PR's have the slowest transient response of any vented design that i'm aware of. Just like a port, they also contribute energy outside of their resonant frequency, but do so in different manner.
Rather than having to move air through a tube and having to worry about varying flow velocities, PR's have the added drawback of increased mass. Since the PR isn't moving perfectly in time with the active piston due to this reciprocating mass, and the movement that it has is a direct effect of the active piston having already moved, this is what causes the increase in ringing that one can hear and measure.
In plain English, the PR responds to the active piston AFTER the fact, which is why we have delayed damping and increased ringing. While PR's are great for adding extension, output and bass weight ( perfect for HT ), they lack proper definition and attack / decay characteristics when it comes to music.
Using a passive with a brake on it will probably work better if properly applied, but it is still going to respond to the pressure changes inside the box at any given frequency. In effect, this would be like having a sturdy cabinet that had a small section that was far flimsier in one given area. Tuning that part of the "flexible box" could give you added output when excited, but it is still going to flex ( to a lesser degree ) outside of its' resonant range. When it does this, it will contribute output outside the box according to the pressure changes inside the box.
If you want to start playing games using a PR without killing your transient response, try mounting a passive radiator INSIDE a sealed box on a barrier wall that divides two active drivers. This works best if you use the same approach but with two ( or more ) different drivers with varying sized sealed chambers for each driver.
While each driver / chamber has its' own natural resonance, the other driver / chamber, which is tuned to a different frequency, is now altering the resonance via pulling on the passive. This now changes the volume of each chamber and the associated tuning and pressure inside each chamber. In effect, each driver pulls / pushes the passive according to its' own needs, but, there is always another driver trying to muscle the passive at a different rate. This helps to null any specific peaks or characteristics from any of the individual driver / chamber resonances on their own. Since the individual peaks are minimized and spread out, bass is both more linear and delivered in a more controlled fashion. If everything is done right, you can also gain some extension from this arrangement.
You now have multiple drivers for increased surface area, higher maximum spl's with greater power handling due to sharing the load, minimal peaks at resonance, greater extension, less distortion due to reduced excursion, increased linearity, etc... All of this due to using passive radiators INSIDE the cabinet. The PR does this without contributing any sonic characteristics outside the box.
When you start looking at stuff like this, it is very confusing to say the least. This is especially true when running multiple drivers with multiple chambers and multiple passives. It took me a long time to understand how this works, but believe me, it does work IF you put the time and effort into it. Sean
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PS... No, i did not invent this, but i wish i did : )
