The Inspire 1 was a revelation. The first drone in the world to integrate an HD video transmission system, 360° rotating gimbal and a 4K camera. Don't forget the simplicity of app control. The launches of the Zenmuse X5 and X5R cameras further cemented the Inspire as a critical tool for filmmakers. The INSPIRE 2 is a powerful aerial film making system with class leading agility and speed, redundancy features for maximum reliability, and new, smart features that make capturing complex shots easy. The camera unit is now independent from image processor so that you have even more flexibility to choose the perfect gimbal and camera system for each of your scenes. This means that regardless of which camera you choose,you have the same powerful processing backing it, and when using the Zenmuse X5S, the ability to capture RAW videos.
The Inspire 2 takes everything that was good about the Inspire 1 and improves it. An all-new image processing system records at up to 5.2K in CinemaDNG RAW,Apple ProRes and more. A dual battery system prolongs the flight time to a maximum of 27 minutes (with an X4S),while self-heating technology allows it to fly even in low temperatures.
FlightAutonomy has been revised and developed specifically for the Inspire 2,providing two directions of obstacle avoidance and sensor redundancy. Increased intelligence adds multiple intelligent flight modes, including Spotlight Pro, giving even single pilots the ability to create complex,dramatic shots.
An upgraded video transmission system is now capable of dual signal frequency and dual channel, streaming video from an onboard FPV camera and the maincamera simultaneously, for better pilot and camera operator collaboration.
The Inspire 2 creative workflow has been completely optimized and is now capable of recording video in CinemaDNG and Apple ProRes, and other common formats for post-production in filmmaking. Also supported are FAT32/exFAT* file systems, which allow fast copying of files direct from the CINESSD without additional software.
SMART RETURN TO HOME
Forward and downward vision systems allow the Inspire 2 to create a real-time map of its flight route as it flies. If the video transmission system signal is lost and Smart Return Home is enabled, it is able to fly home along its original route, and change to a straight line when it regains a signal. As it returns, it will use the primary camera to identify obstacles as far as 200m in front. The primary camera allow it to plan a safe route home. It is also able to reconnect more quickly after losing connection.
POWERFUL FLIGHT PERFORMANCE
A new level of flight performance is available due to the new propulsion system optimized for power. The Inspire 2 flies at up to 58mph (94kph) descends at 9m/s andclimbs at 6m/s. It can accelerate from 0 to 50mph (80kph) in just 5 seconds and flies at a max attitude angle of 40°.
The two controller sticks are tuned for moresensitivity, making delicate maneuvers easier. More power also allows the Inspire 2 to fly in more extreme conditions, including:
- Over 2500-5000m above sea level (using optional dedicated propellers).
- Temperatures as low as -4°F (-20°C) using self-heating Intelligent Flight Batteries.
The Inspire 2 remote controller features DJI’s LIGHTBRIDGE technology for a maximum transmission distance. While flying the aircraft, you have a live HD view directly within the DJI GO 4 app on your paired device for a precise and responsive flying experience. When in dual remote controller mode, each of the two remote controllers separately control aircraft and camera and can be up to 328 feet (100m) apart.
The inspire's redundancy system has to be in constant monitoring by the intelligent flight control, giving it accurate flight data. The new obstacle sensing system helps the Inspire 2 sense and avoid obstacles, minimizing the risk of collision. Dual batteries mean that if a problem occurs on one battery the other is able to continue flight long enough for a safe landing.
At the same time, the Inspire's propulsion system drives a PWM signal with serial port signal redundancy so that if lost the PWM signals, the transmission will continue through the serial port. This propulsion system has been tested for thousands of hours to ensure reliability. When this reliability is combined with key sensors and a dual-battery design, overall flight reliability is significantly enhanced.