The Fujifilm X-T1 Mirrorless Digital Camera features a 16.3 megapixel APS-C X-Trans CMOS II sensor and an EXR Processor II to produce high-resolution imagery with an expandable sensitivity...
The Fujifilm X-T1 Mirrorless Digital Camera features a 16.3 megapixel APS-C X-Trans CMOS II sensor and an EXR Processor II to produce high-resolution imagery with an expandable sensitivity range from ISO 100-51200 as well as a top continuous shooting rate of 8 fps. Fujifilm's proprietary X-Trans sensor uses a unique randomized pixel array in order to avoid the use of a resolution- reducing optical low-pass filter, therefore providing images with the utmost sharpness and clarity. This imaging system is benefitted by the Intelligent Hybrid AF system, which uses both contrast- and phase-detection methods to acquire focus quickly and accurately. Enhanced manual focusing capabilities are also a result of these technologies; Digital Split Image and Focus Highlight Peaking are two methods for quickly and precisely determining focus using intelligent focusing aids for improved control and optimized efficiency. For image monitoring, review, and menu navigation, both a 2,360k-dot OLED electronic viewfinder and a 3.0inch 1,040k-dot tilting LCD screen are available. The body design extends this versatility through the implementation of manual, physical control dials on the top plate of the camera as well as customizable buttons and a Q Menu button for expedited access to some of the most useful settings. This control scheme further enables an intuitive built-in Wi-Fi system for direct sharing of imagery to an Android or iOS mobile device for instant sharing online. Full HD 1080p movie recording in multiple frame rates is possible and a 2.5mm microphone input permits the use of an optional external microphone for improved audio quality with recordings. Full-time continuous focusing is supported while taking video, also, as well as the use of Film Simulation modes. Film Simulation modes make use of Fujifilm's history of producing both negative and slide films, and allow you to apply those films' characteristics to your digital imagery to better suit your intended look. Included with the X-T1 is the XF 18-55mm f/2.8-4 R LM OIS lens; a standard zoom lens providing a 35mm-equivalent focal length range of 27-84mm, covering wide-angle to portrait-length perspectives. This lens integrates optical image stabilization to minimize the appearance of camera shake to benefit working with longer shutter speeds or greater focal lengths and a linear motor-drive AF system provides fast, smooth focusing capabilities. 16.3MP APS-C X-Trans CMOS II Sensor A large 16.3MP APS-C CMOS image sensor is integrated into the X-T1 to provide high image quality and detail. Using Fujifilm's unique X-Trans bespoke pixel array, the sensor is designed with a randomized pixel pattern to eliminate the need of an optical low-pass filter for reducing moiré and aliasing. By removing this filter from the design, higher image sharpness is possible. Lens Modulation Optimizer (LMO) factors are also taken into account using the EXR Processor II, which helps to automatically compensate for aberrations and diffraction blur in order to produce images with the utmost inherent sharpness. The X-Trans sensor also works to provide highly effective noise reduction and a clean signal-to-noise ratio. This enables smoother-looking imagery that becomes especially apparent when photographing in low-light situations with an expanded sensitivity range of ISO 100-51200. Additionally, a top continuous shooting rate of 8 fps is possible, for up to 47 consecutive frames, to benefit working with moving subject matter. EXR Processor II Aside from benefitting low-light performance, the EXR Processor II also provides quick performance throughout the entire camera system. The camera start-up time is about 0.5 seconds, shutter lag is about 0.05 seconds, and the shooting interval time is about 0.5 seconds. A fast autofocus performance speed of 0.08 seconds is also enabled using the advanced Intelligent Hybrid AF system using both contrast- and phase-detection focusing methods. Intellige