Abstract: A method of calculation a vehicle load comprising calculating a first vehicle load value based at least on air pressures in air springs and height data of suspension of a vehicle axle, determining a second vehicle load value based on a change of track width of the vehicle axle, and calculating the vehicle load based on the first vehicle load value and the second vehicle load value.

Abstract: A method of calculation a vehicle load comprising a first vehicle load value based at least on air pressures in air springs and height data of suspension of a vehicle axle, determining a second vehicle load value based on a change of track width of the vehicle axle, and calculating the vehicle load based on the first vehicle load value and the second vehicle load value.

Abstract: A method for the treatment of air of a compressed air system for a motor vehicle, the compressed air system comprising an air compressor, an air dryer and an ambient temperature sensor, wherein an exchange operation of a system air volume is performed by the air compressor, wherein during the exchange operation a part of the system air from the compressed air system is released into the surroundings and ambient air is filled into the compressed air system. The method includes determining a current ambient temperature value (TU) using the ambient temperature sensor, checking a first condition, whether or not the current ambient temperature value (TU) is lower than a temperature limit value (TG), and performing the exchange operation to lower the dew point of the system air by the air dryer if the first condition is satisfied.

Abstract: A method for the treatment of air of a compressed air system for a motor vehicle, the compressed air system comprising an air compressor, an air dryer and an ambient temperature sensor, wherein an exchange operation of a system air volume is performed by the air compressor, wherein during the exchange operation a part of the system air from the compressed air system is released into the surroundings and ambient air is filled into the compressed air system. The method includes determining a current ambient temperature value (TU) using the ambient temperature sensor, checking a first condition, whether or not the current ambient temperature value (TU) is lower than a temperature limit value (TG), and performing the exchange operation to lower the dew point of the system air by the air dryer if the first condition is satisfied.

Abstract: An air suspension system for a vehicle comprises four corner assemblies, wherein one corner assembly is located at a suspension position corresponding to each of the wheel corners for the vehicle. An air supply unit including a compressor, and an ECU are connected to the corner assemblies. The air supply unit is capable of independently adjusting the corner assemblies from one another. A sensor for measuring jounce/rebound travel for a wheel is associated with each of the corner assemblies and the air suspension system is operable adjust the air pressure at each of the four corner assemblies to provide optimized traction for the vehicle when at least one of the wheels has a predetermined amount of travel.

Abstract: A method of controlling a suspension system for a vehicle which comprises determining a first filter vehicle height based upon a signal from at least one sensor located at a rear axle of the vehicle at a first time. A second filter vehicle height is determined based upon a signal from the at least one sensor located at the rear axle of the vehicle at a second time. The difference between the first filter signal and the second filter signal is compared to a forklift threshold and the suspension system is placed in forklift mode when the difference between the first filter signal and the second filter signal exceeds the forklift threshold.

Abstract: A method of controlling a suspension system for a vehicle which comprises determining a first filter vehicle height based upon a signal from at least one sensor located at a rear axle of the vehicle at a first time. A second filter vehicle height is determined based upon a signal from the at least one sensor located at the rear axle of the vehicle at a second time. The difference between the first filter signal and the second filter signal is compared to a forklift threshold and the suspension system is placed in forklift mode when the difference between the first filter signal and the second filter signal exceeds the forklift threshold.

Abstract: A method for controlling or regulating a level control system for a motor vehicle including a compressed air source, at least one air spring, a switchable directional control valve associated with the air spring and a master line connecting the compressed air source to the switchable directional control valve. The switchable directional control valve blocking the master line in a normal state thereof and connecting the master line through for filling the air spring in a switching state thereof. The master line is filled with compressed air before filling the air spring until the air pressure in the master line is at least equally as high as a predetermined threshold value, and only thereafter is the switchable directional control valve transferred into the switching state for filling the air spring. A level control system for a motor vehicle is also provided.

Abstract: A method for controlling or regulating a level control system for a motor vehicle including a compressed air source, at least one air spring, a switchable directional control valve associated with the air spring and a master line connecting the compressed air source to the switchable directional control valve. The switchable directional control valve blocking the master line in a normal state thereof and connecting the master line through for filling the air spring in a switching state thereof. The master line is filled with compressed air before filling the air spring until the air pressure in the master line is at least equally as high as a predetermined threshold value, and only thereafter is the switchable directional control valve transferred into the switching state for filling the air spring. A level control system for a motor vehicle is also provided.

Abstract: The invention is directed to a method for operating a level control system of a motor vehicle which includes: a control apparatus, sensors for the direct or indirect determination of the distance of the vehicle chassis to the axles of the vehicle wheels; and, actuators for adjusting the distance of the vehicle chassis to these wheel axles. In the method, the control apparatus checks in a desired-actual comparison based on determined measured values whether the inclination of the vehicle chassis exceeds predetermined limit values. When these limit values are exceeded, one or several of the actuators are actuated in order to obtain a level compensation in the sense of a horizontal alignment of the vehicle chassis. To avoid a turnover of the vehicle (1) in an operating situation on a slope (2), the level compensating control activity is prevented by the control apparatus when the vehicle (1) is disposed in a slope and slant position (angles ?, ?) which is impermissible for vehicle safety.

Abstract: The invention is directed to a method for operating a level control system of a motor vehicle which includes: a control apparatus, sensors for the direct or indirect determination of the distance of the vehicle chassis to the axles of the vehicle wheels; and, actuators for adjusting the distance of the vehicle chassis to these wheel axles. In the method, the control apparatus checks in a desired-actual comparison based on determined measured values whether the inclination of the vehicle chassis exceeds predetermined limit values. When these limit values are exceeded, one or several of the actuators are actuated in order to obtain a level compensation in the sense of a horizontal alignment of the vehicle chassis. To avoid a turnover of the vehicle (1) in an operating situation on a slope (2), the level compensating control activity is prevented by the control apparatus when the vehicle (1) is disposed in a slope and slant position (angles &agr;, &bgr;) which is impermissible for vehicle safety.

Abstract: A method controls a level control system in a motor vehicle and the system includes elevation sensors for measuring the distance between the body of the motor vehicle and corresponding axles of the motor vehicle. The level control system controls this distance to a desired level. The method provides for determining the direction of travel of the motor vehicle and correcting the measurement signal of the elevation sensors in a direction toward the desired level when there is a rearward travel of the motor vehicle.