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Acoustic Measurements

Overview

This page is intended to provide an overview of acoustic measurements and how they are used to evaluate the extent to which your room is causing acoustic distortions that are degrading your sound quality.

The key questions answered are:

  • What are the key acoustic measurements?
  • What different room acoustic measurement tools are there?
  • How do you analyze the measurements and what does good look like?

 

The Key Acoustic Measurements

 Frequency Response

The first is the frequency response, which is a plot of energy in decibels (dB) against frequency in Hz. Most of us should be familiar with these as they are often displayed in equipment reviews. An example of a frequency response measurement taken with XTZ Room Analyzer II Pro is shown below. Response variations of +/-10db through the bass region below 300hz are clearly visible. A +10db difference is roughly equivalent to someone perceiving the sound as being twice as loud.

Frequency Response measurement taken with XTZ Room Analyzer

 

Energy Time Curve

The second is the energy time curve (ETC), which is a plot of amplitude in db against time (typically measured in milliseconds). An energy time curve shows how sound energy decays in a room. From an analysis of the energy time curve much can be deduced, including the level of reflections relative to the direct sound and the time it takes for sound to decay within the room. Zero on the time axis, and the highest peak on the magnitude axis, represents the direct sound from the speaker. The plot below shows how level changes over time, with each peak being due to a reflection from a nearby boundary such as the floor, celing or side walls. This clearly shows that there are a large number of reflections in a typical listening room and that sound does not always decay evenly. A very important point to remember is that ETCs are spectrally blind (i.e. they contain no information as to the spectral content of the reflected sound). Analysis of the spectrum of reflected sounds is often critical to determine appropriate acoustic treatment.

 

Time, Energy, Frequency

The third is a combination measurement, which shows time, energy and frequency (TEF) all together. There are many ways to look at these measurements, one is the waterfall diagram, another is a cumulative spectral decay (CSD) diagram. Resonances from room modes can be very quickly identified from this measurement. The following is a CSD plot in the form of a sonogram or 2D Waterfall taken with XTZ Room Analyzer II Pro. The two axes are time and frequency. The data plotted is the measured level of the sound in dB. Bass frequencies take longer to decay than other parts of the frequency range and that the decay of sound is often uneven due to room modes. Evidence of a room related resonance at 50Hz can be clearly seen in the measurement below.

Time, Energy, Frequency measurement taken with XTZ Room Analyzer

 

Decay Time

The fourth measurement looks at how long it takes for energy to decay in the room. There are two main forms that this measurement takes.

One is a single figure measurement, often called T60. Because it is quite difficult in real world situations to record the time taken for a signal to decay the full 60dB (due to high noise floor or low measurement level) T30 is often used as a proxy. T30 is the 60dB decay time calculated by a line fit to the portion of the decay curve between -5 and -35dB. Note that we drop the 'R' from the front of the time decay measurements in small rooms since there is no reverberant field (R stands for reverberation). In a small room T60 can't tell us much more than whether the room is overly live or dead.

The second, and much more useful for our purposes, is a measurement that shows the decay time over different octave or one third octave frequency bands. It is important for decay time to be consistent across the spectrum to preserve balanced reproduction. The following chart is an example of a 6 band measurement from XTZ Room Analyzer II Pro that shows unbalanced decay times across the frequency spectrum.

6 band decay time measurement (RT60) taken using XTZ Room Analyzer

 

 

Room Acoustic Measurement Tools

To take a set of acoustic measurements you will need the right tool. These articles cover the different options available and run through the process of taking the key measurements for a couple of the popular standalone software products.

From the Acoustic Frontiers blog:

  • Four approaches to room acoustic measurement - discusses the pros and cons of: integrated acoustic measurement packages; standalone software / hardware combinations; dedicated hardware; SPL meter / test tones / graph paper.

 

Nyal Mellor, our founder, co-authored this article with Ethan Winer of RealTraps:

 

Analyzing Acoustic Measurements

Once you have a set of acoustic measurements you need to analyze them to figure out the areas where your room meets standards and the areas it does not.

Acoustic Frontiers and HdAcoustics have published a white paper on this subject:

 

Acoustic Frontiers Products & Services

Acoustic Frontiers offers the XTZ Room Analyzer II Pro integrated acoustic measurement package and an Acoustical Diagnosis service using your or our measurements as the first step in designing an appropriate treatment scheme to resolve your room's acoustical issues.