Quick Access Smartphone Faraday Bag Waterproof Signal Blocking Nylon - Device Shielding for iPhone, Samsung Galaxy, Most Phones for Travel, Privacy, Anti-Hacking
Made with durable high-grade waterproof ballistic nylon. Small (15.5 x 9 cm) is perfect for Key fobs, flip phones, burner phones, small smartphones. Medium (19 x 11.5 cm) will fit most smartphones including iPhone and Samsung Galaxy. Features a quick roll-down seal closure + external clear window. Scroll down for details on tablet and computer sizes.
Protect yourself from hacking, tracking, data extraction/wiping. Originally designed for law enforcement, forensic investigators to protect digital evidence. Now it is used by military, government, corporations, lawyers, journalists, travelers. Simple & functional design is great for outdoors, police, preppers, and more.
100% Signal Blocking Faraday Cage Technology. This Faraday bag is the perfect RFID Blocker. Our technology shields against RFID, WIFI, Bluetooth, NFC, EMP, Solar Flare, Cellular, GPS, Radio - every signal type! Also provides EMF protection against the long term effects of EMF Radiation.
TOI Faraday Fabric is used for making faraday bags, EMF Radiation protection bags, Clothes, Shields, RF enclosures, EMF deflection, and signalproof rooms or tents. High-shielding nickel and copper composition blocks WiFi (2.4 & 5GHz), Bluetooth, cell signals including 5G networks, GPS, RFID, and radio signals with 90dB average attenuation from low MHz all the way up to 40GHz. EMI, RFI, and EMF radiation shielding.
EMF includes both electrical and magnetic fields emanating from electrical devices. The electromagnetic radiation is in the frequency range of 50/60 Hz (from typical power lines) through the RF range (wireless networks at 2.4 – 5.8 GHz) up to 300 GHz (microwave devices). These frequencies are all lower than visible light which is electromagnetic radiation in the frequency of 100s of THz and is much lower in energy than ionizing radiation (e.g. the type of radiation emitted by x-ray machines and radioactive materials), and the biological effects associated with exposure are much different.