| Patent application number | Description | Published |
|---|
| 20080258722 | Sensor Arrangement - Consistent with an example embodiment, devices comprise sensor arrangements with field detectors for detecting components of magnetic fields in planes of the field detectors. The sensor arrangements further include movable objects for, in response to tilting movements, changing at least parts of the components of the magnetic fields in the planes of the field detectors so that the sensor arrangements are made less sensitive to in-plane stray fields by providing the field detectors with saturated field-dependent elements. The movable object may comprise a movable field generator for generating the magnetic field, or the movable object and the field generator may be different objects. The magnetic field is such that the field-dependent element is saturated. The field generator is smaller than the field detector, and the movable object is larger than the field detector, to reduce alignment problems. The movable object has a pivoting point close to the field detector. | 10-23-2008 |
| 20080316801 | Magnetic Memory System Using Mram-Sensor - The invention relates to a Magnetic memory system ( | 12-25-2008 |
| 20090009908 | MAGNETIC ROM INFORMATION CARRIER WITH ADDITIONAL STABILIZING LAYER - The invention relates to a read only magnetic information carrier ( | 01-08-2009 |
| 20090153268 | THIN-FILM BULK-ACOUSTIC WAVE (BAW) RESONATORS - A thin-film bulk acoustic wave (BAW) resonator, such as SBAR or FBAR, for use in RF selectivity filters operating at frequencies of the order of 1 GHz. The BAW resonator comprises a piezoelectric layer ( | 06-18-2009 |
| 20090195904 | MAGNETIC ROM INFORMATION CARRIER - The invention relates to a method of manufacturing a device ( | 08-06-2009 |
| 20090275925 | DEVICE FOR THE CONTROLLED RELEASE OF A SUBSTANCE - An implantable drug delivery system is proposed which does not need internal electronics, but can be activated from outside the body. The system comprises a device ( | 11-05-2009 |
| 20090302837 | NON-LINEAR MAGNETIC FIELD SENSORS AND CURRENT SENSORS - The invention provides a magnetic field sensor or current sensor which can exhibit a substantially linear relationship between the sensor signal and the logarithm of the magnetic field or current. The sensor may be used as a wide dynamic range sensor which can offer a constant relative sensitivity and a uniform SNR over several decades. The design of the sensor device may be implemented in discrete magnetic field sensors or current sensors as well as in integrated current sensors in ICs comprising MRAM modules. | 12-10-2009 |
| 20100039000 | BULK ACOUSTIC WAVE RESONATOR DEVICE - A bulk acoustic wave, BAW, resonator device comprising first and second metal layers ( | 02-18-2010 |
| 20100117612 | DC-TO-DC CONVERTER COMPRISING A RECONFIGURABLE CAPACITOR UNIT - The present invention relates to a configurable trench multi-capacitor device comprising a trench in a semiconductor substrate. The trench has a lateral extension exceeding 10 micrometer and a trench filling includes a number of at least four electrically conductive capacitor-electrode layers. A switching unit is provided that comprises a plurality of switching elements electrically interconnected between different capacitor-electrode layers of the trench filling. A control unit is connected with the switching unit and configured to generate and provide to the switching unit respective control signals for forming a respective one of a plurality of multi-capacitor configurations using the capacitor-electrode layers of the trench filling. | 05-13-2010 |
| 20100321010 | MAGNETIC FIELD SENSOR - A magnetic field sensor assembly ( | 12-23-2010 |
| 20110128111 | PLANAR, MONOLITHICALLY INTEGRATED COIL - The present invention provides a means to integrate planar coils on silicon, while providing a high inductance. This high inductance is achieved through a special back- and front sided shielding of a material. In many applications, high-value inductors are a necessity. In particular, this holds for applications in power management. In these applications, the inductors are at least 5 of the order of 1 μH, and must have an equivalent series resistance of less than 0.1 Ω. For this reason, those inductors are always bulky components, of a typical size of 2×2×1 mm 3, which make a fully integrated solution impossible. On the other hand, integrated inductors, which can monolithically be integrated, do exist. However, these inductors suffer either from low inductance values, or 10 very-high DC resistance values. | 06-02-2011 |
