An electronic parking brake system including: an electronic parking brake provided to generate a clamping force on a wheel of a vehicle; and a controller configured to estimate a weight of the vehicle based on a wheel pressure and a longitudinal acceleration of the vehicle at a time of service braking during driving, determine a clamping force required for parking based on the estimated weight of the vehicle during a parking operation, and operate the electronic parking brake to generate the determined clamping force.

A vehicle includes a main motor for traveling and an electronic control unit that controls the main motor. The electronic control unit is configured to: extract, from time series data of a rotation speed of the main motor, vibration data in a predetermined frequency band that includes resonance frequency of a drive system that includes the main motor; lower an upper limit value of output torque of the main motor from a normal upper limit value to a first upper limit value lower than the normal upper limit value when magnitude of vibration obtained from the extracted vibration data exceeds a first threshold value; and lower the upper limit value of output torque of the main motor to a second upper limit value lower than the first upper limit value when the magnitude of the vibration exceeds a second threshold value larger than the first threshold value.

A vehicle includes a main motor for traveling and an electronic control unit that controls the main motor. The electronic control unit is configured to: extract, from time series data of a rotation speed of the main motor, vibration data in a predetermined frequency band that includes resonance frequency of a drive system that includes the main motor; lower an upper limit value of output torque of the main motor from a normal upper limit value to a first upper limit value lower than the normal upper limit value when magnitude of vibration obtained from the extracted vibration data exceeds a first threshold value; and lower the upper limit value of output torque of the main motor to a second upper limit value lower than the first upper limit value when the magnitude of the vibration exceeds a second threshold value larger than the first threshold value.

A method of determining the temperature of a motor winding of an electric motor, in particular of an electric door drive motor includes determining the electric resistance of the motor winding as a measure for the temperature. The method also includes the steps of providing the electric motor with at least one current sensing resistor and applying an electric voltage to the motor winding.

A vehicle includes: (a) drive wheels; (b) an electric motor serving as a power source for driving the vehicle; (c) a power transmission apparatus configured to transmit a power of the electric motor toward the drive wheels; (d) an electric-insulation-performance determining portion configured to determine an electric insulation performance of an oil supplied to the electric motor and a lubrication required portion of the power transmission apparatus; and (e) a notification portion configured to notify a driver of the vehicle about the electric insulation performance of the oil which is determined by the electric-insulation-performance determining portion.

A method for operating an electrically actuable feed pump in a hydraulic circuit, which draws in fluid from a fluid sump with a normal supplying of fluid. The fluid circulated in the hydraulic circuit can be returned back, and air is sucked in at least partially with an undersupply of fluid. The electric motor is integrated in a control circuit, which is provided with a control unit, which actuates the electric motor based on an actual rotational speed and a setpoint rotational speed with an actuation rotational speed. The evaluation unit compares the actual rotational speed to a reference rotational speed and in particular always with an identical current consumption. The evaluation unit then determines based on the comparison whether a fluid undersupply is present.

Vehicles, systems, and methods for determining a distance travelled are provided. In an exemplary embodiment, a vehicle includes an electric motor with a motor rotor shaft. A motor resolver is positioned adjacent to the motor rotor shaft, where the motor resolver is configured to determine a motor position of the electric motor based on revolutions of the motor rotor shaft. A controller is in communication with the motor resolver, where the controller is configured to determine a distance travelled from a change in the electric motor position.

The present invention relates to a power circuit of an inverter for an electric vehicle, and, more specifically, to a power circuit supplying a high voltage direct current from a high voltage power source to a drive circuit for driving an AC motor for the electric vehicle. In one case, the present invention provides a method of detecting an IGBT short circuit failure or an IGBT open circuit failure during electric vehicle key ON and charging conditions. The method includes the steps of: a) receiving information that a vehicle key has been turned on; b) detecting whether there is an IGBT short circuit failure; c) initiating vehicle failure action if an IGBT short circuit failure is detected, but detecting whether there is an IGBT open circuit failure if IGBT short failure is not detected; d) determining that the vehicle is ready to drive if IGBT short failure was not detected.

An electronic parking brake system including: an electronic parking brake provided to generate a clamping force on a wheel of a vehicle; and a controller configured to estimate a weight of the vehicle based on a wheel pressure and a longitudinal acceleration of the vehicle at a time of service braking during driving, determine a clamping force required for parking based on the estimated weight of the vehicle during a parking operation, and operate the electronic parking brake to generate the determined clamping force.

The present invention relates to a power circuit of an inverter for an electric vehicle, and, more specifically, to a power circuit supplying a high voltage direct current from a high voltage power source to a drive circuit for driving an AC motor for the electric vehicle. In one case, the present invention provides a method of detecting an IGBT short circuit failure or an IGBT open circuit failure during electric vehicle key ON and charging conditions. The method includes the steps of: a) receiving information that a vehicle key has been turned on; b) detecting whether there is an IGBT short circuit failure; c) initiating vehicle failure action if an IGBT short circuit failure is detected, but detecting whether there is an IGBT open circuit failure if IGBT short failure is not detected; d) determining that the vehicle is ready to drive if IGBT short failure was not detected.