Principles of Operation
Smart Junction Box (SJB)
Principles of Operation
NOTE: The Smart Junction Box (SJB) is also known as the Generic Electronic Module (GEM).
NOTE: The time out for the battery saver relay and the accessory delay relay (both are controlled by the SJB) is 1 minute if the vehicle has less than 80 km (50 miles). Once the vehicle passes the approximate mileage threshold of 80 km (50 miles), the time out for both relays is 10 minutes, as described by the Owner's Literature. For the battery saver relay, refer to Lighting and Horns. For the accessory delay relay, refer to Windows and Glass.
The SJB is a multifunction electronic module that controls many of the vehicle systems. Several SJB functions utilize hardwired inputs and/or outputs. The SJB controls the following hardwired functions, using the corresponding inputs and outputs:
The SJB is involved in other vehicle systems through communication over the Controller Area Network (CAN). For a detailed list of the SJB network inputs and outputs, refer to Information Bus.
Some SJB parameters are programmable. Two types of programmable parameters are available: vehicle configuration and customer preference. Refer to Information Bus for programmable parameters.
Field-Effect Transistor (FET) Protection
The SJB utilizes a Field-Effect Transistor (FET) protective circuit strategy for many of its outputs (for example, the headlamp output circuit). Output loads (current level) are monitored for excessive current (typically shorted circuits) and are shut down (turn off the voltage or ground provided by the module) when a fault is detected. A continuous DTC is stored at the time for the fault.
The circuit resets after a customer demand (ignition cycle) of the function (which switches the component on, causing the 30-minute battery saver timer to be energized). When an excessive circuit load (from a shorted circuit) occurs several times, the module shuts down the output until a repair procedure is carried out. At the same time, the continuous DTC that was stored by the first failure does not clear by a command to clear the continuous DTCs.
The SJB does not allow the DTC to be cleared or the normal circuit function restored until a successful self-test (retrieving on-demand DTCs) proves that the fault has been repaired. After the self-test has successfully completed (no on-demand DTCs present), the continuous DTC clears and the normal circuit function returns.
The SJB has 3 predefined levels of short circuit tolerance established. When the first or second level is reached, the continuous DTC associated with the short circuit sets along with DTC B106E. These DTCs (B106E and the DTC associated with the shorted circuit) may be cleared using the Clear DTC operation on the scan tool as long as the fault itself has been corrected. Each and every time the scan tool retrieves DTCs from the module and a circuit is shorted, a level of short circuit tolerance is used up.
If any of the circuits are shorted past the third level (if DTCs have been retrieved 3 successive times with the short circuit not having been repaired), then DTCs B106F and B1342 are set along with the associated continuous DTC. These DTCs (B106F and B1342) cannot be cleared and the module must be replaced.
The initial short circuit must be successfully repaired and its associated DTC cleared before the SJB is replaced or the new SJB may experience one or more of the short circuit tolerance levels being used up, causing a repeat replacement of the module.
DTC B106E sets when the SJB has disabled a circuit due to a repetitive fault causing a circuit overload.