Patent application number | Description | Published |
20130002463 | ANALOG-DIGITAL CONVERTER - A differential analog-digital converter is provided. The converter comprises a decision unit for evaluating a potential difference between two input signal lines, a number of charging units for each input signal line each configured to add a predetermined charge onto the respective input signal line, a number of discharging units for each input signal line each configured to remove a predetermined charge from the respective input signal line and a control unit for selectively switching each of the charging units and discharging units so that depending on one result of evaluating the potential difference between the two input signal lines one of the input signal lines is charged by adding the predetermined charge of the respective switched charging unit while the respective other of the input signal lines is discharged by removing the predetermined charge of the respective switched discharging unit. | 01-03-2013 |
20130002465 | Analog-Digital Converter - A differential analog-digital converter is provided. The converter comprises a decision unit for evaluating a potential difference between two input signal lines, a number of charging units for each input signal line each configured to add a predetermined charge onto the respective input signal line, a number of discharging units for each input signal line each configured to remove a predetermined charge from the respective input signal line and a control unit for selectively switching each of the charging units and discharging units so that depending on one result of evaluating the potential difference between the two input signal lines one of the input signal lines is charged by adding the predetermined charge of the respective switched charging unit while the respective other of the input signal lines is discharged by removing the predetermined charge of the respective switched discharging unit. | 01-03-2013 |
20130082181 | NANO-TIP SPACERS FOR PRECISE GAP CONTROL AND THERMAL ISOLATION IN MEMS STRUCTURES - A THz radiation detector comprising a vertical antenna separated from a suspended platform by an isolating thermal air gap for concentrating THz radiation energy into a smaller suspended MEMS platform upon which a thermal sensor element is located. THz photon energy is converted into electrical energy via a thermally isolated air gap between plates of a coupling capacitor separated by a plurality of nano-tip spacers that determine the gap distance. The capacitor couples energy from the antenna to the thermal sensor. | 04-04-2013 |
20130082345 | Hybrid FPA for Thz imaging with an antenna array, coupled to CMOS-MEMS thermal sensors, implementing per-pixel ES actuation and enabling tuning, correlated double sampling and AM modulation - A THz radiation detector comprising a vertical antenna separated from a suspended platform by an isolating thermal air gap for concentrating THz radiation energy into a smaller suspended MEMS platform upon which a thermal sensor element is located. THz photon energy is converted into electrical energy via a thermally isolated air gap between plates of a coupling capacitor that couples energy from the antenna to the thermal sensor. The capacitor plates used for capacitive coupling of the received signal realize an electro-static actuator whereby the application of a DC bias varies the coupling capacitor gap. The DC bias causes the actuator to pull the suspended platform close to the antenna to reduce the capacitive gap, increasing the coupling capacitance, to touch the antenna array thus quickly discharging the heat induced in the sensor platform or to perform advanced readout operations, such as amplitude modulation and correlated double sampling. | 04-04-2013 |
20130082855 | ANALOG-DIGITAL CONVERTER - A method and apparatus for operating an analog-digital converter for converting an input signal into a multibit output in one conversion cycle. The method includes loading a capacitor array by applying a given input signal potential, evaluating a sampling potential provided by the capacitor array in a number of consecutive decision steps performed by at least two decision latches and changing the sampling potential by switching the capacitor array for each decision step based on a result of the step of evaluating the sampling potential, where the step of evaluating at least one of the decision latches performs the evaluating for two decision steps. | 04-04-2013 |
20140210553 | Dynamic current source for zero-crossing amplifier units for use in high-speed communication circuits - A zero-crossing amplifier unit for use in high speed analog-digital-converters. A gain stage compares a sampling voltage at an input node with a provided threshold voltage to obtain a gain stage output signal. A voltage controlled current source provides a load current depending on a time window between an initial slope and an end slope of the gain stage output signal. A slope control means increases a duration of a rise and/or fall time of at least one of the initial and end slopes of the gain stage output signal. | 07-31-2014 |
20140292551 | SAMPLING DEVICE WITH BUFFER CIRCUIT FOR HIGH-SPEED ADCS - A sampling and interleaving stage device for use in an analog-digital-converter and for providing a sampling output signal and an analog-to-digital-converter. The sampling and interleaving stage device for use in an analog-digital-converter, including: a receiving unit having a clock unit with a plurality of clock-driven switches for receiving an input signal; for each of the plurality of clock-driven switches, a first demultiplexer, for receiving the input signal via a clock-driven switch and for providing a number of first demultiplexer outputs; for a first demultiplexer output, at least one storage element for a stored input potential depending on the input signal; and an output demultiplexer for receiving an indication about the stored input potential and for outputting a corresponding sampling output signal to a respective sampling output. | 10-02-2014 |
20150180648 | CLOCK RECOVERY METHOD AND APPARATUS - The invention relates to a phase rotation method for a clock recovery, comprising the steps of: providing a timing estimation value that indicates for each input data symbol at least whether an input data sample has been sampled early or late by a sampling clock signal; generating a phase offset value indicating a phase rotation of the sampling clock signal based on the timing estimation value; modifying the timing function value based on a change of the phase offset value, resulting in the timing estimation value. | 06-25-2015 |