Abstract: A master phase locked loop device is operable in association with one or more slave devices including slave digitally controlled oscillators (sDCOs), one or more digital PLL (DPLL) channels include a master digitally controlled oscillator (mDCO). A master synchronization timer generating master timing pulses to read phase and frequency information from the mDCO(s). A peripheral interface sends the read frequency and phase information to the one or more slave devices. A synchronization interface sends the master timing pulses to synchronize a replica synchronization timer in the sDCO(s) that generates slave timing pulses for use in updating the phase and frequency information received at the slave device(s).

Abstract: A slave device for exchanging data with a master device over a serial interface sends data to the master device upon receipt of a command from the master device. A controller responsive to a command byte in a receive register commences transmission of data in the transmit register under the control of a clock signal prior to reception of a complete command.

Abstract: In a digital phase locked loop comprising a PLL loop including a first software-implemented controlled oscillator (SDCO) responsive to a control value to generate output phase and frequency values locked to a reference input signal, and a hardware-implemented controlled oscillator responsive to output phase and frequency values from said first SDCO to synthesize said clock signals, hardware delays are compensated for by sampling said synthesized clock signals, or derivatives thereof, to generate synthesized clock phase values. The synthesized clock signal phase values are compared with feedback phase values derived from the PLL loop to generate a compensation value to modify the synthesized clock signals or derivatives thereof.

Abstract: A clock signal generator responsive to synchronization pulses to perform actions has a phase locked loop (PLL) part including a digitally controlled oscillator (DCO) and an output driver coupled to the DCO, and a synthesizer part including a frequency synthesizer responsive to frequency and phase information from the DCO to generate a synthesized clock and programmable output dividers for generating output clocks from the synthesized clock. An interface establishes communication between the PLL part and the synthesizer part. The output driver is programmed to compute a phase offset required to align a selected output divider with the phase of the DCO and transmit the computed offset to the selected output divider over said interface for application to said selected output divider upon the occurrence of a synchronization pulse.

Abstract: A clock signal generator responsive to synchronization pulses to perform actions has a phase locked loop (PLL) part including a digitally controlled oscillator (DCO) and an output driver coupled to the DCO, and a synthesizer part including a frequency synthesizer responsive to frequency and phase information from the DCO to generate a synthesized clock and programmable output dividers for generating output clocks from the synthesized clock. An interface establishes communication between the PLL part and the synthesizer part. The output driver is programmed to compute a phase offset required to align a selected output divider with the phase of the DCO and transmit the computed offset to the selected output divider over said interface for application to said selected output divider upon the occurrence of a synchronization pulse.

Abstract: A master phase locked loop device is operable in association with one or more slave devices including slave digitally controlled oscillators (sDCOs), one or more digital PLL (DPLL) channels include a master digitally controlled oscillator (mDCO). A master synchronization timer generating master timing pulses to read phase and frequency information from the mDCO(s). A peripheral interface sends the read frequency and phase information to the one or more slave devices. A synchronization interface sends the master timing pulses to synchronize a replica synchronization timer in the sDCO(s) that generates slave timing pulses for use in updating the phase and frequency information received at the slave device(s).

Abstract: A slave device for exchanging data with a master device over a serial interface sends data to the master device upon receipt of a command from the master device. A controller responsive to a command byte in a receive register commences transmission of data in the transmit register under the control of a clock signal prior to reception of a complete command.

Abstract: In a digital phase locked loop comprising a PLL loop including a first software-implemented controlled oscillator (SDCO) responsive to a control value to generate output phase and frequency values locked to a reference input signal, and a hardware-implemented controlled oscillator responsive to output phase and frequency values from said first SDCO to synthesize said clock signals, hardware delays are compensated for by sampling said synthesized clock signals, or derivatives thereof, to generate synthesized clock phase values. The synthesized clock signal phase values are compared with feedback phase values derived from the PLL loop to generate a compensation value to modify the synthesized clock signals or derivatives thereof.