![]() ![]() ![]() ![]() Placed on the left, and right sides of the aircraft, these measure the distance between the aircraft and any obstacles using infrared 3D scanning. The Phantom 4 Pro+ V2.0 is the first DJI aircraft to use an infrared sensing system. In Narrow Sensing Mode, the Phantom 4 Pro+ V2.0 narrows its sensing scope enabling it to see in more detail and fly through small spaces. The Phantom 4 Pro+ V2.0 also is able to fly in complex environments at a flight speed of up to 31mph (50kph) while avoiding obstacles in its path. In the unlikely event that front and downward sensors are unable to operate, the aircraft can still hover in place using the rear stereo vision system. ![]() Using this network of forward, rearward and downward vision sensors, the Phantom 4 Pro+ V2.0 is able to hover precisely in places without GPS when taking off indoors, or on balconies, or even when flying through windows with minimal pilot control. Three sets of dual vision sensors form a 6-camera navigation system that works constantly to calculate the relative speed and distance between the aircraft and an object. This network creates a total of 5-direction of obstacle sensing and 4-direction of obstacle avoidance, protecting the Phantom 4 Pro+ V2.0 from more obstacles and giving filmmakers the confidence to capture more complex images. The brand new Phantom 4 Pro+ V2.0 camera has an aerial optimized F2.8 wide-angle lens with a 24mm equivalent focal length.įlightAutonomy is expanded with an additional set of high-resolution stereo vision sensors placed at the rear in addition to the pair placed at the front as well as infrared sensing systems placed on the left and right sides. The resolution and contrast of a lens is critical to image quality, because only a quality lens can capture sharp, vivid photos at high resolutions. It uses larger pixels and has a maximum ISO of 12800 as well as increased contrast. The 1-inch 20-megapixel CMOS sensor in the Phantom 4 Pro + V2.0 is almost four times the size of the Phantom 4's 1/2.3in sensor. Sensor size is more important to image quality than the number of pixels because a larger sensor captures more information in every pixel, improving dynamic range, signal-to-noise ratio, and low light performance. Advanced sensors and processors ensure everything is captured with more image detail and the image data needed for advanced post-production. More powerful video processing supports H.264 4K videos at 60fps or H.265 4K at 30fps, both with a 100Mbps bitrate. In effect, it is as powerful as many traditional ground cameras. A custom engineered lens made up of eight elements is arranged in seven groups, it is the first DJI camera to use a mechanical shutter, eliminating rolling shutter distortion which can occur when taking images of fast moving subjects or when flying at high speed. The onboard camera has been redesigned to use a 1-inch 20-megapixel CMOS sensor. Plus, its FlightAutonomy system includes dual rear vision sensors and infrared sensing systems for a total of 5 directions of obstacle sensing and 4 directions of obstacle avoidance. Like The Phantom 4 Pro and Advanced, the Phantom 4 Pro+ V2.0 is equipped with a 1-inch 20-megapixel sensor capable of shooting 4K/60fps video and Burst Mode stills at 14 fps. The new Phantom 4 Pro+ V2.0 features an OcuSync HD transmission system, which supports automatic dual-frequency band switching and connects to DJI Goggles RE wirelessly. ![]()
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