Class / Patent application number | Description | Number of patent applications / Date published |
331015000 | Amplitude compensation | 25 |
20090072910 | VOLTAGE-CONTROLLED OSCILLATOR WITH CONTROL RANGE LIMITER - A voltage-controlled oscillator (VCO) comprising a first circuit, a second circuit, a comparator circuit, and a control unit. The first circuit can determine an output common mode voltage associated with an output of the VCO. The second circuit can generate an upper control voltage limit and a lower control voltage limit associated with a control voltage received by the VCO based, at least in part, on the output common mode voltage. The comparator circuit can compare the control voltage to the upper and lower control voltage limits. The control unit can determine whether to change a switched capacitance associated with the VCO based, at least in part, on whether the control voltage is outside the upper and lower control voltage limits, thereby maintaining an optimal region of operation for the control voltage. | 03-19-2009 |
20090289723 | PLL OSCILLATION CIRCUIT, POLAR TRANSMITTING CIRCUIT, AND COMMUNICATION DEVICE - Provided is a PLL oscillation circuit that can reduce the variability of modulation sensitivity of a VCO | 11-26-2009 |
20100026395 | METHOD AND APPARATUS FOR MITIGATING VCO PULLING - Techniques for mitigating VCO pulling are described. In an aspect, VCO pulling may be mitigated by (i) injecting an oscillator signal, which is a version of a VCO signal from a VCO, into a transmitter and (ii) using coupling paths from the transmitter to the VCO to re-circulate the oscillator signal back to the VCO. In one design, an apparatus includes a VCO and a coupling circuit. The VCO generates a VCO signal at N times a desired output frequency. The coupling circuit receives an oscillator signal generated based on the VCO signal and injects the oscillator signal into a transmitter to mitigate pulling of the frequency of the VCO due to undesired coupling from the transmitter to the VCO. The apparatus may include a phase adjustment circuit that adjusts the phase of the oscillator signal and/or an amplitude adjustment circuit that adjusts the amplitude of the oscillator signal. | 02-04-2010 |
20100090768 | PLL CIRCUIT - A PLL circuit comprising an oscillation unit, a frequency division unit, a phase comparison unit, and a generation unit comprises a switching unit that switches between a first state in which a control voltage output from the generation unit is input into the oscillation unit and a second state in which a reference voltage is input into the oscillation unit; and a correction unit that, in the second state, compares the control voltage output from the generation unit with the reference voltage, and corrects a frequency at which the oscillation unit oscillates with respect to a voltage input into the oscillation unit, such that the control voltage output from the generation unit is equivalent to the reference voltage. | 04-15-2010 |
20100141346 | Phase-Locked Loop with Start-Up Circuit - A circuit includes a voltage-controlled oscillator (VCO), which includes a voltage input node having an input voltage; and a start-up circuit. The start-up circuit includes a first current path and a second current path. The first current path has a first current and is configured so that the first current increases in response to a decrease in the input voltage and decreases in response to an increase in the input voltage. The second current path has a second current and is configured so that the second current decreases in response to the decrease in the input voltage and decreases in response to the increase in the input voltage. The VCO further includes a third current path combining a first proportion of the first current and a second proportion of the second current into a combined current; and a current-controlled oscillator (CCO) including an input receiving the combined current and outputting an AC signal. | 06-10-2010 |
20100176886 | Circuit for Adjusting the Temperature Coefficient of a Resistor - A temperature-compensated-resistance (TCR) circuit, which may be part of an integrated circuit, is provided. The TCR circuit consists of two resistors and a diode. The two resistors are connected in parallel and the diode is connected in series with one of the resistors. The two parallel legs of the TCR circuit may be connected to a reference voltage source, such as a ground. No specialized devices, such as bipolar transistors, Zener or Schottky diodes, or specially-processed resistors, are required by the TCR circuit. The resistors and the diode of the TCR circuit may be chosen to adjust for temperature variations in the resistance values of the resistor, leading to a negative, zero, or positive temperature coefficient of resistance for the circuit. A phase-locked loop (PLL) circuit is described as an application of the TCR circuit. | 07-15-2010 |
20100176887 | METHOD AND SYSTEM FOR REDUCED CLOCK FEED-THROUGH IN A PHASE LOCKED LOOP - Aspects of a method and system for reduced clock feed-through in a phase locked loop are provided. In this regard, a control voltage for controlling a VCO may be generated via a filter comprising at least one switching element clocked via a clock booster circuit and comprising one or more thick oxide transistors to reduce clock feed-through. A first switching element of the filter may be a first transmission gate comprising thick oxide transistors. The first transmission gate may be part of a sample and hold circuit. A DC voltage on an input node of the sample and hold circuit may be periodically reset via a reset switching element, which may comprise thick oxide transistors. The reset switching element may be controlled via a clock booster circuit. The filter may also comprise a buffer having an input stage comprising one or more thick oxide transistors. | 07-15-2010 |
20100176888 | VOLTAGE-CONTROLLED OSCILLATOR, FREQUENCY SYNTHESIZER, AND OSCILLATION FREQUENCY CONTROL METHOD - A voltage controlled oscillator is provided to make it possible to enlarge a variable frequency range with an increase in a conversion gain suppressed. A converter ( | 07-15-2010 |
20100188156 | OSCILLATOR CIRCUIT - There is provided an oscillator circuit including: a current source; a resonant unit; an oscillation amplification unit connected to the current source and connected in parallel to the resonant unit; a feedback resistor connected in parallel to the oscillation amplification unit; a switch unit having a first end connected to the current source side of the oscillation amplification unit; a replica circuit connected between a second end of the switch unit and a ground side of the oscillation amplification unit and having a configuration identical to a configuration of the oscillation amplification unit; and a level detecting unit that detects an input voltage of the oscillation amplification unit, and, when the detected input voltage is higher than a bias voltage level at a time of oscillation, cause the switch unit to allow a current from the current sources to bypass through the replica circuit. | 07-29-2010 |
20100315170 | METHODS AND APPARATUS FOR TUNING DEVICES HAVING RESONATORS - Methods and apparatus for tuning devices having resonators are described. Phase shifters are included in the circuits and used to shift the phase of the output signal(s) of the resonators. In some implementations, the phase shifters are configured in a feedback loop with the resonators. One or more of the apparatus described herein may be implemented as part, or all, of a microelectromechanical system (MEMS). | 12-16-2010 |
20120068774 | Amplitude Control for Oscillator - An amplitude control circuit includes a pair of peak detectors. The pair of peak detectors are responsive to a voltage reference generator. The amplitude control circuit is configured to be responsive to an oscillating signal of a crystal oscillator and configured to generate a control signal to control an amplitude of the oscillating signal. | 03-22-2012 |
20120182076 | LIMITER CIRCUIT AND VOLTAGE CONTROLLED OSCILLATOR INCLUDING THE SAME - A limiter circuit in a voltage controlled oscillator (VCO) includes a first control circuit, a second control circuit and a driving circuit having a pull-up transistor and a pull-down transistor. The first control circuit generates a first driving control signal for controlling the pull-up transistor based on an AC input signal and a first DC bias voltage. The second control circuit generates a second driving control signal for controlling the pull-down transistor based on the AC input signal and a second DC bias voltage. The driving circuit generates an output signal based on the first driving control signal and the second driving control signal. The output signal swings between a first voltage at the pull-up transistor and a second voltage at the pull-down transistor. | 07-19-2012 |
20120326794 | DIGITAL AMPLITUDE CONTROL CIRCUITRY FOR CRYSTAL OSCILLATOR CIRCUITRY AND RELATED METHODS - Methods and systems are disclosed that utilize digital control loops to control an amplitude level for output signals generated by crystal oscillator circuitry. The disclosed embodiments utilize multiple selectable current drive circuits to control the amplitude level of the output signals from crystal oscillator circuitry. The current drive circuits are selectably used, or not used, to provide a bias current to the crystal oscillator circuitry based upon a multi-bit digital control signal. The multi-bit digital control signal can be generated, for example, by control circuitry that compares the oscillator output signal to a reference output signal level. | 12-27-2012 |
20130033329 | System and Method of Controlling Gain of an Oscillator - A circuit includes a controllable oscillator and a controller coupled to the controllable oscillator. The controller is configured to provide a current control and a gain control to the controllable oscillator. The gain control is configured to change a gain of the controllable oscillator during a calibration process. | 02-07-2013 |
20130141172 | Orthogonally Referenced Integrated Ensemble for Navigation and Timing - An orthogonally referenced integrated ensemble for navigation and timing includes a dual-polyhedral oscillator array, including an outer sensing array of oscillators and an inner clock array of oscillators situated inside the outer sensing array. The outer sensing array includes a first pair of sensing oscillators situated along a first axis of the outer sensing array, a second pair of sensing oscillators situated along a second axis of the outer sensing array, and a third pair of sensing oscillators situated along a third axis of the outer sensing array. The inner clock array of oscillators includes a first pair of clock oscillators situated along a first axis of the inner clock array, a second pair of clock oscillators situated along a second axis of the inner clock array, and a third pair of clock oscillators situated along a third axis of the inner clock array. | 06-06-2013 |
20130278343 | METHODS AND APPARATUS FOR TUNING DEVICES HAVING RESONATORS - Methods and apparatus for tuning devices having resonators are described. Phase shifters are included in the circuits and used to shift the phase of the output signal(s) of the resonators. In some implementations, the phase shifters are configured in a feedback loop with the resonators. One or more of the apparatus described herein may be implemented as part, or all, of a microelectromechanical system (MEMS). | 10-24-2013 |
20130335150 | PHASE-LOCKED LOOP (PLL) CIRCUIT AND COMMUNICATION APPARATUS - According to one embodiment, a phase locked loop (PLL) circuit includes an application unit, a correlator, an integrator and a power supply noise canceller. The application unit applies the test signal to a power supply voltage. The correlator extracts a frequency error signal as a monitor signal and calculates a correlation value for the test signal and the monitor signal to generate a correlation signal. The integrator integrates the correlation signal to generate an integral signal. The power supply noise canceller provides a cancellation gain corresponding to the integral signal to the power supply voltage to which the test signal is applied, to generate a control signal. | 12-19-2013 |
20140035684 | CONTROL CIRCUIT AND APPARATUS FOR DIGITALLY CONTROLLED OSCILLATOR - There are provided a control circuit for a digitally controlled oscillator and a control apparatus for a digitally controlled oscillator using the same. The control circuit for a digitally controlled oscillator includes: a peak detection circuit detecting amplitude of a signal output from the digitally controlled oscillator; and a transconductance control circuit comparing an output of the peak detection circuit with a predetermined reference signal to control a transconductance value of a negative transconductance circuit included in the digitally controlled oscillator. | 02-06-2014 |
20140097908 | System and Methods of Bimodal Automatic Power and Frequency Tuning of RF Generators - A radio frequency generator includes a power control module, a frequency control module and a pulse generating module. The power control module is configured to generate a power signal indicating power levels for target states of a power amplifier. The frequency control module is configured to generate a frequency signal indicating frequencies for the target states of the power amplifier. The pulse generating module is configured to (i) supply an output signal to the power amplifier, (ii) recall at least one of a latest power level or a latest frequency for one of the target states of the power amplifier, and (iii) adjust a current power level and a current frequency of the output signal from a first state to a second state based on the power signal, the frequency signal, and at least one of the latest power level and the latest frequency of the power amplifier. | 04-10-2014 |
20140167865 | RESONANT CIRCUIT WITH AUTOMATED TRIMMING CAPABILITIES - According to an example embodiment, a device includes a resonant circuit configured and arranged to provide a peak current flow at a resonance frequency. A trimming circuit provides variable impedances to the resonant circuit and thereby changes the resonance frequency for the resonant circuit. A driver circuit is configured to generate a trimming signal that oscillates at a desired frequency. A switch circuit couples and decouples the driver circuit to the resonant circuit for driving the resonant circuit with the trimming signal. An amplitude detection circuit detects amplitudes for signals generated in response to the trimming signal being connected to the resonant circuit. A processing circuit correlates detected amplitudes from the amplitude detection circuit with different impedance values of the variable trimming circuit. | 06-19-2014 |
20140176244 | VOLTAGE-CONTROLLED OSCILLATOR WITH HIGH LOOP GAIN - A voltage-controlled oscillator with high loop gain includes a first transistor, a second transistor, an inductor, a third transistor, a fourth transistor and a gain circuit. The gain circuit provides a high loop gain in the voltage-controlled oscillator, which operates at wider tuning range but with low power consumption due to capacitance value provided by transistors thereof. | 06-26-2014 |
20140218118 | VOLTAGE CONTROLLED OSCILLATOR WITH A LARGE FREQUENCY RANGE AND A LOW GAIN - A system is disclosed for a voltage controlled oscillator (“VCO”) having a large frequency range and a low gain. Passive or active circuitry is introduced between at least one VCO cell in the voltage controlled oscillator and the voltage source for the VCO cell which reduces a gain value for the VCO to maintain stability of the system. | 08-07-2014 |
20150130542 | DEVICE AND METHOD FOR CONTROLLING OUTPUT AMPLITUDE OF VOLTAGE CONTROL OSCILLATOR IN ELECTRONIC DEVICE - An electronic device and a method for control of an output amplitude of a Voltage Control Oscillator (VCO) in the electronic device is provided. The electronic device includes a first circuit configured to output a frequency signal corresponding to a control voltage, and a second circuit configured to generate control bits that control an amplitude of the frequency signal based on a comparison result between a peak voltage of the frequency signal and a reference voltage of the frequency signal. | 05-14-2015 |
20150145607 | PEAK DETECTORS FOR AMPLITUDE CONTROL OF OSCILLATORS - Various techniques for automatic amplitude control of an oscillator are described. An apparatus includes an oscillator circuit configured to generate an oscillating signal. The apparatus includes a feedback circuit configured to control a bias signal of the oscillator circuit to maintain a target peak amplitude of the oscillating signal based on a current-mode indicator of a peak amplitude of the oscillating signal and a reference current. The feedback loop includes a rectifier circuit configured to generate the current-mode indicator and a summing node configured to provide a bias control signal based on a difference between the current-mode indicator and the reference current. The feedback circuit may include a capacitor coupled to the summing node and configured to accumulate charge according to the difference. A magnitude of the current-mode indicator may be at least two orders of magnitude less than a magnitude of the current through an output node of the oscillator circuit. | 05-28-2015 |
20160094231 | OPEN-LOOP VOLTAGE REGULATION AND DRIFT COMPENSATION FOR DIGITALLY CONTROLLED OSCILLATOR (DCO) - Embodiments include apparatuses, methods, and systems for open-loop voltage regulation and drift compensation for a digitally controlled oscillator (DCO). in embodiments, a communication circuit may include a DCO, an open-loop voltage regulator, and a calibration circuit. The open-loop voltage regulator may receive a calibration voltage and may generate a regulated voltage. The regulated voltage may be passed to the DCO. During a calibration mode, the calibration circuit may compare the regulated voltage to a reference voltage and adjust the calibration voltage based on the comparison to provide the regulated voltage with a target value. During a monitoring mode, the calibration circuit may receive a tuning code that is used to tune the DCO and further adjust the calibration voltage based on a value of the tuning code. | 03-31-2016 |