HYBRID CONTROL SYSTEM, Diagnostic DTC:P0C19-306

DTC Code	DTC Name
P0C19-306	Drive Motor "A" Torque Delivered Performance

DESCRIPTION

For a description of the inverter Click here.

If the motor torque execution value does not correspond to the torque command value from the MG ECU to MG2, the power management control ECU will store this DTC.

DTC No.	INF Code	DTC Detection Condition	Trouble Area
P0C19	306	Motor torque execution monitoring malfunction	Hybrid vehicle motor assembly Motor cable Inverter with converter assembly

CAUTION / NOTICE / HINT

CAUTION:

Before inspecting the high-voltage system or disconnecting the low voltage connector of the inverter with converter assembly, take safety precautions such as wearing insulated gloves and removing the service plug grip to prevent electrical shocks. After removing the service plug grip, put it in your pocket to prevent other technicians from accidentally reconnecting it while you are working on the high-voltage system.
After removing the service plug grip, wait for at least 10 minutes before touching any of the high-voltage connectors or terminals. After waiting for 10 minutes, check the voltage at the terminals of the inspection point in the inverter with converter assembly. The voltage should be 0 V before beginning work Click here.

Tech Tips

Waiting for at least 10 minutes is required to discharge the high-voltage capacitor inside the inverter with converter assembly.

Note

After turning the power switch off, waiting time may be required before disconnecting the cable from the negative (-) auxiliary battery terminal. Therefore, make sure to read the disconnecting the cable from the negative (-) auxiliary battery terminal notices before proceeding with work Click here.

Tech Tips

After the repair, clear the DTCs and perform the following procedure to check that DTCs are not output.

Turn the power switch on (READY) and wait for 5 seconds or more.
Perform a road test according to the freeze frame data and item "Vehicle Spd" for approximately 10 minutes.

PROCEDURE

CHECK DTC OUTPUT (HYBRID CONTROL)

Connect the GTS to the DLC3.
Turn the power switch on (IG).
Enter the following menus: Powertrain / Hybrid Control / Trouble Codes.

Check if DTCs are output.

Result

Result	Proceed to
Only P0C19-306 is output, or DTCs other than the ones in the table below are also output.	A
Any of the following DTCs are also output.	B

DTC No.	Relevant Diagnosis
P06B0-163	Sensor Power Supply "A" Circuit/Open
P06D6-511	Sensor Reference Voltage "F" Circuit/Open
P06E6-164	Sensor Power Supply "C" Circuit/Open
P0A1A-151, 166, 517, 658, 791, 809	Generator Control Module
P0A1B-198, 503, 505, 547, 554, 786, 794, 806	Drive Motor "A" Control Module
P0A1D (all INF codes)*1	Hybrid Powertrain Control Module
P0A3F-243	Drive Motor "A" Position Sensor Circuit
P0A40-500, 504, 506, 549, 556, 808	Drive Motor "A" Position Sensor Circuit Range/Performance
P0A41-245	Drive Motor "A" Position Sensor Circuit Low
P0A4B-253	Generator Position Sensor Circuit
P0A4C-513, 518, 811	Generator Position Sensor Circuit Range/Performance
P0A4D-255	Generator Position Sensor Circuit Low
P0A78-202, 279, 287, 548, 555, 807	Drive Motor "A" Inverter Performance
P0A7A-203, 325, 810	Generator Inverter Performance
P0AA6 (all INF codes)*1	Hybrid Battery Voltage System Isolation Fault
P0BEA-290	Drive Motor "A" Phase V Current Sensor Circuit Range/Performance
P0BEE-298	Drive Motor "A" Phase W Current Sensor Circuit Range/Performance
P0C76-523	Hybrid Battery System Discharge Time Too Long
P0D2E-586	Drive Motor "A" Inverter Voltage Sensor Circuit Range/Performance
P0D2F-266	Drive Motor "A" Inverter Voltage Sensor Circuit Low
P0D30-267	Drive Motor "A" Inverter Performance
P0E05-328	Generator Phase V Current Sensor Circuit Range/Performance
P0E09-336	Generator Phase W Current Sensor Circuit Range/Performance
P0E32-585	DC/DC Converter Voltage Sensor "A" Range/Performance
P0E33-589	DC/DC Converter Voltage Sensor "A" Low
P0E34-590	DC/DC Converter Voltage Sensor "A" High
P1C2A-155	Generator A/D Converter Circuit
P1C2B-192	Drive Motor "A" A/D Converter Circuit
P1C2D-587	Hybrid Battery Voltage / DC/DC Converter Voltage Correlation
P1C3C-294	Drive Motor "A" Phase V Current Sensor Correlation
P1C3D-302	Drive Motor "A" Phase W Current Sensor Correlation
P1C3E-333	Generator Phase V Current Sensor Correlation
P1C3F-341	Generator Phase W Current Sensor Correlation
P1C4A-288	Drive Motor "A" Phase V Current Sensor Sub Circuit Range/Performance
P1C4F-296	Drive Motor "A" Phase W Current Sensor Sub Circuit Range/Performance
P1C54-326	Generator Phase V Current Sensor Sub Circuit Range/Performance
P1C59-334	Generator Phase W Current Sensor Sub Circuit Range/Performance
P1C6D-501	Drive Motor "A" Phase V Current Sensor Offset Range/Performance
P1C6E-502	Drive Motor "A" Phase W Current Sensor Offset Range/Performance
P1C71-515	Generator Phase V Current Sensor Offset Range/Performance
P1C72-516	Generator Phase W Current Sensor Offset Range/Performance
P1C73-512	Sensor Standard Voltage "F" Circuit/Open
P1CA6-156	Generator Control Module Malfunction
P1CA7-193	Drive Motor Control Module Malfunction
P1CAC-200	Generator Position Sensor Angle Malfunction
P1CAD-168	Drive Motor "A" Position Sensor Angle Malfunction
P1CAF-792	Generator Position Sensor REF Signal Cycle Malfunction
P1CB0-795	Drive Motor "A" Position Sensor REF Signal Cycle Malfunction
P1CB2-793	Generator Position Sensor REF Signal Stop Malfunction
P1CB3-796	Drive Motor "A" Position Sensor REF Signal Stop Malfunction
P3004-132	Power Cable Malfunction
P3133-659	Communication Error from Generator to Drive Motor "A"
P3134-661	Communication Error from Drive Motor "A" to Generator
P3233-750	Open or Short to B+ in Blocking of HV Gate Connection

Tech Tips

*1: If any INF codes are output for this DTC, refer to the corresponding diagnostic procedure.
P0C19-306 may be set due to a malfunction which also causes DTCs in the preceding table to be set. In this case, first troubleshoot the output DTCs in the preceding table. Then, perform a test to attempt to reproduce the problems, and check that no DTCs are output.

Turn the power switch off.

GO TO DTC CHART (HYBRID CONTROL SYSTEM) Click here

CHECK CONNECTOR CONNECTION CONDITION (INVERTER WITH CONVERTER ASSEMBLY CONNECTOR)
CAUTION:

Be sure to wear insulated gloves.
1. Check that the service plug grip is not installed.
  
  Note
  
  After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.
  
  Note
  
  Before disconnecting the connector, confirm that it is properly connected by checking that the locking claws are engaged and that the connector does not pull out.
2. Check the connection of the low voltage connector of the inverter with converter assembly.
  
  OK
  
  The connector is connected securely and there are no contact problems.
  
  Tech Tips
  
  When connecting the connector, insert it with the locking lever in the raised position. Rotate the lever downward and make sure that the connector is pulled into its socket. When the locking lever is in its fully closed position, a click will be heard as its locking claws engage. After the click is heard, pull up on the connector to confirm that it is properly connected.
NG
CONNECT SECURELY

OK

OK
The connector is connected securely and there are no contact problems.

CHECK INVERTER WITH CONVERTER ASSEMBLY (MOTOR CABLE CONNECTION CONDITION)

CAUTION:

Be sure to wear insulated gloves.

Check that the service plug grip is not installed.

Note

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.
Remove the inverter cover from the inverter with converter assembly.

Check that the bolts for the motor cable are tightened to the specified torque, the motor cable is connected securely, and there are no contact problems.

Specified Condition
Bolt A
T=8.0 Nm (82 kgfcm, 71 in.*lbf)
Bolt B
T=9.2 Nm (94 kgfcm, 81 in.*lbf)

Note

Make sure that the tightening torque of the bolt A is between 6.4 and 9.6 N*m (65 and 98 kgf*cm, 57 and 85 in.*lbf).
Make sure that the tightening torque of the bolt B is between 6.4 and 12 N*m (65 and 122 kgf*cm, 57 and 106 in.*lbf).

Disconnect the motor cable from the inverter with converter assembly.

Check for arc marks at the bolts and terminals for the motor cable.

Result

Result		Proceed to
The terminals are connected securely and there are no contact problems.	There are no arc marks.	A
The terminals are not connected securely and there is a contact problem.	There are arc marks.	B
The terminals are not connected securely and there is a contact problem.	There are no arc marks.	C
The terminals are connected securely and there are no contact problems.	There are arc marks.	B

Connect the motor cable to the inverter with converter assembly.
Install the inverter cover.

REPLACE MALFUNCTIONING PARTS

CONNECT SECURELY

CHECK HYBRID VEHICLE TRANSAXLE ASSEMBLY (MG2)

CAUTION:

Be sure to wear insulated gloves.

Check that the service plug grip is not installed.

Note

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.
Remove the inverter cover from the inverter with converter assembly.
Disconnect the generator cable and motor cable from the inverter with converter assembly.

Text in Illustration
*1	Motor Cable (Inverter with Converter Assembly Side)
*2	Shield Ground

Check MG2 for an interphase short using a milliohmmeter.

Using a milliohmmeter, measure the resistance according to the value(s) in the table below.

Tech Tips

If the MG2 temperature is high, the resistance will vary greatly from the specification. Therefore, measure the resistance at least 8 hours after the vehicle is stopped.

Standard Resistance

Tester Connection	Condition	Specified Condition
e1-1 (W) - e1-2 (U)	Power switch off	152.6 to 169.0 mΩ
e1-2 (U) - e1-3 (V)	Power switch off	157.6 to 174.0 mΩ
e1-3 (V) - e1-1 (W)	Power switch off	151.6 to 168.0 mΩ

Tech Tips

To correct the variation of the measured resistance due to temperature, use the following formula to calculate the resistance at 20°C (68°F).

R20 = Rt / {1 + 0.00393 X (T - 20)}

The calculation is based on the following:

R20: Resistance at 20°C (68°F) (mΩ)
Rt: Measured resistance (mΩ)
T: Temperature when the resistance is measured (°C)

Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

Note

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance

Tester Connection	Condition	Specified Condition
e1-1 (W) - Body ground and shield ground	Power switch off	100 MΩ or higher
e1-2 (U) - Body ground and shield ground	Power switch off	100 MΩ or higher
e1-3 (V) - Body ground and shield ground	Power switch off	100 MΩ or higher

Connect the generator cable and motor cable.
Install the inverter cover.

REFER TO REPLACE INVERTER WITH CONVERTER ASSEMBLY PARTS Click here

CHECK HYBRID VEHICLE TRANSAXLE ASSEMBLY (MOTOR CABLE CONNECTION CONDITION)

CAUTION:

Be sure to wear insulated gloves.

Check that the service plug grip is not installed.

Note

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.
Check that the bolts for the motor cable are tightened to the specified torque, the motor cable is connected securely, and there are no contact problems.

Specified Condition

T=10 N*m (102 kgf*cm, 7 ft.*lbf)

Note

Make sure that the tightening torque of the bolts is between 8 and 12 N*m (82 and 122 kgf*cm, 71 and 106 in.*lbf).
Disconnect the motor cable from the hybrid vehicle transaxle assembly.

Specified Condition
T=10 Nm (102 kgfcm, 7 ft.*lbf)

Check for arc marks at the bolts and terminals for the motor cable.

Result

Result		Proceed to
The terminals are connected securely and there are no contact problems.	There are no arc marks.	A
The terminals are not connected securely and there is a contact problem.	There are arc marks.	B
The terminals are not connected securely and there is a contact problem.	There are no arc marks.	C
The terminals are connected securely and there are no contact problems.	There are arc marks.	B

Connect the motor cable to the hybrid vehicle transaxle assembly.

REPLACE MALFUNCTIONING PARTS

CONNECT SECURELY

CHECK MOTOR CABLE

CAUTION:

Be sure to wear insulated gloves.

Check that the service plug grip is not installed.

Note

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.
Remove the motor cable.

Text in Illustration
*1	Motor Cable (Inverter with Converter Assembly Side)
*2	Motor Cable (Hybrid Vehicle Transaxle Assembly Side)
*3	Shield ground

Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

Note

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance

Tester Connection	Condition	Specified Condition
e1-1 (W) - Body ground and shield ground	Power switch off	100 MΩ or higher
e1-2 (U) - Body ground and shield ground	Power switch off	100 MΩ or higher
e1-3 (V) - Body ground and shield ground	Power switch off	100 MΩ or higher

Note

Wrap the terminal of the three-phase AC cable with insulating tape to prevent them from coming into contact with body ground

Measure the resistance according to the value(s) in the table below.

Standard Resistance

Tester Connection	Condition	Specified Condition
e1-1 (W) - e2-1 (W)	Power switch off	Below 1 Ω
e1-2 (U) - e2-3 (U)	Power switch off	Below 1 Ω
e1-3 (V) - e2-2 (V)	Power switch off	Below 1 Ω
e1-1 (W) - e2-3 (U)	Power switch off	100 MΩ or higher
e1-2 (U) - e2-2 (V)	Power switch off	100 MΩ or higher
e1-3 (V) - e2-1 (W)	Power switch off	100 MΩ or higher

Install the motor cable.

REPLACE HYBRID VEHICLE MOTOR ASSEMBLY Click here

REPLACE MOTOR CABLE Click here