The design consist of a central "Airbag control unit"(ACU) controls a number of related sensors within the vehicle like accelerometers, impact sensors, wheel speed sensors, gyroscopes, brake pressure sensors, and seat occupancy sensors. When the requisite 'threshold' has been reached or exceeded, the airbag control unit will trigger the ignition of a gas generator propellant to rapidly inflate a nylon fabric bag. The inflated airbag reduces the deceleration experienced by the...
Topics: CAN Bus protocol, MEMS, Microcontroller, MPLAB software, Electronics & Communication Engineering
The design consist of a central "Airbag control unit"(ACU) controls a number of related sensors within the vehicle like accelerometers, impact sensors, wheel speed sensors, gyroscopes, brake pressure sensors, and seat occupancy sensors. When the requisite 'threshold' has been reached or exceeded, the airbag control unit will trigger the ignition of a gas generator propellant to rapidly inflate a nylon fabric bag. The inflated airbag reduces the deceleration experienced by the...
Topics: CAN Bus protocol, MEMS, Microcontroller, MPLAB software, Electronics & Communication Engineering
The design consist of a central "Airbag control unit"(ACU) controls a number of related sensors within the vehicle like accelerometers, impact sensors, wheel speed sensors, gyroscopes, brake pressure sensors, and seat occupancy sensors. When the requisite 'threshold' has been reached or exceeded, the airbag control unit will trigger the ignition of a gas generator propellant to rapidly inflate a nylon fabric bag. The inflated airbag reduces the deceleration experienced by the...
Topics: CAN Bus protocol, MEMS, Microcontroller, MPLAB software, Electronics & Communication Engineering
