Patent application number | Description | Published |
20100094503 | VEHICULAR ACTUATOR SYSTEM - An actuator system for determining a relative height differential between a housing of an actuator assembly and a body of the actuator assembly for a vehicle is provided. The vehicle has a suspension wherein the housing is coupled to a first portion of the suspension, and the body is coupled to a second portion of the suspension. The system comprises a sensor coupled to the inside of the housing, and a target coupled to the outside of the body, the sensor and the target cooperating to form a magnetic field that varies in a manner indicative of the distance therebetween. | 04-15-2010 |
20100123568 | SUSPENSION HEIGHT SENSOR - A system is provided for determining a distance between a first portion of a vehicular suspension assembly and a second portion of the suspension assembly. The system comprises a transceiver coupled to the first portion for emitting a first signal toward the second portion, and for receiving a reflection of the first signal from the second portion, and a processor coupled to the transceiver for determining the distance between the first portion and the second portion. | 05-20-2010 |
20100125389 | HEIGHT SENSING SYSTEM FOR A VEHICULAR SUSPENSION ASSEMBLY - A system is provided for determining a distance between a vehicular suspension assembly and the ground, wherein the suspension assembly has a first member. The system comprises a first transceiver coupled to the first member for emitting a first interrogation signal toward the ground, and for receiving a first reflection of the first interrogation signal from the ground, and a processor coupled to the first transceiver for determining the distance of the first transceiver from the ground. | 05-20-2010 |
20100152969 | ACTIVE SUSPENSION SYSTEM FOR A VEHICLE AND METHOD OF OPERATING THE SAME - An active suspension system and method for controlling the height of a vehicle. In an exemplary embodiment, the active suspension system receives information from one or more input sources, including both internal and external vehicle inputs, and uses that information to actively control the vehicle height. By doing so, the active suspension system can reduce aerodynamic drag on the vehicle and improve the vehicle's fuel economy, ride comfort, handling, and other aspects of operation. Some examples of external vehicle inputs that may be used include: short-range road and vehicle information, as well as long-range traffic, road and route information. | 06-17-2010 |
20100219641 | HARVESTING ENERGY FROM VEHICULAR VIBRATIONS - An energy harvesting apparatus is deployed on a vehicle and comprises a vehicular shock absorber capable of reciprocating translational movement in response to roadway perturbations. A coil is mounted within the shock absorber. An engine is also mounted within the shock absorber for converting the translational movement into rotational movement. A magnet is coupled to the engine and is configured to be rotated in the vicinity of the coil to produce electrical energy in the coil. | 09-02-2010 |
20100219720 | HARVESTING ENERGY FROM VEHICULAR VIBRATIONS USING PIEZOELECTRIC DEVICES - An energy harvesting apparatus for deployment on a vehicle having a frame includes a spring assembly coupled to the frame and configured for compressions and extensions during vehicle travel. A piezoelectric device is mounted on the spring assembly for generating electrical energy in response to the strain imposed thereon. A rectifier is coupled to the piezoelectric device for converting AC electrical energy to DC. | 09-02-2010 |
20100219721 | HARVESTING ENERGY FROM VEHICULAR VIBRATIONS USING PIEZOELECTRIC DEVICES - An energy harvesting apparatus, for deployment on a vehicle, comprises a shock absorber, including a dust tube assembly, a jounce bumper assembly mounted within the dust tube assembly at a first end thereof, and a damper tube mounted for telescopic movement through a second end of the dust tube, the jounce bumper assembly configured for impact with the damper tube. A piezoelectric device is coupled to the jounce bumper assembly. | 09-02-2010 |
20100219798 | HARVESTING ENERGY FROM VEHICULAR VIBRATIONS - An energy harvesting apparatus, for deployment on a vehicle, comprises a vehicle shock absorber including a dust tube, and a damper tube telescopically mounted within the dust tube and configured for oscillating translational movement with respect thereto. A magnet is fixedly coupled to one of the dust tube or the damper tube, and a coil is fixedly coupled to the other of the dust tube or the damper tube to achieve relative translational movement between the magnet and the coil to induce a current in the coil. | 09-02-2010 |
20100225527 | SYSTEM AND METHOD FOR MEASURING A RELATIVE DISTANCE BETWEEN VEHICLE COMPONENTS USING ULTRA-WIDEBAND TECHNIQUES - A system for measuring relative distance between a first component on a vehicle and a second component on the vehicle is provided. The system includes a wireless ultra-wideband (UWB) transceiver attached to the first component. The wireless UWB transceiver transmits a UWB measurement pulse toward the second component, and receives a reflected UWB pulse from a reflective surface of the second component. The reflected UWB pulse represents a reflected version of the UWB measurement pulse. The system also includes a processor coupled to the wireless UWB transceiver. The processor derives a relative distance between the first component and the second component, based upon characteristics of the UWB measurement pulse and the reflected UWB pulse. The system further includes a power generating system for the wireless UWB transceiver. The power generating system generates operating voltage for the wireless UWB transceiver from kinetic energy associated with motion of the first component relative to the second component. | 09-09-2010 |
20100250065 | AUTOMOTIVE SYSTEMS AND METHODS OF OPERATING VEHICLES - Automotive systems and methods for operating vehicles are provided. In an embodiment, when a speed sensor senses that the vehicle speed is above a first speed threshold and an ambient light sensor senses that an ambient light intensity is below a first intensity threshold, a controller provides a first command to a suspension system to lower a first end of a vehicle body to a second front trim height position relative to a horizontal plane, where the second front trim height position is below a first front trim height position, and to lower the second end of the body to a second rear trim height position relative to the horizontal plane, where the second rear trim height position is below a first rear trim height position. | 09-30-2010 |
20110084503 | SELF-POWERED VEHICLE SENSOR SYSTEMS - A vehicle system is provided. The vehicle system includes a vehicle suspension apparatus configured for movement during vehicle travel; an energy harvesting device mounted on the vehicle suspension apparatus and configured to generate electrical energy in response to the movement of the vehicle suspension apparatus; and a sensor mounted on the vehicle suspension apparatus and coupled to the energy harvesting device for receiving the electrical energy. | 04-14-2011 |