鉴定属实:从物理原理上讲是一种静电扬声器.结构图贴不上
Electrostatic loudspeaker
The laminate comprises three layers, as shown in the diagram below. The sheet materials are bonded in the production process to maintain the active thickness over an area between the A5 and A3 paper sizes. Electrical contacts to the outer layers of the laminate allow a boosted audio signal to drive the laminate, reproducing sound.
All speakers operate on the principle an electrical signal is converted into sound using a mechanical device. A conventional cone speaker takes the electrical signal, which in turn generates a varying magnetic field, in turn vibrating a mechanical cone, so producing the sound. All these energy conversions lead to a very inefficient speaker.
FFL technology produces sound using a far more efficient process. We directly apply the electrical signal to the laminate, which vibrates in time with the electrical signal. The laminate is composed of two conducting surfaces, called Membranes, separated by an insulating layer. Hence an electric field (rather than a magnetic field) forms over the laminate. The design and construction of the laminate is unique and protected by the Intellectual Property of Warwick Audio.
FFL are driven over the entire surface area, providing a near linear response at sound pressure levels suitable for many applications. By closely controlling the separation of the membranes, we achieve reduced active drive voltages compared to ESL.
It is important to note that by significantly improving the electrical to audio efficiency, we have broken the conventional link between the power rating and the loudness of a speaker. The loudness of cone speakers is often linked to the electrical power consumption. This is not a relevant relationship for the FFL.