Patent application number | Description | Published |
20100170728 | STEERING SYSTEM FOR TRACKED VEHICLES - A steering system for tracked vehicles having two brake circuits which is activated after a failure of the primary steering mechanism. The steering system includes a steering switch (L) that can be controlled by a steering axle which, in the event of primary steering system failure, acts upon the brakes of the vehicle in such a manner that rotation of the steering axle results in a braking action upon a track on the inside of a curve. | 07-08-2010 |
20120217918 | INVERTER - An inverter, particularly for the energy supply of a three-phase motor ( | 08-30-2012 |
20120223664 | POWER SWITCH ARRANGEMENT FOR AN INVERTER - A power switch arrangement ( | 09-06-2012 |
20120229068 | INVERTER - An inverter, particularly for supplying energy to a three-phase motor (3) of a motor vehicle, where the inverter comprises a half bridge ( | 09-13-2012 |
20120240723 | DRIVE TRAIN HAVING AN AUTOMATED AUXILIARY TRANSMISSION - A drive train of a motor vehicle, having a hybrid drive comprising an internal combustion engine and an electric machine, and an automatic group transmission connected between the hybrid drive and an axle drive. The group transmission has at least a main gearing in a countershaft design, having a main shaft and at least one countershaft, a front-mounted group, particularly implemented as a splitter group, upstream in terms of drive technology of the main gearing, and/or a rear-mounted group, particularly implemented as a range group, downstream in terms of drive technology of the main gearing. An input shaft of the group transmission is connected, via a controllable startup clutch, to the internal combustion engine, and an output shaft of the group transmission is connected to the axle drive, and the electric machine of the hybrid drive is connected to the at least one countershaft. | 09-27-2012 |
20120299535 | ELECTRICAL CHARGING SYSTEM - An electrical charging system having a rectifier which is supplied with energy via an input. An inverter whose alternating voltage side is connected, via phase conductors, to windings of a rotating field machine and whose direct voltage side can be connected to an energy accumulator to be charged. A first current path section passes current, supplied by the rectifier, into the charging system via the plus terminal or pole of the rectifier and the rotating field machine to the inverter. The first current path section passes the current via phase windings of the rotating field machine, such that the first current path section comprises a first switch, which can selectively interrupt the first current path section. The charging system can operate, by the first switch and at least one phase winding in the first current path section, as a step-up and step-down converter in the direction toward an energy accumulator. | 11-29-2012 |
20120299543 | ELECTRICAL CHARGING SYSTEM - An electrical charging system for an energy accumulator of a motor vehicle. The electrical charging system comprises a supply input in a conductor system having at least one phase conductor and a neutral line for energy supply from a grid. The charging system also comprises a rotating field machine which, via its phase windings, is operably connected to a rectifier. The rectifier is provided on the other side for connection to the energy accumulator to be charged, the phase windings of the rotating field machine can be either selectively isolated and interconnected such that the charging system is designed for step-up connecter charging operation and step-down charging operation by way of at least one isolated phase winding and, in particular, all the isolated phase windings. | 11-29-2012 |
20130234665 | METHOD FOR CHARGING A TRACTION BATTERY - A method of charging a traction battery, in particular of a motor vehicle, from an external AC power supply system, in particular a three-phase power supply system. The traction battery to be charged is coupled, via an inverter, to an electric alternating-field machine in such manner that the AC power supply can be connected to the phase windings of the alternating-field machine. During a first step, the rotational speed of the alternating-field machine is synchronized with the frequency of the AC power supply, and during a second step, the AC power supply is connected to the phase windings of the alternating-field machine and the inverter, electrically coupled to the alternating-field machine, is operated as a step-up converter. | 09-12-2013 |