Abstract: Accurate measurements of the sound pressure level require regular calibration of the microphone. Closed-coupler calibration devices are designed to work with laboratory and working standard microphones, but there are numerous microphones with dimensions that do not fit a standard coupler. For example, micro-electro-mechanical system microphones are very small and widely used due to their size, performance, and cost. Described herein is an acoustical coupler that can accommodate microphones of arbitrary cross-sectional shape. The coupler utilizes a flexible membrane that adapts to the shape of the microphone. In contrast to a rigid enclosure, the permeability of the membrane creates an open system that reduces the sensitivity to fit. The precision and accuracy of the device is demonstrated by calibrating a small, oddly shaped microphone using the substitution method.

Abstract: Accurate measurements of the sound pressure level require regular calibration of the microphone. Closed-coupler calibration devices are designed to work with laboratory and working standard microphones, but there are numerous microphones with dimensions that do not fit a standard coupler. For example, micro-electro-mechanical system microphones are very small and widely used due to their size, performance, and cost. Described herein is an acoustical coupler that can accommodate microphones of arbitrary cross-sectional shape. The coupler utilizes a flexible membrane that adapts to the shape of the microphone. In contrast to a rigid enclosure, the permeability of the membrane creates an open system that reduces the sensitivity to fit. The precision and accuracy of the device is demonstrated by calibrating a small, oddly shaped microphone using the substitution method.