A method of controlling drivability of a vehicle detects an overall load acting on the vehicle. A mass of the vehicle or an estimate thereof is obtained. A controller determines whether the vehicle is negotiating a curve during a driving situation. If the vehicle is negotiating a curve during the driving situation, the controller determines whether the vehicle has a tendency to oversteer or to understeer. The load acting on the vehicle is dynamically changed or a suspension stiffness of the vehicle is dynamically adjusted to reduce the tendency of the vehicle to oversteer or to understeer.

A vehicle comprising a flap that is attached to the vehicle in such a way as to permit movement of the flap from a first position to a second position, wherein the flap is configured to alter the downforce generated by the vehicle when the vehicle is in motion by affecting the airflow underneath the vehicle, the effect of the flap on the airflow being dependent upon the second position of the flap.

An apparatus facilitating packing of a racecar parachute using a pilot chute launcher, the apparatus comprised of a slotted metal plate, a pair of notched tabs, and a pair of extensions selected to removably couple with the notched tabs and the plate. In use, the notched tabs, notched sides facing away from one another, are positioned and affixed to opposing sides of a parachute bag bottom plate. The parachute and pilot chute launcher are packed into the parachute bag. The extensions are inserted into opposing slots on the plate, and by engaging the extensions with the notched tabs, the pilot chute launcher is compressed. A top and a bottom flap of the parachute bag is secured over the plate in a usual fashion. The extensions and the plate are sequentially removed, and the parachute is continued to be packed in the usual fashion.

An apparatus facilitating packing of a racecar parachute using a pilot chute launcher, the apparatus comprised of a slotted metal plate, a pair of notched tabs, and a pair of extensions selected to removably couple with the notched tabs and the plate. In use, the notched tabs, notched sides facing away from one another, are positioned and affixed to opposing sides of a parachute bag bottom plate. The parachute and pilot chute launcher are packed into the parachute bag. The extensions are inserted into opposing slots on the plate, and by engaging the extensions with the notched tabs, the pilot chute launcher is compressed. A top and a bottom flap of the parachute bag is secured over the plate in a usual fashion. The extensions and the plate are sequentially removed, and the parachute is continued to be packed in the usual fashion.

Disclosed is a spoiler with a morphing skin including: a vehicle body; a soft outer skin including a fixed skin portion attached to the vehicle body and a variable skin portion connected to the fixed skin portion and not attached to the vehicle body; and one or more actuators configured to press the variable skin portion to be deformed between a first position spaced apart from the vehicle body and a second position in contact with the vehicle body.

An electronic parachute deployment system including an electronic actuator, a control module, a deployment actuator, and a release mechanism. A parachute is positioned on a payload device, such as a racecar, to slow or stop the payload upon receipt of an electronic deployment activation signal. The electronic deployment signal is verified, including determining proper voltage and source. The deployment system includes multiple redundancies including mechanical deployment redundancy, remote deployment redundancy, and power supply redundancy. The control module responsible for monitoring deployment includes indicators and sensors to indicate a status, operation, or mode relative to the operability of the payload device, relative to components of the release mechanism, and relative to the parachute deployment.

An electronic parachute deployment system including an electronic actuator, a control module, a deployment actuator, and a release mechanism. A parachute is positioned on a payload device, such as a racecar, to slow or stop the payload upon receipt of an electronic deployment activation signal. The electronic deployment signal is verified, including determining proper voltage and source. The deployment system includes multiple redundancies including mechanical deployment redundancy, remote deployment redundancy, and power supply redundancy. The control module responsible for monitoring deployment includes indicators and sensors to indicate a status, operation, or mode relative to the operability of the payload device, relative to components of the release mechanism, and relative to the parachute deployment.

A regenerative braking system for an electrified vehicle includes a battery system, an electric motor and a regenerative system resistor. The battery system selectively stores and delivers power. The electric motor is powered by the battery system and transfers drive torque to a driveline for propulsion of the vehicle and that selectively directs regenerative power in a first mode to the battery system during regenerative braking. The regenerative system resistor is selectively moveable between a first position during the regenerative braking in the first mode and a second position where regenerative power is directed to the regenerative system resistor and dissipated as heat in a second mode.

A regenerative braking system for an electrified vehicle includes a battery system, an electric motor and a regenerative system resistor. The battery system selectively stores and delivers power. The electric motor is powered by the battery system and transfers drive torque to a driveline for propulsion of the vehicle and that selectively directs regenerative power in a first mode to the battery system during regenerative braking. The regenerative system resistor is selectively moveable between a first position during the regenerative braking in the first mode and a second position where regenerative power is directed to the regenerative system resistor and dissipated as heat in a second mode.