The Ansuz Mainz8 power distributors have been designed with the goal of providing a very clean power supply to all Hi-Fi components of your audio system. This is mainly achieved by applying Ansuz’s groundbreaking advancements in noise reduction and resonance control. Equipped with Ansuz’s most advanced audio technologies, Mainz8 power distributors provide the lowest grounding impedance, which ensures that almost no noise is transferred from the power distributor to the individual power cables that feed the hi-fi components.
The cabinet design is an important Ansuz characteristic and is design to eliminates sonic distortion. The disturbing sonic influence, which emanates from the material the cabinet is made of – mostly aluminium – results from its mechanical resonance. To eliminate this sonic distortion, the challenge was to minimize the use of aluminium in the cabinet. Ansuz’s sister company Aavik began testing various materials and designed an innovative natural-based composite material, which reduces the mechanical influence, particularly the hysteresis. The sonic result is distinctly audible and reflects a further prominent cornerstone in Ansuz’s quest for the ultimate music experience.
Voltage also carries disturbing noise, which has a negative impact on the electronics of audio components. Ansuz Star ground technology prevents this disturbing noise from ’bleeding’ into the electronics of all audio components connected to the power distributor. Ansuz Star Ground technology is built around a precisely defined area within the power distributor (star point) boasting the lowest possible grounding impedance. It ensures that no voltage is transferred from the power distributor to the power cables of the individual audio components. Since this star point has the best ground impedance, all sockets in the power distributor are grounded from here. The system can be further optimized by the use of Ansuz Mainz Power cables. They complement the power distributor with a strong grounding conductor as well as various shielding and noise suppressing technologies.