In at least some implementations, a vehicle shift lever assembly includes a shift lever movable about a first pivot axis within a first shift path having multiple shift positions, and movable about a second pivot axis to a second shift path having at least one shift position, and the second pivot axis is not parallel to the first pivot axis, and a sensor element coupled to the shift lever for movement with the shift lever. The sensor element is oriented in a different position when the shift lever is in each of the shift positions in the first shift path and each of the shift positions of the second shift path.

A gear shifting apparatus for a multi-speed transmission includes: a shifting unit controlling gear shifting by a torque of an actuator; and a parking unit controlling a parking state by the torque of the actuator. In particular, the actuator includes a control motor transmitting a driving torque to a first driven gear of the shifting unit and a second driven gear of the parking unit through a drive gear externally gear-meshed with the driven gears, and the shifting unit includes: a fork slider slidably mounted on a fork rail, a shift fork integrally formed with the fork slider, a cam block connected to the first driven gear engaged with the drive gear and having a cam surface on an exterior circumference for shift-stages, a cam contact pin integrally formed with the fork slider and contacting the cam surface, and a return spring mounted around the fork rail.

A gear shifting apparatus for a multi-speed transmission for an electric vehicle includes a shifting unit controlling gear shifting by a torque of an actuator, and a parking unit controlling a parking state by the torque of the actuator. In particular, the actuator includes a control motor transmitting a driving torque to a first driven gear and a second driven gear through a drive gear externally gear-meshed with the driven gears, and the shifting unit includes: a shift fork slidably mounted on a fork rail and activating the gear shifting; a profile drum connected to the first driven gear externally engaged with the drive gear, and having a profile groove formed along an exterior circumference of the profile drum; and a shift lug integrally formed with the shift fork and coupled with the profile groove.

A scrolling shifter assembly having a housing rotatably supporting a scrolling wheel having a knurled exterior edge accessible to a vehicle operator, the scrolling wheel also including an annular side detent profile. A magnet is positioned in proximity to a sensor mounted to a printed circuit board (PCBA) within the housing and displaces relative to the sensor in response to rotation of the scrolling wheel. A display component is mounted in proximity to the PCBA. At least one haptic biasing component including any of spring loaded pawl or wave spring is supported within the housing and biases against the detent profile such that, and upon the operator actuating the scrolling wheel, the pawl is caused to displace relative to the profile in order to incrementally rotate the wheel, the magnet rotating relative to the PCBA sensor to cause an associated processor to electronically instruct a shift change to an engine control unit.

An embodiment of the invention is to provide a shift apparatus that performs switching of shift ranges of a vehicle, the shift apparatus including: an operation member; a shift control section; and a regulation mechanism, wherein the shift control section is configured to select a second range when the operation member moves from a first position to a second position before being regulated by the regulation mechanism, and the shift control section is configured to select a first range when that a shift mechanism is in a shift restriction state and the operation member moves from the first position to the second position before being regulated by the regulation mechanism, and to allow an operation control section to execute the regulation by the regulation mechanism.

A shift operation determination apparatus includes: an operation member rotatably attached to the vehicle; a position detection section configured to detect a position of the operation member in a rotation direction; a shift determination section configured to determine, based on the position of the operation member, a shift range selected by the operation member; and a regulation section configured to regulate a rotation of the operation member, the regulation section being configured to regulate the rotation of the operation member when the operation member moves to a second position corresponding to the second range from a first position corresponding to the first range or a third position corresponding to the third range and moves to the third position within a predetermined time after being located at the second position.

A shift operation determination apparatus includes: an operation member rotatably attached to the vehicle; an operation detection section configured to detect a position of the operation member; a lock mechanism configured to regulate a rotation of the operation member; a braking operation detection section configured to detect a braking operation of the vehicle; a shift determination section configured to determine any one of a plurality of shift ranges including a first range for parking and a second range different from the first range, based on the position of the operation member; and a lock control section configured to cause the lock mechanism to regulate the rotation of the operation member from a first position corresponding to the first range to a second position corresponding to the second range when the braking operation is not detected.

A controller is integrated into a vehicle with the controller coupled to a fob detector and also coupled to a vehicle disabler. Examples of vehicle disablers include a brake transmission shift interlock (BTSI), a transmission shift interlock (TSI) and an air brake or electric parking brake of the vehicle. The fob detector can be provided along with the controller and separate from a mechanical key ignition of the vehicle, or can be a fob detector associated with a keyless ignition of the vehicle. A mobile fob is used as part of the system, carried on the person of an authorized driver of the vehicle. This fob can be provided separately from the vehicle, along with the controller, or can be a fob associated with a keyless entry of the vehicle. The controller causes the vehicle disabler to not be disengaged unless presence of the fob is detected by the fob detector.

A brake transmission shift interlock (BTSI) solenoid includes a solenoid housing having an inner surface defining a lock pin cavity. The solenoid also includes a lock pin positioned within the lock pin cavity, the lock pin moveable between a first position and a second position. The solenoid further includes a bumper protruding into the lock pin cavity and stationary relative to the lock pin, the bumper defining the first position of the lock pin.

A brake transmission shift interlock (BTSI) assembly is provided. The BTSI assembly may include an armature assembly and a flux collector. The armature assembly may include an armature component, a shaft, and a pin. The armature component may include a central through-hole defining a central axis and include a first end defining a first angle surface. The shaft may be disposed within the central through-hole and the pin mounted to the shaft. The flux collector may be mounted to the shaft and includes a second end defining a second angle surface. The armature component and the flux collector may be arranged with one another such that a first plane defined by the first angle surface is substantially parallel to a second plane defined by the second angle surface.