Ear-wearable electronic hearing device incorporating microphone array with enhanced wind noise suppression

What is claimed is: 1 . An ear-wearable electronic hearing device comprising: a housing configured to be worn on, in or about an ear of a wearer; a power source disposed in the housing; audio processing circuitry disposed in the housing and comprising a wind detector; and a microphone array disposed in or on the housing and operatively coupled to the audio processing circuitry, the microphone array comprising two omnidirectional microphones comprising: a first microphone; and a second microphone having a frequency sensitivity matched to the first microphone above a first frequency and unmatched to the first microphone below a second frequency; wherein the microphone array is configured to operate in a first mode in response to an absence of wind noise detected by the wind detector and operate in a second mode in response to presence of wind noise detected by the wind detector. 2 . The device as in claim 1 , wherein the first frequency is in a range from at least 600 Hz to no greater than 700 Hz. 3 . The device as in claim 1 , wherein the second frequency is in a range from at least 500 Hz to no greater than 600 Hz. 4 . The device as in claim 1 , wherein: the first mode is a directional mode and the second mode is a wind suppression mode; the microphone array is configured to operate in the directional mode using at least the first microphone and the second microphone and switch, in response to the wind detector detecting wind noise, from the directional mode to the wind noise suppression mode using the second microphone but not the first microphone. 5 . The device as in claim 1 , wherein the second microphone comprises a high-pass mechanical filter. 6 . The device as in claim 5 , wherein the high-pass mechanical filter comprises a barometric relief vent having a size which is larger than a barometric relief vent of the first microphone. 7 . The device as in claim 6 , wherein: the barometric relief vent of the first microphone has a size of about 1 to 4 μm; and the barometric relief vent of the second microphone has a size larger than about 6 μm. 8 . The device as in claim 1 , wherein the second microphone comprises a diaphragm which differs from that of the first microphone in terms of one or more of size, thickness, and material. 9 . The device as in claim 1 , wherein: the first microphone is a front microphone; and the second microphone is a rear microphone. 10 . The device as in claim 1 , wherein: the first microphone is a front microphone; the microphone array comprises a plurality of additional omnidirectional microphones including a rear microphone; and the second microphone is an additional omnidirectional microphone other than the rear microphone. 11 . An ear-wearable electronic hearing device comprising: a housing configured to be worn on, in or about an ear of a wearer; a power source disposed in the housing; audio processing circuitry disposed in the housing and comprising a wind detector; and a microphone array disposed in or on the housing and operatively coupled to the audio processing circuitry, the microphone array comprising two omnidirectional microphones comprising: a front microphone; and a rear microphone having a frequency sensitivity matched to the front microphone above a first frequency and unmatched to the front microphone below a second frequency; wherein the microphone array is configured to operate in a directional mode using the front microphone and the rear microphone, and switch, in response to the wind detector detecting wind noise, from the directional mode to a wind noise suppression mode using the rear microphone but not the front microphone. 12 . The device as in claim 11 , wherein the first frequency is in a range from at least 600 Hz to no greater than 700 Hz. 13 . The device as in claim 11 , wherein the second frequency is in a range from at least 500 Hz to no greater than 600 Hz. 14 . The device as in claim 11 , wherein the rear microphone comprises a high-pass mechanical filter. 15 . The device as in claim 14 , wherein the high-pass mechanical filter comprises a barometric relief vent having a size which is larger than a barometric relief vent of the front microphone. 16 . The device as in claim 15 , wherein: the barometric relief vent of the front microphone has a size of about 1 to 4 μm; and the barometric relief vent of the rear microphone has a size larger than 6 μm. 17 . The device as in claim 11 , wherein the rear microphone comprises a diaphragm which differs from that of the front microphone in terms of one or more of size, thickness, and material. 18 . The device as in claim 11 , wherein the microphone array comprises a plurality of additional omnidirectional microphones disposed between the front microphone and the rear microphone. 19 . An ear-wearable electronic hearing device comprising: a housing configured to be worn on, in or about an ear of a wearer; a power source disposed in the housing; audio processing circuitry disposed in the housing; and a microphone array disposed in or on the housing and operatively coupled to the audio processing circuitry, the microphone array comprising two omnidirectional microphones comprising: a first microphone; and a second microphone having a frequency sensitivity matched to the first microphone above a first frequency and unmatched to the first microphone below a second frequency; wherein the first frequency is in a range from at least 600 Hz to no greater than 700 Hz, and the second frequency is in a range from at least 500 Hz to no greater than 600 Hz. 20 . The device as in claim 19 , wherein: the audio processing circuitry comprises a wind detector; and the microphone array is configured to operate in a directional mode using at least the first microphone and the second microphone and switch, in response to the wind detector detecting wind noise, from the directional mode to a wind noise suppression mode using the second microphone but not the first microphone.