Patent application number | Description | Published |
20090051401 | CALIBRATION CIRCUIT FOR AN ADJUSTABLE CAPACITANCE - A calibration circuit for calibrating an adjustable capacitance of a circuit having a time constant depending on the adjustable capacitance, the calibration circuit generating a calibration signal for calibrating the capacitance and including a calibration loop, suitable to carry out a calibration cycle in several sequential steps. The calibration circuit includes a controllable capacitance for receiving a control signal and including an array of switched capacitors selectively activated by the control signal to connect to a first common node that conducts a voltage value depending on the total capacitance value of the activated capacitors; an assessment unit for comparing this voltage value with a reference voltage to output a logic signal that can transition between first and second logic levels; a control and timing unit to receive the logic signal and change the control signal to carry out a subsequent calibration step that is provided at the end of the integration interval during a comparison interval of a preset duration, which allows a transition of the logic signal to occur prior to the beginning of the consecutive calibration step. | 02-26-2009 |
20090201083 | AMPLIFIER DEVICE AND SYSTEM USING THE DEVICE - A device comprising: an input for an electric signal; an integrator stage connected to said input to provide an integrated signal; an amplifier stage electrically coupled to the integrator stage to receive said integrated signal and to provide an output signal. The device being characterized in that the integrator stage is such that the integrated signal is obtained by an individual signal integration operation. | 08-13-2009 |
20090212830 | BUFFER DEVICE FOR SWITCHED CAPACITANCE CIRCUIT - An integrated buffer device for a switched capacitance circuit having a buffer with an output for an output voltage dependent upon an input voltage that can be supplied by a source to the buffer device; a capacitive switching component that can be switched between a first and second condition and connected, respectively, to the source and to the buffer to transfer the input voltage onto the output; the capacitive switching component provided with a terminal having an associated stray capacitance; a charging and discharging device configured to pre-charge the stray capacitance at a reference voltage before taking up the second condition and to pre-discharge the stray capacitance before taking up the first condition. | 08-27-2009 |
20100001890 | HIGH SPEED VOLTAGE FOLLOWING DEVICE FOR ANALOG-TO-DIGITAL CONVERSION SYSTEM - A voltage following device is described, for the driving of a sampling network coupleable to an analog/digital converter, comprising at least one first transistor provided with a first terminal to receive an input signal, and a second terminal to provide an output signal to the sampling network which is representative of the input signal translation of an amount equal to a gate and source voltage of said at least one first transistor. The voltage following device having a driving network of said at least one first transistor to keep said gate and source voltage equal to a shift reference voltage. | 01-07-2010 |
20100123612 | ANALOG-TO-DIGITAL CONVERSION CIRCUIT AND DEVICE - An analog-to-digital conversion circuit and device having an input stage arranged to receive an input signal and to provide an output analog signal as a function of the input signal; an analog-to-digital conversion block arranged to receive the output analog signal and to provide a respective output digital signal. The input stage includes a first voltage buffer arranged to provide the output analog signal to the conversion block as the translation of the input signal of an amount equal to a translation voltage; a second voltage buffer arranged to provide a first reference signal to the conversion block that is representative of the translation of a first reference voltage of an amount equal to the translation voltage, so that the conversion block stores the input signal as the difference of the input signal and the first reference voltage regardless of the translation voltage. | 05-20-2010 |
20100141343 | OPERATIONAL TRANSCONDUCTANCE AMPLIFIER HAVING TWO AMPLIFICATION STAGES - An operational amplifier having a first amplification stage with an input terminal to receive a signal to be amplified, and a first output terminal, and a second amplification stage having a first input terminal connected to the first output terminal, and an output terminal to provide the amplified signal. The first and second amplification stages define, between the input terminal and the output terminal, a signal transfer function having first and second poles. The amplifier further includes a decoupling stage having a further input terminal connected to the first stage input terminal, and a further output terminal connected to the second stage output terminal. The decoupling stage is so arranged as to introduce at least one zero in the operational amplifier transfer function. | 06-10-2010 |
20100156535 | INTEGRATED PROGRAMMABLE GAIN AMPLIFIER CIRCUIT AND SYSTEM INCLUDING THE CIRCUIT - An integrated programmable gain amplifier circuit that receives at an input an analog signal, circuit including an operational amplifier and a gain setup network comprising resistive elements and selection elements, which may be controlled in order to setup the gain of the amplifier circuit. The gain setup network further includes capacitive elements, for defining, together with the resistive elements and the operational amplifier, an anti-aliasing filter of the active RC type. | 06-24-2010 |
20110074221 | ELECTRONIC DEVICE FOR REGULATING A VARIABLE CAPACITANCE OF AN INTEGRATED CIRCUIT - The present disclosure relates to an electronic regulation device of a variable capacitance of an integrated circuit having a time parameter depending on the variable capacitance. The regulation device includes a regulation loop, and is configured to generate in output a plurality of binary regulation signals. | 03-31-2011 |
20130208922 | Integrated Amplifier for Driving Acoustic Transducers - The invention relates to an electronic integrated amplifier for driving an acoustic transducer. The amplifier comprises two differential input terminals to receive an input signal and a first and a second output terminal to provide an output signal to the transducer. In addition, the amplifier comprises an operational amplifier having an input end including differential inputs and an output end operatively associated with the first and second output terminals. A pair of input resistors connect the two differential input terminals to two intermediate terminals, respectively. A pair of feedback resistors connect the first and second output terminals to the two intermediate terminals, respectively. The integrated amplifier also comprises means for high-pass filtering the input signal. Such filtering means is characterized in that it comprises an input element interposed between said intermediate terminals and the input end of the operational amplifier, and a feedback element connected between the input end and the output end of the same operational amplifier. | 08-15-2013 |
20130214948 | SINGLE-ENDED TO DIFFERENTIAL BUFFER CIRCUIT AND METHOD FOR COUPLING AT LEAST A SINGLE-ENDED INPUT ANALOG SIGNAL TO A RECEIVING CIRCUIT WITH DIFFERENTIAL INPUTS - A single-ended to differential buffer circuit is is disclosed, adapted to couple at least an input analog signal to a receiving circuit. The buffer circuit comprises an output section comprising a differential amplifier having a first and a second input, a first and a second output. The buffer circuit further comprises an input section comprising a first and a second switched capacitor, each adapted to sample said input analog signal and having a first side and a second side, the first sides of the first and second switched capacitors being controllably connectable/disconnectable to/from said first and second outputs respectively. In the buffer circuit the second sides of said first and second switched capacitors are controllably connectable/disconnectable to/from said first and second inputs of the differential amplifier respectively. Moreover, in the buffer circuit the second sides of the first and second switched capacitors are controllably connectable/disconnectable to/from said second output and said first output respectively. A method for coupling at least a single-ended input analog signal to a receiving circuit with differential inputs is also disclosed. | 08-22-2013 |
20130308795 | INTERFACE CIRCUIT FOR CONNECTING A MICROPHONE CIRCUIT TO A PREAMPLIFIER - An interface circuit is provided that is adapted to connect a microphone circuit to a preamplifier. The microphone circuit has a microphone and at least an output node and the preamplifier has at least an input node connected to the output node by the interface circuit. The interface circuit has at least a decoupling capacitor for DC decoupling the input node from the output node. The decoupling is connected between the input node and the output node. The interface circuit has at least one active circuit, comprising a resistor connected the decoupling capacitor. The resistor acts as part of a resistance multiplier and has an equivalent resistance that together with the decoupling capacitor defines a high-pass filter connected between the microphone and the preamplifier. The interface circuit may also have a biasing circuit connected to the resistor. | 11-21-2013 |
20130314830 | Circuit Protection - An apparatus ( | 11-28-2013 |
20140035665 | Two-Stage Class AB Operational Amplifier - The invention relates to a two stage class AB operational amplifier ( | 02-06-2014 |
20140153746 | Microphone Preamplifier Circuit - A microphone preamplifier circuit ( | 06-05-2014 |
20140218096 | Electronic Device with Body-Biasing Circuit for Portable Equipment with USB Connector For Headset - An electronic USB or similar device | 08-07-2014 |
20150035591 | Low-Noise Reference Voltages Distribution Circuit - A low-noise reference voltages distribution circuit ( | 02-05-2015 |