PSI Audio AVAA C20 Active Bass Trap
True active bass absorption (and not noise cancelling) – the AVAA C20 is the first of its kind. Many people from the audio industry call it a revolution.
Easy to set up and move, no calibration required, and efficient like passive absorbers 25 times its size, the AVAA C20 takes care of any room modes between 15 Hz and 150 Hz.
Features:
- AVAA is a revolution in room acoustics!
- AVAA is designed to absorb the standing waves in a room between 15 Hz and 150 Hz.
- Same effect as creating a huge hole in your wall no calibration required.
- AVAA = Active Velocity Acoustic Absorber.
- The AVAA absorbs room modes between 15 and 150 Hz.
- 100% ANALOGUE, no DSP, no latency.
- As effective as a perfect passive absorber up to 25 times its size.
- No calibration or settings are required.
- No sound emitted and no alteration of the sound source.
- 2 AVAAs will make a significant difference in normal sized room.
- Works in any type of room: recording, mixing, mastering, listening.
Why we created the AVAA technology:
The idea of the AVAA was born in the late 90s when we were testing PSI Audio monitors in mixing and recording studios and realized their behaviour differed significantly from room to room. Acoustically, some studios were well treated, but many lacked absorption. The main issues were always linked to room modes and the low end being far less precise than it should have been.
It took until 2012 that we finally had the opportunity to launch the AVAA project with the help of two Swiss Universities who supported the project for three years. We knew what we wanted, but how to do it was a different story. Thanks to the best engineers in electronics and electroacoustics, we finally came up with this amazing active bass trap.
At first, we only meant to use our innovative product for better demonstrating our studio monitors, but it rapidly gained a great reputation and the interest grew fast.
Handmade in Switzerland:
All our products are handcrafted in Switzerland with passion and attention to detail.
Manufacturing by hand allows to match and adjust components so that tolerances cancel each other out instead of building up, as is often the case in industrial production.
The efficiency of the AVAA C20:
In a 20m2 recording studio equipped with 2 big loudspeakers, the sweetspot was quite precise from 200Hz upward but had a low end problem, especially at 32 Hz, due to the dimensions of the room.
With the addition of only 2 AVAAs, the problems were solved:
- Better balance from the lowest note until the highest one.
- 300ms reduction of the 32 Hz reflections
- Better stereo imaging in the lowend
First picture: no AVAAs
Second picture: 2 AVAAs, 1 in each front corner
AVAAs OFF:
AVAAs ON:
The AVAA can be more effective than a perfect absorber of its own dimension by imposing a very low impedance around it.
Equivalent absorbing area of one AVAA depending on the frequency. The AVAA has a surface of 0.2m2 so an equivalent absorption area of 4 m2 is 20 times more effective than a perfect absorber the size of the device!
A lifetime investment
Sustainable development starts by making sustainable products.
PSI Audio builds products that will last for many decades.
And with over 45 years in the market, we can confirm they do.
No built-in failures, no planned obsolescence – just reliable quality tools for professionals.
It is always worth getting THE REAL THING!
What does the AVAA do?
The AVAA is the solution for room mode problems.
The AVAA is designed to absorb the standing waves between 15 and 150 Hz in a room. It will do so just like passive absorbers but in a much more efficient way and using up much less space. Each operating AVAA will have the same effect as a hole in the wall much larger than the dimensions of the AVAA (that is 0.2 m2). The exact ratio will depend on the frequency and environment but typically range between 5 and 20 times the dimensions.
The AVAA will affect the impedance of the air and “suck in” low frequencies around it.
Therefore the best position to place an AVAA is in the most rigid corners as that is where all room modes will be most present.
It is important to work on loudspeaker and listening position placement, as the AVAA will have little effect on inevitable first reflections.
How does it work?
A microphone will measure the acoustic pressure in front of an acoustic resistance. The acoustic resistance is designed to let air through but reducing significantly the pressure.
Behind the acoustic resistance, a transducer membrane is driven to absorb the volume of air going through the acoustic resistance as well as ensuring a specific acoustic impedance in front of this acoustic resistance.
When in function, this acoustic impedance in front of the acoustic resistance is significantly lower than in ambient air and therefore acts as a pressure sink. The acoustic impedance of the air is affected typically over a radius of 1 to 1.5 m around the AVAA. This explains how the AVAA can be more absorbent that its actual surface of perfect absorber.
It is designed to absorb frequencies between15 and 150 Hz and is most effective on room modes that are the result of multiple reflections.
What does the AVAA not do?
The AVAA is a solution for room modes below 150 Hz and absorbs low frequencies only. It is therefore not a total solution for acoustically bad rooms. For best results, it needs to be combined with passive absorption in higher frequencies.
The AVAA will only absorb pressure waves within a radius of 1 to 1.5 m around it in these frequencies. It is therefore not a solution for the first reflections a room might have. Correct positioning of speakers and listening position in the room remains necessary.
What effect will the AVAA have in my room?
The AVAA will have the same effect, on frequencies from 15 to 150 Hz, as opening a window about 5 to 20 times the size of the AVAA. This will impact sound in the time, frequency and space dimensions.
Time: it will significantly reduce reverberation time in these frequencies especially on room modes.
Frequency: with more precise and tighter bass, the masking effect of higher frequencies is reduced. Details in higher frequencies also become clearer.
Space: with less indirect sound in the room, the location of the sound is more accurate making the sound image more precise.
How many AVAAs do I need?
2 AVAAs will have a significant effect in most rooms.
Depending on the dimension and type of room as well as the result required, between 2 and 4 AVAAs are necessary for most normal size rooms (20 and 80 m2)
For very small rooms a minimum of two AVAAs is still recommended to have a symmetrical effect.
For larger rooms please consult an acoustician or PSI Audio directly.
Where to place the AVAAs in a room? Method 1
The most effective position for the AVAA is in a location where the walls contribute most to the room modes that are disturbing in the listening position. In practice it is very easy to position the AVAA effectively after a few comparative trials.
The starting position is in corners behind the source speakers as this is the most effective position in a majority of cases. However, depending on the structure of the room boundaries and listening position, other AVAA locations might turn out to be more effective. Try positioning them in different corner or against walls and evaluate effectiveness.
In practice it is quick and easy finding the best location by following the basic rules:
- AVAAs positioned in corners are more effective
- AVAAs located against rigid walls are more effective
Bear in mind that the AVAA is designed to absorb long wavelengths and therefore there is little very little to gain by positioning the AVAA with great precision.
Where to place the AVAAs in a room? Method 2
A more technical 2 step process can also be used to identify the best location for the AVAAs.
1 – Identify the disturbing room modes:
Assuming the loudspeakers and listening position have been set, measure the frequency decay time in the listening position.
Note that the most disturbing room modes are the ones with the longest extinction time and not necessarily the peaks and nulls that are the result of inevitable first reflections. You may typically identify 3 to 6 modes.
2 – Identify the highest pressure zones for each problematic room mode:
Play a sine wave at the frequency of each disturbing room mode (for example, 32Hz, 77Hz, 112Hz…)
For each of these frequencies, walk around the walls of the room and note down the highest-pressure areas. You can do this with a sound level meter or listening with a single ear.
As a result you should have a map of your room highlighting the wall areas most contributing to each disturbing room mode. This will clearly show the best location for the AVAAs.
What are the advantages of the AVAA?
- It is an efficient solution for room mode problems.
- It is stable with no settings required.
- It can be turned ON and OFF to alter the acoustic environment.
- It can easily be moved into a different room.
Where can I use the AVAA?
- Recording room.
- Mixing room.
- Mastering room.
- Home cinema.
- Small clubs.
- Bars.
- Home.
- Any private or industrial rooms where you have problems with heating pumps, pressure machines developing loud low frequencies.
Different Types of Applications:
- Recording, mixing and mastering studios.
- OB Vans.
- Home studios.
- Home cinemas.
- Small clubs.
- Bars.
- Boiler rooms / machine rooms.
- Industrial facilities.
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