Grand Cherokee 2WD Limited V8-4.7L (2002)
CORRECT FASTENERS PROVIDED IN THE SERVICE PACKAGE OR SPECIFIED IN THE MOPAR PARTS CATALOG.
Front Impact Sensor
The front impact sensors are electronic accelerometers that sense the rate of vehicle deceleration, and then combined with the ACM Accelerometer
provides verification of the direction and severity of an impact. Each sensor also contains an electronic communication chip that allows the unit to
communicate the sensor status as well as sensor fault information to the microprocessor in the Airbag Control Module. The ACM microprocessor
continuously monitors all of the front passive restraint system electrical circuits to determine the system readiness. If the ACM detects a system
fault, it sets a Diagnostic Trouble Code and controls the airbag indicator operation accordingly. The impact sensors each receive battery current
and ground through dedicated left and right sensor signal and ground circuits from the ACM. The impact sensors and the ACM communicate by
modulating the voltage in the sensor signal circuit. If the sensor is dropped it must be replaced. Disconnect the battery or remove both airbag fuses
before servicing impact sensors.
CAUTION: Do not remove or install impact sensors while the sensor is connected to the vehicle wiring.
Side Impact Sensor
The side impact sensors are electronic accelerometers that sense the rate of vehicle deceleration and when combined with the ACM Accelerometer
provides verification of the direction and severity of a side impact. Each sensor also contains an electronic communication chip that allows the unit
to communicate the sensor status as well as sensor fault information to the microprocessor in the Airbag Control Module. The ACM
microprocessor continuously monitors all of the passive restraint system electrical circuits to determine the system readiness. If the ACM detects a
system fault, it sets a Diagnostic Trouble Code and controls the airbag warning indicator operation accordingly. The side impact sensors receive
battery current and ground through dedicated driver and passenger sensor signal and ground circuits from the ACM. The impact sensors and the
ACM communicate by modulating the voltage in the sensor signal circuit. If the sensor is dropped it must be replaced. Disconnect the battery or
remove both airbag fuses before servicing impact sensors.
CAUTION: Do not remove or install the impact sensors while the sensor is connected to the vehicle wiring.
SPECIAL TOOLS
Some airbag diagnostic test use special tools, airbag load tools, 8310 and 8443 for testing squib circuits. The load tools contain fixed resistive
loads, jumpers and adapters. The fixed loads are connected to cables and mounted in a storage case. The cables can be directly connected to some
airbag system connectors. Jumpers are used to convert the load tool cable connectors to the other airbag system connectors. The adapters are
connected to the module harness connector to open shorting clips and protect the connector terminal during testing. When using the load tool
follow all of the safety procedures in the service information for disconnecting airbag system components. Inspect the wiring, connector and
terminals for damage or misalignment. Substitute the airbag load tool in place of a Driver or Passenger Airbag, curtain airbag, clockspring (use a
jumper if needed). Then follow all of the safety procedures in the service information for connecting airbag system components. Read the module
active DTC's. If the module reports NO ACTIVE DTC's the defective components has been removed from the system and should be replaced. If
the DTC is still active, continue this process until all component in the circuit have been tested. Then disconnect the module connector and
connect the matching adapter to the module connector. With all airbags disconnected and the adapter installed the squib wiring can be tested for
open and shorted conditions.
DIAGNOSTIC TROUBLE CODES
Airbag diagnostic trouble codes consist of active and stored codes. If more than one code exists, diagnostic priority should be given to the active
codes. Each diagnostic trouble code is diagnosed by following a specific testing procedure. The diagnostic test procedures contain step-by-step
instructions for determining the cause of the trouble codes. It is not necessary to perform all of the tests in this book to diagnose an individual
code. Always begin by reading the diagnostic trouble codes with the DRB III. This will direct you to the specific test(s) that must be performed. In
certain test procedures within this manual, diagnostic trouble codes are used as a diagnostic tool.
Active Codes
The code becomes active as soon as the malfunction is detected or key-on, whichever occurs first. An active trouble code indicates an on-going
malfunction, This means that the defect is currently there every time the airbag control module checks that circuit or component. It is impossible to
erase an active code. Active diagnostic trouble codes for the airbag system are not permanent and will change within 12 seconds the reason for the
code is corrected. With the exception of the warning lamp trouble codes or malfunctions, when a malfunction is detected, the airbag lamp remains
lit for a minimum of 12 seconds or as long as the malfunction is present.
Stored Codes
Airbag codes are automatically stored in the ACM's memory as soon as the malfunction is detected. A stored code indicates there was an active
code present at some time. When a trouble code occurs, the airbag warning indicator illuminates for 12 seconds minimum (even if the problem
existed for less than 12 seconds). The code is stored, along with the time in minutes it was active, and the number of times the ignition has been
cycled since the problem was last detected.
The minimum time shown for any code Will be one minute, even if the code was actually present for less than one minute. Thus, the time shown
for a code that was present for two minutes 13 seconds, for example, would be three minutes. If a malfunction is detected a diagnostic trouble
code is stored and will remain stored. When and if the malfunction ceases to exist, an ignition cycle count will be initiated for that code. If the
ignition cycle count reaches 254 without a reoccurrence of the same malfunction, the diagnostic trouble code is erased and that ignition cycle
counter is reset to zero. If the malfunction reoccurs before the count reaches 254, then the ignition cycle counter will be reset and diagnostic
trouble code will continue to be a stored code. If a malfunction is not active while performing a diagnostic test procedure, the active code
diagnostic test will not locate the source of the problem. In this case, the stored code can indicate an area to inspect. Maintain a safe distance from
