A method for filtering noise. The method may include obtaining an output signal from a phase locked loop (PLL) device. The method may include determining, using a digital phase detector and the output signal, an amount of PLL error produced by the PLL device. The method may include filtering, using a delay element and a digital filter, a portion of the amount of PLL error from the output signal to produce a filtered signal in response to determining the amount of PLL error produced by the PLL device.

A reference frequency calibration module is provided. The reference frequency calibration module includes an oscillator, a frequency divider, a phase-locked loop (PLL) and a frequency-offset calibration unit. The frequency divider couples to the oscillator. The phase-locked loop couples to the frequency divider. The frequency-offset calibration unit couples to the frequency divider and the phase-locked loop. The oscillator is configured for operatively generating an oscillating signal having an oscillating frequency. The frequency divider divides the oscillating signal having the oscillating frequency by a first division parameter to generate a first clock signal having a first reference frequency. The phase-locked loop generates a second clock signal having a second reference frequency according to the first clock signal. The frequency-offset calibration unit is configured for operatively generating the first division parameter according to the second clock signal.

A frequency synthesizer includes a phase-locked loop (PLL). The PLL includes a first voltage-controlled oscillator (VCO) and a second VCO, each comprising an oscillator, a capacitor bank, and a bias circuit. The capacitor bank is configured to selectably adjust an output frequency of the oscillator. The bias circuit is configured to provide a bias current to the oscillator, and includes a current digital-to-analog converter (IDAC), and an amplifier coupled to the IDAC and configured to drive the oscillator.

A frequency generator for generating a controlled signal having a controlled frequency uses a frequency ratio generator with an input; a frequency divider for dividing the controlled frequency by a frequency ratio signal to generate a divided signal having a divided frequency; a converter for generating an excitation signal having the divided frequency, the excitation signal exciting a resonator for generating a resonance signal having a resonance frequency; a frequency phase detector of a phase difference between the divided frequency and the resonance frequency; an inner loop filter for generating the frequency ratio signal and filtering the phase difference signal to prevent instability of two frequency ratio generator loops; an output configured for providing the frequency ratio signal based on a ratio between the controlled frequency and the resonance frequency; a controlled oscillator circuit for connecting an oscillator generating an oscillating signal having an oscillator frequency; and a PLL (Phase Locked Loop) for generating the controlled signal based on the oscillator frequency, which is adapted based on comparison of the frequency ratio with a target ratio.

Clock circuits, components, systems and signal processing methods enabling digital communication are described. A phase locked loop device derives an output signal locked to a first reference clock signal in a feedback loop. A common phase detector is employed to obtain phase differences between a copy of the output signal and a second reference clock signal. The phase differences are employed in an integral phase control loop within the feedback loop to lock the phase locked loop device to the center frequency of the second reference signal. The phase differences are also employed in a proportional phase control loop within the feedback loop to reduce the effect of imperfect component operation. Cascading the integral and proportional phase control within the feedback loop enables an amount of phase error to be filtered out from the output signal.

A frequency generator for generating a controlled signal having a controlled frequency uses a frequency ratio generator with an input; a frequency divider for dividing the controlled frequency by a frequency ratio signal to generate a divided signal having a divided frequency; a converter for generating an excitation signal having the divided frequency, the excitation signal exciting a resonator for generating a resonance signal having a resonance frequency; a frequency phase detector of a phase difference between the divided frequency and the resonance frequency; an inner loop filter for generating the frequency ratio signal and filtering the phase difference signal to prevent instability of two frequency ratio generator loops; an output configured for providing the frequency ratio signal based on a ratio between the controlled frequency and the resonance frequency; and a controlled oscillator circuit for generating the controlled signal based on comparison of the frequency ratio with a target ratio.

A method and apparatus for performing on-system phase-locked loop (PLL) management in a memory device are provided. The method may include: utilizing a processing circuit within the memory controller to set multiple control parameters among multiple parameters stored in a register circuit of a transmission interface circuit within the memory controller, for controlling parameter adjustment of a PLL of the transmission interface circuit; utilizing a trimming control circuit to perform the parameter adjustment of the PLL according to the multiple control parameters, to adjust a set of voltage parameters among the multiple parameters, for optimizing a control voltage of a voltage controlled oscillator (VCO); and during the parameter adjustment of the PLL, utilizing the trimming control circuit to generate and store multiple processing results in the register circuit, for being sent back to the processing circuit, to complete the parameter adjustment of the PLL, thereby achieving the on-system PLL management.

A method and apparatus for performing on-system phase-locked loop (PLL) management in a memory device are provided. The method may include: utilizing a processing circuit within the memory controller to set multiple control parameters among multiple parameters stored in a register circuit of a transmission interface circuit within the memory controller, for controlling parameter adjustment of a PLL of the transmission interface circuit; utilizing a trimming control circuit to perform the parameter adjustment of the PLL according to the multiple control parameters, to adjust a set of voltage parameters among the multiple parameters, for optimizing a control voltage of a voltage controlled oscillator (VCO); and during the parameter adjustment of the PLL, utilizing the trimming control circuit to generate and store multiple processing results in the register circuit, for being sent back to the processing circuit, to complete the parameter adjustment of the PLL, thereby achieving the on-system PLL management.

A frequency generator for generating a controlled signal having a controlled frequency uses a frequency ratio generator with an input; a frequency divider for dividing the controlled frequency by a frequency ratio signal to generate a divided signal having a divided frequency; a converter for generating an excitation signal having the divided frequency, the excitation signal exciting a resonator for generating a resonance signal having a resonance frequency; a frequency phase detector of a phase difference between the divided frequency and the resonance frequency; an inner loop filter for generating the frequency ratio signal and filtering the phase difference signal to prevent instability of two frequency ratio generator loops; an output configured for providing the frequency ratio signal based on a ratio between the controlled frequency and the resonance frequency; a controlled oscillator circuit for connecting an oscillator generating an oscillating signal having an oscillator frequency; and a PLL (Phase Locked Loop) for generating the controlled signal based on the oscillator frequency, which is adapted based on comparison of the frequency ratio with a target ratio.

A method and apparatus for performing on-system phase-locked loop (PLL) management in a memory device are provided. The method may include: utilizing a processing circuit within the memory controller to set multiple control parameters among multiple parameters stored in a register circuit of a transmission interface circuit within the memory controller, for controlling parameter adjustment of a PLL of the transmission interface circuit; utilizing a trimming control circuit to perform the parameter adjustment of the PLL according to the multiple control parameters, to adjust a set of voltage parameters among the multiple parameters, for optimizing a control voltage of a voltage controlled oscillator (VCO); and during the parameter adjustment of the PLL, utilizing the trimming control circuit to generate and store multiple processing results in the register circuit, for being sent back to the processing circuit, to complete the parameter adjustment of the PLL, thereby achieving the on-system PLL management.