A communication and power transmission module includes a communication connection portion adapted for communicative coupling with an associated controller. A wireless power and communication portion is adapted for communicative coupling with an associated sensing device operatively associated with an associated suspension component and/or an associated wheel. The wireless power and communication portion is operable to communicate wireless data and/or signals to and/or from the associated sensing device and operable to wirelessly transmit power to the associated sensing device. Gas spring assemblies and vehicles including one or more of such communication and power transmission modules are also included.

A wireless active suspension system is disclosed. The system includes at least one sensor mounted to an unsprung mass of a vehicle, the sensor having a low power wireless communication capability, the at least one sensor to send a sensor data transmission. The system also includes a controller in wireless communication with the at least one sensor, wherein the controller receives the sensor data from the at least one sensor and communicates an adjustment command to modify at least one damping characteristic of at least one damper.

A system includes multiple drive modules, each for at least one actuator of a wheel or an axle of a vehicle. Each drive module has a bus interface for connecting to a bus, a switching signal input and a switching signal output. The drive module is configured to operate in an operating mode and a learning mode. The drive module has a switch and is configured to use the switch in the operating mode to conductively connect the switching signal input to the switching signal output and, after a transition from the operating mode to the learning mode, to interrupt the connection between the switching signal input and the switching signal output. The drive modules are connected in series via the switching signal inputs and switching signal outputs.

A method for transmitting information between a motor vehicle and a vehicle-external server. A contour profile of a road to be traveled along by the vehicle, which is stored on the server, is retrieved by the vehicle via a vehicle-server interface. The contour values of the road contour profile lying ahead of the vehicle are cyclically transmitted by the server to the vehicle at a definable interval. A contour value is transmitted per cycle, which lies ahead of the vehicle at a speed-dependent interval. In addition, a chassis system for carrying out the method and a vehicle are provided with the chassis.

The present disclosure relates to a damper system for a vehicle. The damper system may have an electrically adjustable hydraulic shock absorber including a rod guide assembly, a pressure tube, a reserve tube and an electromechanical valve. The electromechanical valve may be disposed in a valve cavity within the shock absorber. An integrated electronic system may be included which has a power drive electronics. The power drive electronics is electrically coupled to the electromechanical valve. The integrated electronic system is disposed along an axis parallel to a longitudinal axis of the pressure tube, and at a location radially outwardly of the pressure tube adjacent the rod guide assembly.

A damper system and method for a vehicle includes a shock absorber and a damper module. The shock absorber includes a plurality of digital valves. The shock absorber is operable at one of multiple damping states based on a valve state of the digital valves. The damper module is coupled to each of the digital valves and controls each of the digital valves to a desired state based on a damper setting. The damper module determines a target damping state, where the target state is one of the multiple damping states. The damper module performs a switch operation to control the valve state of the plurality of digital valves to a given desired state when the target damping state is different from a present damping state.

A wireless active suspension system is disclosed. The system includes at least one sensor mounted to an unsprung mass of a vehicle, the sensor having a low power wireless communication capability, the at least one sensor to send a sensor data transmission. The system also includes a controller in wireless communication with the at least one sensor, wherein the controller receives the sensor data from the at least one sensor and communicates an adjustment command to modify at least one damping characteristic of at least one damper.

A damper system and method for a vehicle includes a shock absorber and a damper module. The shock absorber includes a plurality of digital valves. The shock absorber is operable at one of multiple damping states based on a valve state of the digital valves. The damper module is coupled to each of the digital valves and controls each of the digital valves to a desired state based on a damper setting. The damper module determines a target damping state, where the target state is one of the multiple damping states. The damper module performs a switch operation to control the valve state of the plurality of digital valves to a given desired state when the target damping state is different from a present damping state.

A damper system for a vehicle comprises an electrically adjustable hydraulic shock absorber and a damper control module. The damper control module is disposed with and coupled to with the shock absorber. The damper control module determines a target damping state of the shock absorber based on data received from a plurality of sensors. Furthermore, the damper control module controls the shock absorber, such that the shock absorber operates at the target damping state.

A bumper cap assembly for an electrically adjustable hydraulic shock absorber. The bumper cap assembly includes a printed circuit board assembly and a bumper cap. The printed circuit board assembly includes power drive electronics and is electrically coupled to the shock absorber. The bumper cap defined a gap, wherein the printed circuit board assembly is housed within the gap.