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An uprated camera is equipped with a 1-inch 20-megapixelPIXELThe shortening of 'picture element', a basic unit of programmable colour forming the dots that make up an image. Pixel size depends on a camera’s resolution, which is measured in megapixels (MP), meaning millions of pixels. The more pixels on a sensor, the smaller they have to be to fit. An image's number (or density) of pixels correlate to the amount of information and image holds. Cameras with more pixels on the sensor have a higher pixel density and thus more resolving power, able to capture smaller details with much more clarity and accuracy. Higher resolution images can be cropped more agressively and also produce better quality large prints. sensor capable of shooting 4K/60fps video and Burst Mode stills at 14 fps. The adoption of titanium alloy and magnesium alloy construction increases the rigidity of the airframe and reduces weight, making the Phantom 4 Pro similar in weight to the Phantom 4. The FlightAutonomy system adds dual rear vision sensors and infrared sensing systems for a total of 5-direction of obstacle sensing and 4-direction of obstacle avoidance.


CAMERA WITH 1-INCH 20MP SENSOR

The 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 speed. In effect, it is as powerful as many traditional ground cameras. More powerful video processing supports H.264 4K videos at 60fps or H.265 4K at 30fps, both with a 100Mbps bitrate. Advanced sensors and processors ensure everything is captured with more image detail and the image data needed for advanced post-production.


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-noiseNOISEThe appearance of random pixels scattered over a photo, similar to the grain effect seen in film photography, which degrades photo quality almost as if it is stained. It occurs when taking photos in low-light conditions, with very slow shutter speeds on high sensitivity (ISO) settings. It is caused by amplification done by the sensor when high ISO settings are used. You can counteract digital noise by lowering the sensitivity (ISO) setting of your camera - the lower the ISO setting, the lower the noise in the image. Typically cameras with larger sensors (like full-frame cameras) will inherently produce less noise due to larger pixels on the sensor. ratio, and low light performance. The 1-inch 20-megapixel CMOS sensor in the Phantom 4 Pro is almost four times the size of the Phantom 4's 1/2.3in sensor. It uses larger pixels and has a maximum ISO ISO Exposure is controlled by three elements: Aperture, Shutter Speed and ISO. The ISO speed determines how sensitive a camera's sensor is to incoming light. A higher ISO speed absorbs more light, resulting in a brighter exposure, however, a higher ISO also results in more digital noise in low-light conditions. Cameras with larger sensors (like full-frame cameras) typically have higher ISO speed capability and produce less digital noise at high ISO settings. Digital cameras include a control for adjusting ISO speed, some of which can be set to adjust automatically in combination with certain other exposure settings. ISO is indicated in numbers usually starting at 100 and going upward (200, 400, 800, 1600 etc.) doubling in sensitivity each time. Most cameras also indicate 3rd stop intervals (100, 125, 180, 200 etc.)of 12800 as well as increased contrastCONTRASTThe difference between areas of different brightness levels in a photograph: A high-contrast image has a greater difference between light and dark areas, whereas a low-contrast image has a narrow range of tones. Contrast is used to direct a viewer’s attention to a photographer’s subject either with colour contrast (bold versus duller colours) or tonal contrast (bright versus darker tones). . It is good enough for images to be used immediately, while also capturing enough detail for advanced post-processing.


PRODUCTION OPTIMIZED 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 also supports the H.265 video codec (Maximum resolution 4096X2160/30fps). 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 color grading.


HIGH RESOLUTION LENS

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. The brand new Phantom 4 Pro camera has an aerial optimised F2.8 wide-angle lensWIDE-ANGLE LENSHas a short focal length, hence a field covering a wide angle, ideal for architectural, interior and landscape photography where the photographer may be unable to move further away from the scene to photograph it. Wide-angle lenses come in both fixed-focal length and zoom lens varieties. with a 24mm equivalent focal lengthFOCAL LENGTHMeasured in mm, it is the distance from the focal point of a lens (its centre or curved mirror where light converges) to the plane of the image sensor (film) when an object is in focus. A shorter focal length lens sees a wider image and a longer focal length brings your subject closer. For example, a 15mm lens sees a very wide image and is perfect for landscape photography. Conversely, a 500mm lens sees a very narrow image, brings the subject much closer and is thus great for subjects that are far away, like a bird in a tree. With zoom lenses, its minimum and maximum focal lengths are indicated, for example, as 24-105mm. A zoom lens allows you to change the lens’ focal length, with shorter (wide-angle) and longer (telephoto) options, whereas a fixed focal length lens requires you to move back and forth to find the correct image composition. . 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 for this camera have been made public, so people can get a better understanding of lens performance.


CAPTURE EVERY MOMENT

Aerial imaging is not only used to capture landscapes; it brings new perspectives to everything from action scenes to motor racing. Capturing objects moving at high speed has always been a challenge for flying cameras using an electronic shutter. This is why the Phantom 4 Pro is the first DJI Phantom to use a mechanical shutter and a large-apertureAPERTUREAperture, shutter speed and ISO form what is known as the exposure triangle in photography. Aperture refers to an opening inside the lens, similar to the iris of your eye, that changes in diameter to control the amount of light that enters a camera. Aperture is expressed in f-stops: the lower the number, the larger the aperture, e.g. f/1.4 is larger than f/8. A larger (or wider) aperture allows more light to pass through the lens to the sensor (film) as a picture is taken, particularly useful in low-light conditions. A larger aperture also produces a shallower depth-of-field, and thus more background blur. prime lensPRIME LENSA photographic lens used as an (1) alternative, fixed focal length alternative to a zoom lens or, (2) more traditionally, as the primary lens in a combination lens system. In the first sense, a prime lens is known for having a larger maximum aperture and consequently offers greater shutter speeds, having advanced optics and weighing less than zoom lenses, albeit less flexible, because of their simpler construction with less moving parts. In the second sense, a prime lens refers to the primary lens when paired with other optical devices. A prime lens's focal length is fixed and the photographer is required to move closer or further to achieve the correct image composition.. Mechanical shutter with a max speed of 1/2000s eliminates rolling shutter distortion which can occur when taking images of fast moving subjects or when flying at high speed. The electronic shutter has also been improved with a max shutter speedSHUTTER SPEEDAperture, shutter speed and ISO form what is known as the exposure triangle in photography. Shutter speed is the length of time that a single frame is exposed for, more specifically how fast the shutter opens and closes to permit light entering the lens, to reach the sensor. A slow shutter speed means a longer exposure time useful for motion blur like the silky look of flowing water, whereas a fast shutter speed means a shorter exposure time useful for freezing the appearance of motion in images like a hummingbird in flight. It is measured in seconds starting at 1 second and halving our doubling in time. For example: 1/2s, 1/4s and 1/8s are all fractions of a second with 1/2s being the longest exposure time, 1/4s half of that and 1/8s another half etc. of 1/8000 seconds, and a new Burst Mode shoot capable of shooting 14 fps at 20 megapixels to catch the perfect moment.


FIVE-DIRECTIONS 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 five-directions of obstacle sensing and four-directions of obstacle avoidance, protecting the Phantom 4 Pro from more obstacles and giving filmmakers the confidence to capture more complex images.


Pilots always need to be aware of obstacles when shooting from the air. This is a challenge for beginner pilots as well as experienced pilots, especially when sight lines are obstructed. The Phantom 4 Pro is equipped with an environment-sensing system based on stereo vision sensors and infrared sensors. It is able to detect obstacles 98ft (30m) in front, allowing it to plan its flight path to avoid them or simply hover in the event of an emergency. This same system also allows it to hover in position without GPS. Combined with infrared sensors on its left and right sides, the Phantom 4 Pro can avoid obstacles in a total of four directions. Forward and rearward obstacle sensing range has been increased, allowing the Phantom 4 Pro to fly at 31mph (50kph) with full protection of its stereo vision obstacle sensing system. It makes fast, dramatic video easier and ultimately safer to capture.


SIX-CAMERA NAVIGATION SYSTEM

Three sets of dual vision sensors form a six-camera navigation system that works constantly to calculate the relative speed and distance between the aircraft and an object. Using this network of forward, rearward and downward vision sensors, the Phantom 4 Pro 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. The Phantom 4 Pro also is able to fly in complex environments at a flight speed of up to 31mph (50kph) while avoiding obstacles in its path. It will automatically adjust its obstacle detection method in line with its flight speed, allowing it to avoid obstacles at high and low speed.


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 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

The Phantom 4 Pro is the first DJI aircraft to use an infrared sensing system. Placed on the left, and right sides of the aircraft, these measure the distance between the aircraft and any obstacles 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 or when sensing uneven surfaces. 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.


REMOTE CONTROLLER WITH BUILT-IN SCREEN

The Phantom 4 Pro controller integrates an upgraded Lightbridge HD video transmission system that adds 5.8 GHz transmission support. The ability to choose between 2.4Ghz and 5.8Ghz allows pilots to cut through interference and eliminates image lag caused when flying in an area with extensive 2.4Ghz frequency use. Normally, Wi-Fi video transmission systems use a 2.4GHz frequency to work with a controller using a 5.8GHz frequency as this prevents interference that can occur when both use the same frequency. To perform normally, the video transmission system and the controller will interfere with each other causing image lag, especially if both use the same frequency. The use of two different frequencies has drawbacks in terms of flight performance. For example, flight performance will be affected when either of the two frequencies suffer interference.


The Lightbridge HD video transmission system used in the Phantom 4 Pro uses TDM (Time Division Multiplexing) to transmit signals, allowing it to send controller signals and receive video transmission signals at the same frequency. As the 2.4GHz frequency band is often affected by Wi-Fi, 4G cell towers, and other types of interference in urban areas, a 5.8Ghz band will increase transmission reliability. When switched on, the Phantom 4 Pro evaluates local signal levels, automatically choosing the transmission frequency with the lowest level of interference. This ensures the optimum range of a maximum video transmission of 4.3mi (7km)*


A 5.5in 1080p screen integrated with the Phantom 4 Pro+ offers 1000 cd/m2 of brightness, more than twice as bright as conventional smart devices. It makes bright, vivid colours easily visible in direct sunlight. With this screen, a mobile device is not required, simplifying pre-flight preparations. As the DJI GO app is built into the screen, hardware and software can be fully optimised, further reducing video lag. Integration of an HDMI port, Micro-SD card slot, microphone, embedded loudspeaker, and Wi-Fi connection allow images to be edited inside DJI GO to be shared almost instantly. Lastly, a five-hour battery life makes the Phantom 4 Pro + a complete aerial imaging solution.


*Unobstructed, free of interference, when FCC compliant.


Aircraft

Weight (Including Battery And Propellers)
1388g
Diagonal Size (Including Propellers)
350mm
Max Ascent Speed
S-mode: 6 m/s; P-mode: 5 m/s
Max Descent Speed
S-mode: 4 m/s; P-mode: 3 m/s
Hover Accuracy
Vertical: ±0.1 m (With Vision Positioning); ±0.5 m (With GPS Positioning)
Horizontal: ±0.3 m (With Vision Positioning); ±1.5 m (With GPS Positioning)
Max Speed
45 mph (72 kph) (S-mode); 36 mph (58 kph) (A-mode); 31 mph (50 kph) (P-mode)
Max Altitude Above Sea Level
19685 ft (6000 m)
Operating Temperature
32° to 104° F ( 0° to 40° C)
GPS Mode
GPS/GLONASS

DJI Camera

Sensor
1’’ CMOS
Effective pixels: 20 Megapixel
Lens
FOV (Field of View) 84°, 8.8 mm / 24 mm (35 mm format equivalent),
f/2.8 - f/11.
auto focus at 1 m - ∞
ISO Range
Video: 100 - 3200 (Auto); 100 - 6400 (Manual)
Photo: 100 - 3200 (Auto); 100- 12800 (Manual)
Shutter Speed
Mechanical Shutter: 8 - 1/2000 s
Electronic Shutter: 1/2000 - 1/8000 s
Image Max Size
3:2 Aspect Ratio: 5472 × 3648
4:3 Aspect Ratio: 4864 × 3648
16:9 Aspect Ratio: 5472 × 3078
Still Photography Modes
Single Shot
Burst Shooting: 3/5/7/10/14 frames
Auto Exposure Bracketing (AEB): 3/5 bracketed
frames at 0.7EV Bias
Interval: 2/3/5/7/10/15/30/60 s
Video Recording Modes
H.265
・C4K:4096×2160 24/25/30p @100Mbps
・4K:3840×2160 24/25/30p @100Mbps
・2.7K:2720×1530 24/25/30p @65Mbps

2720×1530 48/50/60p @80Mbps
・FHD:1920×1080 24/25/30p @50Mbps

1920×1080 48/50/60p @65Mbps

1920×1080 120p @100Mbps

・HD: 1280×720 24/25/30p @25Mbps

1280×720 48/50/60p @35Mbps

1280×720 120p @60Mbps


H.264
・C4K:4096×2160 24/25/30/48/50/60p @100Mbps
・4K:3840×2160 24/25/30/48/50/60p @100Mbps
・2.7K:2720×1530 24/25/30p @80Mbps

2720×1530 48/50/60p @100Mbps
・FHD:1920×1080 24/25/30p @60Mbps

1920×1080 48/50/60 @80Mbps

1920×1080 120p @100Mbps
・HD: 1280×720 24/25/30p @30Mbps

1280×720 48/50/60p @45Mbps

1280×720 120p @80Mbps
Supported SD Card Types
Micro SD, Max Capacity: 128GB.
Write speed ≥15MB/s, class 10 or UHS-1 rating required
Max Bitrate Of Video Storage
Up to 100 Mbps
Supported File Formats
Photo: JPEG, DNG (RAW), JPEG + DNG
Video: MP4/MOV (AVC/H.264;HEVC/H.265)
Operating Temperature
32° to 104° F (0° to 40° C)
Controllable Range
Pitch: -90° to +30°
Stabilization
3-axis (pitch, roll, yaw)

Remote Controller

Operating Frequency
2.400 - 2.483 GHz and 5.725 - 5.825 GHz
Max Distance
2.400 GHz - 2.483 GHz(Unobstruoted, free of interference)
FCC: 4.3mi (7km);
CE: 2.2mi (3.5km);
SRRC: 2.5mi (4 km)
5.725 GHz - 5.825 GHz(Unobstruoted, free of interference)
FCC: 4.3mi (7km);
CE: 1.2mi (2 km);
SRRC: 2.5mi (4 km)
Video Output Port
GL300E: HDMI,USB
GL300F: USB
Operating Temperature
32° to 104° F (0° to 40° C)
Battery
PH4-5870MAH-15.2V
Mobile Device Holder
GL300E:Built-in display device (5.5 inch screen, 1920×1080,
1000 cd/m2, Android system, 4G RAM+16G ROM)
GL300F:Tablets and smart phones
Transmitter Power (EIRP)
2.400 GHz - 2.483 GHz
FCC: 26 dBm; CE: 17 dBm; SRRC: 20 dBm
5.725 GHz - 5.825 GHz
FCC: 28 dBm; CE: 14 dBm; SRRC: 20 dBm

Intelligent Flight Battery

Capacity
5870 mAh
Voltage
15.2 V
Battery Type
LiPo 4S
Energy
89.2 Wh
Battery Weight
468g
Max Flight Time
Approx. 30 minutes
Operating Temperature
14° to 104° F (-10° to 40° C)
Max Charging Power
100W

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What's in the box?

  • DJI Phantom 4 Pro Drone
  • Remote Controller for Phantom 4 Pro Quadcopter with Mobile Device Clip

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