The standard reference base selected for the intensity (pressure) of a sound wave is 0.000,000,003 PSI because this is the least sound wave intensity that can be detected by the average human ear. To state that a certain pump has an 80 dB noise level means that the ratio between its sound level and that of the selected zero base (0 dB) is 80 on the dB scale. Whether or not so stated, a dB rating is always a ratio either between two sounds, or between one sound and a fixed reference base. They could be used in mechanical work for comparing two levels of force, torque, work, HP, etc. Decibels could be used in illumination for comparing power level of two sources of light, or the illumination intensity at distances from the light source. It can be, and is, used in other technologies such as electronics for comparing voltage, current, or power levels. Instead of a linear scale, dB ratings were placed on a logarithmic scale to compress the upper end into a more usable and practical range.Ī dB has no assigned value it does not represent a definite quantity of anything it is simply a ratio used to compare the relative intensities of two sound waves, or the relative power levels of two sound sources. The two scales are different but were carefully defined so their relationship to each other would be such that a change of (so many) dB on the power level at the source would result in the same dB change in pressure reading at any distance from the source. The dB scales for expressing and comparing sound power and sound pressure were arbitrarily selected so as to be convenient to use. This is a different scale than the dB power scale on which acoustical wattage is rated. Although two sound waves could be compared by their PSI as read on a sound level meter, it is more convenient to compare them on the dB pressure scale. Discomfort or damage to a listener’s ears is from sound pressure, not from sound power at the source. Sound pressure is the strength of the traveling soundwave, in PSI or other pressure units, at a specified distance from the source of the sound. Two sound sources (pumps) could be compared by their relative acoustical wattage outputs, but can be more conveniently compared by assigning decibel ratings on the dB power scale. Sound power is the acoustical power, sometimes expressed in watts, generated by a source of sound such as a hydraulic pump. The purpose here is to define more clearly how decibels are used to rate noise of hydraulic pumps, and to give examples of calculations. Information in this issue supplements the basic information on noise levels in Design Data Sheet 24. Thanks.Womack Data Sheet 35: How to Make Noise Calculations with Decibels Please let me know if the information I have provided here is not enough and I will provide more as suggested. My question is, what is the formula I can use to do such conversion from the dB value to scale value? I need this as in my project I can only sent the decibel value remotely and then do the conversion there. So it looks like the formula is not correct for my case. Now I am trying to calculate the scale value by the given decibel value, with the given formula A = 10^(dB/20) (based on the doc ), I can only get the scale value at around 0.305 instead of 0.5. In my case of the given speaker, the value is -10.304707 dB and 0.5000. Min Volume: -63.50 dB, Max Volume: 0.00 dB, incremental: 0.03 dBĪnd when I set the volume scale as 0.5 (50% showing on the slide bar of volume control), I can get the volume level in decibels(dB) and in scale with IAudioEndpointVolume->GetChannelVolumeLevel() and IAudioEndpointVolume->GetChannelVolumeLevelScalar() I get can get the channel volume level using IAudioEndpointVolumeEx->GetVolumeRangeChannel as below: With one of my speaker (16bit, 48khz) attached to windows 11 system.
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