Understanding the 3dB rule26th Okt 2015
3dB rule - do you understand it?
If your work involves controlling noise in the workplace, especially if you are responsible for monitoring noise exposure levels, you will need to understand the 3dB rule. This is something that we cover at length during our noise awareness training courses with our safety professionals. This is because changes in noise levels can have a significant impact on how you manage it and keep within the legal limits of exposure. At first, the 3dB rule can appear a challenging concept but, once you are used to it, it should cause you little difficulty. Here, we have tried to explain in simple terms how it works.
We say this often in this blog but, truly, the ear is an extremely versatile and an amazing hearing device. It has a mechanism that reduces its sensitivity as the sound level rises and it also has the remarkable ability to handle an enormous range of sound levels. Therefore it can hear the sound of a pin dropping close-by as well as the roar of a jet engine. It would take 10,000,000,000,000 pins dropping simultaneously to measure the same sound level as the jet engine.
3dB rule and the doubling of sound energy
Although the ear can distinguish the rise in level between one or two pins dropping, it cannot distinguish between 10,000,000,000,000 pins and 10,000,000,000,001 pins or even 10,100,000,000,000 because it is not a linear device. It can, however, distinguish the significant multiplying of the energy of the sound. When this sound is doubled this is equated to a rise of 3dB (decibels), using a logarithmic scale*. In a work context, this means that a small increase in the number of decibels results in a huge change in the amount of noise and, as such, the potential damage to a person’s hearing. Let’s look at a few examples. If the pin dropping has a sound level of 10dB (decibels) then two pins would have a level of 13dB. 10,000,000,000,000 pins would have a level of 140dB and 20,000,000,000,000 pins a level of 143dB.
This 3dB rule is important to remember when you come to measure noise as well as analyse and predict individual exposure.
3dB rule when measuring noise at work
When you measure noise levels with a noise meter, you measure the intensity of noise in units called decibels, expressed as dB(A). A noise meter uses a display with a range and resolution to approximate to the ear’s dynamic range, usually the upper range rather than the quiet part.
If you think about it, it would be very difficult to manufacture a sound level meter that had a linear performance, especially bearing in the mind the range of noise sources to be measured in a work environment. It would be tricky to keep an eye on those 14 digits varying in front of you. So, to express levels of sound meaningfully in numbers that are more manageable, a logarithmic scale is used, using 10 as the base, rather than a linear one. This scale in this instance is the decibel scale.
A logarithmic scale is used when there is a large range of quantities. It is based on orders of magnitude, rather than a standard linear scale, so each mark on the decibel scale is the previous mark multiplied by a value.
3dB rule and maximum exposure to noise
We have described the 3dB rule in relation to a doubling in sound energy but the same rule applies to exposure to noise over time. It is important to remember that the risk to hearing from noise exposure depends on how loud it is and how long someone is exposed to it.
To put it in context, a worker exposed to a continuous sound level of 83dB(A) for one hour would be exposed to the same amount as someone exposed to an 80dB(A) level for two hours.
So, if the noise level increases by 3dB(A), as shown in the table below, this doubles the amount of the noise and reduces the recommended amount of exposure time allowed by half.
When dealing with workplace noise measurement, it is important to remember that the accepted standard to minimise hearing risk is based on an exposure to 85dB(A) for a maximum limit of eight hours per day. This is the case in the UK, Europe and many other places around the world. For values or exposure above 85dB(A), a “3dB exchange rate” formula is applied, which means that for every 3dB above 85dB(A), the maximum permitted exposure time is cut in half.
Maximum Recommended Noise Dose Exposure Levels
Please note that noise levels above 140dB(A) are not considered safe for any period of time.
< Human Pain threshold
We hope this article has given you a good broad overview of the 3dB rule and its importance when measuring and predicting noise exposure within the regulatory framework. If you would like to explore this subject in more detail, why not join us at our next noise at work awareness competency training course where the first part of the day covers basic noise theory, noise units and terminology in detail?