Nørgaard Kren Rahbek, Fernandez-Grande Efren, Laugesen Søren
Department of Electrical Engineering, Acoustic Technology, Technical University of Denmark, Ørsteds Plads, Building 352, Kongens Lyngby, DK-2800, Denmark.
Interacoustics Research Unit, Technical University of Denmark, Ørsteds Plads, Building 352, Kongens Lyngby, DK-2800, Denmark.
J Acoust Soc Am. 2018 Oct;144(4):2294. doi: 10.1121/1.5064283.
The calibration of ear-probe microphones can increase the precision of calibrating stimulus levels and of measuring acoustic responses from the ear. This paper proposes a methodology to measure the sensitivity of an ear-probe microphone, requiring only an acoustic coupler and a calibrated reference microphone. The input impedance of the coupler is measured, enabled by a preliminary acoustic Thévenin calibration of the ear probe, and the plane-wave transfer impedance of the coupler is calculated analytically. Using these two quantities, the pressure transfer function between the reference microphone and the ear-probe microphone is estimated. This enables estimating the sensitivity of the ear-probe microphone. The proposed and an existing method were compared, resulting in substantially similar ear-probe microphone sensitivities. The proposed method is practically feasible in producing reliable measurements of sound pressure in the ear canal and calibrating stimulus levels in a clinical setting.
耳探头传声器的校准可以提高校准刺激水平和测量耳部声学响应的精度。本文提出了一种测量耳探头传声器灵敏度的方法,仅需一个声学耦合器和一个校准过的参考传声器。通过对耳探头进行初步的声学戴维南校准,测量耦合器的输入阻抗,并解析计算耦合器的平面波传递阻抗。利用这两个量,估计参考传声器和耳探头传声器之间的压力传递函数。这使得能够估计耳探头传声器的灵敏度。对所提出的方法和一种现有方法进行了比较,结果显示耳探头传声器的灵敏度基本相似。所提出的方法在临床环境中对耳道内声压进行可靠测量以及校准刺激水平方面切实可行。