Sound Level Meters' Measurement Limits and Inherent Noise
The definition of the total range of a sound level meter in the new international standard IEC61672-1:2002 and the new sound level meter calibration regulation JJG188-2002 is: the A-weighted sound level range that can be tested in response to a sine signal, from the minimum sound level on the maximum sensitivity level range to the highest sound level on the minimum sensitivity level range, without overload or underrange indication and with linear error within the specified tolerance range. At the same time, it is stipulated that within any frequency weighting or frequency response range of the sound level meter, the linear error of the level plus the expanded uncertainty caused by measurement (0.3dB) shall not exceed ± 1.1dB for level 1 sound level meters and ± 1.4dB for level 2 sound level meters across all level ranges of any frequency. Therefore, in order to ensure the requirement of linear error and deduct the influence of uncertainty, the self generated noise of the first level sound level meter should be at least 8dB lower than the measurement lower limit, and the second level sound level meter should be at least 6.7dB lower. Both are at least 5dB lower than the old standard and require higher standards.
However, many manufacturers currently set the self generated noise (background noise) value as the lower limit for measuring sound level meters, which is clearly misleading users. Users should pay attention when selecting, as the actual measurement lower limit of these sound level meters is 6.7dB~8dB higher than what they provide. Some manufacturers still measure the lower limit of the noise level 5dB higher than the background noise according to the national and international standards of the old sound level meter, which is not accurate enough.
The measurement lower limit of a sound level meter mainly depends on the sensitivity of the microphone and the self generated noise of the sound level meter. To reduce the measurement lower limit, we need to start from these two aspects. In the new international standards and regulations, manufacturers are required to provide * high self generated acoustic noise and self generated electrical noise respectively. It is required to place the sound level meter in a low-noise sound field to measure the self generated sound noise. As some only have a low-noise sound field for the A-level, only the A-level of the self generated sound noise can be measured at this time. Self generated electrical noise is measured by using equivalent impedance instead of a microphone. We know that microphones also generate self generated noise (thermal noise), so the self generated sound noise of sound level meters is usually greater than electrical noise. The equivalent impedance of a microphone is basically a capacitor, with a capacitance of about 50pF for a 1-inch microphone and about 15pF for a 1/2-inch microphone. The self generated noise obtained from different capacitance tests will be different. When testing self generated electrical noise, matching devices used for electrical signal conversion should not be used. The capacitors inside these matching devices are 0.01 μ F or 0.1 μ F, and the electrical noise measured with them will be significantly lower. In addition, when measuring self generated noise, the arithmetic mean of 10 randomly read readings of the weighted sound levels for F and S time should be taken within 60 seconds, rather than the maximum reading value. For the time averaged sound level, the average time should be at least 30 seconds.
