Abstract: The present disclosure relates to a steering column for a motor vehicle, comprising a steering shaft which is mounted so as to be rotatable about its longitudinal axis (L) relative to a carrying unit, a rotation limiter having an end stop for limiting the rotation of the steering shaft, and a rotary sensor coupled to the steering shaft by means of a torque-locked connection. In order to permit a greater operational reliability, the invention proposes that the rotation limiter has a threshold torque and, if said threshold torque is exceeded, the rotation of the steering shaft beyond the end stop is permitted, wherein the threshold torque is less than a maximum transmission torque of the connection between the steering shaft and rotary sensor.

Abstract: The present disclosure relates to a steer-by-wire steering system for a motor vehicle containing a steering shaft that can be torsionally connected to a steering handling device, a feedback actuator having an electric motor acting on a rotor shaft, a transmission by means of which the rotor shaft is connected to the steering shaft, and a first angle sensor and a second angle sensor. A control unit assigned to the steering system is designed to receive a first sensor signal S provided by the first angle sensor, to receive a second sensor signal S provided by the second angle sensor, and to provide a control signal ST for controlling the electric motor.

Abstract: Provided is a steer-by-wire steering system (1) for a vehicle (2) that can appropriately bring the steered angle of the wheels to a prescribed relationship to the steering angle of a steering member (10) even when the steering angle of the steering member was changed while the vehicle was parked. When the steered angle of the wheels deviates from the prescribed relationship with the steering angle of the steering member upon startup (ST2: Yes), the control unit (15) drives at least one of the steering actuator (12) and the reaction force actuator (13) to bring the steered angle (?) of the wheels closer to the prescribed relationship with the steering angle (?) of the steering member (ST12) using a change in the transmission shift position from the park position (P) or the neutral position (N) to the travel position (D or R) as a trigger (ST8: Yes).

Abstract: Provided is a steer-by-wire steering system for a vehicle that can reduce or eliminate the impact noise generated by the rack at the rack end. A control unit of the steering system is configured to determine a target steered angle (?t) according to the steering angle and drive the steering actuator so as to cause the steered angle to coincide with the target steered angle, and to determine a target reaction force (Tt) according to a steered state of the wheels and drive the reaction force actuator so as to cause the reaction force to coincide with the target reaction force. The control unit is further configured to set a maximum limit (?mC) on the target steered angle, the maximum limit being a value smaller than a physical maximum steered angle (?mP) of the wheels imposed by the steering mechanism.

Abstract: In a steer-by-wire steering system for a vehicle, a control unit (16) controls an operation of a steering actuator to cause the steered angle of wheels to be in a prescribed relationship to a steering angle, and an operation of the reaction force actuator (15) including a pair of reaction force motors (14) to cause the reaction force to be a value (Tt) corresponding to a steered state of the wheels, wherein the control unit is provided with a failure detection unit (36) configured to detect failures of the reaction force motors, and upon detecting a failure of one of the reaction force motors, progressively reduce an output (Tta) of the other reaction motor to a prescribed limit value (TL).

Abstract: A steer-by-wire steering system for motor vehicles includes an electronically controlled steering actuator acting on steered wheels of the vehicle responsive to a steering demand and a feedback actuator transmitting retroactive effects of the road to a steering wheel, wherein the feedback actuator and the steering actuator have a redundant power supply.

Abstract: A steer-by-wire steering system for a motor vehicle may include a rotatably supported steering spindle, a feedback actuator with a feedback motor for acting on the steering spindle, a steering actuator with a steering motor for acting on steered wheels of the motor vehicle based on rotation of the steering spindle, and two control units for controlling the feedback motor and the steering motor. A first control unit of the two control units and a second control unit of the two control units have different levels of complexity relative to each other, in particular such that the first control unit is more powerful than the second control unit. Also, a method can be utilized to operate such a steer-by-wire steering system, whereby the first control unit and the second control unit execute procedures of different complexity relative to each other.

Abstract: A motor vehicle power steering system may include a steering handle having at least one handle sensor for detecting a handle position of the steering handle, an electronically controlled steering actuator having an electric motor for providing an actuating torque based on the detected handle position, a mechanical power transmission for transmitting the actuating torque to steered wheels, a position sensor for detecting a wheel position of the steered wheels, and a monitoring device that is configured to relate the wheel position detected by the position sensor to at least one input parameter of the mechanical power transmission given by the electric motor to monitor the functioning of the mechanical power transmission.

Abstract: In a steer-by-wire steering system of a motor vehicle including a feedback actuator to simulate a steering feel to a steering device and including an electric motor with a motor shaft connected to a steering shaft to transmit a torque, and a steering lock including a latch connected to the steering shaft in a torsion-resistant manner and a lock to engage with the latch at locking positions to block a rotation of the steering shaft, a method for controlling steering locking of the steer-by-wire steering system includes, if an ignition is switched-off and a movement of the steering device is detected, determining a position of the steering shaft and a distance between the lock and a next locking position of the latch in a direction of the movement of the steering device, and if the distance is greater than a predefined value, transmitting a counter-torque to the steering shaft by the feedback-actuator in a direction opposite direction to the movement of the steering device until the locking position reaches the

Abstract: A method for operating a motor vehicle steering system may involve generating a steering feel, with a steering force assistance or a countertorque that is introduced by a feedback actuator into a steering handle, in a manner that is dependent on a driver-side manual torque applied to the steering handle. The steering feel may be represented by way of a characteristic curve that is adapted in a manner that is dependent on steering speed in the case of steering speeds above 100°/s such that an adapted characteristic curve has a smaller maximum change of the gradient than the characteristic curve in the case of lower steering speeds.

Abstract: A steer-by-wire steering system may include an actuation control system to actuate road wheels via a rack and pinion steering gear and a steering wheel control system to simulate a steering feel of a mechanically linked steering system to a steering device. The actuation control system may have a second control unit, and the steering wheel control system may have a first control unit and an actuator. An automatic driving electronic control unit may decide if a drive mode is vehicle-controlled or driver-controlled. If driver-controlled, the first control unit may rotate the steering wheel by a turning angle by activating the actuator according to a pre-set function depending on a rotation angle of a pinion to simulate the steering feel. If vehicle-controlled, the first control unit may rotate the steering wheel by a reduced turning angle by activating the actuator according to a fraction of the pre-set function.

Abstract: A steer-by-wire steering system for motor vehicles includes an electronically controlled steering actuator acting on steered wheels of the vehicle responsive to a steering demand and a feedback actuator transmitting retroactive effects of the road to a steering wheel, wherein the feedback actuator and the steering actuator have a redundant power supply.

Abstract: A method can synchronize movement between a feedback actuator and a steering actuator in a steer-by-wire steering system of a motor vehicle. The steer-by-wire steering system may include a steering wheel, a feedback actuator connected to the steering wheel for providing road feedback to a driver, road wheels, and a steering actuator with an electric motor that operates in response to detected values of various steering parameters and orientates the road wheels in a desired direction. The method may involve detecting with an angle sensor a rotation of the electric motor's rotor caused by movement of the road wheels or the steering wheel. If movement is detected, a position change can be registered in a storage means. Upon ignition on, the feedback actuator or the steering actuator may be moved in accordance with the stored position change to maintain synchronization.

Abstract: A steer-by-wire steering system for a motorized vehicle includes a feedback actuator to simulate a steering feel to a steering device. The feedback actuator has an electric motor with a motor shaft connected to a driver input shaft to be able to transmit a torque. The motor shaft is able to be rotated in at least one rolling bearing. The rolling elements of the at least one rolling bearing are arranged in a magnetorheological fluid and the feedback actuator further includes an electromagnet to pass a magnetic field through said magnetorheological fluid for stiffening the fluid and restricting movement of the rolling element.

Abstract: A steer-by-wire steering system may include an actuation control system to actuate road wheels via a rack and pinion steering gear and a steering wheel control system to simulate a steering feel of a mechanically linked steering system to a steering device. The actuation control system may have a second control unit, and the steering wheel control system may have a first control unit and an actuator. An automatic driving electronic control unit may decide if a drive mode is vehicle-controlled or driver-controlled. If driver-controlled, the first control unit may rotate the steering wheel by a turning angle by activating the actuator according to a pre-set function depending on a rotation angle of a pinion to simulate the steering feel. If vehicle-controlled, the first control unit may rotate the steering wheel by a reduced turning angle by activating the actuator according to a fraction of the pre-set function.

Abstract: A method of calculating the offset of a yaw rate signal may be based at least in part on signals representing pinion angle, wheel speed, and yaw rate. These signals may be determined, and threshold comparisons may be performed, and determination of the yaw rate signal may be based at least in part on the results of the threshold comparisons.

Abstract: An electric power steering system may be controlled by superimposing a driver demand and a driver assistance device demand value to calculate a driver requested support value, in which a virtual driver support value may be calculated based on driver demand and a correction driver support value may be calculated based on a driver assistance device demand value, and the driver requested support value may be calculated as a combination of the virtual correction driver support value and the virtual driver support value.

Abstract: A method of calculating the offset of a yaw rate signal may be based at least in part on signals representing pinion angle, wheel speed, and yaw rate. These signals may be determined, and threshold comparisons may be performed, and determination of the yaw rate signal may be based at least in part on the results of the threshold comparisons.

Abstract: The invention relates to a control method for a steering system with electric power assistance, comprising a steering wheel, an electric power assist motor, an electric control unit, which includes a memory for storing digital data, a motor driver unit which based on a target engine torque that is delivered to the motor driver unit, determines and sends out electrical signals for controlling the electric power assist motor, at least one sensor device for determining a control variable introduced into the steering wheel, for example a manual torque, wherein in the control unit with the help of the control variable a preset value is determined for a engine torque of the power assist motor, characterized in that in the memory an upper threshold value for the target engine torque is stored and for a case A, in which the preset value exceeds the upper threshold value, the control unit sends out the upper threshold value as the target engine torque to the motor driver unit and in a case B, in which the preset value

Abstract: The invention refers to a steering device and a method for controlling a steering device with steering power support means for a motor vehicle with at least one steerable road wheel.