Provided are an apparatus and method for performing rear-wheel regenerative braking control of an ESC integrated regenerative braking system. The apparatus includes: a pedal cylinder unit connected with a reserve unit in which oil is stored and configured to generate an oil pressure as a brake pedal is pressed; a motor driven by an electric signal that is output in response to displacement of the brake pedal; a master cylinder unit connected with the pedal cylinder unit; a control unit configured to perform reverse pressure control on the motor as much as a variation in a rear-wheel regenerative braking force if transition of the rear-wheel regenerative braking force occurs, and perform drive pressure control on the motor if the transition of the rear-wheel regenerative braking force is completed; and oil pressure relief valves provided on oil pressure lines that connect from the reserve unit to wheel cylinders.

A foldable pedal apparatus of a vehicle may have a configuration in which an accelerator pedal assembly and a brake pedal assembly are rotated in a rearward direction from a vehicle body panel and are popped-up to be exposed toward a driver to allow the pedal assemblies to be capable of being controlled when in a situation of manual driving mode, and in which the pedal assemblies are rotated in a frontward direction and are inserted in respective panel grooves of the vehicle body panel so that the pedal assemblies are in a hidden state where exposure thereof toward the driver is blocked to allow the pedal assemblies to be unable to be controlled in a situation of autonomous driving mode where the driver does not directly drive.

A foldable pedal apparatus of a vehicle may have a configuration in which an accelerator pedal assembly and a brake pedal assembly are rotated in a rearward direction from a vehicle body panel and are popped-up to be exposed toward a driver to allow the pedal assemblies to be capable of being controlled when in a situation of manual driving mode, and in which the pedal assemblies are rotated in a frontward direction and are inserted in respective panel grooves of the vehicle body panel so that the pedal assemblies are in a hidden state where exposure thereof toward the driver is blocked to allow the pedal assemblies to be unable to be controlled in a situation of autonomous driving mode where the driver does not directly drive.

To provide a vehicle operating pedal apparatus with a compact space for mounting an angle sensor that detects the angle of rotation of an operating pedal. A vehicle operating pedal apparatus (10) includes: a left support member (20) and a right support member (22) that face each other; an operating pedal (12) that is provided at the upper end with a boss (18), and supported between the left support member (20) and the right support member (22) in such a manner as to be pivotable via a pivot bolt (26) and a collar (29) that are inserted into the boss (18); and an angle sensor (50) configured to detect the angle of rotation of the operating pedal (12). The angle sensor (50) includes: an IC (56) provided on an inner side between the left support member (20) and the right support member (22); and a magnet (58) provided at the upper end of the operating pedal (12), facing the IC (56), to be detected by the IC (56).

A foldable electronic pedal apparatus is proposed. The foldable electronic pedal apparatus has both a foldable function that can pop up and hide the pedal and an electronic pedal function, and can tune necessary pedal effort, stroke, and hysteresis that are different for every kind of vehicle by having a high-load spring module and a hysteresis lever.

An organ-type electronic pedal device includes a high-load spring module and a hysteresis lever. If necessary, the organ-type pedal device enables different pedal efforts, strokes, and hysteresis operating forces to be tuned as required for individual vehicle models by changing the parts of the hysteresis lever.

An electric vehicle with vehicle control systems that are packaged within a specific form factor for improved modularity within the vehicle compartment. Many embodiments incorporate both the steering and braking systems within the said form factor and such systems are connected to other systems of the vehicle by way of electrical connections, thereby controlling the movement of the vehicle in a drive by wire system.

An electric vehicle with vehicle control systems that are packaged within a specific form factor for improved modularity within the vehicle compartment. Many embodiments incorporate both the steering and braking systems within the said form factor and such systems are connected to other systems of the vehicle by way of electrical connections, thereby controlling the movement of the vehicle in a drive by wire system.

The present disclosure relates to a foldable pedal apparatus for a vehicle, and is configured so that in an autonomous traveling situation, an accelerator pedal apparatus and a brake pedal apparatus are slid and moved to the left and the right of a dash panel and hidden, respectively, and therefore, in hidden states of being inoperable by a driver, and in a manual driving mode, the accelerator pedal apparatus and the brake pedal apparatus are slid and moved to be gathered to the center of the dash panel and exposed, respectively, and therefore, in popped-up states of being operable by the driver.

A patient support apparatus includes a base having a length and including a plurality of caster wheels enabling movement of the patient support apparatus across a floor surface. An auxiliary wheel support structure is secured to the base and rotatably supports at least one non-castered auxiliary wheel. A drive mechanism including a motor may be configured to drive the auxiliary wheel. A braking system including at least one brake member may be configured to apply a braking force to decelerate the auxiliary wheel and is movable between a first position wherein the at least one brake member is disengaged from the auxiliary wheel and a deployed position wherein the at least one brake member is frictionally engaged with the auxiliary wheel to restrict rotation of the auxiliary wheel. The braking system may be configured to synchronize the braking forces applied to first and second auxiliary wheels.