![]() Paradigm loudspeaker grilles, which sit directly in front of drivers, are specially designed to be completely passive and never interfere with radiating sound patterns. Designs are tested closely for sound radiating patterns and interference in our massive anechoic chamber. Baffles and enclosure edges are kept well out of the way of the wide dynamic soundstage produced by the drivers. ![]() Thus, Paradigm loudspeaker enclosures are always designed to eliminate as much edge diffraction as possible. It's like tripping right out of the gate.īecause it's impossible to fix errors of diffraction once the sound has left the driver and encountered the obstacle, Paradigm engineers realized that to eliminate diffraction, they had to apply innovative design solutions to the loudspeaker itself. Problem is, diffraction creates obvious sonic interference, reducing accuracy and muddying detail. (And we've seen how Paradigm innovations have worked to defeat those flaws through intensive research and development.)ĭiffraction is the term used to describe how sound might reflect and break up when its waves leave the driver and immediately collide with elements of the speaker itself, such as the baffle, the edge of the enclosure, or the grille.īecause the drivers have to sit inside an enclosure, and the sound has to leave the enclosure, it's almost inevitable that there will be some diffraction. We've also discussed the performance-robbing impediments that it meets on the way to your ears, from room anomalies to flaws in the speaker design itself. ![]() We've discussed how sound leaves a loudspeaker.
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