20mm F1.4
DG HSM | A
• Outstanding Edge to Edge Performance
• Individually inspected Hand crafted in Japan
• Accessories include: Plastic Cover Lens Cap (LC907-01), carrying case
| Product Lines | Art |
|---|---|
| Youtube Videos | |
| Instagram Widget | |
| Klevu Image | /a/0/a015_20_14_basic_01_1.png |
| Construction | 15 Elements in 11 Groups |
| Lens Type | Wide Angle |
| Sensor Size | Full Frame |
| Angle of view | 94.5° |
| Number of diaphragm blades | 9 (Rounded Diaphragm) |
| Minimum aperture | F16 |
| Minimum focusing distance | 27.6 cm / 10.9 in |
| Maximum magnification ratio | 1:7.1 |
| Dimensions (diameter x length) | Sigma SA-mount ⌀ 90.7 mm x 129.8 mm |
| Filter diameter | n/a |
| Edition number | A015 |
| Accessories | Case, Cover Lens Cap (LC907-01) |
| EAN | Canon E/EF |
Lens Construction
Geometrical MTF Chart
Diffraction MTF Chart
High-precision, rugged brass bayonet mount
The brass mount combines high precision with rugged construction. Its treated surfaces and enhanced strength contribute to the exceptional durability of the lens.
HSM (Hyper Sonic Motor)
The Hyper Sonic Motor (HSM) is an original SIGMA development that uses ultrasonic waves to drive the autofocus mechanism. Its extremely quiet operation helps avoid disturbing photographic subjects. High torque and speed assure rapid autofocus response. SIGMA uses two types of HSM: ring HSM and micro HSM. The Ring HSM configuration permits manual fine tuning of focus (manual override) by turning the focusing ring after autofocus is complete.
Rounded diaphragm
The polygonal shape of a conventional iris dia phragm causes out-of-focus light points to appear polygonal. A rounded diaphragm is designed to pro duce rounded out-of-focus light points when opened to near maximum aperture. This creates attractive bokeh effects in many situations, such as when pho tographing a subject against an out-of-focus surface of water from which light is being reflected.
Exclusive low-dispersion glass
The degree to which light is refracted by glass depends on the light's wavelength. This fact causes different colors of light to focus at slightly different points. The result is chromatic aberration, the color fringing that is particularly noticeable in telephoto lenses. Most chromatic aberration can be removed by combining a high-refractivity convex lens element with a low-refractivity concave element. Yet residual chromatic aberration known as "secondary spectrum" may still remain. To minimize this secondary spectrum, which can be a serious issue with conventional lenses, SIGMA lenses feature up to three types of exclusive low-dispersion glass offering superior performance: ELD (Extraordinary Low Dispersion), SLD (Special Low Dispersion) and FLD ("F" Low Dispersion). In particular, FLD glass offers ultra-low dispersion in combination with high transmittance and the anomalous dispersion characteristics of fluorite. Meticulous deployment of these types of exclusive low-dispersion glass and optimization of power distribution gives SIGMA lenses superlative image rendition undiminished by residual chromatic aberration.
