A steering system circuit arrangement for operating an electric motor comprised by a steering adjuster may include a control unit and either a first sensor unit, which is designed to provide first input signals, or a second sensor unit, which is designed to provide second input signals that are different from the first input signals. The control unit is configured to both receive the first input signals provided by the first sensor unit and to provide an actuation signal for the electric motor by taking account of these received first input signals, and to receive the second input signals provided by the second sensor unit and to provide the actuation signal by taking account of these received second input signals. Further, an electromechanical steering system may include such a circuit arrangement. Methods for producing and operating such steering systems may also be utilized.

A motor torque control section switches a change rate of a motor torque for approximating the motor torque to an assist torque according to relationship between the motor torque of an electric motor and the assist torque and according to a change in a turning angle, after automatic steering is cancelled according to a steering torque.

A motor torque control section switches a change rate of a motor torque for approximating the motor torque to an assist torque according to relationship between the motor torque of an electric motor and the assist torque and according to a change in a turning angle, after automatic steering is cancelled according to a steering torque.

The present disclosure relates to a technology for removing adverse effects on input torque by torque offset to improve and maintain a control function related to steering. A method for controlling torque offset compensation in a steering system, includes obtaining a torque offset value (input torque change value) for each steering angle under a hands-off condition of a steering wheel; determining compensation torque configured to counterbalance the torque offset value regarding the steering angle when the steering wheel is steered; and determining a final torque by applying the compensation torque to an input torque detected according to steering of the steering wheel.

In one or more embodiments described herein, devices, systems, methods and/or apparatuses are described that can facilitate provision of a single motor torque request based on a driver assistance system pinion angle request. The motor torque request can be generated absent arbitration between two or more requests from two or more different controller components. A device can comprise a steering control system that generates a motor torque request based on a single request from a single first controller component.

A steer-by-wire steering device includes a first member, a second member, and a stopper. The first member includes a first base surrounding an input shaft and rotatable, a first protrusion protruding from the first base in a radial direction or in an axial direction, and a first weight provided on the first base so as to make a weighted center consistent with a center of the input shaft. The second member is rotatable together with the first member with the first protrusion being abutting the second protrusion. The stopper is provided on a trajectory of the second protrusion, and is capable of restricting the turn of a steering wheel via the input shaft when abutting with the second protrusion.

A vehicle control system includes a first steering controller that executes first steering control for controlling a steering device such that a traveling lane is maintained, and a second steering controller that executes second steering control that is activated during execution of the first steering control. If a command value given to the steering device in the first steering control has continued to deviate either left or right in a case that the second steering control starts, the second steering controller executes the second steering control by reflecting the command value given in the first steering control.

An off-road vehicle has two front wheels and two rear wheels, the rear wheels being connected to a spool gear driven by a motor. The vehicle also has a left front brake, a right front brake and a single rear brake. Speeds of left and right front wheels are respectively monitored by left and right front speed sensors. A single sensor monitors a common speed of left and right rear wheels. Two user actuated braking input devices, for example a hand lever and a foot lever, may be used independently or concurrently to provide a braking command. An anti-lock braking system may use speed measurements from the various speed sensors to control selective application of pressure on the left front brake, the right front brake and the rear brake.

An off-road vehicle has two front wheels and two rear wheels, the rear wheels being connected to a spool gear driven by a motor. The vehicle also has a left front brake, a right front brake and a single rear brake. Speeds of left and right front wheels are respectively monitored by left and right front speed sensors. A single sensor monitors a common speed of left and right rear wheels. Two user actuated braking input devices, for example a hand lever and a foot lever, may be used independently or concurrently to provide a braking command. An anti-lock braking system may use speed measurements from the various speed sensors to control selective application of pressure on the left front brake, the right front brake and the rear brake.

A steering system for a vehicle includes a drive motor having a motor shaft. The steering system also includes a first gear reduction stage for receiving a first rotational input from the motor shaft and providing a first rotational output. The steering system further includes a second gear reduction stage for receiving the first rotational output from the first gear reduction stage and providing a second rotational output. The second gear reduction stage may include at least one of a strain wave gearing, a worm drive, and a planetary gearing. The steering system includes an output shaft for receiving the second rotational output from the second gear reduction stage.