Description
Condition & Details
- Condition: This lens is tested, operational, has clean optics and mint minus condition
Supplied With
- Canon TS-E 17mm F4 L Tilt Shift
- Front and Rear Caps
- Lens Hood
- Soft Pouch
- Box
Item Description
Expanding the possibilities for tilt-and-shift photography
The TS-E 17mm f/4L is an ultra-wide angle tilt-and-shift lens, providing wide-angle views for cameras with APS-C and full frame sensors. Tilt and shift movements can be rotated independently of each other, allowing perspective and depth of field to be controlled separately, enhancing the flexibility of the lens.
Wide range of movement
With a 104° diagonal field of view, and ±6.5° of tilt, ±12mm shift and ±90° of rotation, the TS-E 17mm f/4L is one of the most flexible lenses of its type. Locks on the tilt and shift mechanisms are also included, ensuring that unwanted movements are avoided.
High precision lens elements
A high-precision, large-diameter moulded glass aspherical lens element gives outstanding edge-to-edge resolution and low distortion. Chromatic aberration – common in wide-angle shooting – is combated by four UD (ultra low-dispersion) elements.
Subwavelength structure coating
Designed for use in digital photography, Canon’s patented lens element coating helps minimise the ghosting and flare caused by internal reflection and helps to deliver crisp, clear images.
Robust build quality
Canon L-series lenses are built to withstand regular use in the most testing environments. Weather and dust seals provide added protection. A lens hood and pouch are also included.
Lead-free optics
Environmentally friendly lead-free glass is used throughout the construction of the TS-E 17mm f/4L.
Key Features
- Natural perspective with image control
- Wide 17mm focal length for landscapes and architecture
- Large range of movement: ±6.5° Tilt and ±12mm Shift
- Shift mechanism rotates +/-90° allowing shift in any direction
- Tilt mechanism rotates +/-90° allowing tilt in any direction relative to the shift
- Aspherical and UD lens elements minimise chromatic aberration
- Sub wavelength structure and super spectra coatings minimise ghosting and flare
