Abstract: An electromagnetic interference shield enclosure with an extended edge defining a sleeve, the enclosure and sleeve having an outer protective layer and an inner shielding layer to shield electronic devices from electromagnetic interference. The outer layer and inner layer may be transparent to view the electronic device. A magnet system may be provided to allow the device to be operated while in the enclosure. The auxiliary cable with filtering mechanisms may be provided inside the sleeve to allow access and transfer of data from the electronic device while still in the enclosure.
Abstract: An electromagnetic interference shield having a main enclosure and at least one auxiliary enclosure. The auxiliary enclosure in the main enclosure and an interior that is continuous with each other. The auxiliary enclosure is made of elastic Faraday material. The outer layer and inner layer may be transparent to view the electronic device. An auxiliary cable with filtering mechanisms may be provided inside a sleeve to allow access and transfer of data from the electronic device while still in the main enclosure.
Abstract: An electromagnetic interference shield having a main enclosure and at least one auxiliary enclosure. The auxiliary enclosure in the main enclosure and an interior that is continuous with each other. The auxiliary enclosure is made of elastic Faraday material. The outer layer and inner layer may be transparent to view the electronic device. An auxiliary cable with filtering mechanisms may be provided inside a sleeve to allow access and transfer of data from the electronic device while still in the main enclosure.