=> Monitor Audio MRW-10 Powdered Subwoofer, Each (Black Oak Vinyl Wrap)

Monitor Audio MRW-10 Powdered Subwoofer, Each (Black Oak Vinyl Wrap)

  • 100 Watt Amplifier
  • 10 inches Long-Throw Bass Driver
  • Bass Reflex Ported Design
  • 28Hz Low Frequency Response
  • 45Hz-150Hz Variable Upper Frequency Range

Monitor Audio MRW-10 Powdered Subwoofer, Each (Black Oak Vinyl Wrap)

Product Description

The MRW-10 subwoofer uses a 10” MMP® II driver and 100 Watt Class-D power amplifier, devised in tandem to provide superior standards of control, speed and punch. Featuring a fully integrated switch mode power supply complete with an auto-ranging voltage input, the amplifier adds grip and clean bass delivery below 30Hz.

Technology

Ceramic-Coated Aluminium/Magnesium is a material originally developed by the aerospace industry for jet engine components. Its properties are ideal for loudspeaker cones being extremely rigid, yet light enough to yield high overall efficiency. In manufacture, aluminium/magnesium alloy undergoes a three-stage stress-relieving process to remove surface deformation and molecular weakness. Once formed, the alloy cone is subjected to a high temperature anodic coating process in which a layer of pure ceramic alumina is depleted onto its surfaces to a depth of 50 microns, producing a completely rigid sandwich of alloy and heat-dissipating ceramic material.

Conventional cones are liable to flex or twist in operation, producing a significant level of audible distortion. C-CAM cones have a much higher resistance to bending stress and therefore exhibit much greater fidelity over their entire operating range. C-CAM tweeters and woofers share an audible consistency producing a smooth transition of frequencies and a sense of realism and cohesion in the soundstage.

Metal Matrix Polymer driver cones have a polypropylene base loaded with metallic particles to offer a rigid and responsive structure. They are manufactured using a sophisticated high-pressure injection process, which modulates cone thickness at critical points to optimise stiffness and consistency, resulting in a superior sonic performance.