Abstract: A source follower for a capacitive sensor device having a sense node and a shield node is provided. The source follower may include a transistor, and a switch array selectively coupling the transistor between the sense node and the shield node. The switch array may be configured to substantially disable current to the transistor during a first mode of operation, precharge the transistor during a second mode of operation, and enable the transistor to copy a sense node voltage to a shield node voltage during a third mode of operation.

Abstract: A bias circuit is provided. The bias circuit may include a first transistor forming an input node, a second transistor forming an output node, and a switch array disposed between the first transistor and the second transistor. The switch array may be configured to charge the first transistor to a supply voltage and the second transistor to a ground during a first mode of operation, and couple the first transistor to the second transistor to approximate a final bias voltage during a second mode of operation.

Abstract: A bias circuit is provided. The bias circuit may include a first transistor forming an input node, a second transistor forming an output node, and a switch array disposed between the first transistor and the second transistor. The switch array may be configured to charge the first transistor to a supply voltage and the second transistor to a ground during a first mode of operation, and couple the first transistor to the second transistor to approximate a final bias voltage during a second mode of operation.

Abstract: A method of actively draining a power supply of a device circuit is provided. The method may include monitoring an output voltage of the power supply relative to a first lower limit, enabling an active drain circuit to actively drain the power supply when the output voltage falls below the first lower limit, monitoring the output voltage of the power supply relative to a second lower limit that is less than the first lower limit, and disabling the active drain circuit when the output voltage falls below the second lower limit.

Abstract: A source follower for a capacitive sensor device having a sense node and a shield node is provided. The source follower may include a transistor, and a switch array selectively coupling the transistor between the sense node and the shield node. The switch array may be configured to substantially disable current to the transistor during a first mode of operation, precharge the transistor during a second mode of operation, and enable the transistor to copy a sense node voltage to a shield node voltage during a third mode of operation.

Abstract: A system and method of calibrating a phase-locked loop (PLL) having at least a phase detector, a frequency divider and a local oscillator are provided. The disclosed example includes generating a lock window signal based on a feedback signal generated by the frequency divider where the lock window signal may form an active lock window relative to each significant edge of the feedback signal, generating a sampled window signal based on samples of the lock window signal at each significant edge of a reference signal, and estimating a phase offset between the reference signal and the feedback signal based on a number of consecutive samples of the sampled window signal that are active.

Abstract: A phase-locked loop (PLL) is provided. The PLL may include a local oscillator configured to generate an output signal, a feedback divider configured to generate a feedback signal in response to the output signal, a phase detector configured to operate the local oscillator based on a comparison between a reference signal and the feedback signal, and a reset controller in communication with each of the phase detector and the feedback divider. The reset controller may be configured to hold each of the phase detector and the frequency divider in reset, and enable each of the phase detector and the frequency divider such that at least the feedback signal is in substantial synchronization with the reference signal.

Abstract: A phase-locked loop (PLL) is provided. The PLL may include a local oscillator configured to generate an output signal, a feedback divider configured to generate a feedback signal in response to the output signal, a phase detector configured to operate the local oscillator based on a comparison between a reference signal and the feedback signal, and a reset controller in communication with each of the phase detector and the feedback divider. The reset controller may be configured to hold each of the phase detector and the frequency divider in reset, and enable each of the phase detector and the frequency divider such that at least the feedback signal is in substantial synchronization with the reference signal.

Abstract: A system and method of calibrating a phase-locked loop (PLL) having at least a phase detector, a frequency divider and a local oscillator are provided. The disclosed example includes generating a lock window signal based on a feedback signal generated by the frequency divider where the lock window signal may form an active lock window relative to each significant edge of the feedback signal, generating a sampled window signal based on samples of the lock window signal at each significant edge of a reference signal, and estimating a phase offset between the reference signal and the feedback signal based on a number of consecutive samples of the sampled window signal that are active.