MAD Barons
Two-Way Floor Standing Speakers
The Baron takes its place amongst the finest sounding (and best looking) stand mounted speakers in the world. MAD's design process sets these Barons apart from the mainstream.
Drivers are terminated with proprietary 99.99997% ultra purity copper wire
Advanced new DRC technology and unique cabinet construction
Supercharged Radiator Tweeter to improve top end dynamics with minimal distortion and phase shift
Product Specifications
- Class assembly:Our speakers are assembled by highly skilled joiners, using the most advanced cabinet building technology to date. The curved cabinets are more rigid than those found in conventional curved speakers. It also minimizes standing wave pressure to the cones of the drivers.
- Hand-built, heart-felt:As is the case with all MAD loudspeaker designs, they have gone to great lengths to ensure that the Barons are the last word in accuracy and truthfulness.They have been developed by a distinguished group of British musicians and engineers, led by their Loudspeaker Conductor (an expert in group analytics)Together, the team offers an uncanny insight into the link between musicality and emotion. The result is a speaker with superb transparency and fine detail.They are able to convey the subtlest feelings and emotions, while retaining sufficient dynamic capability to deliver impressive drama and scale.
- Advanced technology & craftsmanship:The Baron sports innovative new drivers; the ring radiator super tweeter is a non-resonant design with symmetrical chamber and a supercharged magnet to improve top end dynamics with minimal distortion and phase shift. Unlike other drivers, the Baron mid/bass drivers employ soft-doped fabric instead of critically damped rubber surrounds. The advanced new DRC technology and unique cabinet construction is critical in this design, as it ensures that the drivers are well controlled, accurate and musical. The drivers are terminated with our proprietary 99.99997% ultra purity copper wire to enhance signal transmission and conductivity.