An electronic device may include: a power management integrated circuit (PMIC); and a micro controller unit (MCU) electrically connected to the PMIC. The MCU may be configured to: generate, based on a first driving power signal output from the PMIC to drive the MCU, a digital signal for determining an error in a reference signal of an analog-to-digital converter (ADC) included in the MCU; identify an error rate of the digital signal; and determine a mode for controlling a motor driven power steering system, based on the error rate of the digital signal.

A hardware architecture for controlling a safety-relevant process having at least two microcontrollers for controlling the process in at least two control branches, wherein the respective microcontroller control the safety-relevant process. The microcontrollers process the data from at least one sensor, which detects the actual characteristic of the respective control branch. Between the two microcontrollers, the data of the respective sensor are exchanged and provided for each microcontroller and a check is made to determine whether the data from the sensors are consistent. In response to an inconsistency being detected, a majority decision is made and a model value used in forming the majority decision, is calculated in the microcontroller based on control commands so the control of the safety-relevant process by the microcontroller of the control branch, whose data were detected as erroneous in the majority decision, is disabled.

A control device and method for power supply to an EPS system in a vehicle, including a reverse voltage protection circuit and a battery disconnect circuit. A DC-end capacitor is charged with a voltage by turning on switches of a reverse voltage protection circuit and a battery disconnect circuit, a change in the voltage of the DC-end capacitor is detected by turning off the switches of the reverse voltage protection circuit and the battery disconnect circuit, and then a failure in the switches of the reverse voltage protection circuit and the battery disconnect circuit is determined on the basis of information regarding changes in the voltage of the DC-end capacitor. The failure in the reverse voltage protection circuit and the battery disconnect circuit is diagnosed without a charge/discharge circuit.

An apparatus for controlling an MDPS may include: a steering angle position control unit configured to compensate a first steering angle error corresponding to the difference between a command steering angle from an autonomous driving system and a first current steering angle from a steering angle sensor, and output a first command current; and a responsiveness improvement unit configured to compensate a second steering angle error corresponding to the difference between the command steering angle and a second current steering angle from a motor, and apply the compensated value to the steering angle position control unit, wherein the steering angle position control unit applies the compensated value to the first command current, and outputs a second command current.

A motor control system includes a first MCU and a second MCU. The first MCU includes an error detection unit, a resolver digital converter, and a first PWM generation unit. The resolver digital converter includes an encoder unit, which generates encoder pulses based on angle information and outputs the encoder pulses to the second MCU. The error detection unit outputs an error signal to the second MCU, when an error is detected in the first MCU. The first MCU controls the resolver digital converter to operate using a backup clock supplied from the second MCU.

A motor vehicle steering system may include an electric motor and a control unit that controls the electric motor. The control unit may have at least two redundant control paths for controlling the electric motor and an asymmetry detection device. The asymmetry detection device may be configured to compare electric current intensities of the at least two redundant control paths and to cause a faulty control path to be interrupted when there is asymmetry. Each of the at least two redundant control paths may include a switching element that is connected to the asymmetry detection device for interrupting the respective redundant control path.

A control device for a vehicle equipped with a steering system including a steering wheel (13), a rack (12) for steering the wheels (4) of the vehicle, and a redundant arrangement for transmitting a displacement of the steering wheel to the rack, wherein upon detecting a failure in the redundant arrangement, the control device sets an upper limit speed to a first value in a first stage, and changes the upper limit speed from the first value to a second value smaller than the first value in a progressive manner in a second stage that follows the first stage.

The present disclosure relates to a method and an apparatus for controlling a steering system, and more particularly, to a method and an apparatus for adjusting an operation mode of a steering system according to the degree by which a steering wheel is stowed or the degree by which the steering wheel is folded.

A vehicle control device includes: an idle-stop controller configured to control an idle-stop function of a vehicle; and an electric power steering controller configured to assist a steering operation with an electric motor. The electric power steering controller is configured such that, when the electric power steering controller detects a failure by diagnosis, the electric power steering controller controls, based on whether vehicle speed related information including vehicle wheel speed information is receivable and based on whether idle-stop related information related to an idle-stop operation is receivable, an assist operation assisting a steering effort while the idle-stop operation is in progress so that the idle-stop operation may be performed. The idle-stop controller is configured to control the idle-stop function of the vehicle even when the electric power steering controller detects the failure by the diagnosis.

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 (α) of the wheels closer to the prescribed relationship with the steering angle (β) 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).