Duty-cycling microphone/sensor for acoustic analysis

What is claimed is: 1. A system, comprising: a first switch having a first terminal operable to receive an analog input signal capacitively coupled from an acoustic sensor, the first switch operable to selectively couple the received analog input signal to a second terminal of the first switch during a first on-time, the analog input signal including a DC (direct current) component for powering the acoustic sensor and including an AC (alternating current) component for conveying information quantities received when the acoustic sensor is powered by the DC component; a second switch having a first terminal coupled to a second terminal of the first switch, the second switch operable to selectively couple the first-switch coupled analog input signal to ground during a first settling time that occurs during the first on-time; an amplifier having an input coupled to a second terminal of the first switch, the amplifier operable to amplify the AC component during the first on-time and after the first settling-time; and feature extraction circuitry for extracting sparse sound parameter information from the amplified AC components, the sparse sound parameter information being associated with the first on-time; including feature pre-screen logic circuitry for determining whether a match exists between the extracted sparse sound parameter information and stored truncated sound signatures, where the determination whether a match exists is made in response to the analog input signal exceeding a reference voltage. 2. The system of claim 1 , comprising a processor for analyzing the extracted sparse sound parameter information to analyze the extracted sparse sound parameter information using stored sound signatures of higher resolution than the stored truncated sound signatures, wherein the processor is powered up in response to a determination that a match exists between the extracted sparse sound parameter information and stored truncated sound signatures. 3. The system of claim 2 , wherein a parameter associated with the first on-time is selected in response to the analysis of the processor using stored sound signatures of higher resolution than the stored truncated sound signatures. 4. A method, comprising: receiving an analog input signal capacitively coupled from an acoustic sensor, the analog input signal including a DC (direct current) component for powering the acoustic sensor and including an AC (alternating current) component for conveying information quantities received when the acoustic sensor is powered by the DC component; selectively coupling the received analog input signal to an input of a buffer during a first on-time; selectively grounding the analog input signal during a first settling-time that occurs during the first on-time; and amplifying the AC component during the first on-time and after the first settling-time; determining whether a match exists between an extracted sparse sound parameter information and stored truncated sound signatures, where the determination whether a match exists is made in response to the analog input signal exceeding a reference voltage. 5. The method of claim 4 , comprising analyzing the extracted sparse sound parameter information to analyze the extracted sparse sound parameter information using stored sound signatures of higher resolution than the stored truncated sound signatures. 6. The method of claim 5 , comprising powering up a processor in response to a determination that a match exists between the extracted sparse sound parameter information and stored truncated sound signatures.