Patent application number | Description | Published |
20090142942 | ELECTRICAL DEVICE HAVING A LUBRICATED JOINT AND A METHOD FOR LUBRICATING SUCH A JOINT - An electrical device, particularly a control unit, having at least one joint having a first joining partner, especially a sleeve, and a second joining partner, especially a pin, the joint between the two joining partners having a junction ; at least at the junction an at least partially solidified lubricant being present. Furthermore, in a method for lubricating a joint of an electrical device, the joint having a first joining partner, particularly a sleeve, and a second joining partner, particularly a pin; in a step one of the joining partners being wetted with a lubricant, in a following step the joining partner wetted with the lubricant being joined to the other joining partner and the lubricant subsequently solidifying. | 06-04-2009 |
20090194860 | Chip Housing Having Reduced Induced Vibration - A premold housing for accommodating a chip structure includes a first part of the housing which is connected to the chip structure as well as connected in an elastically deflectable manner to an additional part of the housing which is fastened to the support structure bearing the entire housing. A mechanism is provided for damping the deflection of the first part of the housing which is connected to the chip structure. | 08-06-2009 |
20100019375 | Housing for a semiconductor component - A housing for a semiconductor component, in which the housing has a plurality of pins which are provided at the edge of the housing at distances, the pins each having a width, a thickness and a length. In order to create a housing for a semiconductor component whose characteristic frequencies are outside a range in which the characteristic frequencies of the housing negatively influence the semiconductor component, either at least one of the distances lies outside the range of 1.24 mm to 1.30 mm, at least one of the widths lies outside the range of 0.33 mm to 0.51 mm, at least one of the thicknesses lies outside the range of 0.23 to 0.32 mm, or at least one of the lengths lies outside the range of 2.05 to 4.12 mm. | 01-28-2010 |
20100192689 | Sensor device - A sensor device includes a housing base part, a bearer part, a chip structure situated on the bearer part, and a spring/damper combination via which the housing base part and the bearer part are elastically connected to one another. In the sensor device, the housing base part, the spring/damper combination and the bearer part are situated one over the other. | 08-05-2010 |
20120025863 | SOLDER JOINT INSPECTION - An integrated circuit includes an electronic circuit in a housing and a first contacting device for soldering the circuit to a corresponding second contacting device of a circuit board. The first and second contacting devices are each divided into a first section and a second section, the sections of one of the contacting devices being fixedly electrically connected to each other, and the sections of the other contacting device being selectively connectable to a device for resistance determination. | 02-02-2012 |
20120262681 | MICROMECHANICAL PROJECTION DEVICE AND METHOD FOR MANUFACTURING A MICROMECHANICAL PROJECTION DEVICE - A micromechanical projection device includes: a carrier which has a first, a second, and a third section, the second section being situated between the first and the third sections and having a flexible design; a mirror, which is mounted on the first section; and a light source which is mounted on the third section. The second section is bent in such a way that a light beam from the light source is directable onto the mirror. | 10-18-2012 |
20150360934 | Microelectromechanical system and method for manufacturing a microelectromechanical system - A microelectromechanical system includes a microelectromechanical element and a substrate, in which an element surface of the element and a substrate surface of the substrate is integrally joined with the aid of an eutectic alloy at at least one joint. Also described is a method for manufacturing a microelectromechanical system. | 12-17-2015 |
20150360935 | VERTICALLY HYBRIDLY INTEGRATED ASSEMBLY HAVING AN INTERPOSER FOR STRESS-DECOUPLING OF A MEMS STRUCTURE, AND METHOD FOR ITS MANUFACTURE - A structural concept for a vertically hybridly integrated assembly having at least one MEMS component is provided, whose MEMS structure is developed at least partially in the front side of the component and which is electrically contactable via at least one connection pad on the front side of the component. This structural concept is able to be realized in an uncomplicated and cost-effective manner and allows the largely stress-free mounting of the MEMS structure within the chip stack and also ensures a reliable electrical linkage of the MEMS component to further component parts of the assembly. For this purpose, the structural concept provides for mounting the MEMS assembly headfirst on a further component of the chip stack via an interposer and for electrically linking it to the further component via at least one plated contacting in the interposer. | 12-17-2015 |