Patent application number | Description | Published |
20110001492 | CIRCUIT FOR CAPACITIVE TOUCH APPLICATIONS - A circuit for capacitive touch applications comprising
| 01-06-2011 |
20120218210 | USE OF RESISTIVE TOUCH SCREEN AS A PROXIMITY SENSOR - An apparatus and method for the use of a resistive touch screen as a proximity sensor. The touch screen operates in a touch sensing mode and a proximity sensing mode. The proximity sensing mode turns off the touch sensing circuit and uses the equivalent capacitor formed by the top layer of the touch screen with a nearby object to detect proximity. A control circuit selectively connects the touch screen with measurement circuits to perform each of the sensing functions. The control circuit can be implemented with timing based control or an event driven topology. | 08-30-2012 |
20130106629 | MULTI-BIT SUCCESSIVE APPROXIMATION ADC | 05-02-2013 |
20140125413 | INSTRUMENTATION AMPLIFIER WITH RAIL-TO-RAIL INPUT RANGE - A system and method for adjusting a common mode output voltage in an instrumentation amplifier is provided. In one aspect, the common mode output voltage is increased or decreased with respect to the common mode input voltage to enable high amplification of the signal input to the instrumentation amplifier. Moreover, the common mode output voltage can be driven to (or approximately to) a target voltage value such as, but not limited to, half the supply, even if the common mode input voltage is close to supply or ground rail voltage. Thus, a high amplification of the differential input voltage can be obtained and utilized for various applications requiring rail to rail input. | 05-08-2014 |
20140266251 | Semiconductor Device and Method of Direct Measurement and Acquisition of MEMS Employing Sigma-Delta Loop - A semiconductor device measures a state of a MEMS as a first voltage variation at a sensing node. The state of the MEMS includes a capacitance. A first capacitor is coupled between the sensing node and an input of an integrator for transferring the first voltage variation to a second node as a first signal. A second voltage variation is routed through a second capacitor to the second node as a second signal. The integrator integrates the first signal and second signal to provide an integrated signal. An ADC has an input coupled to an output of the integrator and converts the integrated signal to a digital signal representative of the capacitance of the MEMS. A DAC has an input coupled to the output of the ADC. A second capacitor is coupled between an output of the DAC and the sensing node. | 09-18-2014 |
20140327480 | INSTRUMENTATION AMPLIFIER WITH RAIL-TO-RAIL INPUT RANGE - A system and method for adjusting a common mode output voltage in an instrumentation amplifier is provided. In one aspect, the common mode output voltage is increased or decreased with respect to the common mode input voltage to enable high amplification of the signal input to the instrumentation amplifier. Moreover, the common mode output voltage can be driven to (or approximately to) a target voltage value such as, but not limited to, half the supply, even if the common mode input voltage is close to supply or ground rail voltage. Thus, a high amplification of the differential input voltage can be obtained and utilized for various applications requiring rail to rail input. | 11-06-2014 |
20150145535 | CAPACITIVE SENSING INTERFACE FOR PROXIMITY DETECTION - A measuring circuit for a proximity sensor, comprising a charge amplifier in a floating voltage domain that is driven by a square waveform. The output signal is sampled synchronously with the voltage of the floating domain, and demodulated by measuring the voltage steps amplitude. This approach is compatible with a switched capacitor implementation and allows discriminating the capacity signal from the ambient noise; the latter can be evaluated independently. | 05-28-2015 |
20150220209 | TOUCH PANEL CALIBRATION SYSTEM - A readout system for capacitive touch panel, particularly for single-ended capacity sensing matrixes, capable of internally calibrate and equalize the response of its capacity-to-digital converters (CDC). The readout system includes reference lines for interconnecting together different sub-circuits, and measuring the response of CDC in different circuits on common reference capacitors. | 08-06-2015 |