The principle and introduction of decibel meter noise meter sound level meter
Noise meter head response index
At present, the noise meter used to measure noise can be divided into four types according to the sensitivity of the meter head response:
(1) "Slow". The time constant of the meter head is 1000 ms, which is generally used to measure steady-state noise, and the measured value is an effective value.
(2) "Fast". The time constant of the meter head is 125ms, which is generally used to measure unstable noise and traffic noise with large fluctuations. The fast gear is close to the human ear's response to sound.
(3) "Pulse or Pulse Hold". The rising time of the watch needle is 35ms, which is used to measure the pulse noise with a long duration, such as punch press, hammer, etc. The measured value is the maximum effective value.
(4) "Peak hold". The rise time of the hands is less than 20ms. It is used to measure short-duration impulsive sounds, such as guns, cannons and explosions, and the measured value is the peak value. That is the maximum value.
Classification:
Noise meters can be divided into precision noise meters and ordinary noise meters according to their accuracy. The measurement error of a precision noise meter is about ±1dB, and that of an ordinary noise meter is about ±3dB. Noise meters can be divided into two categories according to their uses: one is used to measure steady-state noise, and the other is used to measure unsteady-state noise and impulse noise.
Integrating noise meters are used to measure the equivalent sound level of unsteady noise over a period of time. Noise dosimeter is also an integrating noise meter, which is mainly used to measure noise exposure.
Impulse noise meter is used to measure impulse noise. This noise meter conforms to the response of the human ear to the impulse sound and the average time for the human ear to respond to the impulse sound.
working principle:
Noise meter is the most basic instrument in noise measurement. The noise meter is generally composed of a condenser microphone, a preamplifier, an attenuator, an amplifier, a frequency weighting network, and an effective value indicating meter. The working principle of the noise meter is: the microphone converts the sound into an electrical signal, and then the preamplifier transforms the impedance to match the microphone with the attenuator. The amplifier adds the output signal to the weighting network, performs frequency weighting on the signal (or an external filter), and then amplifies the signal to a certain amplitude through the attenuator and the amplifier, and sends it to the RMS detector (or an external circuit filter). Level recorder), the value of the noise level is given on the indicator head.
Standard Weighting of Noise Meter
The frequency weighting network in the noise meter has three standard weighting networks: A, B, and C. The A network is to simulate the human ear's response to the 40-square pure tone in the equal-loudness curve, and its curve shape is opposite to the 340-square equal-loudness curve, so that the middle and low frequency bands of the electrical signal have a greater attenuation. The B network simulates the human ear's response to the 70-square pure tone, and it attenuates the low-frequency band of the electrical signal to a certain extent. The C network simulates the response of the human ear to a 100-square pure tone, and has a nearly flat response throughout the entire audio frequency range. The sound pressure level measured by the noise meter through the frequency weighting network is called the sound level. According to the weighting network used, it is called A sound level, B sound level and C sound level, and the units are recorded as dB(A), dB(B) and dB(C).
