A sneak peek at the upcoming Divine Acoustics MARS high-end audio rack system, which largely consists of already established Divine Acoustics products.
- The top board: The top board of the Cassini has a sandwich structure – it consists of 8 layers of different densities and thicknesses. The top is finished with carbon fiber with minimal resin content and is protected with varnish. The remaining layers of the board are made of MDF, HDF, and exotic wood. One of them is a metal mesh that needs to be grounded.
- Kepler footers: Vibrations from the top board reach three Kepler EVOLUTION components placed under the top board in a precisely defined triangle. For each platform size – a total of 8 sizes to choose from – the triangle was experimentally selected using vibration generators. Measurements with accelerometers enabled the creation of a vibration distribution map for each platform size and the arrangement of support in a triangle providing the best anti-vibration effects.
- The bottom board: The Keplers rest on a bottom board with a similar sandwich structure to the top board. One of its layers also requires grounding. The bottom board has additional elements designed to lift the top board. This is to protect the gemstones in the Kepler EVOLUTION during transport of the Cassini platform.
- Steel arms The bottom board is suspended under steel arms, which transmit vibrations outside its outline. This makes the whole structure lower (with a lower center of gravity) and simultaneously reduces the intrinsic resonances of the Cassini platform.
- Galileo footers: The final module is the Galileo footer, which, thanks to their construction and vibration damping properties, enable precise “tuning” of the Cassini platform to the device placed on it.
