This website uses cookies. By using the site you are agreeing to our Privacy Policy.



Portable X-ray Unit FDR Xair

A lightweight, portable X-ray device for various medical scenes.

Caution

  • * This is Fujifilm Global Website. Fujifilm makes no representation that products on this website are commercially available in all countries.
  • * Approved uses of products vary by country and region.
  • * Specifications and appearance of products are subject to change without notice.
  • LIGHT & COMPACT
  • USEFUL FUNCTIONS

Can be used in various medical treatment settings*

  • * Please confirm the local regulation regarding the usage environment.
[Image]

Features

LIGHT & COMPACT

Excellent portability, enabling use in patients’ homes

FDR Xair weighs about 3.5 kg. Its portable design means that it can easily be carried into patients’ homes and other places where space is limited, ensuring quicker imaging.

[Image]
Lightweight and easy to mount on its support stand

The FDR Xair’s lightness and high usability make mounting it on its support stand quick and simple.

[Image]
The hand switch fits neatly into the body when not in use

The hand switch can be attached to the side of the main unit. This makes carrying easier and reduces the risk of dropping the hand switch behind.

[Image]

USEFUL FUNCTIONS

User-friendly button layout

Buttons are located on both sides, letting you operate the equipment with one finger while holding it.

[Image]
[Image]
Can take images in places where there is no electricity

The built-in lithium polymer battery is lighter than ever. Can shoot up to 100 images* on a full charge, in environments where there is no electricity.

  • * The number of shots depends on the exposure conditions.
[Image]
Highly durable LED light source

LEDs are used for the irradiation field illumination lamp and the display. LEDs are long lasting and make the control screen easy to read.

Easy-maintenance design

The flat-surface design with few dents or edges makes cleaning and other maintenance easy to do.

Specifications

  • Product Name: Portable X-ray Unit FDR Xair(Model number:XD2000)
  • External dimensions: 301(W) x 257(D) x 144(H)mm
  • Weight: Approx. 3.5kg (including battery)
  • Power supply: 100-240V

Standard Components

  • X-ray generator
  • Supporting stand
  • AC adapter
  • Shoulder strap
  • Tape measure

Supporting stands (select from those shown below)

Accessories used with FDR Xair.

[Image]

Related Products

Use with a high-sensitivity digital radiography (DR) system to take low-dose high-resolution images

[Image]

Using the FDR D-EVO II with the Console Advance image-processing unit enables low-dose, high-resolution imaging. This system offers even higher-resolution images thanks to Virtual Grid image-processing technology and Dynamic Visualization II.

Digital Radiography: FDR D-EVO II
Higher sensitivity achieved by advanced reading technology “ISS system”

A combination of a columnar crystal CsI scintillator** with Fujifilm’s “ISS system” enables the suppression of energy attenuation and light scattering and achieves higher resolution imaging at low X-ray doses, leading to the level of DQE 54% (approx. 1Lp/mm, 1mR) and MTF 80% (approx. 1Lp/mm, 1mR).

  • ** CsI series
[Image]
Fujifilm noise reduction circuit improves sensitivity in high absorption regions

Fujifilm noise-reduction circuit enables the noise reduction of the image, improves the granularity of low-density regions, and achieves high image quality.

[Image]
Image Processing Technology: Virtual Grid
Provides a high-contrast image without using a grid

Virtual Grid is an image processing software that corrects for the effects of scatter radiation that otherwise reduce image contrast and clarity. Without the need for an anti-scatter grid, this software quickly creates high quality images.

[Image]
[Image]
[Image]
Image Processing Technology: Dynamic Visualization II
Optimizes image quality using advanced exposure recognition algorithms

Advanced recognition algorithms automatically adjust contrast and density for individual body parts based on calculation of estimated 3D image data. (Option)

[Image]
[Image]