Ciare CSW4000 it’s a subwoofer for those who want to surpass the limits, who no longer consider the Decibel a relative unit of measurement but an absolute number on the display and for those who consider rising by 1 dB an enormity worth nights of work in obtaining. Ciare is committed to continuous research and development work for these super enthusiasts, work that is oriented to reaching performances of absolute excellence.
The fantastic CSW4000 it’s a 15” with quadruple 75 mm voice coil with a 50 mm high winding, capable of sustaining impulsive power of around 4 kW. In order to handle such great power, the CSW4000 is equipped with components of absolute reliability: two Nomex spiders that work in parallel, a membrane formed by a sandwich of 3 layers of cellulose with an overall thickness of 5 mm and a butyl rubber suspension of extremely long excursion. To efficiently move a mobile mass of such magnitude an exceptional engine is required, now here is the record: three 130 mm diameter neodymium magnets that, considering the voice coils in series, supplies a power factor of … 40 Wb/m!!!
The CSW4000 is a fundamental link in the record system chain. The most well prepared competitors will certainly know how to best exploit the enormous potential of this transducer.
The fantastic CSW4000 it’s a 15” with quadruple 75 mm voice coil with a 50 mm high winding, capable of sustaining impulsive power of around 4 kW. In order to handle such great power, the CSW4000 is equipped with components of absolute reliability: two Nomex spiders that work in parallel, a membrane formed by a sandwich of 3 layers of cellulose with an overall thickness of 5 mm and a butyl rubber suspension of extremely long excursion. To efficiently move a mobile mass of such magnitude an exceptional engine is required, now here is the record: three 130 mm diameter neodymium magnets that, considering the voice coils in series, supplies a power factor of … 40 Wb/m!!!
The CSW4000 is a fundamental link in the record system chain. The most well prepared competitors will certainly know how to best exploit the enormous potential of this transducer.
