Patent application number | Description | Published |
20090059673 | Method of Operating an Integrated Circuit for Reading the Logical State of a Memory Cell - In an embodiment of the invention, a method of operating an integrated circuit for reading the logical state of a selected one of a plurality of memory cells included within a memory cell string in the integrated circuit is provided. | 03-05-2009 |
20090185425 | Integrated Circuit Having a Memory Cell Arrangement and Method for Reading a Memory Cell State Using a Plurality of Partial Readings - Embodiments of the invention relate generally to an integrated circuit having a memory cell arrangement and a method for reading a memory cell state using a plurality of partial readings. In an embodiment of the invention, an integrated circuit having a memory cell arrangement is provided. The memory cell arrangement may include at least one memory cell, the memory cell being capable of storing a plurality of memory cell states being distinguishable by a predefined number of memory cell threshold values, and a controller configured to read a memory cell state of the at least one memory cell using a number of reference levels that is higher than the predefined number of memory cell threshold values, wherein the reading includes a first partial reading using a first set of a plurality of reference levels and a second partial reading using a second set of a plurality of reference levels, wherein the second set of a plurality of reference levels includes at least one reference level which is different from the reference levels of the first set of a plurality of reference levels. | 07-23-2009 |
20090185441 | Integrated Circuit and Method to Operate an Integrated Circuit - Disclosed embodiments relate to integrated circuits, a method to operate an integrated circuit, and a method to determine an electrical erase sequence. More particularly, the application relates to devices having at least two memory cells and methods relating to its operation. | 07-23-2009 |
20090244949 | Memory Device and Method Providing Logic Connections for Data Transfer - In an embodiment, a method for transferring data in a memory device is provided. The method may include transferring data from a first memory cell arrangement including a plurality of memory cells to a second memory cell arrangement including a plurality of memory cells via a connecting circuit arrangement coupled to the plurality of memory cell arrangements and providing a plurality of controllable connections via a plurality of connecting circuit terminals, the memory cell arrangements being connected with at least one connecting circuit terminal of the plurality of connecting circuit terminals, wherein the connecting circuit is configured to provide arbitrarily controllable signal flow connections between the plurality of connecting circuit terminals. The data are transferred via a logic connection using the controllable connections. Simultaneously, a further logic connection may be provided to a memory cell arrangement of the memory cell arrangements using the controllable connections. | 10-01-2009 |
Patent application number | Description | Published |
20090050189 | Motor Vehicle Having a Unit Operated by a Cryogenically Stored Fuel - A motor vehicle having a unit, particularly a drive assembly, which is operated by a fuel that is cryogenically stored in a vehicle tank, is provided, in which fuel is heated by a heat exchange with a warmer medium. The fuel taken from the vehicle tank comes in contact with the cold side of a thermoelectric generator, particularly in the form of a Seebeck element, in order to generate electric current for the electric power supply of the vehicle. The warm side of the thermoelectric generator is preferably acted upon by the warmer medium also used for the heat exchange with the cold fuel, in which case the thermoelectric generator may be integrated in a heat exchanger for the heat exchange between the fuel taken and the warmer medium. | 02-26-2009 |
20090272586 | Vehicle Having a Thermoelectric Generator - A vehicle has a heat-emitting component and a thermoelectric generator, which has a heat-absorbing component thermally coupled with the heat-emitting component, and which generates electric energy from the temperature gradient between the heat-absorbing element and a heat sink. The thermoelectric generator is arranged directly on the heat-emitting component and is connected thereto in a thermally conductive manner. | 11-05-2009 |
20110083831 | Cooling System for a Thermoelectric Power Generator - A cooling system is provided for a thermoelectric power generator and that is arranged in an exhaust gas line of an internal combustion engine for generating electric power while utilizing thermal energy of the exhaust gas. The thermoelectric power generator has its own coolant circuit, which also serves to raise the temperature of the components of the internal combustion engine, the chassis, and/or the transmission or serves to heat the passenger compartment. This offers the added utility gained from a faster temperature rise of transmission lubricants and lubricants of the internal combustion engine, as well as from heating the passenger compartment and the rear axle differential and, thus, offers a reduction of carbon dioxide emissions (CO | 04-14-2011 |
20110095388 | AVALANCHE PHOTODIODE - The invention relates to an avalanche photodiode ( | 04-28-2011 |
20110113767 | Exhaust Gas System for an Internal Combustion Engine - An exhaust gas system for an internal combustion engine has a thermoelectric power generator with a hot side and a cold side. The hot side is arranged on the exhaust gas system and is heatable by exhaust gas of the internal combustion engine. A first heat exchanger having a first thermal conductivity is arranged between the hot side and the exhaust gas flow. At least a second thermoelectric power generator is arranged on the exhaust gas system and has a second heat exchanger with a thermal conductivity that is different from the first thermal conductivity. The arrangement of thermoelectric power generators can generate electric power over a significantly wider operating point range of the internal combustion engine. | 05-19-2011 |
20130319492 | Exhaust Gas System for an Internal Combustion Engine - An exhaust gas system for an internal combustion engine has a thermoelectric power generator with a hot side and a cold side. The hot side is arranged on the exhaust gas system and is heatable by exhaust gas of the internal combustion engine. A first heat exchanger having a first thermal conductivity is arranged between the hot side and the exhaust gas flow. At least a second thermoelectric power generator is arranged on the exhaust gas system and has a second heat exchanger with a thermal conductivity that is different from the first thermal conductivity. The arrangement of thermoelectric power generators can generate electric power over a significantly wider operating point range of the internal combustion engine. | 12-05-2013 |