A steering assist system of a steering column assembly is provided. The system includes a worm rotatably driven by an actuator. The system also includes a worm gear having a first set of teeth and a second set of teeth, the first set of teeth in meshed engagement with the worm, the worm gear operatively coupled to a steering shaft. The system further includes a lock feature moveable into and out of engagement with the second set of teeth of the worm gear to define a locked condition and an unlocked condition of the worm gear.

A latching star wheel for a steering lock of a motor vehicle may have a hollow profile with a longitudinal axis and a plurality of latching recesses that can be brought into engagement with a locking bar of the steering lock that can be moved between a locking position and an unlocking position. The latching recesses may be configured as projections. An inner surface of the latching star wheel may be configured as a contact surface that is circularly perforated in a circumferential contour. The latching recesses may extend parallel to the longitudinal axis across a full length of the latching star wheel.

A motor vehicle steering lock includes a housing in which is disposed a lock cylinder including a selector shaft which can assume various rotational positions. An adjustment element of an ignition switch is movably coupled to the selector shaft and triggers a desired function of the motor vehicle depending upon the rotational position of the selector shaft. The selector shaft and the adjustment element are connected for a conjoint rotation via an intermediate compensating element that allows for a movement of the selector shaft in relation to the adjustment element in a first axis direction oriented radial to a longitudinal axis of the selector shaft and a movement of the adjustment element in relation to the selector shaft in a second axis direction perpendicular to the first axis direction.

A motor vehicle steering lock includes a housing in which is disposed a lock cylinder including a selector shaft which can assume various rotational positions. An adjustment element of an ignition switch is movably coupled to the selector shaft and triggers a desired function of the motor vehicle depending upon the rotational position of the selector shaft. The selector shaft and the adjustment element are connected for a conjoint rotation via an intermediate compensating element that allows for a movement of the selector shaft in relation to the adjustment element in a first axis direction oriented radial to a longitudinal axis of the selector shaft and a movement of the adjustment element in relation to the selector shaft in a second axis direction perpendicular to the first axis direction.

A steering lock device includes a camshaft including a shaft portion having an axis, a lock actuation cam that radially projects from a first position of the shaft portion in an axial direction, and a projection that radially projects from a second position of the shaft portion in the axial direction; a housing rotatably accommodating the camshaft; and a lock bar moved by the lock actuation cam in a locking direction or an unlocking direction when the camshaft is rotated about the axis when a key cylinder is operated by a mechanical key. When the lock bar locks the steering shaft, the camshaft is configured so that the projection is separated from the shaft portion if a load exceeding a predetermined strength acts on the projection of the camshaft. The predetermined strength rotates the lock actuation cam to disengage the lock bar from the steering shaft.

A steering lock device includes a camshaft including a shaft portion having an axis, a lock actuation cam that radially projects from a first position of the shaft portion in an axial direction, and a projection that radially projects from a second position of the shaft portion in the axial direction; a housing rotatably accommodating the camshaft; and a lock bar moved by the lock actuation cam in a locking direction or an unlocking direction when the camshaft is rotated about the axis when a key cylinder is operated by a mechanical key. When the lock bar locks the steering shaft, the camshaft is configured so that the projection is separated from the shaft portion if a load exceeding a predetermined strength acts on the projection of the camshaft. The predetermined strength rotates the lock actuation cam to disengage the lock bar from the steering shaft.

A wireless authentication device for a saddle-type vehicle performs authentication through wireless communication with a mobile terminal carried by a user. The wireless authentication device for a saddle-type vehicle includes a first operating input device, a light-emitting and notification part, and a controller. The first operating input device receives an operation of switching to a state in which a power engine is capable of being started. The light-emitting and notification part is provided in the first operating input device or in a portion surrounding the first operating input device, and performs a light-emitting and notification operation in which light is emitted to notify a user that authentication has succeeded. The controller determines whether authentication has succeeded through wireless communication with a mobile terminal, and if the authentication has been determined to have succeeded, causes the light-emitting and notification part to perform the light-emitting and notification operation.

A wireless authentication device for a saddle-type vehicle performs authentication through wireless communication with a mobile terminal carried by a user. The wireless authentication device for a saddle-type vehicle includes a first operating input device, a light-emitting and notification part, and a controller. The first operating input device receives an operation of switching to a state in which a power engine is capable of being started. The light-emitting and notification part is provided in the first operating input device or in a portion surrounding the first operating input device, and performs a light-emitting and notification operation in which light is emitted to notify a user that authentication has succeeded. The controller determines whether authentication has succeeded through wireless communication with a mobile terminal, and if the authentication has been determined to have succeeded, causes the light-emitting and notification part to perform the light-emitting and notification operation.

In an embodiment, an integrated circuit (IC) device is disclosed. In the embodiment, the IC device includes a load modulation module, a current source coupled to the load modulation module, an interface to a resonant circuit, the interface coupled to the load modulation module and the current source, and an interface to a charge source, the interface coupled to the current source, wherein the load modulation module is configured to provide a signal for transmission by modifying the load through the load modulation module, and wherein the current source is configured to provide a signal for transmission by generating pulses of current.

A rotary switch device includes a fixed contact point part and a movable contact point part. The movable contact point part is rotated on the fixed contact point part so as to connect and disconnect the fixed contact point part and the movable contact point part. The fixed contact point part and the movable contact point part have contact surfaces which are band shapes and to which corrosion-resistant conductive processing is applied. A transient contact region, in which a contact point is moved from one end portion to the other end portion in a predetermined connection-operation angle from a contact start point with respect to the other of the fixed contact point part and the movable contact point part, is provided on each of the contact surfaces.