Frequency-dependent ANR reference sound compression

The invention claimed is: 1. An active noise reduction (ANR) circuit comprising: a digital feed-forward ANR pathway coupled to a feed-forward microphone, to detect environmental sounds in an environment external to a casing, and coupled to a first acoustic driver to output sounds within the casing; and a user input; wherein the digital feed-forward ANR pathway applies a filter using a first set of coefficients to convert signals from the feed-forward microphone to feed-forward anti-noise sounds to reduce environmental sounds within the casing, and in response to activation of the user input, the digital feed-forward ANR pathway applies the filter using a second set of coefficients, the second set of coefficients reducing the degree of feed-forward ANR to enable human speech sounds in the environment external to the casing to be conveyed from the feed-forward microphone to the acoustic driver with less reduction than provided by the first set of coefficients. 2. The ANR circuit of claim 1 further comprising: a first buffer; and a second buffer; wherein the first and second buffers are alternately employed in providing coefficients to the filter in coordination with a data transfer rate of the digital feed-forward ANR pathway; and wherein a failsafe set of coefficients is applied to the filter in response to an instance of instability in the ANR circuit. 3. The ANR circuit of claim 2 , wherein the failsafe set of coefficients is loaded from a third buffer. 4. The ANR circuit of claim 1 , wherein the second set of coefficients causes the filter to amplify human speech sounds present in the digital feed-forward ANR pathway. 5. The ANR circuit of claim 1 , wherein the second set of coefficients limits the range of frequencies of environmental noise sounds reduced by the feed-forward-ANR pathway to a range of frequencies below a range of frequencies of human speech sounds. 6. The ANR circuit of claim 5 , wherein the second set of coefficients causes the feed-forward ANR pathway to reduce environmental noise sounds having frequencies below 300 Hz. 7. The ANR circuit of claim 1 , wherein the second set of coefficients causes the feed-forward ANR pathway to reduce environmental sounds within a range of frequencies of a human voice band to a lesser degree than does the first set of coefficients, while enabling the feed-forward ANR pathway to provide a relatively high degree of reduction of environmental sounds in at least one range of frequencies adjacent the range of frequencies of the human voice band. 8. The ANR circuit of claim 7 , wherein the second set of coefficients causes the feed-forward ANR pathway to provide a relatively high degree of reduction of environmental sounds having frequencies above 4 kHz. 9. The ANR circuit of claim 7 , wherein the second set of coefficients causes the feed-forward ANR pathway to provide a relatively high degree of reduction of environmental sounds having frequencies below 300 Hz.