Patent application number | Description | Published |
20080284283 | Piezo Stack With Novel Passivation - An electrical passivation of surfaces of an electronic component which have electrodes is intended to be carried out in simple and effective fashion and also to be stable in chemically and thermally unfavourable environments. For the passivation, a plastic film, for example made of epoxy, is laminated onto the surface. Applications are in fuel injection systems, for example. | 11-20-2008 |
20090179527 | CONTACTING MULTILAYER PIEZO ACTUATORS OR SENSORS - A device, especially a piezo stack ( | 07-16-2009 |
20100044889 | Electrical Component and Film Composite Laminated On the Component and Method for Production - At least one film composite is laminated on a surface of at least one electrical component. The film composite includes at least one electrically-conducting plastic film with at least one electrically conducting conductor. The electrically-conducting plastic film has a high-ohmic resistance. This method may be used in planar large-surface electrical contacting technology for the production of modules with power semiconductors, where an electrical contacting of the components is achieved by the plastic films. A low lateral electrical conductivity is achieved, such that an electrical charging of the plastic films required for the contacting technology is prevented on operation of the component or the module. | 02-25-2010 |
20100089633 | Arrangement for Hermetically Sealing Components, and Method for the production thereof - Disclosed is a method for producing a package. According to said method, a substrate is provided, on a surface of which one or several components are disposed, and a hermetically sealing protective layer is formed on the one or several components and on the surface of the substrate. The hermetically sealing protective layer is impermeable to gas, liquid, and electromagnetic waves, temperature-resistant, electrically insulating, and process-resistant. | 04-15-2010 |
20100208438 | Method for the Production and Contacting of Electronic Components by Means of a Substrate Plate, Particularly a DCB Ceramic Substrate Plate - One unhoused electronic component, e.g., a semiconductor power component, has at least one connecting surface disposed on a top side and/or on a bottom side for fastening and/or for electric contacting. One side of the component is attached to and/or electrically contacts a direct copper bonding ceramic substrate, at an opposing connecting surface in the region of the connecting surface. An electrically insulating carrier film is created on the substrate on the side facing the component outside the region of the connecting surface and extending beyond the bottom side. An electrically conducting conductor part is attached to and/or electrically contacts the connecting surface on the top side. A pre-formed, three dimensional structure is formed extending beyond the area of the top side, thus creating an electrically insulating mass between the carrier film and the three-dimensional structure of the conductor part. | 08-19-2010 |
20100289152 | Strip conductor structure for minimizing thermomechanocal loads - A semiconductor chip device including a surface on which at least one electrical contact surface is provided. A foil from an electrically insulating material is applied, especially by vacuum, to the surface and rests closely to the surface and adheres to the surface. The foil, in the area of the contact surface, is provided with a window in which the contact surface is devoid of the foil and is contacted across a large area to at least one layer from an electroconductive material. In at least one embodiment, the layer from the electroconductive material is part of a flexible contact for electrically connecting the contact surface to at least one external connecting conductor. | 11-18-2010 |
20120075826 | PRESSURE SUPPORT FOR AN ELECTRONIC CIRCUIT - A circuit design includes an electrical circuit, which has at least one electronic component attached to a substrate and a flat conductor track electrically contacting the component. An elastic element is provided on the electrical circuit and a device applies a force to the elastic element so that the elastic element is pressed onto the electrical circuit. Thus, crack formation in a solder under the component is prevented. | 03-29-2012 |
20160088778 | Power Converter Arrangement And Method For Producing A Power Converter Arrangement - A three-dimensional arrangement for a power converter device, e.g., an inverter or a rectifier, is provided. The switching elements, activation electronics, the load connections of the power converter device are arranged on a carrier device in such a way that defines especially short conduction paths. The components of the power converter device (e.g., all required components), such as switching elements, control electronics, and load connections, are arranged on a common carrier device. The carrier device is simultaneously used as a cooling device for the entire switching device. The power converter device may thereby achieve particularly efficient performance. | 03-24-2016 |