Scan Tool Does Not Communicate with High Speed GMLAN Device
Diagnostic Instructions
Diagnostic Fault Information
Circuit
| Short to Ground
| Open/High Resistance
| Short to Voltage
| Signal Performance
|
High Speed GMLAN Serial Data (+)
| 1
| U0100-U0299*
| 1
| --
|
High Speed GMLAN Serial Data (-)
| 1
| U0100-U0299*
| 1
| --
|
Ground (DLC, terminal 5)
| --
| 1
| --
| --
|
* No communications with one or more high speed GMLAN modules. An open in only one high speed GMLAN serial data circuit may allow degraded communication between the modules. An open between the data link connector (DLC) and the first splice will only effect the communication with the scan tool. The vehicle modules will still communicate.
1. No communication with any high speed GMLAN module
|
Circuit/System Description
The serial data is transmitted on two twisted wires that allow speeds up to 500 Kb/s. The twisted pair is terminated with two 120 Ω resistors, one is internal to the instrument panel cluster (IPC) and the other can be a separate resistor in a connector assembly or in another control module. The resistors are used as the load for the High Speed GMLAN buss during normal vehicle operation. The high speed GMLAN is a differential bus. The high speed GMLAN serial data bus (+) and high speed GMLAN serial data (-) are driven to opposite extremes from a rest or idle level of approximately 2.5 V. Driving the lines to their extremes, adds one volt to the high speed GMLAN serial data bus (+) circuit and subtracts one volt from the high speed GMLAN serial data bus (-) circuit. If serial data is lost, control modules will set a no communication code against the non-communicating control module. Note that a loss of serial data DTC does not represent a failure of the module that set it.
Diagnostic Aids
| • | Sometimes, while diagnosing a specific customer concern or after a repair, you may notice a history U-code present. However, there is no associated current or active status. Loss-of-communication U-codes such as these can set for a variety of reasons. Many times, they are transparent to the vehicle operator and technician, and/or have no associated symptoms. Eventually, they will erase themselves automatically after a number of fault-free ignition cycles. This condition would most likely be attributed to one of these scenarios: |
| - | A control module on the data communication circuit was disconnected while the communication circuit is awake. |
| - | Power to one or more modules was interrupted during diagnosis. |
| - | A low battery condition was present, so some control modules stop communicating when battery voltage drops below a certain threshold. |
| - | Battery power was restored to the vehicle and control modules on the communication circuit did not all re-initialise at the same time. |
| - | If a loss-of-communication U-code appears in history for no apparent reason, it is most likely associated with one of the scenarios above. These are all temporary conditions and should never be interpreted as an intermittent fault, causing you to replace a part. |
| • | Do not replace a control module reporting a U-code. The U-code identifies which control module needs to be diagnosed for a communication issue. |
| • | Communication may be available between some module and the scan tool with either the low/high speed GMLAN or the CAN serial data system inoperative. This condition is due to some modules using both GMLAN/CAN and KWP2000 systems. |
| • | An open in the DLC ground circuit terminal 5 will allow the scan tool to operate but not communicate with the vehicle. |
Reference Information
Schematic Reference
Data Communication Schematics
Connector End View Reference
Component Connector End Views
Description and Operation
Data Link Communications Description and Operation
Electrical Information Reference
Scan Tool Reference
Control Module References for scan tool information
Circuit/System Testing
| | Note: Each control module may need to be disconnected to isolate a circuit fault. Use the schematic to identify the following: |
| • | Control modules the vehicle is equipped with |
| • | High speed GMLAN serial data circuit terminating resistors |
| • | Control module locations on the high speed GMLAN serial data circuits |
| • | Each control module's high speed GMLAN serial data circuit terminals |
- Attempt to communicate with all control modules on the high speed GMLAN serial data circuit. Refer to Data Link References communications should not be available with two or more control modules on the high speed GMLAN serial data circuit.
| ⇒ | If only one control module is not communicating, diagnose that control module only. Refer to DTC U0100-U02FF . |
- Disconnect the scan tool from the DLC. The following tests will be done at the DLC connector.
- All access doors closed, ignition OFF for 60 seconds, test for less than 10 Ω between the ground circuit terminal 5 and ground.
| ⇒ | If greater than the specified range, test the ground circuit for an open/high resistance. |
- Ignition ON, test for less than 4.5 V between the serial data circuits listed below and ground:
| ⇒ | If greater than the specified range, test the serial data circuit for a short to voltage. Refer to Testing the Serial Data Circuits for a Short to Voltage. |
- Ignition OFF for 60 seconds, test for greater than 100 Ω between the serial data circuits listed below and ground:
| ⇒ | If not the specified range, test the serial data circuit for a short circuit to ground. Refer to Testing the Serial Data Circuits for a Short to ground. |
- Test for 50-70 Ω between the serial data circuits terminal 6 and terminal 14.
| ⇒ | If less than 35 Ω, test for a short between the serial data circuits. Refer to Testing the Serial Data Circuits for a Short between the Circuits. |
| ⇒ | If 35-50 Ω there may be a third terminating resistor between the serial data circuits. This can happen if the incorrect control module is installed. Some control modules are available with and without the terminating resistors installed to reduce the need of terminating resistors in the wiring harness. |
| ⇒ | If greater than 70 Ω but less than infinite, test the serial data circuit for an open/high resistance. Refer to Testing the Serial Data Circuits for an Open/High Resistance. |
| ⇒ | If infinite, test the serial data circuits between the DLC and the first connection to the serial data circuit for an open/high resistance. |
Testing the Serial Data Circuits for a Short to Voltage
- Ignition OFF, disconnect the harness connectors with the high speed GMLAN serial data circuits at an easily accessible control module.
- Ignition ON, test for greater than 4.5 V between each serial data circuit at the control module connector that was just disconnected and ground. Verify that one or more serial data circuits are greater than 4.5 V.
| ⇒ | If all serial data circuits are less than the specified range, replace the control module that was disconnected. |
- Ignition OFF, disconnect the harness connectors with the high speed GMLAN serial data circuits at another control module, in the direction of the circuit shorted to voltage.
- Ignition ON, test for greater than 4.5 V between the serial data circuits at the control module connector that was just disconnected and ground. Verify that one or more serial data circuits are greater than 4.5 V.
| ⇒ | If all serial data circuits are less than the specified range, replace the control module that was just disconnected. |
- Repeat step 3 until one of the follow conditions are isolated:
| • | A short circuit to voltage on the serial data circuit between two control modules or splice packs, if equipped |
| • | A short to voltage on the serial data circuit between a control module and a terminating resistor. |
Testing the Serial Data Circuits for a Short to Ground
- Ignition OFF, disconnect the harness connectors with the high speed GMLAN serial data circuits at an easily accessible control module.
- Ignition OFF for 60 seconds, test for less than 1k Ω between each serial data circuit at the control module connector that was just disconnected and ground. Verify that one or more serial data circuits are less than 1k Ω.
| ⇒ | If all serial data circuits are greater than the specified range, replace the control module that was disconnected. |
- Disconnect the harness connectors with the high speed GMLAN serial data circuits at another control module, in the direction of the circuit shorted to ground.
- Ignition OFF for 60 seconds, test for less than 1k Ω between the serial data circuits at the control module connector that was just disconnected and ground. Verify that one or more serial data circuits are less than 1k Ω.
| ⇒ | If greater than the specified range for all serial data circuits, replace the control module that was just disconnected. |
- Repeat step 3 until one of the follow conditions are isolated:
| • | A short circuit to ground on the serial data circuit between two control modules or splice packs, if equipped |
| • | A short to ground on the serial data circuit between a control module and a terminating resistor. |
Testing the Serial Data Circuits for a Short between the Circuits
- Ignition OFF, disconnect the harness connectors with the high speed GMLAN serial data circuits at an easily accessible control module that is not communicating.
- Ignition OFF for 60 seconds, test for less than 35 Ω between each pair of serial data circuits at the control module connector that was just disconnected. Verify that one pair of serial data circuits are less than 35 Ω.
| ⇒ | If each pair of serial data circuits is greater than the specified range, replace the control module that was disconnected. |
- Connect the harness connectors at the control module that was disconnected.
- Disconnect the harness connectors with the high speed GMLAN serial data circuits at another control module, in the direction of the circuits shorted together.
- Ignition OFF for 60 seconds, test for less than 35 Ω between each pair of serial data circuits at the control module connector that was just disconnected. Verify that one pair of serial data circuits are less than 35 Ω.
| ⇒ | If each pair of serial data circuits is within the specified range, replace the control module that was just disconnected. |
- Repeat step 3 until one of the following conditions are isolated:
| • | Serial data circuits shorted together between two control modules or splice packs, if equipped |
| • | Serial data circuits shorted together between a control module and a terminating resistor |
| • | A shorted terminating resistor |
Testing the Serial Data Circuits for an Open/High Resistance
- Ignition OFF, disconnect the harness connectors with the high speed GMLAN serial data circuits at an easily accessible control module that is not communicating.
- Ignition OFF for 60 seconds, test for greater than 100k Ω between each pair of serial data circuits at the control module connector that was just disconnected. Verify that one pair of serial data circuits are greater than 100k Ω.
| ⇒ | If each pair of serial data circuits is less than the specified range, replace the control module that was disconnected. |
- Connect the harness connectors at the control module that was disconnected.
- Disconnect the harness connectors with the high speed GMLAN serial data circuits at another control module, in the direction of the open circuit.
- Ignition OFF for 60 seconds, test for greater than 100k Ω between each pair of serial data circuits at the control module connector that was just disconnected. Verify that one pair of serial data circuits are greater than 100k Ω.
| ⇒ | If each pair of serial data circuits is less than the specified range, replace the control module that was just disconnected. |
- Repeat step 3 until one of the following conditions are isolated:
| • | An open/high resistance on the serial data circuit between two control modules or splice packs, if equipped |
| • | An open/high resistance on the serial data circuit between a control module and a terminating resistor |
| • | An open/high resistance terminating resistor |
Repair Instructions
Perform the Diagnostic Repair Verification after completing the repair.
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