Nikon Releases The AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR, – July 17, 2017– Tokyo, Japan (Techreleased) – Nikon Corporation is pleased to announce the release of the AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR, a telephoto zoom lens compatible with Nikon FX-format digital SLR cameras.
The AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR is an approximately 4.3x telephoto zoom lens that covers a broad range of focal lengths — up to 300mm. Adoption of a stepping motor ensures fast, quiet, and smooth AF drive, especially beneficial when used for movie recordings.
The lens is also equipped with a vibration reduction (VR) function that provides a level of compensation equivalent to a 4.5-stop* increase in shutter speed. In addition, the SPORT mode normally reserved for super-telephoto lenses has also been built into the VR function. This helps to stabilize the image displayed in the viewfinder, making it easy for photographers to compose their shots as intended, even when photographing scenes such as sporting events in which the subject moves quickly and erratically.
Despite the fact that the AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR is a telephoto zoom lens that covers a broad range of focal lengths up to 300mm, its lightweight design ensures a weight of approximately 680 g (measured in accordance with CIPA standards) that gives it superior portability, and enables nimble, hand-held telephoto photography. Resistance to dust and drips was taken into consideration with the design of this lens, as was the user’s comfort and ease of use when a smooth operational feel was achieved for the focus and zoom rings.
When used with a DX-format camera, the AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR supports a maximum focal length equivalent to 450mm in 35mm  format, making it easy to utilize the agility of the DX-format to enjoy telephoto photography.
The AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR will satisfy the shooting intent of a broad range of users of both FX- and DX-format cameras looking to enjoy effortless and comfortable telephoto photography with superior image quality, performance, and agility.