| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324680000 | Including a bridge circuit | 7 |
| 20100315102 | DEVICE FOR QUANTIFYING AN ELECTRIC UNBALANCE AND TOUCH DETECTION SYSTEM INCORPORATING IT - A device for detecting and quantifying an unbalance between first and second electric paths (R, S; S, VPS), particularly for a touch detection system, comprises: (a) comparison means (CC; CD) receiving at respective inputs the first and second paths; (b) variable transfer capacitance means (CPB; CPC) connected to at least one of the paths; and (c) a control unit (UC) connected between the comparison means and the variable transfer capacitance means and adapted to vary the variable transfer capacitance of said variable transfer capacitance means as a function of the result (Q) produced by the comparison means up to compensation of the unbalance. | 12-16-2010 |
| 20100321041 | Determining the dead time in driving a half-bridge - Disclosed is a circuit arrangement for determining a temporal change of an output voltage of a half-bridge circuit during a dead time. In one embodiment, the circuit arrangement includes a first input for applying the output voltage. A capacitive network is provided having a first and a second circuit node capacitively coupled to the input, and having a terminal for a reference potential. A recharging circuit is configured, during the switched-on phase of one of a first and second switching elements, to adjust electrical potentials of the first and second nodes, the electrical potentials each being different from the reference potential. A comparator arrangement is provided that is configured during the dead time to determine a time difference between such times at which the electrical potentials at the first and second node each assume a given potential value, the time difference being a measure for the change with time of the output voltage. | 12-23-2010 |
| 20120274340 | CIRCUIT AND METHOD FOR SENSING A DIFFERENTIAL CAPACITANCE - A circuit and a method for sensing differential capacitance involve using plural storing capacitors to repeatedly sample charges of the differential capacitance in an over-sampling manner, and storing the charges sampled in different transfer rounds into different storing capacitors instead of repeatedly transferring charges for a single storing capacitor, so as to collect charge averages about both inputs and noises and in turn effectively reduce RF interference and source noises. | 11-01-2012 |
| 20130076378 | Integrated capacitance bridge for high-resolution wide-temperature-range capacitance measurement - The present approach is based on the use of an integrated capacitance bridge circuit to measure the capacitance of a device under test. A significant feature of this approach is that the operating point is not the null point of the bridge circuit. Instead, the operating point of the bridge circuit is tuned to be away from the null point. By moving away from the null point, the output signal from the bridge circuit is increased. Preferably, this output signal is substantially larger than the input noise floor of an amplifier connected to the bridge circuit output, while being substantially less than Gν | 03-28-2013 |
| 20130147497 | DETERMINING THE DEAD TIME IN DRIVING A HALF-BRIDGE - Disclosed is a circuit arrangement for determining a temporal change of an output voltage of a half-bridge circuit during a dead time. In one embodiment, the circuit arrangement includes a first input for applying the output voltage. A capacitive network includes a first and a second circuit node capacitively coupled to the input, and having a terminal for a reference potential. A recharging circuit during the switched-on phase of one of a first and second switching elements, adjusts electrical potentials of the first and second nodes, the electrical potentials each being different from the reference potential. A comparator arrangement, during the dead time, determines a time difference between such times at which the electrical potentials at the first and second node each assume a given potential value, the time difference being a measure for the change with time of the output voltage. | 06-13-2013 |
| 20140239981 | LOCATOR - A locator for capacitively sensing an object includes a transmission electrode to which an excitation signal can be applied, a reception electrode, a sensing region in the region of the transmission electrode and the reception electrode, and a measuring device for sensing a capacitance between the transmission electrode and the reception electrode. The locator further includes a processing device for determining the presence of the object in the sensing region if the sensed capacitance differs from a reference capacitance, and a screening electrode that is arranged in the region of the transmission electrode and the reception electrode. The screening electrode is connected to a potential so as to reduce the base capacitance between the transmission electrode and the reception electrode. | 08-28-2014 |
| 20150137833 | OCCUPANCY DETECTION FOR AUTOMATED RECLINER FURNITURE - A system and method for incorporating occupancy-detecting technology into furniture is provided. More particularly, the invention relates to detecting occupancy in a recliner using a sinuous wire detection array incorporated into a seat. Further embodiments of the invention are directed to a system and method for incorporating capacitance detection technology with one or more conductive features of a recliner mechanism. In some aspects, a sensor is provided based on coupling one or more conductive features to a control component of the capacitance detector control component. A controller may determine the corresponding response based on occupancy detection and/or presence detection. A processor may receive information regarding changes in capacitance and determines when a change in voltage satisfies a threshold. Based on a determination of occupancy and/or presence, a variety of corresponding features of the adjustable recliner may be activated. | 05-21-2015 |
