| Patent application number | Description | Published |
|---|
| 20080255734 | SYSTEM AND METHOD FOR CONTROLLING A VEHICLE SEAT - A method of controlling a vehicle seat includes determining a trajectory between a first position of the seat and the second position of the seat, determining a torque to move the seat along the trajectory with velocity profile along the trajectory, and applying the torque to the seat to move the seat between the first position and a second position along the trajectory. | 10-16-2008 |
| 20080255788 | Method for calibrating a powered seat - A method of calibrating a powered seat includes storing a first position of at least one seat part in a memory, calculating a second position of the at least one seat part by adding to the first position a difference between a predetermined value of first position and a predetermined value of the second position, and storing the calculated second position in the memory. | 10-16-2008 |
| 20110282495 | MODULAR SEAT ACTUATION CONTROL SYSTEM AND COMMUNICATION METHOD - A seat actuation control system includes at least one seat having a plurality of seat devices and a plurality of control modules interconnected over a communication bus. Each module is associated with a corresponding seat control device and is configured to control its corresponding seat device. Each module includes a processor and a memory coupled to the processor and storing program instructions therein which include receiving a status packet from each of the other control modules over the communication bus, processing the status packet for updating the overall system status, and actuating the seat device based on the overall system status. The program instructions further include determining status of the corresponding seat device, generating a status packet including the status information, and broadcasting the status packet to the other modules over the communication bus. | 11-17-2011 |
| Patent application number | Description | Published |
|---|
| 20090212738 | Battery charging system and method of reducing variation in battery charging cycle count - A battery charging system includes a housing having a plurality of docking stations coupled therewith. A control device is coupled with a battery charging interface of each of the plurality of docking stations, and is configured to reduce variation in charging cycle count among a plurality of batteries configured to dock with the battery charging interfaces. A method of reducing variation in charging cycle count in a system of batteries includes receiving inputs associated with a charging cycle count for each of a plurality of interchangeable batteries docked with a common battery charger, and outputting a battery selection signal based at least in part on the inputs. | 08-27-2009 |
| 20090212744 | System for use in gathering or processing data in a healthcare facility having fleet of mobile workstations - A system for use in gathering and/or processing data in healthcare facilities includes a fleet of mobile workstations, a set of interchangeable batteries for the fleet of mobile workstations and a battery recharging system for the set of interchangeable batteries. The battery recharging system includes a common battery charger and a control device configured to reduce variation in charging cycle count among the batteries at least in part by outputting a battery selection signal in response to comparing charging cycle counts for each of the batteries. | 08-27-2009 |
| 20090261656 | Power system for mobile workstation and method - A power system for a mobile workstation includes a docking station for a removable battery, a power bus, and a power interface having an output interface electrically connected with the power bus. The power system further includes a detector configured to detect user interaction with a removable battery docked with the docking station, and a switching device coupled with the detector and configured to switch the power interface from a first power sourcing mode to a second power sourcing mode receiving power from a back-up battery, in response to detecting user interaction with a removable battery docked with the docking station. | 10-22-2009 |
| 20090276104 | Mobile workstation control system configured for power system and peripheral device control - A control system for a mobile workstation includes a computer readable memory storing a power sourcing algorithm and a data processing algorithm. The control system further includes a power interface having a first input interface and a second input interface, and an output interface configured to supply power from either of the input interfaces to a plurality of computerized devices resident on the mobile workstation. A microprocessor is configured to execute the power sourcing algorithm to switch the power interface from a first power sourcing mode receiving power via the first input interface to a second power sourcing mode receiving power via the second input interface. The microprocessor is further configured to execute the data processing algorithm to control a peripheral device of the mobile workstation in response to inputs received via a data interface. The control system is part of a power system resident on the mobile workstation and operable independently of a plurality of computerized devices also resident on the mobile workstation, and including a primary device such as a computer and a peripheral device. | 11-05-2009 |
| 20090276637 | Power control system for mobile workstation and method - A method of controlling a power system includes receiving a signal indicative of user interaction with a handle of a removable battery, and switching a power interface of the power system from a first power sourcing mode receiving power from the removable battery to a second power sourcing mode receiving power from a back-up battery. An electronic control unit for the power system includes a memory storing computer executable instructions for controlling power sourcing in the power control system, a detector interface configured to receive a signal indicative of user interaction with a removable battery of the mobile workstation and a microprocessor configured by way of executing the computer executable instructions to switch a power interface of the power control system from a first power sourcing mode to a second power sourcing mode. | 11-05-2009 |
