Gamber-Johnson is a leading worldwide supplier of rugged mounting solutions that safely and securely mount mobile communication systems, computers and other electronic equipment in emergency services vehicles as well as other road fleet, forklift and other mobility applications.
Ideally suited to the harsh operating conditions of emergency service workflows, Gamber-Johnson has recently released a new charging cradle for the lightweight and rugged 6in Samsung Galaxy XCover Pro phone. Combining the phone with the charging cradle, users can easily perform multiple tasks on one device while also staying charged throughout the shift. This newly engineered charging cradle features a slim profile but stands up to Gamber-Johnson’s rugged and reliable standards, perfect for applications in emergency response.
Designed to enable simple one-handed docking and undocking for when time is short, yet tested to exceed crash, shock and vibration standards, ensuring the cradle’s reliability and security when it matters most.
Featuring a POGO docking connector and internal power supply, this charging cradle allows users to get the job done without worrying about battery life. The internal power PCB has an input range of 5-36V, enabling the cradle to be connected directly to a wide variety of response vehicles, without the need for an external power adapter.
The Samsung Galaxy XCover Pro Charging Cradle is compatible with Samsung’s built-in Near Field Communication (NFC). Effortlessly scan NFC cards and tags while the phone is docked, empowering users to work quickly, enabling them to capture data without the need for additional hardware.
Create a complete in-vehicle installation by combining the Samsung Galaxy XCover Pro Charging Cradle with Gamber-Johnson’s wide variety of Zirkona mounting products to build a customised and compact mounting solution. Zirkona products provide unique flexibility that can be quickly adapted to a variety of mobile workplace environments, allowing users to find the perfect ergonomically correct position for their devices with minimal time wasted fidgeting with adjustments.
