Phantom 4 Pro V2.0 &  Phantom 4 Pro+ V2.0

DJI-Phantom-4The New Phantom 4 Pro V2.0 features an OcuSync HD transmission system, which supports automatic dual-frequency band switching and connects to DJI Goggles wirelessly. 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 14fps. 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.

Features at a glance:

– 20 MegaPixel 1-inc Image Sensor
– Enhanced Video Processing System and 60 fps Footage
– High-Resolution F2.8 wide-angle lens
– Mechanical Shutter with a max speed of 1/2000s
– 5 – Direction Infrared Obstacle Sensing
– 6 – Camera Navigation System
– OcuSync Transmission System
– Greatly Reduced Aircraft noise
– 30 Minute Flight Time

What the two Starter Packs include:

Accessories Phantom 4 Pro V2.0 Pack Phantom Pro+ V2.0 Pack
Phantom 4 Pro V2.0 1 x 1 x
Remote Controller 1 x
Remote Controller + (RC with screen (5.5”, 1080p, 1000cd/m ²) 1 x
Intelligent Flight Battery 1 x 1 x
Charger 1 x 1 x
Power Cable 1 x 1 x
Propellers (Pair) 1 x 1 x
Gimbal Clamp 1 x 1 x
microSD Card (16GB) 1 x 1 x
Micro USB Cable 1 x 1 x
Carrying Case 1 x 1 x

 

Camera With 1-inch 20MP Sensor

Camera CaptureThe onboard camera has been redesigned to use a 1-inch 20-MegaPixel CMOS sensor. 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 speeds. It as powerful as many ground operated cameras. More powerful video processing supports H.264 4K videos at 60fps or H.265 4K at 30fps, both with a 100Mbps bit rate. Advanced Sensors and processors ensure everything is captured with more image detail and the image data needed for advanced post-production.

1-inch 20-Megapixel CMOS

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. It uses larger pixels and has a maximum ISO of 12800 as well as increased contrast. It is good enough for images to be used immediately, while also capturing enough detail for advanced post-processing.

Production Optimised 4K

An enhanced video processing system allows video to be captured in cinema and production optimised DCI 4K/60 (4096 x 2160/60fps) at a bitrate of 100Mbps, enabling you to get high-resolution slow-motion shots. The Phantom 4 Pro V2.0 also supports the H.265 video codec (Maximum resolution 4096 x 2160/30fps). For a given bitrate, H.265 doubles the amount of image processing as H.264, resulting in significantly enhanced image quality. Record in the high dynamic range D-log mode to make the most of this image data for colour grading.

High-Resolution Lens

High-Res-LensThe Resolution and contrast of a lens are critical to image quality because only a quality lens can capture sharp, vivid photos at high resolutions. The brand new Phantom 4 Pro V2.0 camera has an aerial optimised F2.8 wide-angle lens with a 24mm equivalent focal length. It features eight elements – 2 aspherical – arranged in seven groups that fit into a smaller, more compact frame. Its images are consistently detailed with low distortion and low dispersion, ensuring that photos and videos are sharp and vivid. For the first time ever with a DJI camera, MTF (Modulation Transfer Function) results have been made public, so people can get a better understanding of lens performance.

Mechanical Shutter

Aerial imaging on the Phantom 4 Pro V2.0 camera is not only used to capture landscapes, but also capturing scenes with great action and movement. Capturing objects moving at high speed has always been a challenge for flying cameras using the electronic shutter. This is why the Phantom 4 Pro V2.0 camera uses a mechanical shutter and a large-aperture prime lens. The Mechanical shutter with a max speed of 1/2000s, eliminating rolling shutter distortion which can occur when taking images of fast-moving objects or when flying at high speed.

Shutter

5-Direction of Obstacle Sensing

FlightAutonomy 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. 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 operatives the confidence to capture more complex images.

6-Camera Navigation System

Three sets of dual vision sensors form a 6-camera navigation system that works constantly to calculate the relative speeds and distance between the aircraft and an object. 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. 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. 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 Narrow Sensing Mode, Phantom 4 Pro V2.0 narrows its sensing scope enabling it to see in more detail and fly through small spaces.

Navigation

What is FlightAutonomy?

FlightAutonomy is an advanced aerial intelligence and flight automation platform. It is made up of a complex network of ten component groups including seven cameras – forward, rearward and downward dual vision sensors and the primary camera – an infrared sensing system, dual-band satellite positioning (GPS and GLONASS), two downward facing ultrasonic rangefinders, redundant IMUs and compasses, and a group of powerful, specialised computing cores. The Phantom 4 Pro V2.0 acquires a real-time view of its environment and information about the height and position of nearby obstacles to create a 3D map it can locate itself within. The IMU and compasses collect crucial flight status, speed and direction data, while redundant IMUs and compasses monitor critical data and rule out possible errors, dramatically enhancing the reliability of flight.

Infrared Sensing System

Placed on the left, and right sides of the aircraft these measure the distance between the aircraft and any obstacle using infrared 3D Scanning. When in Beginner Mode and Tripod Mode, these sensors have a horizontal field of view of 70° and a vertical field of view of 20°, providing a wide view of the scene to the sides of the Phantom, and a maximum range of 23ft (7m). Traditional ultrasonic sensors only have a detection range of 3-5m and may be confused when affected by propeller vibration. The infrared sensing system is able to sense larger areas and measure the distance between the aircraft, identifying the closest objects accurately while avoiding interference, providing more reliable sensing and protection.

Infrared Sensor

New OcuSync Video Transmission

The Phantom 4 Pro V2.0’s remote controller uses OcuSync video transmission,* which employs time-division multiplexing technology to send control signal and receive video signal simultaneously. When the controller is powered on, the OcuSync system scans for the frequency band with the lowest interference and switches accordingly to maintain clear transmission.

Quieter Propulsion

New aerodynamic 9455S propellers and new FOC ESC drivers offer improved noise control and sinusoidal; current for increased stability. Aircraft noise has been reduced by up to 4dB (60%) for quieter, more enjoyable flights.

Intelligent Batteries

Professional aerial imaging benefits from longer flight times. The Phantom 4 Pro V2.0 has a maximum flight time of 30 minutes, providing more time in the air to capture the perfect shot. The DJI GO 4 app shows battery lifetime and calculates remaining flight times according to a distance travelled and more. It will give alerts when it reaches a minimum safe amount required for a safe journey back to the takeoff point. An advanced battery management system is also in place to prevent overcharging and over draining. When placed in long-term storage, batteries will discharge power to maintain good health.