P0ABB

DTC P0ABB, P0ABC, or P0ABD

Diagnostic Instructions

Danger: This diagnostic has NOT been validated on-vehicle. Follow all safety protocol and utilize all appropriate personal protective equipment to ensure your safety. Failure to follow the procedures exactly as written may result in serious injury or death.


* Perform the Diagnostic System Check - Vehicle Diagnostic System Check - Vehicle prior to using this diagnostic procedure.
* Review Strategy Based Diagnosis Strategy Based Diagnosis for an overview of the diagnostic approach.
* Diagnostic Procedure Instructions Diagnostic Procedure Instructions provides an overview of each diagnostic category.

DTC Descriptor
DTC P0ABB
- Hybrid Battery Voltage Sensor Performance

DTC P0ABC
- Hybrid Battery Voltage Sensor Circuit Low Voltage

DTC P0ABD
- Hybrid Battery Voltage Sensor Circuit High Voltage

Circuit/System Description

The hybrid battery pack contains a total of 32 cell groups in the hybrid/EV battery pack assembly. These cell groups are electrically connected in series. Each individual cell group is rated at 3.7 V, for a nominal system voltage of 118 V DC. The battery cells are grouped together into two sections, each with 16 cell groups.

The battery energy control module monitors the voltage of the 32 battery cell groups. A voltage sense circuit is attached to each individual cell group. Each of these circuits terminate at a connector located on the top surface of the battery section. A serviceable auxiliary battery wiring harness connectors the voltage sense circuits to the battery energy control module, located directly above the hybrid battery pack. The battery energy control module also monitors the hybrid battery pack voltage in it's entirety. The battery energy control module compares the voltage of the entire pack to that of the sum of the voltages measures at each cell.

Diagnostics and system status are communicated from the battery energy control module to hybrid powertrain control module through serial data.

Conditions for Running the DTC

P0ABB

None of the following DTCs are set: P0ABC, P0ABD, P0B3D, P0B42, P0B47, P0B4C, P0B51, P0B56, P0B5B, P0B60, P0B65, P0B6A, P0B6F, P0B74, P0B79, P0B7E, P0B83, P0B88, P0B8D, P0B92, P0B97, P0B9C, P0BA1, P0BA6, P0BAB, P0BB0, P0BB5, P0BBA, P1B17, P1B1A, P1B1D, P1B20, P1B23, P1B26, P0B3E, P0B43, P0B48, P0B4D, P0B52, P0B57, P0B5C, P0B61, P0B66, P0B6B, P0B70, P0B75, P0B7A, P0B7F, P0B84, P0B89, P0B8E, P0B93, P0B98, P0B9D, P0BA2, P0BA7, P0BAC, P0BB1, P0BB6, P0BBB, P1B18, P1B1B, P1B1E, P1B21, P1B24, P1B27, P0B3B, P0B40, P0B45, P0B4A, P0B4F, P0B54, P0B59, P0B5E, P0B63, P0B68, P0B6D, P0B72, P0B77, P0B7C, P0B81, P0B86, P0B8B, P0B90, P0B95, P0B9A, P0B9F, P0BA4, P0BA9, P0BAE, P0BB3, P0BB8, P1B28, P1B29, P1B2A, P1B2B, P1B2C, P1B2D, P0B3C, P0B41, P0B46, P0B4B, P0B50, P0B55, P0B5A, P0B5F, P0B64, P0B69, P0B6E, P0B73, P0B78, P0B7D, P0B82, P0B87, P0B8C, P0B91, P0B96, P0B9B, P0BA0, P0BA5, P0BAA, P0BAF, P0BB4, P0BB9, P1B16, P1B19, P1B1C, P1B1F, P1B22, P1B25

P0ABC or P0ABD
* Battery voltage is greater than 9.6 V
* Battery energy control module is awake and communicating

Conditions for Setting the DTC

P0ABB

The calculated battery pack voltage based on the average cell voltage values is more than 5.49 V different than the actual measured battery pack voltage

P0ABC

The battery pack voltage is less than 30 V

P0ABD

The battery pack voltage is greater than 190 V

Action Taken When the DTC Sets

* DTCs P0ABB, P0ABC, and P0ABD are type B DTCs
* The vehicle operates in a low battery mode with the high voltage contactors closed, but no hybrid functions will occur

Conditions for Clearing the DTC

DTCs P0ABB, P0ABC, and P0ABD are type B DTCs

Diagnostic Aids

Opening the service disconnect without first disconnecting the 12 V battery may result in the setting of DTC P0ABB or P0ABC. Due to the nature of the hybrid battery pack design, the vehicle's 12 V electrical system will continue to discharge the high voltage battery, even though the service disconnect is open. This will eventually lower the voltage of the hybrid battery pack and set DTC P0ABB or P0ABC. If this occurs, close the service disconnect and operate the vehicle as normal. The hybrid battery pack will be charged and the voltage will return to normal.

Reference Information
Schematic Reference

Hybrid Energy Storage Schematics [1][2]Electrical Diagrams
Connector End View Reference

Component Connector End Views Connector End Views By Name
Description and Operation

Drive Motor Battery System Description Drive Motor Battery System Description
Electrical Information Reference

* Circuit Testing Circuit Testing
* Connector Repairs Connector Repairs
* Testing for Intermittent Conditions and Poor Connections Testing for Intermittent Conditions and Poor Connections
* Wiring Repairs Wiring Repairs

DTC Type Reference

Powertrain Diagnostic Trouble Code (DTC) Type Definitions Powertrain Diagnostic Trouble Code (DTC) Type Definitions
Scan Tool Reference

Control Module References Control Module References for scan tool information
Special Tools

EL-48900 - HEV Safety Kit

For equivalent regional tools, refer to Special Tools Tools and Equipment.

Circuit/System Verification

Danger: Always perform the High Voltage Disabling procedure prior to servicing any High Voltage component or connection. Personal Protection Equipment (PPE) and proper procedures must be followed.


The High Voltage Disabling procedure will perform the following tasks:


* Identify how to disable high voltage.

* Identify how to test for the presence of high voltage.

* Identify condition under which high voltage is always present and personal protection equipment (PPE) and proper procedures must be followed.


Before working on any high voltage system, be sure to wear the following Personal Protection Equipment:


* Safety glasses with appropriate side shields when within 15 meters (50 feet) of the vehicle, either indoors or outdoors.

* Certified and up-to-date Class "0" Insulation gloves rated at 1000V with leather protectors.


- Visually and functionally inspect the gloves before use.

- Wear the Insulation gloves with leather protectors at all times when working with the high voltage battery assembly, whether the system is energized or not.


Failure to follow the procedures exactly as written may result in serious injury or death.


Danger: The eAssist battery pack assembly will utilize an exchange program. Please consult the most recent revision of bulletin/PI #PIPXXYYZZ, available in Service Information (SI), for a list of approved eAssist battery pack assembly service procedures. Components that may be removed and serviced without exchanging the complete battery pack assembly are identified in the bulletin/PI. Please contact the GM Technical Assistance Center (1-877-446-8227) if you have any questions.


1. Verify DTC P0ABB, P0ABC, or P0ABD is not set.

• If any of the DTCs are set, inspect the K16 battery energy control module wiring harness for any damage. If any damage is noted, replace the wiring harness. If the wiring harness is undamaged, replace the K16 battery energy control module.

Repair Instructions

Perform the Diagnostic Repair Verification Verification Tests after completing the repair.

* Battery Energy Control Module Wiring Harness Replacement (HV Measuring Harness 1 and 2) Battery Energy Control Module Wiring Harness Replacement (HV Measuring Harness 1 and 2)Battery Energy Control Module Wiring Harness Replacement (BDU,BECM and BPIM) Battery Energy Control Module Wiring Harness Replacement (BDU,BECM and BPIM)
* Control Module References Control Module References for battery energy control module replacement, programming, and setup