Magico M2
Magico, the Leader in High-Performance Loudspeaker Design and Manufacture, is pleased to announce the M2 which expands the M-Series product lineup and features many ground-breaking engineering designs distilled from the M6 and M3.
Similar in construction technique introduced in the M6, the Magico M2 is formed using multiple layers of carbon fiber adding up to a 3/8” thickness. Similar to the external shell of an F-35 fighter jet, this enclosure construction compared to machined or extruded aluminum parts increases the structural strength-to-weight ratio by a factor of 60, while reducing overall weight by 50% and yielding outer dimensions that are 30% smaller without compromising internal volume. The curved interior and exterior walls minimize internal standing waves and eliminate external diffractions.
The M2 incorporates a 28-mm Diamond coated Beryllium dome tweeter with optimized geometry. The Diamond coating on the Beryllium dome increases the stiffness without adding the extra weight of a pure Diamond dome and offers a near perfect stiffness to weight ratio that is unmatched in the industry. This revolutionary tweeter design provides extra-long excursion movement and uses a customized neodymium- based motor system that matches the sensitivity and power handling capabilities of the M2 while maintaining ultra-wide dispersion characteristics and ultra-low distortion measurements.
Graphene has many extraordinary properties and is rated to be 100 times stronger than the strongest steel. The newly designed Magico six-inch midrange driver and seven- inch bass driver cones found in the M2 are both manufactured using Multi-Wall carbon XG Nanographene with a new ultra-stiff proprietary carbon weave which is 20% lighter and 300% stiffer than cone materials used in previous Magico product offerings. The midrange driver features an underhung neodymium-based motor system that uses two extra-large magnets which provide an ultra-stabilized magnetic field for the pure Titanium voice coil to operate within. This radical new driver design sets a new industry benchmark for performance and the minimization of total harmonic distortion.