An electric drive assembly for a motor vehicle comprises a high-speed electric machine with a nominal rotational speed of at least 20,000 revolutions per minute and with a high-speed rotor that can be used as a flywheel mass for storing kinetic energy; a superimposed transmission having a drive element, a regulating element and a driven element, wherein the drive element is drivable by an electric machine around a drive axis, wherein the regulating element is rotatable around a regulating axis and wherein the driven element is drivingly connected to the regulating element and the drive element; an electromagnetic regulating device having a stator and a rotor that is connected to the regulating element in a rotationally fixed way, wherein by means of magnetic forces acting in the circumferential direction between the stator and the rotor, a regulating moment can be transmitted to the rotor, wherein the magnetic forces are variably adjustable.

A vehicular exterior door handle assembly includes a handle portion and an illumination module having an illumination source that emits light when electrically powered. With the exterior door handle assembly mounted at a door handle region of a vehicle door and when the illumination source is electrically powered to emit light, light emitted by the illumination source illuminates the door handle region of the vehicle door. The illumination module is located and oriented at the vehicular exterior door handle assembly such that, when the illumination source is electrically powered to emit light, a hand grasping the handle portion to open the vehicle door does not block light emitted by the illumination source so that illumination is maintained at the door handle region of the vehicle door.

A vehicle steering wheel device, including a center portion of a steering wheel, a steering wheel cover that covers the center portion on the dashboard side, the side opposite the driver, an electronic control unit stowed in an internal area between the steering wheel cover and the center portion, an opening section where a part of the steering wheel cover is open in a window shape, a lid detachably provided on the steering wheel cover that closes the opening section, and a harness provided in the internal space that connects to the electronic control unit and supplies power from the vehicle body side, where the electronic control unit is provided secured to the lid, and the lid is connected to the vehicle body side by the harness connected to the electronic control unit.

A vehicle drive apparatus having a drive unit where the drive unit includes a motor that generates a driving force in a vehicle with a ladder frame, a transmission that changes the driving force transmitted from the motor, and a differential that splits the driving force transmitted from the transmission and transmits forces split to driving wheels of the vehicle. The vehicle drive apparatus includes a drive unit housing that houses at least part of the drive unit, a motor-side support coupling the drive unit housing to the ladder frame by two couplers arranged in a motor-side end region of the drive unit housing, and a differential-side support coupling the drive unit housing to the ladder frame in a differential-side end region of the drive unit housing. The two couplers of the motor-side support are arranged father outside in a vehicle width direction than the differential-side support.

A battery enclosure for a vehicle chassis having a base member with raised surface features on the upper surface outlining individual cells, each cell configured to receive at least one battery; a cover member having a plurality of depending surface features on the lower surface which are aligned with the surface features of the base member. The cover member includes a channel formed in the upper surface thereof, aligned with and extending along a length of the depending surface feature disposed on the bottom surface. A lattice support structure is also included which has a plurality of support members extending axially and transversely, wherein the lattice support structure is configured to be at least partially disposed within the channel of the cover member and mounted to the vehicle chassis. The lattice support member providing increased rigidity and a load distribution path for externally applied forces (e.g. crash events) to prevent or inhibit enclosure breakage or puncture.

A collision avoidance and/or pedestrian detection system for a large passenger vehicle such as commuter bus, which includes one or more exterior and/or interior sensing devices positioned strategically around the exterior and interior of the vehicle for recording data, method for avoiding collisions and/or detecting pedestrians, and features/articles of manufacture for improving same, is described herein in various embodiments. The sensing devices may be responsive to one or more situational sensors, and may be connected to one or more interior and/or exterior warning systems configured to alert a driver inside the vehicle and/or a pedestrian outside the vehicle that a collision may be possible and/or imminent based on a path of the vehicle and/or a position of the pedestrian as detected by one or more sensing devices and/or situational sensors.

This disclosure describes at least embodiments of an aircraft monitoring system for an electric or hybrid airplane. The aircraft monitoring system can be constructed to enable the electric or hybrid aircraft to pass certification requirements relating to a safety risk analysis. The aircraft monitoring system can have different subsystems for monitoring and alerting of failures of a component, such as a battery pack, a motor controller, and/or a motors. The failures that pose a greater safety risk may be monitored and indicated by one or more subsystems without use of programmable components.

A battery enclosure for a vehicle chassis having a base member with raised surface features on the upper surface outlining individual cells, each cell configured to receive at least one battery; a cover member having a plurality of depending surface features on the lower surface which are aligned with the surface features of the base member. The cover member includes a channel formed in the upper surface thereof, aligned with and extending along a length of the depending surface feature disposed on the bottom surface. A lattice support structure is also included which has a plurality of support members extending axially and transversely, wherein the lattice support structure is configured to be at least partially disposed within the channel of the cover member and mounted to the vehicle chassis. The lattice support member providing increased rigidity and a load distribution path for externally applied forces (e.g. crash events) to prevent or inhibit enclosure breakage or puncture.

An electric drive axle in a vehicle is provided. The electric drive axle includes, in one example, a housing configured to enclose an electric motor-generator and a gearbox. In the electric drive axle, the housing includes a first section that is removably coupled to a second section, the second section at least partially encloses the gearbox, the first section includes a first axle shaft opening, and the second section includes a second axle shaft opening that is laterally aligned with the first axle shaft opening.

Disclosed herein are electric vehicles with various characteristics. For example, electric vehicles with at least two energy storage systems are described. As another example, electric vehicles with liquid temperature regulated battery packs are described. As yet another example, electric vehicles with high voltage battery limit optimization are disclosed. And, as another example, electric vehicles with dual-battery system charge management are described.