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Many rooms often suffer from low frequency modal problems and also require mid to high frequency reflection control. Absorption at all of these frequencies has not been possible with a single acoustic surface treatment of 4" depth.
The Modex Broadband solves the problem by offering significant absorption between 50 and 5000hz in a surface depth of only 4". The ModexTMBroadband represents a new generation of acoustic bass management. Now you can absorb more bass in less space!
Surface or corner applied porous materials lose efficiency at low frequencies, because the particle velocity or air movement associated with long wavelengths is low.
The ModexTMBroadband consists of a freely moving steel plate 1x1.5m sandwiched between porous layers. Both react together in a mass-spring manner, offering absorption via three mechanisms.
First, the plate provides pistonic absorption down to 63hz by vibrating against the spring of the porous backing.
Second, the bending modes of the free-moving plate are heavily damped by the proprietary adhesive coupling with the porous backing up to about 125hz.
Last, mid frequency sound waves diffract around the plate edges and through the perforated sides to be propagated, and thus are dissipated in the deep passive porous absorber layer.
Together, these mechanisms offer the industry's first truly efficient, broad bandwidth low frequency absorber with a shallow profile of only 4 inches.
Low Frequency Testing
Many published low frequency absorption coefficients are nonsense, because the accuracy of the absorption efficiency decreases at low frequencies in standard ISO 354 and ASTM 423 tests, due to inadequate diffusion. Therefore, additional testing has been carried out at the Fraunhofer Institue in large scale impedance tubes with a cross section of 1.6m x 1.2m and a special approach monitoring decay times of the lowest axial modes in a 5x4x3 m room, with and without the sample present on one of the opposing surfaces.
The ModexTMBroadband is installed by attaching metal 'L' brackets to the substrate. The panel is then slid over and screwed to the brackets. Panels should be installed at high pressure locations. In order of highest to lowest efficiency, this would be the intersection of three boundary surfaces, two boundary surfaces and on one boundary surface.