A compensation control system is provided for preventing braking inconvenience of a flex brake that compensates for brake hydraulic pressure only for initial braking when a brake mode is forcibly switched, thus allowing a driver to recognize a change in braking force, and thereby improving stability when a vehicle is driven. The control system forcibly switches the brake mode, selected by a driver when a booster system fails, into a normal brake mode, and compensates to reduce the magnitude of brake hydraulic pressure, which is to be reduced when the brake mode is forcibly switched, during initial braking.

A braking assistance apparatus for a vehicle that calculates a first target deceleration of a host vehicle for avoiding a collision based on a relative distance and a relative speed between an obstacle and the host vehicle, calculates a second target deceleration of the host vehicle based on an assist level indicating the risk of the host vehicle colliding with the obstacle and a master cylinder pressure that is a braking operation related quantity, calculates a final target deceleration on the basis of a weighted sum of the target decelerations in which a weight of larger one of the target decelerations is set larger than the other weight so as not to exceed the larger one of the target decelerations, and performs braking assistance by controlling the braking device so that a deceleration of the host vehicle becomes the final target deceleration.

A vehicle control apparatus executes a wheel speed change control to control speeds of first road wheels and a second road wheel to a lower limit wheel speed or more when braking forces are applied to the first and second road wheels, and at least one of the speeds of the first and second road wheels becomes lower than the lower limit wheel speed. A vehicle speed change control executes a first increase-decrease control which alternately executes a first increase control to increase braking forces applied to the first road wheels together and a first decrease control to decrease the braking forces applied to the first road wheels together and (ii) a second increase-decrease control which increases and decreases the braking force applied to the second road wheel.

A park brake system for adjusting a tension in a brake cable that is coupled to a park brake. The park brake system can include a driver that is communicatively coupled to a microcontroller, and an actuator that is rotatably displaceable by operation of the driver. An equalizer assembly can be linearly displaced along the rotating actuator to adjust a tension in the brake cable. The microcontroller can monitor a current being drawn by the driver as the driver is operated, and generate instructions to cease operation of the driver upon the current reaching a predetermined current threshold that corresponds a maximum force that is to be applied by the park brake. The microcontroller can also, when the park brake is being released from a set position, count pulses outputted by an encoder in connection with determining whether the park brake has reached a running clearance position.

A controller in a first vehicle includes an electrical input port adapted to receive a first electrical signal, based on a presence of a first service brake demand associated with a first brake valve on the first vehicle, and a second electrical signal, based on a presence of a second service brake demand associated with a second brake valve on the first vehicle. The controller is capable of determining if at least one of the first electrical signal and the second electrical signal indicates the respective presence of the first service brake demand and the second service brake demand. An electrical output port is adapted to transmit an electrical deceleration signal based on the presence of the at least one of the first service brake demand and the second service brake demand. A speed reducing mechanism on a second vehicle is applied based on the electrical deceleration signal.

The invention has a purpose of improving applicability of a controller and a control method to a vehicle, the controller and the control method executing brake control in which primary information is selectively supplemented by secondary information that is information on an assumed state related to connection and disconnection of a clutch.

The invention includes: a determination section 5A1 that determines whether an actual state and the assumed state, which are related to the connection and the disconnection of the clutch, match each other in accordance with a temporal change in the secondary information; and a brake control section 5A4 that executes the brake control by using the primary information but not the secondary information in the case where the determination section 5A1 determines that the actual state and the assumed state do not match each other.

A brake system has a wheel brake and is operable under a non-failure normal braking mode and a manual push-through mode. The system includes a master cylinder operable by a brake pedal during a manual push-through mode to provide fluid flow at an output for actuating the wheel brake. A first source of pressurized fluid provides fluid pressure for actuating the wheel brake under a normal braking mode. A second source of pressurized fluid generates brake actuating pressure for actuating the wheel brake under the manual push-through mode.

A vehicle brake system and method for increasing the brake pressure in a first wheel brake cylinder and for limiting the brake pressure in a second wheel brake cylinder of a vehicle brake system. The method includes increasing a first brake pressure in the first wheel brake cylinder by controlling/holding a wheel inlet valve in its open state and controlling/holding a first wheel outlet valve in its closed state, and limiting an increase of a second brake pressure in the second wheel brake cylinder during the transfer of brake fluid into the first wheel brake cylinder by controlling/holding a second wheel inlet valve in its closed state and controlling a second wheel outlet valve into its open state. The second wheel outlet valve is controlled with a pulse width-modulated signal so that during the transfer of brake fluid, the second wheel outlet valve is permanently in its open state.

A hydraulic motor vehicle braking system includes an electrical parking brake actuator for generating a brake force on a vehicle wheel. The braking system also comprises a first functional unit comprising at least one first electrical brake pressure generator, by means of which a brake pressure can be generated on respective wheel brakes, and a first control system designed to control the at least one first electrical brake pressure generator for a brake pressure regulation. A second functional unit of the braking system comprises at least one second electrical brake pressure generator, by means of which a brake pressure can be respectively generated on a subset of the wheel brakes, and a second control system which is designed to control the at least one second electrical brake pressure generator for a brake pressure regulation in the event of a failure of the first functional unit.

A brake system for a motor vehicle, comprises a hydraulic brake arrangement and an electric brake arrangement which are designed to be at least partially redundant with respect to one another. In particular, in the event of failure of hydraulic components, a braking demand can be electrically assisted.