Abstract: The disclosure relates to a method performed by a within-vehicle-confirming system on-board a vehicle for establishing that a key device is within an interior of the vehicle. The system determines that there is a secure communication link between the vehicle and the key device. The system further provides a vehicle sound signal within the interior of the vehicle. Moreover, the system receives from the key device a key device signal via the secure communication link, which key device signal is derived from a sound signal detected by one or more sensors associated with the key device. The system further compares the vehicle sound signal with the key device signal, and enables a start of the vehicle when the key device signal matches the vehicle sound signal. The disclosure also relates to a within-vehicle-confirming system in accordance with the foregoing, and to a vehicle at least partly comprising such a system.
Abstract: The present disclosure relates to a dual battery system for in a dual manner powering propulsion of an electric vehicle including a first electric motor coupled in driving relationship to one or more rear wheels and a second electric motor coupled in driving relationship to one or more front wheels. The dual battery system includes a first battery and a second battery. The first battery is configured to provide electric power for driving the first electric motor and the second battery is configured to provide electric power for driving the second electric motor. The present disclosure also relates to an electric vehicle including such a dual battery system.
Abstract: A cross car beam assembly for use with a vehicle includes first and second beam sections that are connected together by a tapered joint. The tapered joint includes an engagement structure formed on the first beam section, and a socket formed on the second beam section that receives the engagement structure. Furthermore, the engagement structure is tapered in a first direction and a second direction different than the first direction, and the socket is also tapered in the first direction and the second direction.
Abstract: A modular cross car beam assembly for use with a vehicle includes an intermediate beam section, a driver side beam section, and a passenger side beam section. Furthermore, the driver side beam section and the passenger side beam section are attachable on either side of the intermediate beam section depending on whether the vehicle is a left-hand-drive vehicle or a right-hand-drive vehicle.
Abstract: A modular cross car beam assembly for use with a vehicle includes an intermediate beam section, a driver side beam section, and a passenger side beam section. Furthermore, the driver side beam section and the passenger side beam section are attachable on either side of the intermediate beam section depending on whether the vehicle is a left-hand-drive vehicle or a right-hand-drive vehicle.
Abstract: A cross car beam assembly for use with a vehicle may include a beam having first and second portions that are spaced apart from each other in a lateral direction when the cross car beam assembly is mounted in the vehicle. The cross car beam assembly further includes a safety unit connected to the first and second portions so that the safety unit extends between the first and second portions. The safety unit includes a rigid member configured to cooperate with the first and second portions to provide continuous rigid structure from the first portion to the second portion. Furthermore, the rigid member is connected to at least one of the first and second portions with at least one integral connection feature that braces the rigid member in a longitudinal direction or a lateral direction of the vehicle when the cross car beam assembly is mounted to the vehicle.
Abstract: A cross car beam assembly for use with a vehicle includes first and second beam sections that are connected together by a tapered joint. The tapered joint includes an engagement structure formed on the first beam section, and a socket formed on the second beam section that receives the engagement structure. Furthermore, the engagement structure is tapered in a first direction and a second direction different than the first direction, and the socket is also tapered in the first direction and the second direction.