Patent application number | Description | Published |
20120242288 | CHARGING DEVICE FOR AN ENERGY STORE AND METHOD FOR OPERATING SUCH A CHARGING DEVICE - A charging device for an energy store, e.g., a lithium ion battery in an electric vehicle, may include a circuit for adjusting the charging device in a full charging mode or a parked charging mode, wherein the charging device is set up for producing a fully charged state of the energy store in full charging mode, and for producing a parked charged state of the energy store in parked charging mode, wherein the parked charging state corresponds to a reduced charge state of the energy store. Methods for operating such a charging device, and an electric vehicle having such a charging device, may also be provided. | 09-27-2012 |
20120249076 | ELECTRIC ENERGY STORE HAVING AN INTEGRATED DEEP DISCHARGE DEVICE - An electric energy storage device has a housing, a positive pole and a negative pole, and a deep discharge device integrated in the housing. The device further has a discharge load and it is configured such that the two poles can be electrically connected by way of the discharge load. There is enabled targeted and controlled deep discharging of the energy storage device and improved operating reliability. | 10-04-2012 |
20120275799 | ELECTRIC ENERGY STORAGE SYSTEM FOR A VEHICLE - An electric energy storage system for a vehicle, such as an electric or hybrid vehicle. The energy storage system has multiple electric components and data transmission devices for transmitting data signals between the electric components. Here, the data transmission devices include at least one transmission link for electromagnetic radiation to transmit data signals. | 11-01-2012 |
20120276773 | METHOD FOR CONNECTING CELL OUTGOING CONDUCTORS AND BATTERY ARRANGEMENT - A method for connecting cell outgoing conductors of a first and a second cell. Here, a connection between the first and second cell outgoing conductors is produced by means of a connecting apparatus, which includes a first and a second component. At the same time, however, the first and second components also have the function of pre-bending the cell outgoing conductor of the first and second cells, respectively, in order thus to enable a particularly low physical height of the cell outgoing conductor arrangement. A system according to the invention includes a first and a second cell, which have cell outgoing conductors that are connected and shaped in this way. | 11-01-2012 |
20130089761 | Rechargeable battery cell and battery - A rechargeable battery cell has at least one energy-optimized cell unit and at least one power-optimized cell unit. The power-optimized cell unit is configured in such a way that it can be used to generate a higher power than with the energy-optimized cell unit. The energy-optimized cell unit is configured in such a way that it can be used to store a higher quantity of energy per volume of the energy-optimized cell unit and/or per mass of the energy-optimized cell unit than with the power-optimized cell unit. The at least one energy-optimized cell unit and the at least one power-optimized cell unit are arranged in a common cell housing. | 04-11-2013 |
20130095354 | BATTERY HAVING PASSIVE CORROSION PROTECTION - A battery has two or more individual cells that are connected in series and which, for contacting purposes, each has at least one contact electrode to the positive electrode (cathode) and at least one contact electrode to the negative electrode (anode). The two are made of metals that differ from each other. The contact electrodes to the anode and the cathode have passive corrosion protection at least in the respective contacting region of the contact electrodes. | 04-18-2013 |
20130095368 | ENERGY STORAGE CELL - An energy storage cell has a cell body with an areal expansion in an extension plane, with four side faces bounding a circumference of the area of extent and having each two of the side faces parallel to one another. A conductor electrode and a second electrode are disposed on one of the side faces symmetrically in the direction of the circumference of the extension plane relative to a center of the corresponding side face. A line from a contact point between an inward facing edge of the electrodes to a center point of the extension plane encloses an angle λ of 10°<λ<36° with the corresponding side face. The center of the side face and/or a contact point of an outward facing edge of the electrodes forms an angle β about the center point of the extension plane of 8°<β<45° with the corresponding side face with said center. | 04-18-2013 |
20130122398 | ELECTROCHEMICAL OR ELECTRIC LAYER SYSTEM, METHOD FOR THE PRODUCTION AND USE THEREOF - An electrochemical or electric layer system, having at least two electrode layers and at least one ion-conducting layer disposed between two electrode layers. The ion-conducting layer has at least one ion-conducting solid electrolyte and at least one binder at grain boundaries of the at least one ion-conducting solid electrolyte for improving the ion conductivity over the grain boundaries and the adhesion of the layers. | 05-16-2013 |
20130127421 | ARRANGEMENT AND METHOD FOR SAFELY DISCHARING AN ENERGY ACCUMULATOR - Energy storage arrangement for safely discharging an energy accumulator with electric poles via which the energy accumulator can be at least discharged, an electrically conductive conductor medium in the form of a fluid or fine-grained bulk material or a mixture of both, a reservoir container which is filled with the conductor medium, a collecting container which is provided for accommodating the conductor medium and which encloses the electric poles of the energy accumulator, and a triggerable discharging device, by means of which, in the case of triggering, conductor medium is discharged from the reservoir container into the collecting container such that the electric poles of the energy accumulator are connected to one another in an electrically conductive fashion via the conductor medium. | 05-23-2013 |
20130196196 | BATTERY WITH TEMPERATURE DETECTION, AND USE OF A BATTERY SUCH AS THIS - A battery includes a plurality of flat cells which are electrically connected in parallel and/or in series with one another and which, when disposed next to one another in rows perpendicular to their flat sides, form a substantially prismatic configuration. In order to obtain more accurate information about the state of the individual flat cells during operation of the battery and, for example, to allow such information to be used for matched temperature management, a heat dissipation plate, which is thermally linked to at least one flat side of a plurality of the flat cells and in each of which at least one temperature sensor is integrated, is provided in each case in the configuration. The battery may be used for spatially resolved battery temperature measurement. | 08-01-2013 |