Fan Zhang scite author profile

The low frequency phase characteristics of microphones in a monitoring system are crucial for characterizing large-scale natural and artificial activities—e.g., earthquakes, nuclear explosions, or rocket launchings. At present, microphones are simultaneously calibrated using in-situ or calibrator methods to get their phase consistency. However, the essential primary calibration, which traces their phase sensitivity to basic physical quantities, is grossly overlooked. Recently, we speculated that the microphone phase sensitivity is acoustically controlled by the pressure leakage and heat conduction effects in its back chamber, which will vary at low frequencies. Therefore, by means of the FEA (Finite Element Analysis) technique, simulations of laser pistonphone-based primary microphone calibrations are conducted both in the frequency and time domains. The frequency domain simulation quantifies the phase variation, while the time domain analysis helps us to understand the variation mechanism. It is found that the low frequency phase sensitivity is greatly influenced by its geometries and the venting state and should be pre-calibrated before serving.

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Synchronous Control Theory and First Test of Time-Varying Upper Operation and Chassis Attitude Maintenance for Truck Cranes

Yang

Zhang

Wang

et al. 2023

J. Constr. Eng. Manage.

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Fan Zhang

Theoretical investigation on the infrasonic frequency response of measurement microphones in different venting states

Numerical study on the low frequency sensitivity variation of the microphone in laser-pistonphone based primary calibrations

A dynamic pressure calibration device based on the low speed servomotor and pistonphone technique

Numerical Study on the Phase Sensitivity Variation in Low Frequency Primary Microphone Calibrations

Synchronous Control Theory and First Test of Time-Varying Upper Operation and Chassis Attitude Maintenance for Truck Cranes

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