Abstract: A device having an impedance measurement circuit that allows for reduction of flicker noise can be implemented in a variety of applications. A carrier suppression technique can be implemented that substantially removes the carrier signal with removal of noise artifacts associated with the carrier signal from sidebands of the carrier signal. Carrier suppression in an AC impedance measurement circuit can be implemented by sensing a carrier signal of the measurement circuit at a transmit location of the measurement circuit and subtracting a weighted version of the carrier signal at a receive location of the measurement circuit. One or more compensation impedances can be used such that the sidebands of the carrier signal are received with the carrier signal suppressed with respect to the receive location.

Abstract: The present disclosure provides an impedance measurement circuit for measuring and detecting variations in an impedance under test, and methods of operating the impedance measurement circuit. The impedance measurement circuit comprises a plurality of converts, including at least two digital-to-analog converters (DACs). The DACs together alternate between a first mode of operation and a second mode of operation. In the first mode, a first one of the DACs is operational to convert a first digital input signal to a first analog output using a first hardware component, and a second one of the DACs is operational to convert a second digital input signal to a second analog output using a second hardware component.

Abstract: The present disclosure provides an impedance measurement circuit for measuring and detecting variations in an impedance under test, and methods of operating the impedance measurement circuit. The impedance measurement circuit comprises a plurality of converts, including at least two digital-to-analog converters (DACs). The DACs together alternate between a first mode of operation and a second mode of operation. In the first mode, a first one of the DACs is operational to convert a first digital input signal to a first analog output using a first hardware component, and a second one of the DACs is operational to convert a second digital input signal to a second analog output using a second hardware component.

Abstract: A device having an impedance measurement circuit that allows for reduction of flicker noise can be implemented in a variety of applications. A carrier suppression technique can be implemented that substantially removes the carrier signal with removal of noise artifacts associated with the carrier signal from sidebands of the carrier signal. Carrier suppression in an AC impedance measurement circuit can be implemented by sensing a carrier signal of the measurement circuit at a transmit location of the measurement circuit and subtracting a weighted version of the carrier signal at a receive location of the measurement circuit. One or more compensation impedances can be used such that the sidebands of the carrier signal are received with the carrier signal suppressed with respect to the receive location.