The disclosure relates to a steering control device and method. A steering control device according to the disclosure comprises a receiver receiving a motor torque from a motor torque sensor provided in a host vehicle and a controller enabling a steering gear to be driven in a compliance zone, calculating a friction of the steering gear based on the motor torque received by the driving of the steering gear, determining a state of the steering gear based on the calculated friction, and outputting, to a driver, a notification message for the state of the steering gear.

A limiting system for constraining a commanded steering angle for a vehicle including an electric power steering (EPS) system includes a controller in electronic communication with at least one other system of the vehicle. The controller executes instructions to receive a plurality of trajectory planning inputs that are each expressed as an array including a plurality of values, where the plurality of trajectory planning inputs includes a trajectory velocity array, a trajectory acceleration array, and a trajectory curvature array. The controller also executes instructions to determine a maximum rate of steering angle change based on the corresponding ideal rate of change of the commanded steering angle and the maximum rate change allowed by the EPS system.

A steer-by-wire steering system, including: a pair of wheel steering devices respectively provided for right and left wheels of a vehicle, each of the pair of wheel steering devices including an actuator and configured to steer a corresponding one of the right and left wheels independently of the other of the right and left wheels; and a controller configured to control the pair of wheel steering devices such that steering amounts of the respective right and left wheels are equal to respective amounts based on a steering request, wherein the controller executes a steering-amount stabilizing control to reduce a change in the steering amounts in an external-force-dependent steering situation in which the right and left wheels are steered or likely to be steered by an external force applied to the right and left wheels.

A method for friction coefficient determination on elastically connected subsystems, in which an overall system includes multiple subsystems and at least two subsystems are connected to one another by an elastic connection. The elastic connection has at least one static friction state and a sliding friction state for prescribed external state variables, in which the overall system is excited with a vibration having a variable excitation amplitude at a defined excitation frequency. The excitation amplitude is varied, in which a phase difference between the vibration and a measured reaction torque together with the excitation amplitude are recorded as a function of time, in which no phase difference occurs in the static friction state and a phase difference of 180° occurs in the sliding friction state. In a first step, the excitation amplitude is increased until a transition in the phase difference from 0° to 180° indicates the transition from the static friction state to the sliding friction state.

An electric driver device provides a partial redundancy system that is at least partially redundant, or a full redundancy system. The electric driver device has a plurality of circuit systems. The electric driver device includes, in at least a part of the electric circuit, a common circuit extending over at least two of a plurality of circuit systems. The common circuit includes a power supply and/or a connection line that complements signals. At least one of the power supply circuit, an interface circuit, a power supply cutoff circuit, and a connector is not separated and independent from each other for each redundant circuit system.

A configurable diagnostic data monitor that captures diagnostic data of a motor control system is provided. Triggers, and records generated using the triggers, are configurable using, for example, different parameters or logical operators. Triggers buffer data that can be made part of a record when a trigger condition is met. Memory used by a trigger and memory usage for records is monitored and notifications generated indicating memory required for a trigger. Configuration of a trigger can involve customized priority relative to other triggers, adjustable data parameters, a persistence parameter, and configurable saved data capture for rate and duration.

A steering assist device may comprise an Ath power path controller positioned on an Ath power path connecting an Ath leg of an inverter with an Ath phase of a steering motor, a Bth power path controller positioned on a Bth power path connecting a Bth leg of the inverter with a Bth phase of the steering motor, a Cth power path controller positioned on a Cth power path connecting a Cth leg of the inverter with a Cth phase of the steering motor, and a controller unit determining a state of at least one of the Ath power path controller to the Cth power path controller based on at least one of an Ath phase voltage to a Cth phase voltage respectively formed at the Ath leg to the Cth leg of the inverter and controlling the steering motor according to a result of the determination.

The present disclosure relates to a method for determining a steering return moment requirement of a steering device of a vehicle, to a steering system, to a computer program product, and to a computer-readable storage medium. The steering device is part of a steering system of the vehicle, and is coupled to at least one actuator. The actuator is configured to apply a steering moment to the steering device. The method comprises at least the step of determining the steering return moment requirement based on at least one rack force of the steering system. The steering return moment requirement forms at least a portion of a target steering moment which can be applied to the steering device by the at least one actuator.

The present disclosure relates to a method for determining a steering damping requirement of a steering device of a vehicle, a steering system, a computer program product and a computer-readable storage medium. The steering device is part of a steering system of the vehicle and is coupled to at least one actuator which is configured to apply a steering torque to the steering device. The method comprises at least the step of determining the steering damping requirement based on at least one rack force of the steering system, wherein the steering damping requirement forms at least a portion of a target steering torque with which the steering device can be acted upon by the at least one actuator.

The disclosure relates to a method for cooperative steering angle control for an electromechanically assisted steering system of a motor vehicle. The steering system has electromechanical steering assistance with an electric motor and at least one controller. The controller has two degrees of freedom, a first of the two degrees of freedom being associated with a torque exerted on a steering wheel, and a second of the two degrees of freedom being associated with a steering angle. The method comprises the following steps: determining a driver torque; ascertaining a reference steering wheel torque by a dynamic feedforward; receiving a reference steering angle; feeding the reference steering angle into a control loop; feeding the determined reference steering wheel torque into the control loop by the dynamic feedforward; and ascertaining a steering wheel torque and a steering angle by the control circuit (34). A control device for an electromechanically assisted steering system of a motor vehicle is also disclosed.