听力保护器脉冲插入损失的频谱分析
Spectral analysis of hearing protector impulsive insertion loss.
作者信息
Fackler Cameron J, Berger Elliott H, Murphy William J, Stergar Michael E
机构信息
a 3M Personal Safety Division , Indianapolis Acoustical Laboratories , Indianapolis , IN , USA and.
b Hearing Loss Prevention Team , National Institute for Occupational Safety and Health , Cincinnati , OH , USA.
出版信息
Int J Audiol. 2017;56(sup1):13-21. doi: 10.1080/14992027.2016.1257869. Epub 2016 Nov 25.
OBJECTIVE
To characterise the performance of hearing protection devices (HPDs) in impulsive-noise conditions and to compare various protection metrics between impulsive and steady-state noise sources with different characteristics.
DESIGN
HPDs were measured per the impulsive test methods of ANSI/ASA S12.42- 2010 . Protectors were measured with impulses generated by both an acoustic shock tube and an AR-15 rifle. The measured data were analysed for impulse peak insertion loss (IPIL) and impulsive spectral insertion loss (ISIL). These impulsive measurements were compared to insertion loss measured with steady-state noise and with real-ear attenuation at threshold (REAT).
STUDY SAMPLE
Tested HPDs included a foam earplug, a level-dependent earplug and an electronic sound-restoration earmuff.
RESULTS
IPIL for a given protector varied between measurements with the two impulse noise sources, but ISIL agreed between the two sources. The level-dependent earplug demonstrated level-dependent effects both in IPIL and ISIL. Steady-state insertion loss and REAT measurements tended to provide a conservative estimate of the impulsively-measured attenuation.
CONCLUSIONS
Measurements of IPIL depend strongly on the source used to measure them, especially for HPDs with less attenuation at low frequencies. ISIL provides an alternative measurement of impulse protection and appears to be a more complete description of an HPD's performance.
目的
描述听力保护装置(HPD)在脉冲噪声条件下的性能,并比较具有不同特性的脉冲噪声源和稳态噪声源之间的各种保护指标。
设计
根据ANSI/ASA S12.42 - 2010的脉冲测试方法对HPD进行测量。使用声学冲击管和AR - 15步枪产生的脉冲对保护器进行测量。对测量数据进行脉冲峰值插入损失(IPIL)和脉冲频谱插入损失(ISIL)分析。将这些脉冲测量结果与稳态噪声测量的插入损失以及阈值处的真耳衰减(REAT)进行比较。
研究样本
测试的HPD包括泡沫耳塞、随声级变化的耳塞和电子声音恢复耳罩。
结果
对于给定的保护器,两种脉冲噪声源测量的IPIL有所不同,但两种源的ISIL结果一致。随声级变化的耳塞在IPIL和ISIL中均表现出随声级变化的效应。稳态插入损失和REAT测量往往会对脉冲测量的衰减提供保守估计。
结论
IPIL的测量很大程度上取决于用于测量的源,特别是对于低频衰减较小的HPD。ISIL提供了一种脉冲保护的替代测量方法,似乎更完整地描述了HPD的性能。
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