FUJIFILM FDR Nano

Simplify your everyday mobile imaging with the FDR Nano, a complete mini-digital x-ray system that combines the high sensitivity of Fujifilm's D-EVO II detectors and our refined image processing advancements to generate high resolution images with low patient dose. 

It is the perfect solution for dedicated use in departments such as the NICU, ICU, ER, and OR.

Features

  • Smooth manoeuvrability allows you to go anywhere with this ultra-compact system. At just 90kg, the FDR Nano is 80% lighter than traditional mobile x-ray systems.  
  • Four swivelling wheel casters allow precise, easy positioning and travel in any direction, and the ability to spin the system in place in tight spaces. Fujifilm’s exclusive HydroAG anti-bacterial coating is 99.99% effective against most common bacteria, 100 times more effective than traditional coatings and 10 000 times more effective than surfaces without coating 
  • The articulating control panel allows rotation, tilting and height adjustment for instant image confirmation from any angle. 
  • High-performance Li-ion battery power enables up to 12 hours of continuous use at 20 exposures/hour, 15-minute quick charge for 1 hour (20 exposures) and rapid 4-hour charging for full charge. FDR AQRO can also be used while plugged into AC power. 
  • The detector holder area features built-in charging and initialization, a keyed lock to safely stow your valuable detector and a tilting design for detector bagging. 
  • Virtual Grid (included standard) image processing simulates grid use for improved image quality for images acquired without a grid, and lower dose acquisition compared to grid exams. 
  • Dynamic Visualization II (included standard), our latest image processing, adjusts image quality throughout the entire exposure field based on intelligent feature and thickness recognition. 
  • Compatible with FDR D-EVO II CsI wireless detectors in standard 14×17,” full field-of-view 17×17,” and our unique 24x30cm size, all featuring Fujifilm’s patented ISS technology and noise reduction circuitry for exceptional image quality and performance at lower dose.