Patent application number | Description | Published |
20080226100 | Microphone Amplification Arrangement and Integrated Circuit Therefor - A microphone amplifier arrangement comprises at least one microphone input connected to a dual output microphone pre-amplifier having an input resistance comprising a first resistance and a second resistance in a first voltage-to-voltage mode of operation, and only the second resistance in a second current-to-voltage mode of operation. A first output is operably coupled to a first feedback path comprising a V2V feedback resistor; and a second output is operably coupled to a second feedback path comprising an I2V feedback resistor. In this manner, the microphone amplifier arrangement is arranged to support both a V2V microphone amplifier and a low-noise I2V microphone amplifier. | 09-18-2008 |
20080303496 | Low Pass Filter Low Drop-out Voltage Regulator - A low dropout voltage regulator is described having a pass device, differential amplifiers, and a feedback loop including a low pass filter. Two differential amplifiers arranged in parallel coupled to the low pass filter in the feedback loop provide a specified and stable DC voltage whose input-to-output voltage difference is low. Improved stability, reduced die area, improved power supply rejection ratio, increased bandwidth, decreased power consumption, and better electrostatic discharge (ESD) protection may result. | 12-11-2008 |
20100029344 | HEADSETS - A detector for detecting the connection of an accessory including a microphone and/or the state of a switch associated with the microphone for a mobile device, wherein the detector comprises a first flag generator for time multiplexing the detection of a signal above a predetermined threshold for each of two comparators, such that for one time period one comparator output is detected and for a second time period the second comparator output is detected to thereby form a first flag; a second flag generator for determining the connection of microphone to thereby generate a second flag; a lookup table for determining the connection of the accessory and/or the state of the microphone switch from the first and second flags. | 02-04-2010 |
20100246858 | AMPLIFIER CIRCUIT - An amplifier circuit comprises differential amplification circuitry comprising an input stage having first and second differential inputs, and an output stage, having respective first and second amplifier components with first and second differential outputs. The first amplifier component of the output stage comprises a first power transistor operably coupled to the first differential output and driven by a first differential output of the input stage, and a third power transistor operably coupled to the first differential output of the amplifier circuit and driven by a second output of the input stage. The second amplifier component comprises a second power transistor operably coupled to the second differential output and driven by a second output of the input stage, and a fourth power transistor operably coupled to the second differential output and driven by the first output of the input stage. Each of the first and second power transistors of the first and second amplifier components is driven in a current mirror arrangement by the respective first and second output of the input stage. | 09-30-2010 |
20130200944 | VOLTAGE SWITCHING CIRCUITRY, INTEGRATED DEVICE AND INTEGRATED CIRCUIT, AND METHOD OF VOLTAGE SWITCHING - A voltage switching circuitry comprises a switching arrangement with a given number N of switches in series between a first terminal receiving a first voltage and a second terminal receiving a second voltage. The first voltage level is higher than the second voltage level, and N is at least equal to 2. A voltage-by-N divider, having N−1 output taps, is arranged to divide the first voltage by N to a scaled down version of the first voltage having a voltage level below voltage max ratings of the switches. The N−1 output taps of the divider are arranged to respectively output N−1 third voltages having respective levels staged below the first voltage level. N−1 max voltage generators generate N−1 fourth voltages, respectively equal to the maximum of the second voltage and of each of the N−1 third voltages. A switch control unit generates N control signals using the N−1 fourth voltages. These N control signals have respective voltage levels staged between the first voltage level and the second voltage level. In addition, each of the N control signals controls one of the switches of the switching arrangement, respectively. | 08-08-2013 |
20150206598 | SAMPLE-AND-HOLD CIRCUIT, CAPACITIVE SENSING DEVICE, AND METHOD OF OPERATING A SAMPLE-AND-HOLD CIRCUIT - A sample-and-hold circuit is provided. The sample-and-hold circuit includes an input one or more dedicated capacitive elements, one or more parasitic capacitive elements connected to said one or more dedicated capacitive elements, an output, a group of switches, and a control unit. The control unit controls said switches so as to interconnect said input, said one or more dedicated capacitive elements, and said output in a cyclic manner in accordance with a sample-and-hold cycle. | 07-23-2015 |
20160061867 | METHOD AND APPARATUS FOR METERING A VOLTAGE SIGNAL - A voltage metering module for metering a voltage signal at least one analogue to digital converter (ADC) component arranged to receive at an input thereof a voltage signal and to generate a digital signal representative of the received voltage signal. The at least one ADC component includes at least one sampling network controllable to sample the received voltage signal for conversion to a digital signal representative of the received voltage signal and at least one compensation network operably coupled in parallel with the sampling network and controllable to sample the received voltage signal such that an input current of the compensation network at least partially compensates for a component of an input current of the sampling network. | 03-03-2016 |
20160077537 | A LOW DROP-OUT VOLTAGE REGULATOR AND A METHOD OF PROVIDING A REGULATED VOLTAGE - A low drop-out voltage regulator, an integrated circuit, a sensor and a method of providing a regulated voltage are provided. The low drop-out voltage regulator comprises a regulated voltage driver for providing the regulated voltage in response to a control voltage, a feedback-loop circuit for generating the control signal such that the regulated voltage driving circuit provides the regulated voltage, and a pull-up circuit for pulling up the regulated voltage to a supply voltage when a difference between the supply voltage and the control voltage is smaller than a predetermined threshold value. In the feedback-loop circuit a first feedback voltage or a second feedback voltage is generated, respectively, on basis of a first ratio and a second ratio between the feedback voltage and the regulated voltage. The second feedback voltage is generated instead of the first feedback voltage when the regulated voltage is pulled-up to the supply voltage. | 03-17-2016 |
20160098050 | VOLTAGE REGULATOR, APPLICATION-SPECIFIC INTEGRATED CIRCUIT AND METHOD FOR PROVIDING A LOAD WITH A REGULATED VOLTAGE - A voltage regulator for digital loads combines a closed loop regulation circuit with an open loop topology. A transistor and a bank of transistors share the same voltage source VDD and gate control current. Each of the bank of transistors is sized to match different current load requirements and one or more may be switched in or out as appropriate when the digital load transitions from one operating mode to another. The regulator has good DC load regulation and unconditional stability regardless of output capacitance. | 04-07-2016 |