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Home >> Toyota Truck >> 1997 >> Tacoma SR5 Extra Cab 4WD V6-3.4L (5VZ-FE) >> Repair and Diagnosis >> Restraints and Safety Systems >> Air Bag Systems >> Description and Operation >> SRS Connectors

SRS Connectors

SRS Connectors:





All connectors in the SRS are colored yellow to distinguish them from other connectors. Connectors having special functions and specifically designed for the SRS are used in the locations shown above to ensure high reliability. These connectors use durable gold-plated terminals.





1. Terminal Twin-Lock Mechanism
Each connector has a two-piece construction consisting of a housing and a spacer. This design secures the locking of the terminal by two locking devices (the retainer and the lance) to prevent terminals from coming out.





2. Airbag Activation Prevention Mechanism
Each connector contains a short spring plate. When the connector is disconnected, the short spring plate automatically connects the power source and grounding terminals of the squib.

HINT: The type of connector shown above is used for connectors (2) and (3). in the diagram.




SRS Connectors:





3. Electrical Connection Check Mechanism
This mechanism electrically checks if connectors are connected correctly and completely. The electrical connection check mechanism is designed so that the disconnection detection pin connects with the diagnosis terminals when the connector housing lock is locked.

HINT: The illustration shows connector 1.

SRS Connectors:





4. Connector Twin-Lock Mechanism
With this mechanism. connectors (male and female connectors) are locked by 2 locking devices to increase connection reliability. If the primary lock is incomplete, ribs interfere and prevent the secondary lock.

SRS Connectors:





When the vehicle is involved in a frontal collision in the hatched area (Fig. 1) and the shock is larger than a predetermined level. the SRS is activated automatically. A safing sensor is designed to go on at a smaller deceleration rate than the airbag sensor. As illustrated in Fig. 2. ignition is caused when current flows to the squib. which happens when a safing sensor and the airbag sensor go on simultaneously. When a deceleration force acts on the sensor, squib in the driver airbag and ignite and generate gas. The gas discharging into the driver airbag and rapidly increases the pressure inside the bag, breaking open the steering wheel pad and instrument panel door.

Bag inflation then ends, and the bag deflates as the gas is discharged through discharge holes at the bag rear or side.
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