Patent application number | Description | Published |
20080303596 | AMPLIFIER CIRCUIT HAVING AN OUTPUT TRANSISTOR FOR DRIVING A COMPLEX LOAD - An amplifier circuit is disclosed having an output transistor for driving a complex load over a drive frequency range, wherein in the lower part of the range an inductive component of the load dominates and in the upper part the inductive component does not dominate. The amplifier circuit includes a current mirror circuit that is connected upstream of the output transistor and has a shunt path to a second potential, for the purpose of relatively reducing a DC current flowing through the output transistor in comparison with an AC current flowing through the latter. | 12-11-2008 |
20100111222 | Digital Modulation Jitter Compensation for Polar Transmitter - This disclosure relates to clock jitter suppression in digital to analog converter generated pulses for a polar transmitter. | 05-06-2010 |
20120170673 | DIGITAL MODULATION JITTER COMPENSATION FOR POLAR TRANSMITTER - This disclosure is directed towards techniques and methods of suppressing the effect of modulated clock jitter in a digital to analog conversion (DAC) circuit of a polar modulator in a transceiver. A phase locked loop (PLL) in a modulator circuit may introduce a deterministic jitter in DAC generated pulses which may lead to amplitude variations in the DAC generated pulses. The clock jitter may change the duty cycle of the input amplitude to the DAC which may result in a variation of the output of the DAC generated pulse. A digital pre-distortion or digital multiplier circuit may be introduced before the DAC circuit to increase or decrease the DAC amplitude to compensate for the pulse width modulation. | 07-05-2012 |
20120286891 | MIXER CELL, MODULATOR AND METHOD - Embodiments provide a mixer cell, which is implemented to logically combine a data signal with an oscillator signal and a sign signal to obtain a mixer cell output signal based on the logical combination. Further embodiments provide a modulator with a plurality of mixer cells. | 11-15-2012 |
20130194114 | Analog-to-Digital Converter, Signal Processor, and Method for Analog-to-Digital Conversion - An analog-to-digital converter for converting an input signal includes a sigma-delta modulator for receiving an analog modulator input signal and for providing a digital modulator output signal and an interference cancellation loop. The interference cancellation loop includes a digital filter, a digital-to-analog converter, and a signal combiner. The digital filter is configured to amplify the sigma-delta output signal in a frequency band, attenuate the sigma-delta output signal outside the frequency band and a transition band surrounding the frequency band, and provide a filtered digital feedback signal. The digital-to-analog converter is configured to convert the filtered digital signal to a cancellation signal. The signal combiner is configured to combine the input signal with the cancellation signal resulting in the modulator input signal, in order to at least partially cancel interference signal portions within the input signal. | 08-01-2013 |
20140091847 | DIFFERENTIAL DELAY LINE, RING OSCILLATOR AND MOBILE COMMUNICATION DEVICE - A differential delay line includes a series connection of a plurality of differential delay stages. Each differential delay stage includes a first delay element and a second delay element. The first delay element has a first input, a second input and an output. The second delay element has a first input, a second input and an output. The output of the first delay element of an n-th differential delay stage of the plurality of differential delay stages is coupled to an input of the second delay element of an (n+m)-th differential delay stage of the plurality of differential delay stages, wherein m is an even natural number larger than or equal to two. | 04-03-2014 |
20140091866 | RING OSCILLATOR, MOBILE COMMUNICATION DEVICE, AND METHOD - A ring oscillator includes a ring of a plurality of delay elements and a start edge injector for injecting a start edge into the ring. The start edge injector varies an injection point for the start edge in the ring. | 04-03-2014 |
20140266822 | Digital-To-Time Converter and Calibration of Digital-To-Time Converter - A digital-to-time converter (DTC) comprises a gate controller configured to generate a gate enable signal based on first and second digital values so that the gate enable signal has a first enable period and a second enable period for each pair of a first digital value and a second digital value. A gate conditionally passes a main clock signal to a gate output in response to the gate enable signal, the gate thus providing a gated signal at a gate output. A frequency divider generates a frequency divided signal as the output signal of the digital-to-time converter based on the gated signal. The DTC may be calibrated by a time-to-digital converter connected between an input for the main clock signal and an output of a delay element of the DTC. | 09-18-2014 |
20140266837 | REDUNDANT DELAY DIGITAL-TO-TIME CONVERTER - Representative implementations of devices and techniques provide a time delay based on an input value. A digital delay may be generated based on a coarse delay and a fine delay. The coarse delay may be selected based on the input value. The fine delay may be selected from an overlapping set of fine delay intervals, based on the selected coarse delay. In some implementations, a control component may be used to select the fine delay when more than one fine delay interval is indicated. | 09-18-2014 |
20140266848 | BIPOLAR TIME-TO-DIGITAL CONVERTER - Representative implementations of devices and techniques provide bipolar time-to-digital conversion. For example, either a positive time duration or a negative time duration may be converted to a digital representation by a linear time-to-digital converter (TDC). A set of logic functions may be applied to the input of the TDC to provide start and/or stop signals for the TDC. Further, a correction component may be applied to an input or an output of the TDC to compensate for a delay offset of the TDC. | 09-18-2014 |
20150049840 | DIGITAL-TO-TIME CONVERTER AND METHODS FOR GENERATING PHASE-MODULATED SIGNALS - Embodiments of a digital-to-time converter (DTC) and methods for generating phase-modulated signals are generally described herein. In some embodiments, a divide by 2N+/−1 operation on an oscillator signal generates first and second divider signals, the first divider signal is sampled to provide a rising-edge correlated signal, a divider unit output signal is sampled to provide a falling edge correlated signal, and either the second divider signal or a delayed version of the second divider signal is provided as the divider unit output signal. A selection between the rising-edge and the falling-edge correlated signals generates edge signals. A fine phase-modulated output signal is generated based on an edge interpolation between a first and second edge signals. | 02-19-2015 |
Patent application number | Description | Published |
20120286983 | RF DAC With Configurable DAC Mixer Interface and Configurable Mixer - One embodiment of the present disclosure relates to a circuit. The circuit includes a digital to analog converter (DAC) configured to convert a time-varying, multi-bit digital value to a corresponding time-varying output current. The circuit also includes a mixer module downstream of the DAC and comprising a plurality of mixers. A control block is configured to selectively steer output current from the DAC to different mixers of the mixer module. Other techniques are also described. | 11-15-2012 |
20120286984 | Digital-to-Analog Conversion Arrangement with Power Range Dependent D/A Converter Selection - A digital-to-analog conversion arrangement for converting a digital input signal comprises first and second digital-to-analog converters (DACs) having different signal resolutions and a digital-to-analog converter selector for selecting the first DAC or the second DAC if the digital input signal has a power in a first or a second power range, respectively. The digital-to-analog conversion arrangement further comprises an analog signal merger for merging a first analog signal and a second analog signal, the first analog signal being based on a first analog output signal of the first digital-to-analog converter and the second analog signal being based on a second analog output signal of the second analog-to-digital converter. A corresponding method for digital-to-analog conversion of a digital input signal and a computer readable digital storage medium are also described. | 11-15-2012 |
20120326759 | REFERENCE QUANTITY GENERATOR - A reference quantity generator for generating a reference quantity includes a reference source configured to provide a reference source signal, a digitally controlled signal source and a digital controller. The digitally controlled signal source is configured to provide a digitally controlled quantity. The reference quantity is determined based on the digitally controlled quantity. The digital controller is configured to provide a digital control signal to control the digitally controlled signal source to adapt the digitally controlled quantity based on the reference source signal using a feedback. | 12-27-2012 |
20140091959 | RF DAC WITH CONFIGURABLE DAC MIXER INTERFACE AND CONFIGURABLE MIXER - One embodiment of the present disclosure relates to a circuit. The circuit includes a digital to analog converter (DAC) configured to convert a time-varying, multi-bit digital value to a corresponding time-varying output current. The circuit also includes a mixer module downstream of the DAC and comprising a plurality of mixers. A control block is configured to selectively steer output current from the DAC to different mixers of the mixer module. Other techniques are also described. | 04-03-2014 |