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实验室标准传声器前腔体积的测量方法研究 被引量:3

Study on the Measurement of the Front Cavity Volume of the Laboratory Standard Microphone
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摘要 实验室标准传声器的前腔体积(包括等效体积)是耦合腔互易校准声压灵敏度的主要不确定度分量。为了控制前腔体积与等效体积引入的不确定度分量,应用声学方法测量实验室标准传声器的前腔体积,分别利用有源耦合腔结合系列哑头空腔的方法和多个平面波耦合腔的方法对LSIP和LS2P传声器的前腔体积与等效体积之和进行测量。实验结果表明,有源耦合腔法和多个平面波耦合腔法均能有效测量实验室标准传声器的前腔体积,且测量结果具有较好的一致性。前腔体积的精确测量实现了实验室标准传声器声压灵敏度的高精度校准。 The front cavity volume, including equivalent volume, of the laboratory standard microphone is the main component of the pressure sensitivity uncertainty. To control the uncertainty component, two acoustic methods are applied to measure the front cavity volume. For LS1P and LS2P microphones, both the methods of active coupler with sets of dummy cavities and multiple plane couplers are used effectively for the volume measurement. The results of the two methods are consistent with each other. The accurate measurements of the front cavity volume realize the high-accuracy pressure sensitivity calibration of the laboratory standard microphones.
作者 何龙标 许欢 牛锋 钟波 齐芳 陈剑林
机构地区 中国计量科学研究院 河南省计量科学研究院
出处 《计量学报》 CSCD 北大核心 2010年第2期97-100,共4页 Acta Metrologica Sinica
关键词 计量学 实验室标准传声器 前腔体积 等效体积 Metrology Laboratory standard microphone Front cavity volume Equivalent volume
分类号 TB95 [机械工程—测试计量技术及仪器]
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参考文献4

  • 1IEC 61094. 2-1992, Measurement microphones Part 2: Primary method for pressure calibration of laboratory standard microphones by the reciprocity technique[ S].
  • 2IEC 61094. 1-2000, Measurement microphones Part 1: Specifications for laboratory standard microphones [ S ].
  • 3Horiuchi R, Fujimori T, Sato S. Uncertainty analysis for pressure sensitivities of laboratory standard microphones [ J ]. Acouatical Science and Technology, 2004,25 ( 5 ) : 354 - 363.
  • 4Rasmussen K. Final report on the key comparison CCAUV [ R]. A-K3, 2005.

同被引文献20

  • 1IEC 61094 - 1, Measurement microphones Part 1: Specifications for laboratory standard microphones [ S]. 1995.
  • 2IEC 61094 - 2, Measurement microphones Part 2 : Primary method for pressure calibration of laboratory standard microphones by the reciprocity technique [ S]. 2009.
  • 3Rasmussen K. Final report on the key comparison CCAUV. A-K3 [ R]. Vicente Cntanda Henriquez( Prosent address : University of Vigo, Spain), CENAM/DPLA, 2005.
  • 4Ryuzo Horiuchi, Takeshi Fujimofi, Sojun Sato. Uncertainty analysis for pressure sensitivities of laboratory standard microphones [ J ] . Acoustical Science and Technology-- Acoustical Science of Japan ,2004,25 ( 5 ) :354 - 363.
  • 5CN-JJG.JJG99-2006.砝码检定规程[s].北京:中国计量出版社,2006.
  • 6LOREFICE S. Traceability and uncertainty analysis in volume measurements [ J ]. Measurement, 2009 ( 42 ) : 1510-1515.
  • 7CARMIGNATO S, SAVIO E. Traceable volume measure- ments using coordinate measuring systems [ J ]. CIRP An- nals-Manufacturing Technology, 2011 (60) : 519-522.
  • 8FUJII K. Present state of the solid and liquid density standards[ J]. Metrologia,2004(41 ) : S1-S15.
  • 9FUJII K, Precision density measurements of solid materi-als by hydrostatic weighing[ J ]. Meas. Sci. Technol. , 2006 (17) : 2551-2559.
  • 10CHANG K H, LEE Y J. Hydrostatic weighing at KRISS [ J]. Metrologia,2004(41 ) : $95-$99.

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计量学报
2010年 第2期

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