A system for controlling the positions of a caliper and a cable of an electric parking brake (EPB) includes: an actuator driving motor used for engaging and disengaging a parking brake of an EPB system; an electronic control module for controlling the motor; and a vehicle battery for supplying power to the motor and the electronic control module, wherein the electronic control module includes a ripple measuring unit for measuring the ripple of the motor by receiving an output signal of the motor and a current measuring unit for measuring a change in the driving current of the motor.

When detecting a maladjusted brake component on a commercial vehicle, wheel end temperature is determined as a function of resistance measured by a wheel speed sensor at a wheel end. The measured temperature is compared to low and high temperature thresholds defined by a thermal model, as well as to one or more other wheel speed sensor temperatures. If the measured temperature is below the low temperature threshold and substantially different than the one or more other wheel speed sensors, the brake is determined to be under-adjusted and brake force at the under-adjusted brake is increased. If the measured temperature is above the high temperature threshold and substantially different than the one or more other wheel speed sensors, then the brake is determined to be over-adjusted, and brake force is reduced or modulated at the over-adjusted brake to prevent overheating.

A brake handle for emergency braking in an emergency electric brake system is disclosed. The emergency electric brake system may comprise a brake control unit (BCU), an electric braking actuating controller (EBAC), and one or more electromechanical brake actuators (EBA). The brake handle may be in direct electronic communication with the EBAC to allow an independent emergency braking input to the EBAC, thus bypassing the BCU in the event of an emergency braking situation.

A brake handle for emergency braking in an emergency electric brake system is disclosed. The emergency electric brake system may comprise a brake control unit (BCU), an electric braking actuating controller (EBAC), and one or more electromechanical brake actuators (EBA). The brake handle may be in direct electronic communication with the EBAC to allow an independent emergency braking input to the EBAC, thus bypassing the BCU in the event of an emergency braking situation.

An exemplary brake booster device includes, among other things, a brake booster mounted on a vehicle component, and an actuator that, in response to a force applied to the actuator by a gearbox housing, pivots to move the brake booster upward. The actuator includes at least two pivot elements spaced from each other, and a displacement mounted in a jointed manner between the at least two pivot elements.

An exemplary brake booster device includes, among other things, a brake booster mounted on a vehicle component, and an actuator that, in response to a force applied to the actuator by a gearbox housing, pivots to move the brake booster upward. The actuator includes at least two pivot elements spaced from each other, and a displacement mounted in a jointed manner between the at least two pivot elements.

An exemplary brake booster device includes a brake booster mounted on a vehicle component, and an actuator lever that, in response to a force applied to the actuator by a gearbox housing, pivots to move the brake booster upward. An exemplary method includes pivoting an actuator lever about a pivot axis under a force effect in an X direction resulting from a gearbox housing, and, during the pivoting, using the actuator lever apply a force in a Z direction to a module mounted on a bulkhead to alter a position of the module mounted on the bulkhead.

A safety device for vehicles with air brakes that can be attached in conjunction with a parking brake that will provide protection from unintended brake releases due to the parking brake control valve knob being bumped or pushed. The said invented guard can also be locked for security and theft protection.

A safety device for vehicles with air brakes that can be attached in conjunction with a parking brake that will provide protection from unintended brake releases due to the parking brake control valve knob being bumped or pushed. The said invented guard can also be locked for security and theft protection.

Ground vehicle air data systems, and associated methods are disclosed herein. In one embodiment, a method for determining a drag coefficient of a vehicle includes the steps of: while the vehicle is at rest, opening a valve that connects an air tank with an outside atmosphere; while the vehicle is at rest, closing the valve that connects the air tank with the outside atmosphere; and while the vehicle is in motion, measuring a total pressure with a total pressure probe carried by the vehicle.