Bendix Commercial Vehicle Systems WINGMAN ADVANCED SD User Manual

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4.6 SERIAL DATA (J1939)
COMMUNICATIONS LINK

Check for a loss of communications between the Bendix

®

Wingman

®

Advanced

™

system radar sensor, the ABS

controller, the engine ECU, and other devices connected
to the J1939 link. Check for damaged or reversed J1939
wiring. Check for corroded or damaged connectors and
loose connections. Using procedures described by the
vehicle manufacturer, verify the presence of the engine
ECU and the ABS controller on the J1939 link.
Verify the engine ECU confi guration. Check for other
devices inhibiting J1939 communications.

4.7 ENGINE COMMUNICATIONS
(J1939) TEST PROCEDURE

The Wingman Advanced system requires several J1939
messages from the engine ECU to control the engine
and retarder torque for distance control and braking. The
Wingman Advanced system will set a diagnostic trouble
code if one of these messages is not present.
Use the engine manufacturer’s diagnostic test procedures
to verify that there are no errors present in the engine
that may prevent the Wingman Advanced system from
controlling the engine or retarder torque.

4.7.1 J1939 TROUBLESHOOTING
PROCEDURE

1. Take all measurements at the harness connector unless

otherwise indicated.

CAUTION:

DO NOT INSERT PROBES INTO THE BACK

SIDE OF THE CONNECTOR AS THIS WILL DAMAGE THE
SEAL AROUND THE WIRE

.

CAUTION:

DO NOT INSERT ANY PROBE INTO THE

PIN ON THE MATING CONNECTOR OF THE RADAR
SENSOR THAT IS GREATER THAN 0.62 MM DIAMETER
OR SQUARE. THIS WILL DAMAGE THE CONNECTOR PIN
AND REQUIRE REPLACEMENT OF THE HARNESS

.

2. Check for damaged or reversed J1939 wiring.

If the J1939 HIGH or J1939 LOW wiring circuits are
damaged, such as shorting together, the entire J1939
link will be lost. The problem may be intermittent,
enabling the J1939 link to operate normally sometimes.
In that event, multiple diagnostic trouble codes will be
logged in multiple engine and vehicle controllers.

If the J1939 HIGH and J1939 LOW wiring circuits are
reversed, communication over the entire J1939 link will
not be lost. Only those devices that are outside of the
problem point from other devices will not receive, or be
able to transmit, data messages.

3. Check for corroded or damaged wiring connector

problems such as opens or shorts to voltage or ground.

If the connector terminals are corroded, this may be
an indication of water intrusion into the wiring system
and possibly into the radar sensor. Replacement of
the entire harness is recommended. If the terminals
of the radar sensor are corroded, replacement of the
radar sensor is recommended.

4. Check for other J1939 devices which may be inhibiting

J1939 communication. The service technician should
consult the vehicle manufacturer’s procedures for
other J1939 troubleshooting procedures. The device’s
power should be removed and measurements made at
the ECU pins for shorts to ground and power pins and
resistance between the J1939 HIGH or J1939 LOW
input circuits.

5. Unplug the radar sensor. With the ignition switch off,

measure the resistance (ohms) using a multimeter
between harness pins 2 and 3. The reading should be
approximately 60 ohms. If it is not, the vehicle wiring
should be investigated using procedures described by
the manufacturer.

6. Unplug the radar sensor. With the ignition switch off,

using a multimeter, measure the resistance in ohms,
between harness pins 2 and ground. The measurement
should indicate an open circuit or very high resistance.
If this is not the case, the vehicle wiring should be
investigated using procedures described by the
manufacturer.

7. Unplug the radar sensor. With the ignition switch off,

using a multimeter, measure the resistance in ohms,
between harness pins 3 and ground. The measurement
should indicate an open circuit or very high resistance.
If this is not the case, the vehicle wiring should be
investigated using procedures described by the
manufacturer.

4.8 TROUBLESHOOTING
WIRING HARNESSES

All wire harness connectors must be properly seated to
maintain environmental seals. Push the mating connector
until it seals with a click. When replacing an Advanced
radar sensor, check that the wire harness connector is
free of corrosion before plugging into a new radar sensor.
Check for corroded or damaged wiring connector problems
such as opens or shorts to voltage or ground.
If the connector terminals are corroded, this may be an
indication of water intrusion into the wiring system and
possibly into the radar sensor. Replacement of the entire
harness is recommended. If the terminals of the radar
sensor are corroded, replacement of radar sensor is
recommended.