Patent application number | Description | Published |
20080272735 | Circuit arrangement and method for transferring electrical charge between accumulator arrangement - A circuit arrangement for transferring electrical charge between accumulators of an accumulator arrangement includes a number of first series circuits, each connecting in parallel to one of the accumulators, and each comprising a switching element and an inductive storage element connected in series to the load path of the switching element. The circuit arrangement also includes a further series circuit connected in parallel to the accumulator arrangement and comprising a further switching element having a load path and a control terminal, and a further inductive element connected in series to the load path, the further inductive element being inductively coupled to the inductive elements of the first series circuits. The circuit arrangement also includes a control circuit comprising a number of first control outputs connected to the control terminals of the switching elements of the first series circuits, and a further control output connected to the control terminal of the further switching element. | 11-06-2008 |
20100026429 | Switching Device, High Power Supply System and Methods for Switching High Power - Embodiments of the invention relate to a switching device, a high power supply system and methods for switching high power including a relay and a power semiconductor switch arranged in parallel to the relay. | 02-04-2010 |
20100027303 | Devices and Methods for Converting or Buffering a Voltage - Embodiments of the invention relate to devices and methods for converting or buffering a voltage including an inductor configured to perform at least a primary function and to be reused to contribute to converting or buffering the voltage as a secondary function. | 02-04-2010 |
20110012559 | CIRCUIT ARRANGEMENT AND METHOD FOR TRANSFERRING ELECTRICAL CHARGE BETWEEN ACCUMULATORS OF AN ACCUMULATOR ARRANGEMENT - A circuit arrangement for transferring electrical charge between accumulators of an accumulator arrangement includes a number of first series circuits, each connecting in parallel to one of the accumulators, and each comprising a switching element and an inductive storage element connected in series to the load path of the switching element. The circuit arrangement also includes a further series circuit connected in parallel to the accumulator arrangement and comprising a further switching element having a load path and a control terminal, and a further inductive element connected in series to the load path, the further inductive element being inductively coupled to the inductive elements of the first series circuits. The circuit arrangement also includes a control circuit comprising a number of first control outputs connected to the control terminals of the switching elements of the first series circuits, and a further control output connected to the control terminal of the further switching element. | 01-20-2011 |
20120081928 | Flyback Converter with an Adaptively Controlled Rectifier Arrangement - A flyback converter includes input terminals and output terminals. A transformer with a first winding and a second winding are inductively coupled. A first switching element is connected in series with the first winding and a first series circuit with the first switching element, the first winding being coupled between the input terminals. A rectifier arrangement is connected in series with the second winding and a second series circuit with the rectifier arrangement, the second winding being coupled between the output terminals. The rectifier arrangement includes a second switching element. A control circuit is configured in one drive cycle to switch on the first switching element for a first time period. After the first time period the second switching element is switched on for a second time period. A third time period is determined between an end of the second time period and the time at which the transformer assumes a predetermined transformer state. The control circuit is further configured to adapt the second time period to be applied in a subsequent drive cycle dependent on the second time period applied in the one drive cycle and the third time period is determined in the one drive cycle. | 04-05-2012 |
20120235661 | Controlling a Current Between a Source and a Load - A method for controlling a current between an energy source and a load is disclosed. A switching module is coupled between the energy source and the load. The switching module includes two input terminals coupled to the energy source and two output terminals coupled to the load and at least one semiconductor switching element coupled between one of the input terminals and one of the output terminals. At least one current parameter of the current is measured between the energy source and the load. The current between the energy source and the load is interrupted by switching off the switching element when the at least one current parameter reaches or exceeds at least one predetermined parameter threshold value. | 09-20-2012 |
20130026991 | Power Supply System with Charge Balancing - A power supply system includes a first charge storage. A series circuit with a plurality of n charge storage modules is connected between load terminals. A second charge storage includes load terminals. A charge transfer arrangement includes at least one charge transfer unit coupled between one of the charge storage modules and the load terminals of the second charge storage. The charge transfer arrangement is configured to transfer upon request electrical charge from the one charge storage module to the second charge storage. | 01-31-2013 |
20130114309 | Battery Module - A battery module and an arrangement including a number of battery modules connected in series are disclosed. An energy store has a positive and a negative connection. A boost converter has a first and a second converter output. The energy store is connected at the positive connection of the energy store to a first connection and at the negative connection of the energy store to a second connection. The first converter output is connected to a first compensation connection and the second converter output is connected to a second compensation connection. The converter is designed to draw energy from the energy store and to provide the energy to the converter outputs of the converter in the form of current. | 05-09-2013 |
20140118982 | SWITCH ARRANGEMENTS AND BATTERY ARRANGEMENTS - A switch arrangement may include at least one carrier having a first side and a second side and a plurality of electrically conductive through connections extending from the first side to the second side; a first switch terminal on the first side; a second switch terminal on the second side; a plurality of electronic switching devices arranged on the first side, each electronic switching device comprising a first controlled terminal and a second controlled terminal; wherein each first controlled terminal is connected to the first switch terminal via a respective electrically conductive connection; wherein the electrically conductive connections have substantially the same length; and wherein each second controlled terminal is connected to a respective through connection to connect the second switch terminal. | 05-01-2014 |
20150061382 | CHARGING A CAPACITOR - In one example, a method comprises alternately switching on a first switch connected in series with a capacitor and connected in parallel with a first capacitive element, and a second switch connected in series with the capacitor and connected in parallel with a second capacitive element. Aeries circuit with the first switch, the capacitor and the second switch may be coupled to supply nodes for receiving a supply voltage. | 03-05-2015 |