Patent application number | Description | Published |
20080272633 | Apparatus for measuring child seat anchor tension - A child seat anchor apparatus includes at least one sensor for measuring tension exerted on a system including a pair of anchor brackets disposed between the bottom and back cushions of a vehicle seat. In a first mechanization, the anchor brackets are directly coupled to individual sensors mounted on an anchor frame that is bolted to the seat frame. In a second mechanization, the anchor brackets are fastened to an anchor frame that is pivotably mounted on the seat frame, and the anchor frame is additionally coupled to the seat frame through a single sensor responsive to the tension exerted on the anchor frame by the anchor brackets. | 11-06-2008 |
20100192698 | SEAT SENSOR APPARATUS FOR OCCUPANT PRESENCE DETECTION - An occupant presence sensor apparatus disposed in a seat includes first and second substantially non-compliant force translation plates generally parallel to the seating surface of the seat, an elastomeric mat disposed between the first and second force translation plates, and a switch mechanism disposed between the first and second force translation plates within an opening formed in the elastomeric mat. The elastomeric mat includes a distributed array of hollow protuberances that extend toward and contact the force translation plates, and the mat has a stiffness that normally provides a clearance between the switch mechanism and one of the force translation plates. When an occupant of specified or higher weight sits on the seating surface, the protuberances collapse and the force translation plates activate the switch mechanism. | 08-05-2010 |
20110140891 | Electrode for an Occupant Sensing System Having Fault Detection and Method of Operating the Same - An electrode formed of electrically conductive material and configured for use in an occupant sensing system. The electrode includes an antenna portion and a diagnostic portion. The antenna portion is configured to provide an electrical impedance indicative of an occupant presence. The diagnostic loop portion is configured to provide an electrical conductivity indicative of a condition of the electrode. | 06-16-2011 |
20110163767 | OCCUPANT DETECTION SYSTEM AND METHOD - An occupant detection system and method are provided. The system includes a capacitive sensor having an electrode arranged in a seat proximate to an expected location of an occupant for sensing an occupant presence approximate thereto. The capacitive sensor is configured to provide an output indicative of the sensed occupant presence. The system also includes a force sensor arranged within the seat providing an output indicative of a sensed force applied to the seat. The system further includes occupant detection circuitry for processing the capacitive sensor output and force sensor output and detecting a state of occupancy of the seat based on the capacitive sensor output and the force sensor output. | 07-07-2011 |
20120286813 | WINDSHIELD MOISTURE DETECTOR - A system, controller, and method for detecting moisture on a windshield that uses an isolated electrode coupled to a windshield. The isolated electrode is configured to exhibit an electrical impedance indicative of moisture present on a surface the windshield. The controller is configured to determine an electrode impedance value corresponding to the electrical impedance exhibited by the isolated electrode for detecting moisture on the windshield. By using an isolated electrode, the system is simpler and less expensive than other systems that have at least one electrode providing a return path for another electrode. Also, a way to use the isolated electrode for both detecting moisture on the windshield, and heating the windshield is described. | 11-15-2012 |
20140049272 | DUAL ELECTRODE OCCUPANT DETECTION SYSTEM AND METHOD - A dual-electrode occupant detection system configured to determine an occupant presence on a seat assembly. The system includes two electrodes that each generates an electric field in response to an applied excitation signal. The two electrode signals arising therefrom can be measured individually and/or combined to detect more reliably an occupant. Such a configuration advantageously avoids the added expense and complication of an electrode arrangement that relies on an underlying shield layer to reduce electrode signal degradation caused by a seat heater element. | 02-20-2014 |
20140097651 | VEHICLE SEAT OCCUPANT SENSOR AND HEATER DEVICE - A seat occupant sensor and heater device configured for use in a vehicle seat including an occupant detection electrode and a seat heating element. The occupant detection electrode may be configured to capacitively detect and classify a seat occupant in accordance with Federal Motor Vehicle Safety Standard FMVSS-208. The device includes a compressible spacer disposed intermediate to the occupant detection electrode and the seat heating element. The compressible spacer is configured to reduce capacitive coupling between the occupant detection electrode and the seat heating element when uncompressed and increase capacitive coupling between the occupant detection electrode and the seat heating element when compressed. The seat occupant sensor and heater device may exclude a fabric covering on the occupant detection electrode in order to improve sensitivity of the occupant detection electrode in high humidity conditions, i.e. relative humidity near or above 85 percent. | 04-10-2014 |
20150054317 | VEHICLE SEAT OCCUPANT SENSOR AND HEATER ELEMENT - An occupant sensor mat configured to be located proximate to a seating surface of a vehicle seat assembly. The mat includes a sensor electrode formed of conductive material and configured to radiate an electric field in response to an excitation signal for determining an occupant presence proximate to the seating surface. A heater element is configured to underlie the sensor electrode. The heater element is formed of conductive material and configured to radiate heat in response to electrical current for warming an occupant residing on the seating surface. An incompressible spacer is interposed between the sensor electrode and the heater element. The incompressible spacer formed of a material sufficiently flexible for locating proximate to a seating surface, and sufficiently incompressible to prevent a substantial change in capacitive coupling between the sensor electrode and the heater element from before to while an occupant resides on the seating surface. | 02-26-2015 |