Methods, devices, and systems, for analyzing and managing data generated by a sensor-equipped braking system for vehicles, comprising a support element a block of friction material, at least one sensor interposed between the block of friction material and the support element, comprising at least one central control unit capable of receiving in real time from the sensor means at least the basic data related to one or more of the pressure of the activated braking system, the temperature of the activated braking system, the braking torque, the residual braking torque when the braking system is deactivated, and the wear on the braking system during and after activation thereof. The system can also include one or more auxiliary sensors.

Methods, devices, and systems, for analyzing and managing data generated by a sensor-equipped braking system for vehicles, comprising a support element a block of friction material, at least one sensor interposed between the block of friction material and the support element, comprising at least one central control unit capable of receiving in real time from the sensor means at least the basic data related to one or more of the pressure of the activated braking system, the temperature of the activated braking system, the braking torque, the residual braking torque when the braking system is deactivated, and the wear on the braking system during and after activation thereof. The system can also include one or more auxiliary sensors.

An object of the present disclosure is to further improve waterproofness between an end portion of a wiring member and a resin molded portion. A sensor device includes: a sensor element; a wiring member connected to the sensor element; a resin molded portion that covers the sensor element and an end portion of the wiring member; and an annular elastic member that is interposed between an outer periphery of the wiring member and the resin molded portion.

A vehicle consumables management system includes a consumables remaining amount calculation unit receiving vehicle data including a brake pedal input signal, an outdoor temperature, a driving distance, a wheel velocity, and a wheel speed such as a wheel RPM, and calculating a remaining amount of a tire tread based on the driving distance and the wheel speed, and/or calculating a remaining amount of a brake pad based on at least one of the brake pedal input signal and vehicle acceleration and/or deceleration information, thereby being capable of accurately detecting the remaining amount of the tire tread of the vehicle without assistance of separate inspection equipment, and accurately predicting a wear amount and a remaining amount of the brake pad of the vehicle without additional expensive equipment.

A vehicle consumables management system includes a consumables remaining amount calculation unit receiving vehicle data including a brake pedal input signal, an outdoor temperature, a driving distance, a wheel velocity, and a wheel speed such as a wheel RPM, and calculating a remaining amount of a tire tread based on the driving distance and the wheel speed, and/or calculating a remaining amount of a brake pad based on at least one of the brake pedal input signal and vehicle acceleration and/or deceleration information, thereby being capable of accurately detecting the remaining amount of the tire tread of the vehicle without assistance of separate inspection equipment, and accurately predicting a wear amount and a remaining amount of the brake pad of the vehicle without additional expensive equipment.

A method for estimating a braking force applicable between pad and brake disc by an electric parking-braking system of a vehicle is described. The method may include detecting, by one or more sensors of electric quantities of an electric motor, an electric current delivered to the electric motor and an instantaneous value of an electric voltage for electrically supplying the electric motor, during a parking-braking operation. The parking-braking operation may have a first non-contact stage between a first pair of pads of a first brake caliper and a first brake disc. The parking-braking operation may also have a second contact stage between the first pair of pads of the first brake caliper and the first brake disc.

A method for estimating a braking force applicable between pad and brake disc by an electric parking-braking system of a vehicle is described. The method may include detecting, by one or more sensors of electric quantities of an electric motor, an electric current delivered to the electric motor and an instantaneous value of an electric voltage for electrically supplying the electric motor, during a parking-braking operation. The parking-braking operation may have a first non-contact stage between a first pair of pads of a first brake caliper and a first brake disc. The parking-braking operation may also have a second contact stage between the first pair of pads of the first brake caliper and the first brake disc.

For rapid and precise actuation of a friction brake, the thermal expansion of the friction brake is determined using a thermal model of the friction brake and therefrom the temperature-dependent shift in the contact point is determined for the braking operation and the temperature-dependent shift in the contact point is taken into account when determining the actuation measure of the friction brake to be adjusted.

For rapid and precise actuation of a friction brake, the thermal expansion of the friction brake is determined using a thermal model of the friction brake and therefrom the temperature-dependent shift in the contact point is determined for the braking operation and the temperature-dependent shift in the contact point is taken into account when determining the actuation measure of the friction brake to be adjusted.

An electronic pedal apparatus is configured to perform an electronic pedal function by utilizing a basic configuration and also perform a foldable function by adding some elements to the basic configuration to be usefully used in an autonomous vehicle.