Methods and apparatus to calibrate height sensors of a vehicle suspension are described herein. An example method includes measuring a first voltage output of a height sensor coupled to a control arm of a suspension when the control arm is at a first position, associating the first voltage output to the first position of the control arm, measuring a second voltage output of the height sensor when the control arm is at a second position, associating the second voltage output to the second position of the control arm, measuring a third voltage output of the height sensor when the control arm is in a third position, and associating the third voltage output to the third position of the control arm.

Methods, apparatus, systems, and articles of manufacture to determine the load of a vehicle via calibrate a suspension sensor are disclosed herein. An example vehicle described herein includes a force transducer, an actuator coupled to the force transducer, memory including instructions and a processor to execute the instructions to engage the actuator to a bottom surface of a vehicle, apply a first force to the bottom surface via the actuator, determine a first displacement of a first suspension component of the vehicle, and calibrate a first sensor of the vehicle based on the first force and the first displacement.

Systems and method are provided for adjusting a sensor of a vehicle having a suspension. In one example, a method for adjusting a sensor of a vehicle having a suspension system includes obtaining sensor data pertaining to a sensor of the vehicle; determining, via a processor, when the sensor is out of alignment, using the sensor data; and adjusting the suspension system, resulting in an adjustment of the alignment of the sensor, when the sensor is determined to be out of alignment.

Method and apparatus are disclosed for vehicle calibration based upon performance product detection. An example vehicle includes a receiver to receive a wireless signal from a transducer of an performance product that includes characteristics of the performance product. The example vehicle also includes a product controller to authenticate the performance product based upon the wireless signal and send, upon authentication, a calibration instruction that includes the characteristics. The example vehicle also includes an electronic control unit to receive the calibration instruction and adjust a calibration to a target setting based upon the characteristics.

A system and method calculates a vehicle load on a suspension system of a vehicle using a plurality of tilt angle sensors. The angle sensors are attached to the suspension system and configured to measure an angle with respect to gravity. A first angle sensor is configured to measure a first angle. A second sensor configured to measure a second angle. The measured first and second angles are combined to obtain a combined value representative of a vehicle load adjusted for tilt.

Systems and method are provided for adjusting a sensor of a vehicle having a suspension. In one example, a method for adjusting a sensor of a vehicle having a suspension system includes obtaining sensor data pertaining to a sensor of the vehicle; determining, via a processor, when the sensor is out of alignment, using the sensor data; and adjusting the suspension system, resulting in an adjustment of the alignment of the sensor, when the sensor is determined to be out of alignment.

Methods and apparatus to calibrate height sensors of a vehicle suspension are described herein. An example method includes measuring a first voltage output of a height sensor coupled to a control arm of a suspension when the control arm is at a first position, associating the first voltage output to the first position of the control arm, measuring a second voltage output of the height sensor when the control arm is at a second position, associating the second voltage output to the second position of the control arm, measuring a third voltage output of the height sensor when the control arm is in a third position, and associating the third voltage output to the third position of the control arm.

A system for controlling vehicle ride height include a suspension controller. The suspension controller is coupled to a motion sensor attached to a chassis of a vehicle and additional motion sensors each attached to a suspension member of the vehicle that pivots relative to the chassis. The suspension controller receives motion sensor data from the motion sensors and determines relative angular position of each suspension member as a function of motion sensor data received from the motion sensor attached to the chassis and motion sensor data received from the motion sensor attached to the suspension member. The suspension controller adjusts an air suspension based on the relative angular position. Other embodiments are described and claimed.

Methods, apparatus, systems, and articles of manufacture to determine the load of a vehicle via calibrate a suspension sensor are disclosed herein. An example vehicle described herein includes a force transducer, an actuator coupled to the force transducer, memory including instructions and a processor to execute the instructions to engage the actuator to a bottom surface of a vehicle, apply a first force to the bottom surface via the actuator, determine a first displacement of a first suspension component of the vehicle, and calibrate a first sensor of the vehicle based on the first force and the first displacement.

A system for controlling vehicle ride height include a suspension controller. The suspension controller is coupled to a motion sensor attached to a chassis of a vehicle and additional motion sensors each attached to a suspension member of the vehicle that pivots relative to the chassis. The suspension controller receives motion sensor data from the motion sensors and determines relative angular position of each suspension member as a function of motion sensor data received from the motion sensor attached to the chassis and motion sensor data received from the motion sensor attached to the suspension member. The suspension controller adjusts an air suspension based on the relative angular position. Other embodiments are described and claimed.