Page 140 - 《应用声学》2021年第6期
P. 140
936 2021 年 11 月
[2] Frederiksen E. Acoustic metrology—An overview of cali- [10] 张炳毅, 曾吾. 传声器校准用活塞发生器的研究进展 [J]. 计测
bration methods and their uncertainties[J]. International 技术, 2007, 27(5): 5–7.
Journal of Metrology and Quality Engineering, 2013, 4(2): Zhang Bingyi, Zeng Wu. Study progress of pistonphone
97–107. used for microphone calibration [J]. Metrology & Mea-
[3] Liu D, Liu A, Zhang F, et al. A dynamic pressure cali- surement Technology, 2007, 27(5): 5–7.
bration device based on the low speed servomotor and pis- [11] 张炳毅, 黄日恒, 杨军, 等. 次声监测系统设计和次声传感器
tonphone technique[J]. Measurement, 2020, 151: 107254. 相位校准技术研究 [J]. 计测技术, 2016, 36(5): 9–13.
Zhang Bingyi, Huang Riheng, Yang Jun, et al. Design of
[4] Kutin J, BBajsić I. Characteristics of a dynamic pressure
infrasound monitor system and phase calibration of infra-
generator based on loudspeakers[J]. Sensors and Actua-
tors A: Physical, 2011, 168(1): 149–154. sonic transducers[J]. Metrology & Measurement Technol-
ogy, 2016, 36(5): 9–13.
[5] Svete A, Štefe M, Maček A, et al. Dynamic pressure
[12] 钱梦騄, 方启文. 电容传声器相位特性的测定 [J]. 声学技术,
generator for dynamic calibrations at different average
1986, 5(4): 5–7.
pressures based on a double-acting pneumatic actuator[J].
Qian Menglu, Fang Qiwen. Measurement of phase charac-
Sensors and Actuators A: Physical, 2016, 247: 136–143.
teristics of condenser microphone[J]. Technical Acoustics,
[6] Barham R G, Goldsmith M J. The application of the NPL
1986, 5(4): 5–7.
laser pistonphone to the international comparison of mea-
[13] Zhang F, He W, He L, et al. Acoustic properties of pis-
surement microphones[J]. Metrologia, 2007, 44: 210–216.
tonphones at low frequencies in the presence of pressure
[7] Frederiksen E. Infrasound calibration of measurement mi- leakage and heat conduction[J]. Journal of Sound & Vi-
crophones[J]. Brüel & Kjaer Technical Review, 2008, 15:
bration, 2015, 358: 324–333.
3234.
[14] Rennie A J. A laser-pistonphone for absolute calibration
[8] 裘剑敏, 何龙标, 许欢, 等. 平面波耦合腔中热传导和声泄漏 of laboratory standard microphones in the frequency range
对低频互易校准的影响 [J]. 计量学报, 2013, 34(5): 461–465. 0.1 Hz to 100 Hz[P]. NPL Acoustics Report Ac, 1977.
Qiu Jianmin, He Longbiao, Xu Huan, et al. The im- [15] Zhang F, Liu D, Liu A, et al. Theoretical investigation on
pact to the low-frequency reciprocity calibration caused the infrasonic frequency response of measurement micro-
by heat conduction and sound leakage in the coupler[J]. phones in different venting states[J]. Measurement, 2020,
Acta Metrologica Sinica, 2013, 34(5): 461–465. 162: 107905.
[9] Marston T M. Infrasonic pistonphone calibration[D]. [16] Measurement microphones-Part 1: specifications for lab-
State College: The Pennsylvania State University, 2009. oratory standard microphones: IEC 61094–1[S].
