Patent application number | Description | Published |
20120319677 | DC Decoupled Current Measurement - A circuit arrangement for measuring a load current provided to a load via a first load terminal of a load transistor is disclosed. In accordance with one example of the invention, the circuit arrangement includes a sense transistor coupled to the load transistor to provide a sense current representing the load current at a first load terminal of the sense transistor. The first load terminals of the load and the sense transistors are at respective floating electric potentials. A floating sense circuit coupled between the load terminals of sense transistor and load transistor, at least in one mode of operation the sense circuit receives the sense current and provides a floating signal representing the sense current. A non-floating measurement circuit is coupled to the sense circuit via a DC decoupling capacitor for transferring the floating signal representing the sense current to the non-floating measurement circuit. The measurement circuit is configured to provide an output signal representing the floating signal and thus the sense current. | 12-20-2012 |
20120319878 | Analog-to-Digital Converter - A current input analog-to-digital converter and a corresponding current measurement circuit is disclosed. In accordance with one example of the invention, an analog-to-digital conversion circuit includes a register for storing a digital register value and a digital-to-analog converter that is configured to provide a reference current at a circuit node which is set in accordance to the digital register value. The electric potential of the input node is responsive to the reference current set. A comparator circuit is configured to compare the potential of the circuit node with at least one threshold, thus assessing whether the potential of the circuit node is at least approximately at a desired value. Control circuitry is responsive to the comparator circuit and is configured to adjust the digital register value stored in the register and to adjust the reference current until the comparator indicates that the potential of the circuit node does not deviate from the desired value. | 12-20-2012 |
20130321053 | METHOD AND DEVICE FOR SAMPLING AN INPUT SIGNAL - In accordance with various embodiments, a method for sampling an input signal may be provided, wherein the method may include providing a single frequency clock signal; selecting clock pulses from the single frequency clock signal in a random manner to generate a spread spectrum clock signal; and sampling the input signal using the spread spectrum clock signal. A corresponding device for sampling an input signal may be provided. | 12-05-2013 |
20130343109 | FLOATING BIAS GENERATOR - In various embodiments a circuit is provided which may include a node at which a circuit potential may be provided; an alternating voltage providing circuit configured to provide a DC current free alternating voltage; a rectifier coupled to the alternating voltage providing circuit, the rectifier including a first rectifier terminal and a second rectifier terminal, wherein the first rectifier terminal or the second rectifier terminal may be coupled to the node; and a first output terminal and a second output terminal, wherein the first output terminal may be coupled to the first rectifier terminal to provide a first potential and wherein the second output terminal may be coupled to the second rectifier terminal to provide a second potential different from the first potential, the difference between the first potential and the second potential defining an output voltage, wherein the output voltage may be constant independent of the circuit potential. | 12-26-2013 |
20140002286 | ADC WITH SAMPLE AND HOLD | 01-02-2014 |
20140292307 | DC Decoupled Current Measurement - A circuit arrangement for measuring a load current provided to a load via a first load terminal of a load transistor is disclosed. In accordance with one example of the invention, the circuit arrangement includes a sense transistor coupled to the load transistor to provide a sense current representing the load current at a first load terminal of the sense transistor. The first load terminals of the load and the sense transistors are at respective floating electric potentials. A floating sense circuit coupled between the load terminals of sense transistor and load transistor, at least in one mode of operation the sense circuit receives the sense current and provides a floating signal representing the sense current. A non-floating measurement circuit is coupled to the sense circuit via a DC decoupling capacitor for transferring the floating signal representing the sense current to the non-floating measurement circuit. The measurement circuit is configured to provide an output signal representing the floating signal and thus the sense current. | 10-02-2014 |
20140376292 | FLOATING BIAS GENERATOR - In various embodiments a circuit is provided which may include a node at which a circuit potential may be provided; an alternating voltage providing circuit configured to provide a DC current free alternating voltage; a rectifier coupled to the alternating voltage providing circuit, the rectifier including a first rectifier terminal and a second rectifier terminal, wherein the first rectifier terminal or the second rectifier terminal may be coupled to the node; and a first output terminal and a second output terminal, wherein the first output terminal may be coupled to the first rectifier terminal to provide a first potential and wherein the second output terminal may be coupled to the second rectifier terminal to provide a second potential different from the first potential, the difference between the first potential and the second potential defining an output voltage, wherein the output voltage may be constant independent of the circuit potential. | 12-25-2014 |
20150015281 | RESISTANCE MEASUREMENT - This disclosure describes techniques for measuring the resistance of a component with measurement circuitry that is electrically coupled to the component via one or more electrical conductors (e.g., one or more bond wires). The resistance measurement techniques of this disclosure may measure a resistance of an electrical conductor, and generate a value indicative of a resistance of a component other than the electrical conductor based on the measured resistance of the electrical conductor. The electrical conductor for which the resistance is measured may be the same as or different than one or more of the electrical conductors that the couple the measurement circuitry to the component to be measured. Using an electrical conductor resistance measurement to determine the resistance of a component may improve the accuracy of the resistance measurement for the component. | 01-15-2015 |