON REPEATABILITY
•  Start the engine.
•  Access the following PIDs using the M-MDS:
Integrated starter generator (ISG):
―  B-ISG_RPM
PCM:
―  ENG_RPM
―  VSS
―  ECT
Warning
•  When the M-MDS is used to observe monitor system status while driving, be sure to have another technician with you, or record the data in the M-MDS using the PID/DATA MONITOR AND RECORD capturing function and inspect later.
•  While performing this step, always operate the vehicle in a safe and lawful manner.
Note
•  Match the engine coolant temperature in the recorded snapshot data, the vehicle speed, and engine speed values to the best extent possible while driving the vehicle.
•  Try to reproduce the malfunction by driving the vehicle based on the values in the snapshot data.
•  Perform the DTC inspection for the integrated starter generator (ISG).
•  Is DTC P0BCD:00, P0BCE:00, P0BCF:00, P0DF4:00, P0DF5:00, P0DF6:00, P0DF7:00, P0DF8:00, P0DF9:00, P1BD0:00, P1BD1:00, P1BD2:00, P1BD3:00, P1BD4:00, P1BD5:00, P1BD6:00, P1BD7:00 or P1BD8:00 a present malfunction?
Yes
Refer to the controller area network (CAN) malfunction diagnosis flow to inspect for a CAN communication error.
(See CONTROLLER AREA NETWORK (CAN) MALFUNCTION DIAGNOSIS FLOW [(E)].)
If the CAN communication is normal, perform the diagnosis from Step 1.
•  If the malfunction recurs, replace the integrated starter generator (ISG).
Go to repair completion verification.
No
The system is normal. (Explain to the customer that a malfunction was detected temporarily, but the vehicle is currently normal.)
Go to repair completion verification.
Repair completion verification
VERIFY IF OTHER DTCs DISPLAYED
•  Perform the DTC inspection.
•  Are any other DTCs displayed?
Yes
Repair the malfunctioning location according to the applicable DTC troubleshooting.
No
DTC troubleshooting completed.