| Patent application number | Description | Published |
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| 20080231399 | Electromagnetic device with displaceable connections - An electromagnetic switching device for controlling a branch includes, in at least one embodiment, a housing with a length in a longitudinal direction, with a first end side, which is oriented at right angles with respect to the longitudinal direction, and with a second end side, which is opposite the first end side and is oriented at right angles with respect to the longitudinal direction; a control coil, which is arranged in the housing, for actuating an electrical switch with a first and second coil contact; and a first and second connection element, which are arranged partially in the housing. In at least one embodiment, the connection elements are capable of being displaced in the longitudinal direction relative to the housing between a first and a second end position in such a way that they are freely accessible on one of the end sides in the first end position, are freely accessible on the other of the end sides in a second end position, and are electrically connected to the associated coil contacts both in the first end position and in the second end position. | 09-25-2008 |
| 20080238590 | Contactor with conductor channel and load branch circuit with a contactor of this type - A contactor is disclosed, including a housing, which has a mounting side, an operating side, two main connector surfaces and two side surfaces. In at least one embodiment, the operating side lies opposite the mounting side and is connected to the mounting side by way of the main connector surfaces and the side surfaces, wherein the main connector surfaces lie opposite one another and the side surfaces lie opposite one another. The operating side has a raised central area and two edge areas, which border the central area on both sides of the central area, wherein the edge areas border the main connector areas and are connected to the central area by way of an additional connector area in each case. Main terminals, which are connected to load contacts of the contactor, have main receptacle openings into which main conductors can be fed from one of the main connector surfaces in each case. Additional terminals, by which additional conductors can be connected to the contactor, have additional receptacle openings into which the additional conductors can be fed from one of the additional connector surfaces in each case. A conductor channel, which extends from one of the edge areas to the other edge area, is introduced in the central area. A load branch circuit includes a contactor of this type and an additional device. The additional device is mechanically and electrically connected to the contactor to one of the main connector surfaces. At least one additional conductor is clamped in one of the additional terminals facing the additional device and is fed through the conductor channel. | 10-02-2008 |
| 20090325423 | Adapter for a main current path tap of a switching device - At least one embodiment of the invention relates to an adapter for producing an electrically conductive connection between at least one main current path of a switching device and an evaluation unit for determining the state of a protective apparatus, which is connected upstream of the switching device. In order to make it possible to monitor a protective apparatus which is connected upstream of the switching device with minimum wiring complexity, at least one embodiment of the invention proposes an adapter for producing an electrically conductive connection between at least one main current path of a switching device and an evaluation unit for determining the state of a protective apparatus which is connected upstream of the switching device, wherein the adapter can be connected mechanically to the switching device and has contact interfaces for connection of the evaluation unit. As a result of the direct evaluation of the switching state of the protective organ on the switching device, the wiring which until now has been necessary for an additional auxiliary switch on the protective device is dispensed with, a possible fault source also being minimized with the wiring complexity. | 12-31-2009 |
| 20100127805 | PRODUCTION METHOD FOR AN ELECTROMAGNETIC SWITCHING DEVICE HAVING PARTITION WALLS BETWEEN PRIMARY AND AUXILIARY CONTACTS AND AN ELECTROMAGNETIC SWITCHING DEVICE PRODUCED ACCORDING TO THE PRODUCTION METHOD - In one embodiment of the present invention, a production method for an electromagnetic switching device includes the following steps in the sequence listed: producing a one-piece switching chamber, producing a contact bridge carrier and equipping the contact bridge carrier with movable contact bridges, wherein the contact bridges include a plurality of primary contact bridges and at least one auxiliary contact bridge; inserting the contact bridge carrier equipped with the movable contact bridges into the switching chamber; inserting partition elements into the switching chamber so that each partition element is arranged between a bridge contact point of one of the primary contact bridges and a bridge contact point of one of the auxiliary contact bridges, and equipping the switching chamber with fixed primary counter-contact points; fixing primary covers to the switching chamber so that the primary covers cover the primary counter-contact points and fix the partition elements in the switching chamber. | 05-27-2010 |
| Patent application number | Description | Published |
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| 20090010059 | Memory Arrangement, Particularly for the Non-Volatile Storage of Uncompressed Video and/or Audio Data - When recording uncompressed video and/or audio data using a digital video recorder, there is the need for a robust memory arrangement based on non-volatile, integrated circuits which is able to be fitted directly on the video camera without a long external cable connection and which is also able to be used for shots under difficult conditions, particularly action shots. The inventive memory arrangement involves the use of a number of non-volatile memory chips which are connected together with a favorable level of circuit complexity. To be able to cope with the high data rate for the incoming video and/or audio data, a plurality of parallel supply buses are provided. Each supply bus has an associated number of memory chips. In this case, the memory word length of the memory chips is greater than the bus width of a data/address bus. A supply bus with high-quality multiplexing has a respective associated number of demultiplexer/driver circuits which match the bus width of the supply bus to the memory word length of the memory chips. There are respectively as many downstream memory chips per demultiplexer/driver circuit as prescribed by a value X, the value X being limited by the memory technology used, namely by the maximum number of circuits which can be connected, also called the “fan-out” value. The memory chips used are preferably NAND Flash EPROM memory chips. | 01-08-2009 |
| 20090142040 | Method and device for recording of frames - The invention is related to a method and a device for recording of frames. | 06-04-2009 |
| 20100318689 | Device for real-time streaming of two or more streams in parallel to a solid state memory device array - Device for real-time streaming to an array of solid state memory device sets, said device comprising receiving means for receiving data from data streams of individual data rate in parallel, an input cache for buffering received data, a bus system for transferring data from the input buffer to the solid state memory device sets, and a controller adapted for using a page-receiving-time t_r, a page-writing-time wrt_tm, the data amount p and the individual data rates for dynamically controlling the bus system such that data received from the first data stream is transferred to solid state memory device sets comprised in a first subset of said array of solid state memory device sets, only, and data received from the at least a second data stream is transferred to solid state memory device sets comprised in a different second subset of said array of solid state memory device sets, only. | 12-16-2010 |
| 20100332891 | METHOD AND APPARATUS FOR DEALING WITH WRITE ERRORS WHEN WRITING INFORMATION DATA INTO FLASH MEMORY DEVICES - For writing, flash memory devices are physically accessed in a page-oriented mode, but such devices are not error-free in operation. According to the invention, when writing information data in a bus write cycle in a sequential manner into flash memory devices assigned to a common data bus, at least one of said flash memory devices is not fed for storage with a current section of said information data. In case an error is occurring while writing a current information data section into a page of a current one of said flash memory devices, said current information data section is written into a non-flash memory. During the following bus write cycle, while the flash memory device containing that defective page is normally idle, that idle time period is used for copying the corresponding stored section of said information data from said non-flash memory to a non-defect page of that flash memory device. | 12-30-2010 |
| 20110102636 | Solid state memory with reduced number of partially filled pages - The invention concerns a solid state memory, comprising multiple logical units. The solid state memory contains an internal buffer for temporarily storing the incoming data steam before the incoming data are programmed to at least one page. The internal buffer keeps data that are not yet programmed in case a switch from one logical unit to another is performed. A method for operating such a device is presented. | 05-05-2011 |
