User's Manual
Table Of Contents
- Using This Manual
- Product Profile
- Aircraft
- Flight Modes
- Aircraft LEDs and Status Indicator
- Return to Home
- Vision Systems and Infrared Sensing Systems
- Advanced Pilot Assistance Systems (Only Mavic 2 Enterprise is supported)
- Flight Recorder
- Password Protection
- Attaching and Detaching the Propellers
- Intelligent Flight Battery
- Gimbal and Camera
- DJI AirSense
- Modular Accessories
- Remote Controller
- DJI Pilot App
- Flight
- Appendix
Mavic 2 Enterprise Series User Manual
©
2019 DJI All Rights Reserved.
21
Vision Systems and Infrared Sensing Systems
The Mavic 2 Enterprise series is equipped with Forward, Backward, Downward, and Lateral Vision
Systems, and Upward and Downward Infrared Sensing Systems, providing omnidirectional obstacle
sensing (if lighting conditions are adequate).
The main components of the Forward, Backward, and Downward Vision Systems are six cameras
located on the nose, rear side, and the underside of the aircraft. Lateral Vision Systems are two cameras
located on either side of the aircraft.
The main components of the Upward and Downward Infrared Sensing Systems are two 3D infrared
modules located on the upper and underside of the aircraft.
The Downward Vision System and Infrared Sensing System helps the aircraft maintain its current
position and hover in place more precisely and to y indoors or in other environments where a GPS
signal is unavailable. In addition, the Auxiliary Bottom Light located on the underside of the aircraft
improves visibility for the Downward Vision System in weak light conditions.
Detection Range
The detection range of the Vision Systems is depicted as followed. Please note that the aircraft cannot
sense or avoid the obstacles that are not within detection range.
Forward Vision System
Downward Vision System
Downward Vision System
Downward Infrared Sensing System
Auxiliary Bottom Light
Upward Infrared Sensing SystemUpward Infrared Sensing System
Backward Vision System
Lateral Vision System
Lateral Vision System
Precision Landing performance is subject to the following conditions:
a. The Home Point must be recorded upon takeoff and must not be changed during flight,
otherwise the aircraft will have no record of the Home Point’s terrain features.
b. During takeoff the aircraft must ascend vertically 7 m before moving horizontally.
c. The Home Point terrain features must remain largely unchanged.
d. The Home Point terrain features must be sufficiently distinctive.
e. The lighting conditions must not be too light or too dark.
The following actions are available during Precision Landing:
a. Throttle down to accelerate landing.
b. Move the control sticks in any other direction to stop Precision Landing. The Mavic 2
Enterprise series will descend vertically after the control sticks are released.