Fujifilm X-T20 Mirrorless 16-50mm Lens (Silver)

Fujifilm X-T20 Mirrorless 16-50mm Lens (Silver)

€999.95
Out of stock

Blending a familiar form factor with a heightened feature-set, the silver X-T20 from Fujifilm is a sleek mirrorless camera designed for multimedia shooters. Utilizing a 24.3MP APS-C X-Trans CMOS III sensor and X-Processor Pro image processor, high-resolution stills can be recorded with notable sharpness and clarity due to the sensor's organic layout and omission of an optical low-pass filter. The sensor and processor combination also avails an extended sensitivity range to ISO 51200, a 14 fps continuous shooting rate when working with the electronic shutter, and the ability to record UHD 4K or Full HD 1080p video. When working with moving subjects, continuous autofocus performance has been optimized for improved moving subject tracking and overall accuracy, and Advanced SR Auto mode can also be used for fully automated shooting with intelligent scene recognition. Additionally, the retro-inspired camera body design incorporates a tilting 3.0" 1.04m-dot touchscreen LCD as well as a 2.36m-dot electronic viewfinder, and physical dials are available for quickly and intuitively adjusting exposure and shooting settings.

  • 24.3MP APS-C X-Trans CMOS III Sensor
  • X-Processor Pro Image Processor
  • 2.36m-Dot Electronic Viewfinder
  • 3.0" 1.04m-Dot Tilting Touchscreen LCD
  • UHD 4K Video Recording at 30p
  • Built-In Wi-Fi
  • Extended ISO 51200, Shooting to 14 fps
  • 91-Point AF with Custom AF-C Settings
  • Film Simulation for Photos and Videos
  • Fujinon XC 16-50mm f/3.5-5.6 OIS II Lens

Included with the X-T20 is the Fujinon XC 16-50mm f/3.5-5.6 OIS II lens, which covers wide-angle to portrait-length perspectives with its 24-76mm equivalent focal length range. Three aspherical elements and one extra-low dispersion element reduce aberrations and distortions throughout the zoom range and an optical image stabilization system compensates for up to 3.5 stops of camera shake to produce sharper, clearer imagery in low-light conditions.