Patent application number | Description | Published |
20130147528 | Multiple electrothermal-filter device - During operation of the device, a drive circuit may provide a drive signal having a fundamental frequency to two electrothermal filters (ETFs) having different temperature-dependent time constants. In response to the drive signal, the two ETFs may provide, signals having the fundamental frequency and phases relative to the drive signal corresponding, respectively, to the time constants of the ETFs. Then, phase-shift values of the phases may be measured using a phase detector, and a signal may be output based on the phase-shift values. Note that the signal may correspond to a value that is a function of a temperature of the device. | 06-13-2013 |
20130214952 | Two-stage phase digitizer - An analog-to-digital converter (ADC) is described. This ADC converts an analog signal into a digital value using a two-pass digitization process. In a first operation, coarse digitization is performed by an averaging converter based on a set of references. Then, in a second operation, fine digitization is performed by either another averaging converter or the same averaging converter based on a subset of the set of references that is progressively closer to an instantaneous value of the analog signal. For example, the coarse digitization may be performed by a low-resolution ADC stage and the fine digitization may be performed by a sigma-delta ADC, such as a single-bit sigma-delta ADC. Moreover, the other averaging converter may use dynamic element matching to shuffle reference elements used to generate the subset. In this way, the ADC may provide high resolution with reduced nonlinearity and quantization noise. | 08-22-2013 |
Patent application number | Description | Published |
20090212875 | Oscillator based on thermal diffusion - An oscillator device for generating an oscillator signal, includes a heater arrangement, a first switching element, a temperature sensor, signal process means, and voltage controlled oscillator; an output of the temperature sensor being connected to an input of the signal processing means, and an output of the signal processing means being connected to an input of the voltage controlled oscillator. The first switching element is arranged for receiving the oscillator signal from the voltage controlled oscillator and for providing a heater drive signal to either a first heater element or a second heater element of the heater arrangement based on the oscillator signal. The signal processing means comprise a synchronous demodulator. | 08-27-2009 |
20110050283 | SYNCHRONOUS PHASE DETECTION CIRCUIT - A phase detection circuit arranged as sigma-delta modulator for determining a phase difference between a periodic signal and a reference signal, the periodic signal and the reference signal having a substantially equal frequency, includes: a source input configured to receive the periodic signal whose phase relationship with respect to the reference signal is to be determined; a feedback signal generator configured to provide a feedback signal, the feedback signal and reference signal having substantially the same frequency; a phase difference circuit coupled to the source input node and a second signal input node coupled to the feedback signal generator, and configured to determine an error signal as a function of the phase difference between the periodic signal and the feedback signal; an integrator circuit coupled to the phase difference circuit, configured to receive the error signal and to integrate the error signal to provide an integration signal; a digitizing circuit coupled to the integration circuit, configured to digitize the integration signal; wherein the feedback signal generator is coupled to the digitizing circuit, configured to provide the feedback signal based on the digitized integration signal from the digitizing circuit; and configured to select the phase of the feedback signal from a number of fixed phases, wherein the phase detection circuit is arranged for generating a time-average of the phase of the feedback signal as selected from the plurality of fixed phases. | 03-03-2011 |
20110200070 | ADC, A TEMPERATURE SENSOR, A NON-CONTACT TRANSPONDER, AND A METHOD OF CONVERTING ANALOG SIGNALS TO DIGITAL SIGNALS - An ADC is disclosed which has, as a first stage, a successive approximation converter, or other compensated, direct comparison converter, followed by a sigma delta modulation converter as a second stage. The sigma delta converter may beneficially be a first order modulator. The resulting ADC combines accuracy with low power consumption per conversion, and thus is particularly suited for use in temperature sensors for applications such as RFID transponders. Such a temperature sensor and an RFID transponder are also disclosed. There is also disclosed a method of analog-to-digital conversion, comprising a first successive approximation register or other compensated, direct comparison conversion stage followed by a sigma delta modulation stage, which, further, may be combined with providing a proportional-to-absolute-temperature (PTAT) signal, for low-power, accurate temperature sensing. | 08-18-2011 |
20130154718 | Fully Capacitive Coupled Input Choppers - A method of differential signal transfer from a differential input Vinp and Vinn having a common mode input voltage that can be higher than the power supply voltage by providing an input chopper having Vinp and Vinn as a differential input, providing an output chopper, capacitively coupling a differential output Voutp and Voutn of the input chopper to a differential input of the output chopper, capacitively coupling a clock to the input chopper and coupling the clock to the output chopper, the clock having a first phase and a second phase opposite from the first phase, the first phase being coupled to the gates of the first and second transistors and the second phase being coupled to the gates of the third and fourth transistors, and providing protection of the gates of the first through fourth transistors from excessive voltages. Various embodiments are disclosed. | 06-20-2013 |
20140232456 | Fast-Settling Capacitive-Coupled Amplifiers - Fast-settling capacitive-coupled amplifiers are disclosed. The amplifiers use two Capacitive Coupled paths embedded in a Multipath Hybrid Nested Miller Compensation topology. One path is a direct high frequency path and the other path is a slower stabilization path. This combination results in a flat frequency response to and through the chopper frequency, and a fast settling response. Various exemplary embodiments are disclosed, including operational amplifier and instrumentation amplifier configurations. | 08-21-2014 |