Soundpod Surface Vibration Speaker turns any surface into a loudspeaker – including glass
A small and unobtrusive audio transducer, creating the ultimate invisible surface sound source
Soundpod Surface Vibration Speakers use surface sound technology to transform almost any solid resonant surface into an audio speaker. Resonant surfaces include glass, wood and plasterboard, offering the ultimate invisible sound source.
Our next generation Soundpods are small and unobtrusive, attaching to the surface with either adhesive tape or screws. Soundpods work through an energising principle, sending frequency waves across both sides of the activated surface, making it a fantastic surface speaker solution. This produces a non-directional, diffused sound that evenly fills the area. Simply attach the device to almost any surface – imagine turning a store window into a speaker, capturing the attention of passers by and delivering that all important message direct to their ears.
Each Soundpod kit comes complete with adhesive pads for installation to glass or plexiglas, acrylic mounting disc for installation to wood, MDF and plasterboard walls, speaker cable / connectors and Soundpod sticker!
Ideal for an extremely wide range of applications, Soundpod offers an incredibly unique solution to many difficult projects, allowing you to add sound to your space or displays without having to compromise on style or space.
|Complete with fixing kit & cables||Invisible non-directional sound source|
|Suitable for any rigid surface – wood, glass, acrylic, plasterboard & MDF||Window displays|
|Max power: 20 watts RMS||Offices & meeting rooms|
|Impedance: 8 ohms||Retail stores & POS displays|
|Frequency range: 100Hz to 15KHz||Furniture & display cases|
|Size: 51 x 22mm & weight: 152 grams||Museums & visitor attractions|
|Amplifiers available||In-Wall Speakers|
For screen and sound combinations, Pro Display offer Front Projection Soundvision screens, joining Pro Display’s specialist projection technology with this incredible surface sound solution.