Acoustic noise reduction audio system having tap control

What is claimed is: 1. An acoustic noise reduction (ANR) audio system having tap control, comprising: a first ANR module having a first ANR input to receive a first audio input signal, a second ANR input to receive a first supply current from a power supply, and an ANR output to provide a first audio output signal having reduced acoustic noise; a first current sensor having a sensor output and configured for communication with the power supply, the first current sensor providing a signal responsive to a characteristic of the first supply current at the sensor output; a first signal conditioner module having an input in communication with the sensor output of the first current sensor and having a first signal conditioner output, the first signal conditioner module providing a first conditioned signal at the first signal conditioner output in response to the signal responsive to the characteristic of the first supply current; and an audio and mode control module having a first input to receive a source audio signal, a second input in communication with the first signal conditioner output, and a first output in communication with the first ANR input of the first ANR module, the audio and mode control module controlling at least one of a mode of operation of a headphone system and an attribute of the first audio input signal in response to the first conditioned signal. 2. The ANR audio system of claim 1 wherein the characteristic of the first supply current comprises at least one of an amplitude of the first supply current, a waveform representing the first supply current and a duration of the first supply current. 3. The ANR audio system of claim 1 wherein the conditioned signal is a logic level signal. 4. The ANR audio system of claim 1 wherein the first current sensor comprises: a current sense resistor to receive the supply current; and an amplifier having a first input in communication with an end of the current sense resistor, a second input in communication with an opposite end of the current sense resistor, and an amplifier output to provide a voltage signal responsive to a voltage across the current sense resistor. 5. The ANR audio system of claim 1 wherein the audio and mode control module controls at least one of a selection of an audio source, a volume, a balance, a mute, a pause function, a forward playback function, a reverse playback function, a playback speed and a talk-through function. 6. The ANR audio system of claim 1 further comprising: a second ANR module having a first ANR input to receive a second audio input signal and a second ANR input to receive a second supply current from the power supply, and an ANR output to provide a second audio output signal having reduced audio noise; a second current sensor having a sensor output and configured for communication with the power supply, the second current sensor providing a signal responsive to a characteristic of the second supply current at the sensor output; and a second signal conditioner module having an input in communication with the sensor output of the second current sensor and having a second signal conditioner output, the second signal conditioner module providing a second conditioned signal at the second signal conditioner output in response to the signal responsive to the characteristic of the second supply current, wherein the audio and mode control module has a third input in communication with the second signal conditioner output and a second output in communication with the first ANR input of the second ANR module, and wherein the audio and mode control module further controls an attribute of the second audio input signal in response to the second conditioned signal. 7. The ANR audio system of claim 6 wherein the characteristic of the second supply current comprises at least one of an amplitude of the second supply current, a waveform representing the second supply current and a duration of the second supply current. 8. The ANR audio system of claim 6 further comprising: a first headphone speaker in communication with the ANR output of the first ANR module; and a second headphone speaker in communication with the ANR output of the second ANR module. 9. The ANR audio system of claim 4 wherein the first signal conditioner module comprises at least one of a band-pass filter and a low-pass filter in communication with the amplifier output of the first current sensor. 10. The ANR audio system of claim 9 wherein the at least one of a band-pass filter and a low-pass filter has a maximum pass frequency of approximately 10 Hz. 11. The ANR audio system of claim 1 wherein the audio and mode control module comprises a voltage detector configured for communication with the power supply and to generate a logic signal responsive to a transition of a power supply voltage with respect to a threshold voltage. 12. The ANR audio system of claim 1 wherein the audio and control module comprises: an amplitude threshold module configured to receive the first audio input signal and generate a signal indicative of a peak voltage; and a comparator having a first input to receive the signal indicative of the peak voltage, a second input to receive a threshold voltage, and an output to provide a logic signal responsive to a comparison of the signal indicative of the peak voltage and the reference voltage. 13. The ANR audio system of claim 1 wherein the audio and control module comprises a logic element having a plurality of inputs to receive a logic signal, each of the logic signals indicative of a state of an error condition, the logic element having an output to provide a logic signal having a first state if at least one of the error conditions exists and a second state if none of the error conditions exist. 14. The ANR audio system of claim 13 wherein the error conditions comprise at least one of an excessive current amplitude through the first current sensor, an excessive power supply voltage and an excessive peak voltage of the source audio signal. 15. A method for controlling an audio system having a first acoustic noise reduction (ANR) module configured to receive an audio input signal and a first ANR headphone coupled to the first ANR module, the method comprising: sensing a first supply current provided to the first ANR module, the first supply current being responsive to an acoustic pressure change in a first ANR headphone; determining from the sensed first supply current that a tap event occurred, the tap event having a tap sequence that comprises one or more headphone taps; and changing at least one of a mode of operation of the audio system and an attribute of the audio input signal in response to the tap sequence of the tap event. 16. The method of claim 15 wherein the sensing of the first supply current comprises sensing at least one of an amplitude of the first supply current, a waveform representing the first supply current and a duration of the first supply current. 17. The method of claim 15 further comprising determining a state of an error condition by sensing a second supply current provided to a second ANR module and determining from the sensed first and second supply currents if the error condition exists. 18. The method of claim 15 further comprising determining a state of an error condition by comparing a power supply voltage relative to a threshold voltage and determining from the comparison if the error condition exists. 19. The method of claim 15 further comprising determining a state of an error condition by sensing a peak vo