| Non Proprietary Technology |
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| Wave Guide Plates |
| Wave Guide Plates (WGP) offer even, wide HF dispersion with enhanced output and pattern control for smaller systems. |
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| Frequency Shading |
| Typically, two side-by-side LF transducers operate differently in the LF and HF. At the lower end of a frequency range, the transducers operate in unison to achieve a smooth coverage angle. |
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| Push/Pull Woofer Technology |
| When LF cones are driven to higher outputs, asymmetry in their mechanical motion will eventually create measurable and audible sound distortion. |
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| Bent Bass Horn |
| The construction of practical, portable bass horns has always challenged audio designers. This is primarily because wavelengths in the lower octaves are so large (e.g. 22.5 ft / 6.9 m at 50 Hz) that they require a long horn. |
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| Crossover/Filter Design |
| Crossover design is critical to loudspeaker performance. Yet, many loudspeaker manufacturers design crossovers within narrow guidelines of price or performance, leaving the end-user the task of loudspeaker equalization to compensate for built-in crossover deficiencies. |
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| Beamwidth Matched Crossover Design |
| To produce a two-way loudspeaker with consistent dispersion through the crossover point, EAW engineers study the collapsing coverage pattern of the direct radiating LF transducer to be used. |
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| Broadband Pattern Control |
| Since LF sound waves are so large (e.g. 22.6ft / 6.9 m at 50 Hz) controlling dispersion in this frequency range can be a difficult task. This is especially true for arrays, clusters, and in dedicated LF systems. |
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