Dji Fly App

2022.05v1.0User Manual

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Using this manual

###### Legend

Warning Important Hints and Tips Reference

###### Read Before the First Flight

Read the following documents before using the DJITM Mini 3 Pro:

It is recommended to watch all tutorial videos on the official DJI website and read safety guidelines before using for the first time. Prepare for your first flight by reviewing the quick start guide and refer to this user manual for more information.

Video Tutorials Go to the address below or scan the QR code to watch the DJI Mini 3 Pro tutorial videos, which demonstrate how to use the Mini 3 Pro safely: https://s.dji.com/guide11

###### Download the DJI Fly App

Make sure to use DJI Fly during flight. Scan the QR code above to download the latest version.

The DJI RC remote controller has the DJI Fly app already installed. Users are required to download DJI Fly to their mobile device when using DJI RC-N1 remote controller.

The Android version of DJI Fly is compatible with Android v6.0 and later. The iOS version of DJI Fly is compatible with iOS v11.0 and later.

###### Download DJI Assistant 2 (Consumer Drones Series)

Download DJI Assistant 2 (Consumer Drones Series) at https://www.dji.com/mini-3-pro/downloads.

The operating temperature of this product is -10° to 40° C. It does not meet the standard operating temperature for military grade application (-55° to 125° C), which is required to endure greater environmental variability. Operate the product appropriately and only for applications that it meets the operating temperature range requirements of that grade.

#### Contents

Using this manual 2 Legend 2 Read Before the First Flight 2 Video Tutorials 2 Download the DJI Fly App 2 Download DJI Assistant 2 (Consumer Drones Series) 2

Product Profile 6 Introduction 6 Using for the First Time 7 Diagram 9

Aircraft 13 Introduction 13 Flight Modes 13 Aircraft Status Indicator 14 QuickTransfer 14 Return to Home 15 Vision Systems and Infrared Sensing Systems 18 Intelligent Flight Mode 20 Advanced Pilot Assistance Systems (APAS 4.0) 27 Flight Recorder 28 Intelligent Flight Battery 30 Gimbal and Camera 36

######### Remote Controller 39 DJI RC 39 DJI RC-N1 47

DJI Fly App 53 Home 53 Camera View 54

Flight 59 Flight Environment Requirements 59 Flight Limits 59 Pre-Flight Checklist 61 Auto Takeoff/Landing 61 Starting/Stopping the Motors 62 Flight Test 62

Appendix 65 Specifications 65 Firmware Update 70 Aftersales Information 71

Product Profile

This section introduces DJI Mini 3 Pro and lists the components of the aircraft and remote controller.

Product Profile

###### Introduction

DJI Mini 3 Pro features both an Infrared Sensing System and Forward, Backward, and Downward Vision Systems. This allows for hovering and flying indoors as well as outdoors and for automatic Return to Home while avoiding obstacles from the front, back, and below. DJI Mini 3 Pro also boasts a foldable and compact design, weighing less than 249 g. The aircraft has a maximum flight speed of 36 mph (57.6 kph), a maximum flight time of 34 minutes when using an Intelligent Flight Battery, and a maximum flight time of 47 minutes when using an Intelligent Flight Battery Plus.

The DJI RC remote controller has a built-in 5.5-inch screen with a resolution of 1920x1080 pixels. Users can connect to the internet via Wi-Fi while the Android operating system includes both Bluetooth and GNSS. The DJI RC remote controller comes with a wide range of aircraft and gimbal controls as well as customizable buttons. It has a maximum operating time of approximately 4 hours. The RC-N1 remote controller displays the video transmission from the aircraft to DJI Fly on a mobile device. The aircraft and camera are easy to control using the onboard buttons and the remote controller has a runtime of approximately 6 hours.

######## Feature Highlights

Gimbal and Camera: With a fully stabilized 3-axis gimbal and a 1/1.3-in sensor camera, DJI Mini 3 Pro is able to shoot 4K video and 48MP photos. It also supports switching between Landscape mode and Portrait mode with one tap in DJI Fly.

Video Transmission: With four built-in antennas and DJI’s long-range transmission O3 (OCUSYNCTM 3.0) technology, DJI Mini 3 Pro offers a maximum transmission range of 12 km and video quality at up to 1080p 30fps from the aircraft to DJI Fly. The remote controller works at both 2.4 and 5.8 GHz, and is capable of selecting the best transmission channel automatically.

Advanced Shooting Modes: Capture complicated shots effortlessly with features such as MasterShots, Hyperlapse, and QuickShots. With just a few taps, the aircraft will take off to record according to the preset path and generate a professional standard video automatically. QuickTransfer makes downloading and editing photos and videos more convenient and efficient.

Intelligent Flight Modes: With ActiveTrack 4.0 and Point of Interest 3.0, the aircraft follows or flies around a subject automatically while sensing obstacles in its path. The user can focus on operating the aircraft while the Advanced Pilot Assistance System 4.0 enables the aircraft to avoid obstacles.

The maximum flight time and speed were tested in a windless environment at near sea level while flying at a consistent speed of 13 mph (21.6 kph).

The remote controller reaches its maximum transmission distance (in FCC compliant mode) in a wide open area with no electromagnetic interference, at an altitude of about 120 m (400 ft). The maximum runtime was tested in a laboratory environment. This value is for reference only.

The 5.8 GHz frequency is not supported in some regions, where it will automatically be disabled. Always observe local laws and regulations.

The Intelligent Flight Battery Plus needs to be purchased separately and it is sold in just some countries and regions. Visit the official DJI online store for more information.

The maximum takeoff weight will be more than 249 g if the aircraft is used with the Intelligent Flight Battery Plus. Make sure to observe local laws and regulations about the takeoff weight.

###### Using for the First Time

DJI Mini 3 Pro is folded before being packaged. Follow the steps below to unfold the aircraft and remote controller.

Preparing the Aircraft All aircraft arms are folded before the aircraft is packaged. Follow the steps below to unfold the aircraft.

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It is recommended to use the DJI 30W USB-C Charger or other USB Power Delivery chargers.

The maximum charge voltage for the aircraft charging port is 12 V.

Make sure the gimbal protector is removed and all arms are unfolded before powering on the aircraft. Otherwise, it may affect the aircraft self-diagnostics.

Attach the gimbal protector when the aircraft is not in use. Ensure all arms are folded before reattaching the gimbal protector. First rotate the camera to make it horizontal and forward-facing ① . While attaching the gimbal protector, ensure the camera fits into the protector first, then insert the latch on the upper part of the protector onto the opening on the aircraft ② , and insert the two locating pins into the holes at the bottom of the aircraft ③ .

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######## Preparing the Remote Controller Follow the steps below to prepare the DJI RC remote controller.

########## Follow the steps below to prepare the DJI RC-N1 remote controller.

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If a USB connection prompt appears when an Android mobile device is used, select the option to charge only. Other options may cause the connection to fail.

Activating the DJI Mini 3 Pro Aircraft DJI Mini 3 Pro requires activation before first use. After powering on the aircraft and remote controller, follow the on-screen prompts to activate DJI Mini 3 Pro using DJI Fly. An internet connection is required for activation.

Binding the Aircraft and Remote Controller After activation, the aircraft is bound to the remote controller automatically. If automatic binding fails, follow the on-screen prompts on DJI Fly to bind the aircraft and remote controller for optimal warranty services.

Updating Firmware A prompt will appear in DJI Fly when new firmware is available. Update the firmware whenever prompted to ensure optimal user experience.

###### Diagram Aircraft

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6

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######## DJI RC Remote Controller

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8910

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16

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pointing the gimbal downward. The function can be set in DJI Fly.

Switch between recentering the gimbal

and pointing the gimbal downward. The function can be set in DJI Fly.

DJI RC-N1 Remote Controller

10

9

6

8

5

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7

1

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Aircraft

DJI Mini 3 Pro contains a flight controller, video downlink system, vision systems, infrared sensing system, propulsion system, and an Intelligent Flight Battery.

Aircraft

###### Introduction

DJI Mini 3 Pro includes a flight controller, video downlink system, vision system, propulsion system, and an Intelligent Flight Battery.

###### Flight Modes

DJI Mini 3 Pro has three flight modes, plus a fourth flight mode that the aircraft switches to in certain scenarios. Flight modes can be switched via the Flight Mode switch on the remote controller.

Normal Mode: The aircraft utilizes GNSS and the Forward, Backward, and Downward Vision Systems and Infrared Sensing System to locate itself and stabilize. When the GNSS signal is strong, the aircraft uses GNSS to locate itself and stabilize. When the GNSS is weak but the lighting and other environmental conditions are sufficient, it uses the vision systems. When the Forward, Backward, and Downward Vision Systems are enabled and lighting and other environment conditions are sufficient, the maximum tilt angle is 25° and the maximum flight speed is 10 m/s.

Sport Mode: In Sport Mode, the aircraft utilizes GNSS for positioning and the aircraft responses are optimized for agility and speed making it more responsive to control stick movements. Note that obstacle sensing is disabled and the maximum flight speed is 16 m/s.

Cine Mode: Cine mode is based on Normal mode with a limited flight speed, making the aircraft more stable during shooting.

The aircraft automatically changes to Attitude (ATTI) mode when the Vision Systems are unavailable or disabled and when the GNSS signal is weak or the compass experiences interference. In ATTI mode, the aircraft may be more easily affected by its surroundings. Environmental factors such as wind can result in horizontal shifting, which may present hazards especially when flying in confined spaces. The aircraft will not be able to hover or brake automatically, therefore the pilot should land the aircraft as soon as possible to avoid accidents.

The Forward and Backward Vision Systems are disabled in Sport mode, which means the aircraft cannot sense obstacles on its route automatically. The user must stay alert about the surrounding environment and control the aircraft to avoid obstacles.

The maximum speed and braking distance of the aircraft significantly increase in Sport mode. A minimum braking distance of 30 m is required in windless conditions.

A minimum braking distance of 10 m is required in windless conditions while the aircraft is ascending and descending in Sport mode or Normal mode.

The responsiveness of the aircraft significantly increases in Sport mode, which means a small control stick movement on the remote controller translates into the aircraft moving a large distance. Make sure to maintain adequate maneuvering space during flight.

The flight speed and attitude are both restricted when the aircraft is flying leftward or rightward to ensure shooting stability. The restriction reaches its maximum when the tilt of the gimbal is -90°. If there are strong winds, the restriction will be disabled to improve the wind resistance of the aircraft. As a result, the gimbal may vibrate while shooting.

Users may experience a minor tremor in videos recorded in Sport mode.

###### Aircraft Status Indicator

DJI Mini 3 Pro has two aircraft status indicators.

Aircraft Status Indicator

Aircraft Status Indicator

When the aircraft is powered on but the motors are not running, the aircraft status indicators will display the current status of the flight control system. Refer to the table below for more information about the aircraft status indicators.

Aircraft Status Indicator Descriptions

Normal States

Alternating red, green, and yellow

Turning on and performing selfdiagnostic tests

Blinks

×4 Yellow Blinks four times Warming up

Green Blinks slowly GNSS enabled

×2 Green Periodically blinks twice Vision Systems enabled

Yellow Blinks slowly NO GNSS or Vision Systems Warning States

Yellow Blinks quickly Remote controller signal lost

Red Blinks slowly Low battery

Red Blinks quickly Critically low battery

—— Red Solid Critical error

Alternating red and yellow Blinks quickly Compass calibration required After the motors start, the aircraft status indicators will blink green.

Lighting requirements vary depending on the region. Observe local laws and regulations.

###### QuickTransfer

DJI Mini 3 Pro can connect directly to mobile devices via Wi-Fi, enabling users to download photos and videos from the aircraft to the mobile device through DJI Fly without using the DJI RC-N1 remote controller. Users can enjoy faster and more convenient downloads with a transmission rate of up to 30 MB/s.

Usage

########## Method 2: mobile device is connected to the remote controller

DJI RC does not support QuickTransfer.

The maximum download rate can only be achieved in countries and regions where the 5.8 GHz frequency is permitted by laws and regulations, when using devices that support 5.8 GHz frequency band and Wi-Fi connection, and in an environment without interference or obstruction. If 5.8 GHz is not allowed by local regulations (such as in Japan), or the mobile device of the user does not support the 5.8 GHz frequency band, or the environment has severe interference, then QuickTransfer will use the 2.4 GHz frequency band and its maximum download rate will reduce to 6 MB/s.

Make sure that Bluetooth, Wi-Fi, and location services are enabled on the mobile device before using QuickTransfer.

When using QuickTransfer, it is not necessary to enter the Wi-Fi password on the settings page of the mobile device in order to connect. Launch DJI Fly and a prompt will appear to connect the aircraft.

Use QuickTransfer in an unobstructed environment with no interference and stay away from sources of interference such as wireless routers, Bluetooth speakers, or headphones.

###### Return to Home

The Return to Home (RTH) function brings the aircraft back to the last recorded Home Point when the positioning system is functioning normally. There are three RTH modes: Smart RTH, Low Battery RTH, and Failsafe RTH. The aircraft will automatically fly back and land at the Home Point when Smart RTH is initiated, the aircraft enters Low Battery RTH, or the signal between the remote controller and the aircraft is lost. RTH will also be triggered in other abnormal scenarios such as where video transmission is lost.

Home Point

############ GNSS Description

10

The first location where the aircraft receives a strong to moderately strong GNSS signal (indicated by a white icon) will be recorded as the default Home Point. It is recommended to wait until the Home Point is successfully recorded before flying. After the Home Point is recorded, a prompt will appear in DJI Fly. The Home Point can be updated before takeoff as long as the aircraft receives another strong to moderately strong GNSS signal. If the signal is weak, the Home Point will not be updated. If it is necessary to update the Home Point during a flight (such as where the user’s position has changed), the Home Point can be manually updated in Safety of System Settings on DJI Fly.

######## Smart RTH

If the GNSS signal is sufficiently strong, Smart RTH can be used to bring the aircraft back to the Home Point. Smart RTH is initiated either by tapping in DJI Fly or by pressing and holding the RTH button on the remote controller until it beeps. Exit Smart RTH by tapping in DJI Fly or by pressing the RTH button on the remote controller. After exiting RTH, users will regain control of the aircraft.

Straight Line RTH If Smart RTH is initiated by the user, the aircraft will enter Straight Line RTH. Straight Line RTH Procedure:

Low Battery RTH Low Battery RTH is triggered when the Intelligent Flight Battery is depleted to the point where the aircraft may not be able to return safely. Return home or land the aircraft immediately when prompted.

To avoid unnecessary danger due to insufficient power, DJI Mini 3 Pro will determine whether the current battery level is sufficient for returning home based on the current location. A warning prompt will appear in DJI Fly when the battery level is low and only enough to complete an RTH flight.

The user can cancel RTH by pressing the RTH button on the remote controller. If RTH is cancelled following a low battery warning, the Intelligent Flight Battery may not have enough power for the aircraft to land safely. As a result, you may crash or lose your aircraft.

The aircraft will land automatically if the current battery level can only support the aircraft long enough to descend from its current altitude. Auto landing cannot be canceled but the remote controller can be used to alter the horizontal movement and the speed of descent of the aircraft during landing. If there is sufficient power, the throttle stick can be used to make the aircraft ascend at a speed of up to 1 m/s.

During auto landing, move the aircraft horizontally to find an appropriate place to land as soon as possible. The aircraft will fall if the user keeps pushing the throttle stick upward until the power is depleted.

######## Failsafe RTH

The action the aircraft performs once it loses the remote controller signal can be set as Return to Home, Land, or Hover in DJI Fly. If the action was set as Return to Home in advance, and where the Home

Point has been recorded, the GNSS signal is good, and the compass is functioning normally, Failsafe RTH will automatically activate once the remote controller signal is lost for more than three seconds.

If the aircraft is 50 m or less than 50 m from the Home Point when the remote controller signal is lost, it will fly to the Home Point at its current altitude. If the aircraft is more than 50 m from the Home Point when the remote controller signal is lost, it will fly backwards for 50 m on its original flight route, and then enter Straight Line RTH. The aircraft will enter or remain in Straight Line RTH if the remote controller signal is restored during RTH.

After flying backward on the original route for 50 m:

########## Obstacle Avoidance During RTH When the aircraft is ascending:

During RTH, obstacles on either side of the aircraft cannot be detected or avoided.

The aircraft cannot return to the Home Point if the GNSS signal is weak or unavailable. The aircraft may enter ATTI mode if the GNSS signal becomes weak or unavailable after entering Failsafe RTH. The aircraft will hover in place for a while before landing.

It is important to set a suitable RTH altitude before each flight. Launch DJI Fly and set the RTH altitude. In RTH, if the current altitude of the aircraft is lower than the RTH altitude, it will automatically ascend to the RTH altitude first. If the current altitude of the aircraft reaches or is higher than the RTH altitude, it will fly to the Home Point at its current altitude.

During RTH, the speed and altitude of the aircraft can be controlled using the remote controller if the remote controller signal is normal. However, the aircraft cannot be shifted leftward or rightward. When the aircraft is ascending or flying forward, push the control stick completely in the opposite direction to exit RTH, and the aircraft will brake and hover.

GEO zones may affect the RTH. Avoid flying near GEO zones.

The aircraft may not be able to return to the Home Point when the wind speed is too high. Fly with caution.

Landing Protection Smart RTH or Auto Landing activates Landing Protection, which operates as follows:

Landing Protection is activated during Failsafe RTH. The aircraft will hover 0.5 m above ground, and DJI Fly will display a landing prompt. To land the aircraft, push the throttle stick down for one second.

Vision Systems and Infrared Sensing Systems DJI Mini 3 Pro is equipped with both an Infrared Sensing System and Forward, Backward, and Downward Vision Systems. The Forward, Backward, and Downward Vision Systems consist of two cameras each.

The Infrared Sensing System consists of two 3D infrared modules. The Downward Vision System and Infrared Sensing System help the aircraft maintain its current position, hover more precisely, and to fly indoors or in other environments where GNSS is unavailable.

Forward Vision System Backward Vision System

Downward Vision System

Infrared Sensing System

Detection Range Forward Vision System Precision Measurement Range: 0.39-25 m; FOV: 106° (horizontal), 90° (vertical) Backward Vision System Precision Measurement Range: 0.36-23.4 m; FOV: 58° (horizontal), 73° (vertical) Downward Vision System Precision Measurement Range: 0.15-9 m; FOV: 104.8° (front and back), 87.6° (left and right). The Downward Vision System works best when the aircraft is at an altitude of 0.5 to 12 m.

0.39-25 m

106° 106°

73°

90°

58° 58°

87.6°0.5-12 m0.36-23.4 m

87.6°

104.8°

######## Calibrating Vision System Cameras Auto Calibration

The Vision Systems installed on the aircraft are factory calibrated. If any abnormality is detected with a vision system camera, the aircraft will automatically perform calibration and a prompt will appear in DJI Fly. No further operation is required.

######## Advanced Calibration

If the abnormality persists after auto calibration, a prompt will appear in the app indicating that advanced calibration is required. Advanced calibration must be performed with DJI Assistant 2 (Consumer Drones Series).

01 02 03 Point the aircraft toward the screen.

Align the boxes. Pan and tilt the aircraft.

Follow the steps below to calibrate the Forward Vision System camera and repeat to calibrate other Vision System cameras.

Using the Vision Systems The positioning function of the Downward Vision System is applicable when GNSS signals are unavailable or weak. It is automatically enabled in Normal or Cine mode.

The Forward and Backward Vision Systems will activate automatically when the aircraft is in Normal or Cine mode and Obstacle Avoidance is set to Bypass or Brake in DJI Fly. The Forward and Backward Vision Systems work best with adequate lighting and clearly marked or textured obstacles. Due to inertia, users must make sure to brake the aircraft within a reasonable distance.

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Pay attention to the flight environment. The Vision Systems and Infrared Sensing System only work in certain scenarios and cannot replace human control and judgment. During a flight, always pay attention to the surrounding environment and the warnings on DJI Fly, and be responsible for and maintain control of the aircraft.

When no GNSS signals are available, the Downward Vision System works best at an altitude from 0.5 to 12 m. Extra caution is required if the altitude of the aircraft is above 12 m as the Vision Systems may be affected.

The Downward Vision System may not function properly when the aircraft is flying over water. Therefore, the aircraft may not be able to actively avoid the water below when landing. It is recommended to maintain flight control at all times, make reasonable judgments based on the surrounding environment, and avoid over-relying on the Downward Vision System.

The Vision Systems cannot work properly over surfaces without clear pattern variations or where the light is too weak or too strong. The Vision Systems cannot work properly in the following situations:

Keep the sensors clean at all times. DO NOT block or tamper with the sensors.

DO NOT obstruct the Infrared Sensing System.

Vision System cameras may need to be calibrated after being stored for an extended period. In such cases, a prompt will appear in DJI Fly and calibration will start automatically.

DO NOT fly when it is rainy, smoggy, or the visibility is lower than 100 m.

Check the following each time before takeoff:

###### Intelligent Flight Mode

FocusTrack FocusTrack includes Spotlight 2.0, Point of Interest 3.0, and ActiveTrack 4.0.

Spotlight 2.0 Control the aircraft manually while the camera remains locked on the subject. The mode supports the

capturing of both stationary and moving subjects such as vehicles, boats, and people. Move the roll stick to circle the subject, pitch stick to alter the distance from the subject, throttle stick to change the altitude, and pan stick to adjust the frame.

In Spotlight mode, when the vision systems are working normally, the aircraft will hover if an obstacle is detected, regardless of whether the obstacle avoidance behavior is set to Bypass or Brake in DJI Fly. Note that obstacle avoidance is disabled in Sport mode.

########## Point of Interest 3.0 (POI 3.0)

The aircraft tracks the subject in a circle based on the set radius and flight speed. The mode supports the capturing of both static and moving subjects such as vehicles, boats, and people. The maximum flight speed is 13 m/s regardless of whether the aircraft is in Normal, Sport or Cine Mode. The flight speed may be adjusted dynamically according the actual radius. Move the roll stick to circle the subject, pitch stick to alter the distance from the subject, throttle stick to change the altitude, and pan stick to adjust the frame. Note that obstacle avoidance is disabled in POI 3.0.

########## ActiveTrack 4.0

ActiveTrack 4.0 consists of Trace and Parallel modes, which support the tracking of both stationary and moving subjects such as vehicles, boats, and people. In Sport, Normal, and Cine modes, the maximum flight speed remains the same. Move the roll stick to circle the subject, pitch stick to alter the distance from the subject, throttle stick to change the altitude, and pan stick to adjust the frame.

The aircraft will bypass obstacles in ActiveTrack 4.0 regardless of the settings in DJI Fly when the vision systems are working normally.

Trace: The aircraft tracks the subject at a constant distance and altitude, and a constant angle with the direction of the subject. The aircraft can only track subjects in front and will bypass sensed obstacles. The maximum flight speed is 10 m/s. When the user is moving the pitch stick, the aircraft can actively bypass sensed obstacles at the front and back. Note that obstacle avoidance is disabled when the roll stick or the throttle stick is used.

Parallel: The aircraft tracks the subject at a constant angle and distance from the side. The maximum flight speed is 13 m/s. Obstacle avoidance is disabled in this mode.

In ActiveTrack, the aircraft maintains a distance of 4-20 m when tracking people at an altitude of 2-20 m (the optimal distance is 5-10 m and altitude 2-10 m), and a distance of 6-100 m when tracking vehicles or boats at an altitude of 6-100 m (the optimal distance is 20-50 m and altitude 10-50 m). The aircraft will fly to the supported distance and altitude range if the distance and altitude is out of range when ActiveTrack begins. Fly the aircraft at the optimal distance and altitude for the best performance.

########## Using FocusTrack

2 m

############# 2. Drag-select the subject in the camera view or enable Subject Scanning under Control settings in DJIFly Control and tap the recognized subject to enable FocusTrack. The default mode is Spotlight. Tapthe icon to switch between Spotlight, ActiveTrack, and POI. Tap GO to start FocusTrack.


Exiting FocusTrack Tap Stop in DJI Fly or press the Flight Pause button once on the remote controller to exit FocusTrack.

DO NOT use FocusTrack in areas with people and animals running or vehicles moving.

DO NOT use FocusTrack in areas with small or thin objects (e.g., tree branches or power lines), transparent objects (e.g., water or glass), or monochrome surfaces (e.g., white walls).

Operate the aircraft manually. In an emergency, press the Flight Pause button or tap Stop in DJI Fly.

Be extra vigilant when using FocusTrack in any of the following situations:

Make sure to follow local privacy laws and regulations when using FocusTrack.

It is recommended to only track vehicles, boats, and people (but not children). Fly with caution when tracking other subjects.

Do not track a remotely controlled model car or boat.

The tracking subject may be inadvertently swapped to another subject if they pass nearby each other.

FocusTrack is disabled when using a wide-angle lens or ND filter.

FocusTrack is disabled when recording at a high resolution such as 1080p 48/50/60/120 fps, 2.7K 48/50/60 fps, or 4K 48/50/60 fps.

When lighting is insufficient and the vision systems are unavailable, Spotlight and POI can still be used for static subjects, but there will not be obstacle avoidance. ActiveTrack can not be used.

FocusTrack is unavailable when the aircraft is on the ground.

FocusTrack may not function properly when the aircraft is flying near flight limits or in a GEO Zone.

MasterShots MasterShots keeps the subject at the center of the frame while executing different maneuvers in sequence to generate a short cinematic video.

########## Using MasterShots

2 m


to access, edit, or share the video to social media.

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Exiting MasterShots Press the Flight Pause button once or tap in DJI Fly to exit MasterShots. The aircraft will brake and hover.

Use MasterShots at locations that are clear of buildings and other obstacles. Make sure there are no humans, animals, or other obstacles in the flight path. The aircraft will brake and hover in place if an obstacle is detected in front or behind. Note that obstacles cannot be detected on either side of the aircraft.

Pay attention to objects around the aircraft and use the remote controller to avoid collisions with the aircraft.

DO NOT use MasterShots in any of the following situations:

DO NOT use MasterShots in places close to buildings or where the GNSS signal is weak, otherwise the flight path may become unstable.

Make sure to follow local privacy laws and regulations when using MasterShots.

QuickShots QuickShots shooting modes include Dronie, Rocket, Circle, Helix, Boomerang, and Asteroid. DJI Mini

Dronie: The aircraft flies backward and ascends with the camera locked on the subject.

Rocket: The aircraft ascends with the camera pointing downward.

Circle: The aircraft circles around the subject.

Helix: The aircraft ascends and spirals around the subject.

Boomerang: The aircraft flies around the subject in an oval path, ascending as it flies away from its starting point and descending as it flies back. The starting point of the aircraft forms one end of the long axis of the oval, while the other end is at the opposite side of the subject from the starting point. Make sure the space is sufficient when using Boomerang. Allow a radius of at least 30 m (98 ft) around the aircraft and a space of at least 10 m (33 ft) above the aircraft.

Asteroid: The aircraft flies backward and upward, takes several photos, and then flies back to the starting point. The video generated starts with a panorama of the highest position and then shows the view from the aircraft as it descends. Make sure the space is sufficient when using Asteroid. Allow a radius of at least 40 m (131 ft) around the aircraft and a space of at least 50 m (164 ft) above the aircraft.

########## Using QuickShots

############# 1. Launch the aircraft and make it hover at least 2 m (6.6 ft) above ground.

2 m


to access, edit, or share the video to social media.

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Exiting QuickShots Press the Flight Pause button once or tap in DJI Fly to exit QuickShots. The aircraft will brake and hover. Tap the screen again and the aircraft will continue shooting.

Use QuickShots at locations that are clear of buildings and other obstacles. Make sure there are no people, animals, or other obstacles in the flight path. The aircraft will brake and hover if an obstacle is detected in front or behind. Note that obstacles cannot be detected on either side of the aircraft.

Pay attention to objects around the aircraft and use the remote controller to avoid collisions with the aircraft.

DO NOT use QuickShots in any of the following situations:

DO NOT use QuickShots in places close to buildings or where the GNSS signal is weak, otherwise the flight path will become unstable.

Make sure to follow local privacy laws and regulations when using QuickShots.

Hyperlapse Hyperlapse shooting modes include Free, Circle, Course Lock, and Waypoint.


########## Free

The aircraft automatically takes photos and generates a timelapse video. Free mode can be used while the aircraft is on the ground. After takeoff, control the aircraft’s movements and gimbal angle using the remote controller.

Follow the steps below to use Free:

Cruise Control: Set the function of the customizable button (C1 or C2 button for DJI RC and Fn button for the DJI RC-N1 remote controller) to Cruise Control, and press the customizable button and control stick at the same time to enter Cruise Control. The aircraft will continue flying at the same speed.

Circle The aircraft automatically takes photos while flying around the selected subject to generate a timelapse video. Follow the steps below to use Circle:

########## Course Lock

Course Lock allows the user to fix the flight direction. While doing so, the user may either select an object for the aircraft to fly around, or not select any object while being able to control the aircraft

orientation and gimbal. Follow the steps below to use Course Lock:

Waypoints The aircraft automatically takes photos on a flight path of two to five waypoints and generates a timelapse video. The aircraft can fly in sequence from waypoints 1 to 5 or 5 to 1. Follow the steps below to use Waypoints:

The aircraft will generate a timelapse video automatically, which is viewable in playback. In the camera settings, users can choose whether to save the footage in JPEG or RAW format and to store it in the internal storage or the microSD card. If needed, it is recommended to store the footage in the microSD card.

For optimal performance, use Hyperlapse at an altitude higher than 50 m and set a difference of at least two seconds between the interval time and shutter.

It is recommended to select a static subject (e.g., high-rise buildings, mountainous terrain) located at a safe distance from the aircraft (further than 15 m). Do not select a subject that is too near the aircraft.

When the lighting is sufficient and the environment is suitable for the vision systems to operate, the aircraft will brake and hover in place if an obstacle is detected in front, behind or below during Hyperlapse. Note that obstacles cannot be detected on either side of the aircraft. If the lighting becomes insufficient or the environment is unsuitable for the vision systems to operate during Hyperlapse, the aircraft will continue shooting without obstacle avoidance. Fly with caution.

The aircraft will only generate a video after at least 25 photos have been taken, which is the amount required to generate a one-second video. The video will be generated by default regardless of whether Hyperlapse concludes normally or the aircraft exits from the mode unexpectedly (such as when Low Battery RTH is triggered).

###### Advanced Pilot Assistance Systems (APAS 4.0)

The Advanced Pilot Assistance Systems 4.0 (APAS 4.0) feature is available in Normal mode and Cine mode. When APAS is enabled, the aircraft will continue to respond to user commands and plan its path according to both control stick inputs and the flight environment. APAS makes it easier to avoid obstacles, obtain smoother footage, and gives a better flying experience.

Move the pitch stick forward or backward, and the aircraft will fly over, under, or to the left or right of the obstacle. The aircraft can also respond to the control stick inputs while avoiding obstacles. When APAS is enabled, the aircraft can be stopped by pressing the Flight Pause button on the remote controller. The aircraft will hover for three seconds and await further pilot commands. To enable APAS, open DJI Fly, enter System Settings, Safety, and enable APAS by selecting Bypass.

Landing Protection Landing Protection will activate if Obstacle Avoidance is set to Bypass or Brake and the user pulls the throttle stick down to land the aircraft. Landing Protection is enabled once the aircraft begins to land.

APAS is disabled when using Intelligent Flight Modes. It will be enabled automatically once the aircraft exits Intelligent Flight Modes. APAS is disabled when recording at a high resolution such as 1080p 120 fps, 2.7K 48/50/60 fps, or 4K 48/50/60 fps.

APAS is only available when flying forward, backward, and downward. APAS is not available when the aircraft is flying leftward, rightward, or upward, and no bypass or obstacle avoidance in these cases.

Make sure to use APAS when the Vision Systems are available. Be sure there are no people, animals, objects with small surface areas (e.g., tree branches), or transparent objects (e.g., glass or water) along the desired flight path.

Make sure to use APAS when the Vision Systems are available or the GNSS signal is strong. APAS may not function properly when the aircraft is flying over water or snow-covered areas.

Be extra cautious when flying in extremely dark (<300 lux) or bright (>10,000 lux) environments.

Pay attention to DJI Fly and make sure the aircraft is working normally in APAS mode.

APAS may not function properly when the aircraft is flying near flight limits or in a GEO zone.

###### Flight Recorder

Flight data including flight telemetry, aircraft status information, and other parameters are automatically saved to the internal data recorder of the aircraft. The data can be accessed using DJI Assistant 2 (Consumer Drones Series).

######## Propellers

There are two types of DJI Mini 3 Pro propellers, which are designed to spin in different directions. The marked propellers should be attached to the marked motors, and unmarked propellers to the unmarked motors. The two propeller blades attached to one motor are the same. Make sure to match the propellers and motors by following the instructions.

Propellers Marked Unmarked

Illustration

Mounting Position

Attach to the motors of the marked arm

Attach to the motors of the unmarked arm

########## Attaching the Propellers

############# Attach the marked propellers to the motors of the marked arm, and the unmarked propellers to the motors of the unmarked arm. Use the screwdriver from the aircraft package to mount the propellers. Make sure the propellers are secure.

MarkedUnmarked

Make sure to only use the screwdriver from the aircraft package for mounting propellers. Using other screwdrivers may damage the screws.

Make sure to keep the screws vertical while tightening them. The screws should not be at a tilted angle to the mounting surface. After installation is complete, check whether the screws are flush and rotate the propellers to check for any abnormal resistance.

Detaching the Propellers User the screwdriver from the aircraft package to loosen the screws and detach the propellers from the motors.

Propeller blades are sharp. Handle with care.

The screwdriver is only for mounting the propellers. DO NOT use the screwdriver to disassemble the aircraft.

If a propeller is broken, remove the two propellers and screws on the corresponding motor and discard them. Use two propellers from the same package. DO NOT mix with propellers from other packages.

Only use official DJI propellers. DO NOT mix propeller types.

Purchase additional propellers if necessary.

Make sure that the propellers and motors are installed securely before each flight. Check to make sure the screws on the propellers are tightened after every 30 hours of flying time (approx. 60 flights).

Make sure all propellers are in good condition before each flight. DO NOT use aged, chipped, or broken propellers.

To avoid injury, stand clear of and do not touch propellers or motors when they are spinning.

DO NOT squeeze or bend the propellers during transportation or storage.

Make sure the motors are mounted securely and rotating smoothly. Land the aircraft immediately if a motor is stuck and unable to rotate freely.

DO NOT attempt to modify the structure of the motors.

DO NOT touch or let hands or body parts come in contact with the motors after flight as they may be hot.

DO NOT block any of the ventilation holes on the motors or the body of the aircraft.

Make sure the ESCs sound normal when powered on.

###### Intelligent Flight Battery

DJI Mini 3 Pro Intelligent Flight Battery is a 7.38 V, 2453 mAh battery. DJI Mini 3 Pro Intelligent Flight Battery Plus is a 7.38 V, 3850 mAh battery. The two batteries have the same structure and dimensions but different weight and capacity. Both batteries are equipped with smart charging and discharging functionality.

######## Battery Features

Refer to the DJI Mini 3 Pro Safety Guidelines and the stickers on the battery before use. Users take full responsibility for any violations of the safety requirements stated on the label.

Using the Battery Checking the Battery Level Press the power button once to check the battery level.

LED1

LED2

LED3

LED4

Battery Level LEDs

Power Button

The battery level LEDs display the power level of the battery during charging and discharging. The statuses of the LEDs are defined below:

Battery Level LEDs

: LED is on : LED is flashing : LED is off LED1 LED2 LED3 LED4 Battery Level

Battery Level ≥ 88% 75% ≤ Battery Level < 88% 63% ≤ Battery Level < 75% 50% ≤ Battery Level < 63% 38% ≤ Battery Level < 50% 25% ≤ Battery Level < 38% 13% ≤ Battery Level < 25% 0% ≤ Battery Level < 13%

########## Powering On/Off

Press the power button once and then press again and hold for two seconds to power the aircraft on or off. The battery level LEDs display the battery level when the aircraft is powered on. The battery level LEDs turn off when the aircraft is powered off.

When the aircraft is on, press the power button once and the four battery level LEDs will blink for three seconds. If LEDs 3 and 4 blink simultaneously without the power button being pressed, this indicates the battery is malfunctioning. Remove the battery from the aircraft, insert the battery again and make sure that it is securely mounted.

########## Low Temperature Notice

In cold environments, insert the battery into the battery compartment and turn on the aircraft to warm up before taking off.

######## Charging the Battery

Fully charge the battery before each use. It is recommended to use the charging devices provided by DJI, such as the DJI Mini 3 Pro Two-Way Charging Hub, DJI 30W USB-C Charger, or other USB Power Delivery chargers. The DJI Mini 3 Pro Two-Way Charging Hub and the DJI 30W USB-C Charger are both optional accessories. Visit the official DJI online store for more information.

########## Using the Charging Hub

When used with a USB charger, the DJI Mini 3 Pro Two-Way Charging Hub can charge up to three Intelligent Flight Batteries or Intelligent Flight Batteries Plus in sequence from high to low power level. When used with the DJI 30W USB-C Charger, the charging hub can fully charge one Intelligent Flight Battery in approximately 56 minutes, and one Intelligent Flight Battery Plus in approximately 78 minutes. When the charging hub is connected to AC power through a USB charger, users can connect both the Intelligent Flight Batteries and an external device (such as a remote controller or smart phone) to the hub to charge. The batteries will be charged before the external device by default. When the charging hub is not connected to AC power, insert the Intelligent Flight Batteries into the hub and connect an external device to the USB port to charge the device, using the Intelligent Flight Batteries as power banks. Refer to the DJI Mini 3 Pro Two-Way Charging Hub User Guide for more details.

1234

| | | |---|---| | | | | | | | | | | | |

| | | | | |---|---|---|---| | | | | | | | | | |

########## How to Charge

Status LEDs Descriptions Charging Status

Blinking Pattern Description

Status LEDs in an array blink successively (quickly)

The battery in the corresponding battery port is being charged using a Quick Charge charger.

Status LEDs in an array blink successively (slowly)

The battery in the corresponding battery port is being charged using a normal charger.

Status LEDs in an array are solid The battery in the corresponding battery port is fully charged. All status LEDs blink in sequence No battery is inserted.

########## Battery Level

Each battery port of the charging hub has its corresponding status LED array, from LED1 to LED4 (left to right). Check battery levels by pressing the function button once. The battery level LED statuses are the same as those on the aircraft. For details, refer to aircraft battery level LEDs statuses and descriptions.

Abnormal Status The LED status for battery abnormality is the same as that on the aircraft. Refer to the Battery Protection Mechanisms section for details.

It is recommended to use a DJI 30W USB-C Charger or other USB Power Delivery chargers to power the charging hub.

The environmental temperature affects the charging speed. Charging is faster in a well-ventilated environment at 25℃.

The charging hub is only compatible with BWX162-2453-7.38 Intelligent Flight Battery and BWX1623850-7.38 Intelligent Flight Battery Plus. DO NOT use the charging hub with other battery models.

Place the charging hub on a flat and steady surface when in use. Make sure the device is properly insulated to prevent fire hazards.

DO NOT touch the metal terminals on the charging hub.

Clean the metal terminals with a clean, dry cloth if there is any noticeable buildup.

########## Using A Charger

| | | | | | |---|---|---|---|---| | | | | | | | | | | | |

The battery cannot be charged if the aircraft is powered on.

The maximum charge voltage for the aircraft charging port is 12 V.

DO NOT charge an Intelligent Flight Battery immediately after flight as it may be too hot. Wait for the battery to cool down to room temperature before charging again.

The charger stops charging the battery if the cell temperature is not within 5° to 40° C (41° to 104° F). The ideal charging temperature is from 22° to 28° C (71.6° to 82.4° F).

Fully charge the battery at least once every three months to maintain battery health. It is recommended to use the DJI 30W USB-C Charger or other USB Power Delivery chargers.

When using the DJI 30W USB-C Charger, the charging time for Mini 3 Pro Intelligent Flight Battery is approximately 1 hour and 4 minutes, while for Mini 3 Pro Intelligent Flight Battery Plus it is approximately 1 hour and 41 minutes.

For safety purposes, keep the batteries at a low power level in transit. Before transportation, it is recommended to discharge the batteries to 30% or lower.

The table below shows the battery level LED statuses during charging.

LED1 LED2 LED3 LED4 Battery Level

0% < Battery Level ≤ 50% 50% < Battery Level ≤ 75%

75% < Battery Level < 100% Fully Charged

The blinking frequency of the battery level LEDs differs depending on the USB charger used. If the charging speed is fast, the battery level LEDs will blink quickly.

If the battery is not correctly inserted into the aircraft, LEDs 3 and 4 will blink simultaneously. Insert the battery again and make sure it is securely mounted.

The four LEDs blinking simultaneously indicates the battery is damaged.

Battery Protection Mechanisms The battery LEDs can display battery protection notifications triggered by abnormal charging conditions.

Battery Protection Mechanisms LED1 LED2 LED3 LED4 Blinking Pattern Status

LED2 blinks twice per second Overcurrent detected LED2 blinks three times per second Short circuit detected LED3 blinks twice per second Overcharge detected LED3 blinks three times per second Over-voltage charger detected

LED4 blinks twice per second Charging temperature is too low

LED4 blinks three times per second Charging temperature is too high

If any of the battery protection mechanisms are activated, unplug the charger, and plug it in again to resume charging. If the charging temperature is abnormal, wait for it to return to normal and the battery will automatically resume charging without the need to unplug and plug the charger again.

######## Inserting the Intelligent Flight Battery

Insert the Intelligent Flight Battery or Intelligent Flight Battery Plus into the battery compartment of the aircraft. Make sure the battery is fully inserted with a clicking sound, which indicates the battery buckles are securely fastened.

Ensure the battery is inserted with a clicking sound. DO NOT launch the aircraft when the battery is not securely mounted, as this may cause poor contact between the battery and the aircraft and present hazards.

Removing the Intelligent Flight Battery Press the textured part of the battery buckles on the sides of the battery to remove it from the compartment.

1

2

DO NOT insert or remove the battery while the aircraft is powered on.

Make sure the battery is mounted securely.

###### Gimbal and Camera Gimbal Profile

The DJI Mini 3 Pro 3-axis gimbal stabilizes the camera, allowing you to capture clear and steady images and videos at high flight speed. The gimbal has a control tilt range of -90˚ to +60˚, and two control roll angles of -90˚ (portrait) and 0˚ (landscape).

60°

0°

-90°

Use the gimbal dial on the remote controller to control the tilt of the camera. Alternatively, do so through the camera view in DJI Fly. Press the screen until an adjustment bar appears and drag up and down to control the camera’s tilt. Tap the Landscape/Portrait Mode Switch in DJI Fly to switch between the two gimbal roll angles. The roll axis will rotate to -90° when Portrait Mode is enabled, and back to 0° in Landscape Mode.

Gimbal Mode Two gimbal operation modes are available. Switch between the different operation modes in DJI Fly. Follow Mode: The angle between the gimbal’s orientation and aircraft front remains constant at all times. Users can adjust the gimbal tilt. This mode is suitable for shooting stills. FPV Mode: When the aircraft is flying forward, the gimbal synchronizes with the movement of the aircraft to provide a first-person flying experience.

Make sure there are no stickers or objects on the gimbal before taking off. When the aircraft is powered on, DO NOT tap or knock the gimbal. Take off from open and flat ground to protect the gimbal.

Precision elements in the gimbal may be damaged in a collision or impact, which may cause the gimbal to function abnormally.

Avoid getting dust or sand on the gimbal, especially in the gimbal motors.

A gimbal motor may enter protection mode in the following situations: a. The aircraft is on uneven ground and the gimbal is impacted. b. The gimbal experiences excessive external force, such as during a collision.

DO NOT apply external force to the gimbal after the gimbal is powered on. DO NOT add any extra payload to the gimbal as this may cause the gimbal to function abnormally or even lead to permanent motor damage.

Make sure to remove the gimbal protector before powering on the aircraft. Make sure to mount the gimbal protector when the aircraft is not in use.

Flying in heavy fog or clouds may make the gimbal wet, leading to temporary failure. The gimbal will recover full functionality once it is dry.

######## Camera

DJI Mini 3 Pro uses a 1/1.3-in CMOS sensor, which can shoot 4K videos and 48MP photos. The equivalent focal length is approximately 24 mm. The aperture of the camera is F1.7 and shoots from 1 m to infinity.

The DJI Mini 3 Pro camera can take 48MP stills and supports shooting modes such as Single, Burst, AEB, Timed Shot and Panorama. It also supports H.264/H.265 video recording, digital zoom and slow motion recording.

Make sure the temperature and humidity are suitable for the camera during use and storage.

Use a lens cleanser to clean the lens to avoid damage or poor image quality.

DO NOT block any ventilation holes on the camera as the heat generated may damage the device and injure the user.

######## Storing Photos and Videos

DJI Mini 3 Pro supports the use of a microSD card to store your photos and videos. A microSD card with a UHS-I Speed Grade 3 rating or above is required due to the fast read and write speeds necessary for high-resolution video data. Refer to the Specifications for more information about recommended microSD cards.

Photos and videos can also be saved into the internal storage of the aircraft when no microSD card is available. Use of a microSD card is recommended for large data storage.

DO NOT remove the microSD card from the aircraft while it is powered on, or the microSD card may be damaged.

To ensure the stability of the camera system, single video recordings are limited to 30 minutes.

Check camera settings before use to ensure they are configured correctly.

Before shooting important photos or videos, shoot a few images to test whether the camera is operating correctly.

Photos or videos cannot be transferred from the microSD card in the aircraft using DJI Fly if the aircraft is powered off.

Make sure to power off the aircraft correctly. Otherwise, the camera parameters will not be saved and any recorded videos may be affected. DJI is not responsible for any loss caused by an image or video recorded in a way that is not machine-readable.

Remote Controller

This section describes the features of the remote controller and includes instructions for controlling the aircraft and the camera.

Remote Controller

###### DJI RC

When used with DJI Mini 3 Pro, DJI RC remote controller features OcuSync O3 video transmission, works at both 2.4 GHz and 5.8 GHz frequency bands. It is capable of selecting the best transmission channel automatically and can transmit 1080p 30fps HD live view from the aircraft to the remote controller at a distance of up to 12 km (7.5 mi) (compliant with FCC standards, and measured in a wide open area without interference). The DJI RC is also equipped with a 5.5-in touchscreen (1920×1080 pixel resolution) and a wide range of controls and customizable buttons, enabling users to easily control the aircraft and remotely change the aircraft settings. The built-in 5200 mAh battery with a power of 18.72 Wh provides the remote controller with a maximum operating time of four hours. The DJI RC comes with many other functions such as Wi-Fi connection, built-in GNSS (GPS+Beidou+Galileo), Bluetooth, built-in speakers, detachable control sticks, and microSD storage.

Compliance Version: The remote controller is compliant with local regulations.

Control Stick Mode: The control stick mode determines the function of each control stick movement. Three pre-programmed modes (Mode 1, Mode 2, and Mode 3) are available and custom modes can be configured in DJI Fly. The default mode is Mode 2.

Using the Remote Controller Powering On/Off Press the power button once to check the current battery level. Press once then press again and hold to power the remote controller on or off.

Charging the Battery Use a USB-C cable to connect a USB charger to the USB-C port of the remote controller. The battery can be fully charged in about 1 hour and 30 minutes with a maximum charging power of 15 W (5V/3A).

It is recommended to use a USB Power Delivery charger.

Controlling the Gimbal and Camera Focus/Shutter Button: Press halfway down to auto-focus and press all the way down to take a photo.

Record Button: Press once to start or stop recording.

Camera Control Dial: Adjust the zoom. Gimbal Dial: Control the tilt of the gimbal.

Camera Control Dial

Gimbal Dial

Record Button

Focus/Shutter Button

########## Controlling the Aircraft

The control sticks control the aircraft’s orientation (pan), forward/backward movement (pitch), altitude (throttle), and left/right movement (roll). The control stick mode determines the function of each control stick movement. Three preprogrammed modes (Mode 1, Mode 2, and Mode 3) are available and custom modes can be configured in DJI Fly.

Left Stick

Right Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

Right StickLeft Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

Left Stick Right Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

The default control mode of the remote controller is Mode 2. In this manual, Mode 2 is used as the example to illustrate how to use the control sticks.

Stick Neutral/Center Point: Control sticks are in the center.

Moving the control stick: The control stick is pushed away from the center position.

Remote Controller (Mode 2)

Aircraft ( Indicates Nose Direction)

Remarks

Moving the left stick up or down changes the aircraft’s altitude. Push the stick up to ascend and down to descend. The more the stick is pushed away from the center position, the faster the aircraft will change altitude. Push the stick gently to prevent sudden and unexpected changes in altitude.

Moving the left stick to the left or right controls the orientation of the aircraft. Push the stick left to rotate the aircraft counter-clockwise and right to rotate the aircraft clockwise. The more the stick is pushed away from the center position, the faster the aircraft will rotate.

Moving the right stick up and down changes the aircraft’s pitch. Push the stick up to fly forward and down to fly backward. The more the stick is pushed away from the center position, the faster the aircraft will move.

Moving the right stick to the left or right changes the aircraft’s roll. Push the stick left to fly left and right to fly right. The more the stick is pushed away from the center position, the faster the aircraft will move.

Flight Mode Switch Toggle the switch to select the desired flight mode.

Position Flight Mode S Sport Mode N Normal Mode C Cine Mode

##### CNS

########## Flight Pause/RTH Button

Press once to make the aircraft brake and hover in place. Press and hold the button until the remote controller beeps to start RTH, the aircraft will return to the last recorded Home Point. Press this button again to cancel RTH and to regain control of the aircraft.

| | | |---|---| | | |

Customizable Buttons Go to System Settings in DJI Fly and select Control to set the functions of the customizable C1 and C2 buttons.

Status LED and Battery Level LEDs Description Status LED

Blinking Pattern Description

—— Solid red Disconnected from the aircraft

Blinking red The battery level of the aircraft is low

Solid green Connected with the aircraft

Blinking blue The remote controller is linking to an aircraft

—— Solid yellow Firmware update failed

—— Solid blue Firmware update successful

Blinking yellow The battery level of the remote controller is low

Blinking cyan Control sticks not centered

Battery Level LEDs

Blinking Pattern Battery Level

75%~100% 50%~75% 25%~50% 0%~25%

######## Remote Controller Alert

The remote controller beeps when there is an error or warning. Pay attention when prompts appear on the touch screen or in DJI Fly. Slide down from the top and select Mute to disable all alerts, or slide the volume bar to 0 to disable some alerts.

The remote controller sounds an alert during RTH. The RTH alert cannot be cancelled. The remote controller sounds an alert when the battery level of the remote controller is low (6% to 10%). A low battery level alert can be cancelled by pressing the power button. The critical low battery level alert, which is triggered when the battery level is less than 5%, cannot be cancelled.

Optimal Transmission Zone The signal between the aircraft and the remote controller is most reliable when the remote controller is positioned towards the aircraft as depicted below.

| | | | |---|---|---| | | | |

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DO NOT use other wireless devices operating at the same frequency as the remote controller. Otherwise, the remote controller will experience interference.

A prompt will be displayed in DJI Fly if the transmission signal is weak during flight. Adjust the remote controller orientation to make sure that the aircraft is in the optimal transmission range.

Linking the Remote Controller The remote controller is already linked to the aircraft when purchased together as a combo. Otherwise, follow the steps below to link the remote controller and the aircraft after activation.

Make sure the remote controller is within 0.5 m of the aircraft during the linking.

The remote controller will automatically unlink from an aircraft if a new remote controller is linked to the same aircraft.

Turn off Bluetooth and Wi-Fi of the remote controller for optimal video transmission.

Fully charge the remote controller before each flight. The remote controller sounds an alert when the battery level is low.

If the remote controller is powered on and not in use for five minutes, an alert will sound. After six minutes, the remote controller automatically powers off. Move the control sticks or press any button to cancel the alert.

Fully charge the battery at least once every three months to maintain the battery’s health.

Operating the Touchscreen Home


Operations

Slide from the left or right to the center of the screen to return to the previous screen.

Slide up from the bottom of the screen to return to DJI Fly.

Slide down from the top of the screen to open the status bar when in DJI Fly. The status bar displays the time, Wi-Fi signal, battery level of the remote controller, etc.

×2

Slide down twice from the top of the screen to open Quick Settings when in DJI Fly.

Quick Settings

2


1

: Tap to enable or disable Wi-Fi. Hold to enter settings and then connect to or add a Wi-Fi network.

: Tap to enable or disable Bluetooth. Hold to enter settings and connect with nearby Bluetooth devices.

: Tap to enable Airplane mode. Wi-Fi and Bluetooth will be disabled.

: Tap to turn off system notifications and disable all alerts.

: Tap to start recording the screen.

: Tap to take a screenshot. The function will be available only after a microSD card is inserted into the microSD slot on the remote controller.

######## Advanced Features Calibrating the Compass

The compass may need to be calibrated after the remote controller is used in areas with electromagnetic interference. A warning prompt will appear if the compass of the remote controller requires calibration. Tap the warning prompt to start calibrating. In other cases, follow the steps below to calibrate your remote controller.

###### DJI RC-N1

When used with DJI Mini 3 Pro, DJI RC-N1 features OcuSync O3 video transmission, works at both 2.4 GHz and 5.8 GHz frequency bands, is capable of selecting the best transmission channel automatically, and offers 1080p 30fps HD live view transmission from the aircraft to DJI Fly on a mobile device (depending on mobile device performance) at a maximum transmission range of 12 km (7.5 mi) (compliant with FCC standards, and measured in a wide open area without interference). Users can control the aircraft and change the settings easily within this range. The built-in battery has a capacity of 5200 mAh and power of 18.72 Wh that supports a maximum run time of six hours. The remote controller charges Android mobile devices automatically with a charging rate of 500 mA@5 V. Charging for iOS devices is disabled by default. To charge iOS devices, make sure that the charging function is enabled in DJI Fly each time the remote controller is powered on.

Compliance Version: The remote controller is compliant with local regulations.

Control Stick Mode: The control stick mode determines the function of each control stick movement. Three pre-programmed modes (Mode 1, Mode 2, and Mode 3) are available and custom modes can be configured in DJI Fly. The default mode is Mode 2.

Powering On/Off Press the power button once to check the current battery level. If the battery level is too low, recharge before use. Press once then press again and hold for two seconds to power the remote controller on or off.

Charging the Battery Use a USB-C cable to connect a USB charger to the USB-C port of the remote controller.

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Controlling the Gimbal and Camera Shutter/Record Button: Press once to take a photo or to start or stop recording. Photo/Video Toggle: Press once to switch between photo and video mode.

| | | |---|---| | | |

Gimbal Dial

Customizable Button

Shutter/Record Button

Photo/Video Toggle

Gimbal Dial: For controlling the tilt of the gimbal. Press and hold the customizable button and then use the gimbal dial to zoom in or out.

######## Controlling the Aircraft

The control sticks control the aircraft’s orientation (pan), forward/backward movement (pitch), altitude (throttle), and left/right movement (roll). The control stick mode determines the function of each control stick movement. Three preprogrammed modes (Mode 1, Mode 2, and Mode 3) are available and custom modes can be configured in DJI Fly.

Left Stick

Right Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

Right StickLeft Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

Left Stick Right Stick

Forward

Up

Down

Backward

RightLeft

Turn RightTurn Left

The default control mode of the remote controller is Mode 2. In this manual, Mode 2 is used as the example to illustrate how to use the control sticks.

Stick Neutral/Center Point: Control sticks are in the center. Moving the control stick: The control stick is pushed away from the center position.

Remote Controller (Mode 2)

Aircraft ( Indicates Nose Direction)

| | | |---|---| | | | | | |

| | | |---|---| | | | | | |

Remarks

Moving the left stick up or down changes the aircraft’s altitude. Push the stick up to ascend and down to descend. The more the stick is pushed away from the center position, the faster the aircraft will change altitude. Push the stick gently to prevent sudden and unexpected changes in altitude.

Moving the left stick to the left or right controls the orientation of the aircraft. Push the stick left to rotate the aircraft counter-clockwise and right to rotate the aircraft clockwise. The more the stick is pushed away from the center position, the faster the aircraft will rotate.

Moving the right stick up and down changes the aircraft’s pitch. Push the stick up to fly forward and down to fly backward. The more the stick is pushed away from the center position, the faster the aircraft will move.

Moving the right stick to the left or right changes the aircraft’s roll. Push the stick left to fly left and right to fly right. The more the stick is pushed away from the center position, the faster the aircraft will move.

Flight Mode Switch Toggle the switch to select the desired flight mode.

Position Flight Mode SPORT Sport Mode NORMAL Normal Mode CINE Cine Mode

######## Flight Pause/RTH Button

Press once to make the aircraft brake and hover in place. Press and hold the button until the remote controller beeps to start RTH. The aircraft will return to the last recorded Home Point. Press this button again to cancel RTH and to regain control of the aircraft.

Customizable Button To customize the function of this button, go to System Settings in DJI Fly and select Control. Customizable functions include recentering the gimbal and toggling between the map and live view.

######## Remote Controller Alert

The remote controller sounds an alert during RTH. The RTH alert cannot be cancelled. The remote controller sounds an alert when the battery level of the remote controller is low (6% to 10%). A low battery level alert can be cancelled by pressing the power button. The critical low battery level alert, which is triggered when the battery level is less than 5%, cannot be cancelled.

Optimal Transmission Zone The signal between the aircraft and the remote controller is most reliable when the remote controller is positioned towards the aircraft as depicted below.

Weak

Optimal Transmission Zone

StrongWeak

Linking the Remote Controller The remote controller is already linked to the aircraft when purchased together as a combo. Otherwise, follow the steps below to link the remote controller and the aircraft after activation.

Make sure the remote controller is within 0.5 m of the aircraft during the linking.

The remote controller will automatically unlink from an aircraft if a new remote controller is linked to the same aircraft.

Turn off Bluetooth and Wi-Fi of the mobile device for optimal video transmission.

Fully charge the remote controller before each flight. The remote controller sounds an alert when the battery level is low.

If the remote controller is powered on and not in use for five minutes, an alert will sound. After six minutes, the remote controller automatically powers off. Move the control sticks or press any button to cancel the alert.

Adjust the mobile device holder to make sure your mobile device is secure.

Fully charge the battery at least once every three months to maintain the battery’s health.

DJI Fly App

This section introduces the main functions of the DJI Fly app.

DJI Fly App

###### Home

Launch DJI Fly and enter the home screen.


Fly Spots View or share suitable flight and shooting locations nearby, learn more about GEO Zones, and preview aerial photos of different locations taken by other users.

Academy Tap the icon in the top right corner to enter Academy and view product tutorials, flight tips, flight safety notices, and manual documents.

######## Album

View photos and videos from DJI Fly and your mobile device. MasterShots and QuickShots videos can be viewed after downloading them to your mobile device and rendering. Tap Create and select Templates or Pro. Templates provide an auto-edit feature for imported footage. Pro allows users to edit footage manually.

SkyPixel Enter SkyPixel to view videos and photos shared by users.

######## Profile

View account information, flight records; visit the DJI forum, online store; access the Find My Drone feature, and other settings such as firmware updates, camera view, cached data, account privacy, and language.

###### Camera View

1 2 3 4 5 6 7


8

15161718

RC : Displays the video downlink signal strength between the aircraft and the remote controller.

: The upper part of the icon indicates the status of the Forward Vision System, and the lower part indicates the status of the Backward Vision System. The icon is white when the vision system is working normally and turns red when the vision system is unavailable.

20 : Displays the current GNSS signal strength. Tap to check the GNSS signal status. The Home Point can be updated when the icon is white, which indicates the GNSS signal is strong.

Safety Flight Assistance: Forward and Backward vision systems are enabled after setting Obstacle Avoidance to Bypass or Brake. The aircraft cannot sense obstacles if Obstacle Avoidance is disabled. Radar Map Display: When enabled, the real-time obstacle detection radar map will be displayed. Flight Protection: Tap to set the max altitude and the max distance for flights. RTH: Tap to set the Return to Home Altitude and update the Home Point.

Sensors: Tap to view the IMU and compass statuses and start calibration if necessary. Battery: Tap to view battery information such as battery cell status, serial number, and number of times charged. Unlock GEO Zone: Tap to view information about unlocking GEO Zones. The Find My Drone feature uses the map to find the location of the aircraft on the ground. Advanced Safety Settings include the behavior settings for the aircraft when remote controller signals are lost and stopping the propellers mid-flight during emergencies. The behavior of the aircraft when remote controller signals are lost can be set to Return to Home, Descend, or Hover. “Emergency Only” indicates that the motors can only be stopped mid-flight in case of an emergency, such as a collision, a motor stalling, the aircraft rolling in the air, or the aircraft being out of control and ascending or descending quickly. “Anytime” indicates that the motors can be stopped mid-flight anytime once the user performs a combination stick command (CSC).

Stopping the motors mid-flight will cause the aircraft to crash.

Control Aircraft Settings: Set measurement units. Subject Scanning: The aircraft will automatically detect subjects when Subject Scanning is enabled. Gimbal Settings: Tap to set the gimbal mode, enter advanced settings, perform gimbal calibration, and recenter or tilt the gimbal down.

Remote Controller Settings: Tap to set the function of the customizable button, calibrate the remote controller, switch control stick modes (Mode 1, Mode 2, Mode 3, or custom mode), or set the advanced settings of the remote controller.

Beginner Flight Tutorial: View the flight tutorial. Connect to the Aircraft: Tap to start linking when the aircraft is not linked to the remote controller.

Camera Camera Parameter Settings: Displays different settings according to the shooting mode. General Settings: Tap to view and set histogram, overexposure warning, peaking level, gridlines, and white balance.

Storage Location: Footage can be stored in the aircraft’s internal storage or on a microSD card. Internal storage and microSD cards can be formatted. The footage downloaded to the aircraft’s internal storage or microSD card can be synced to the user’s mobile device, and the max video cache capacity settings can also be adjusted.

Reset Camera Settings: Tap to restore camera parameters to the default settings.

Transmission A livestreaming platform can be selected to broadcast the camera view in real time. The frequency band and channel mode can also be set in the transmission settings.

About View device information, firmware information, app version, battery version, and more.

Hyperlapse: Choose from Free, Circle, Course Lock, and Waypoints. Pano: Choose from Sphere, 180°, Wide Angle, and Vertical. QuickShots: Choose from Dronie, Rocket, Circle, Helix, Boomerang, and Asteroid.

| | |---|

: Tap to switch between Landscape and Portrait modes. The camera will rotate 90 degrees when switching to Portrait mode, for shooting portrait videos and photos. Portrait mode is only available in normal photo and video modes and is not supported when using MasterShots, QuickShots, Hyperlapse, Pano, or FocusTrack.

: Tap to take a photo or to start or stop recording a video.

: Tap to enter playback and preview photos and videos as soon as they are captured.

: Choose between Auto and Pro modes when in photo mode. The parameters differ with each mode.

EV

+0.7 : Displays the current shootings parameters. Tap to access parameter settings.

card. Tap to view the available capacity of the microSD card.

: Tap to switch to the Attitude Indicator, which displays information such as the orientation and tilt angle of the aircraft, as well as the locations of the remote controller and the Home Point.


Collapse

Switch to minimap

Aircraft tilt angle Home Point

Remote controller position

Aircraft orientation























Switch to Attitude Indicator

/ : Tap the icon. When the prompt appears, press and hold the button to initiate auto takeoff

or landing.

: Tap to initiate Smart RTH and have the aircraft return to the last recorded Home Point.

: Tap to return to the home screen. Tap and hold anywhere on the screen in the camera view until the gimbal adjustment bar appears. Slide on the bar to adjust the gimbal angle. Drag-select anywhere on the screen in the camera view to start FocusTrack. Tap on the screen to enable focus or spot metering. Focus or spot metering will display differently depending on the focus mode, exposure mode, and spot metering mode. After using spot metering, tap and hold on the screen to lock the exposure. To unlock the exposure, tap and hold on the screen again.

Fully charge your device before launching DJI Fly.

Mobile cellular data is required when using DJI Fly. Contact your wireless carrier for data charges.

DO NOT answer phone calls, text, or use other mobile functions during flight if you are using a mobile phone as your display device.

Read all safety prompts, warning messages, and disclaimers carefully. Familiarize yourself with relevant regulations in your area. You are solely responsible for being aware of all relevant regulations and flying in a way that is compliant.

Land the aircraft immediately at a safe location if a prompt appears in the app instructing you to do so.

Review all warning messages on the checklist displayed in the app before each flight.

Use the in-app tutorial to practice your flight skills if you have never operated the aircraft or if you do not have sufficient experience to operate the aircraft with confidence.

Cache the map data of the area where you intend to fly the aircraft by connecting to the internet before each flight.

The app is designed to assist in your operations. Use your sound discretion and DO NOT rely on the app to control your aircraft. Your use of the app is subject to DJI Fly Terms of Use and DJI Privacy Policy. Read them carefully in the app.

Flight

This section describes safe flight practices and flight restrictions.

Flight

After completing the pre-flight preparation, it is recommended to train your flying skills and practice flying safely. Make sure that all flights are carried out in an open area. The flying height is limited to 500 m. DO NOT exceed this height. Strictly abide by local laws and regulations when flying. Read the Safety Guidelines before flight to ensure the safe use of the product.

###### Flight Environment Requirements

###### Flight Limits

######## GEO (Geospatial Environment Online) System

DJI’s Geospatial Environment Online (GEO) System is a global information system that provides real-time information on flight safety and restriction updates and prevents UAVs from flying in restricted airspace. Under exceptional circumstances, restricted areas can be unlocked to allow flights in. Prior to that, the user must submit an unlocking request based on the current restriction level in the intended flight area. The GEO system may not fully comply with local laws and regulations. Users shall be responsible for their own flight safety and must consult with the local authorities on the relevant legal and regulatory requirements before requesting to unlock a flight in a restricted area. For more information about the GEO system, visit https://www.dji.com/flysafe.

######## Flight Limits

For safety reasons, flight limits are enabled by default to help users operate this aircraft safely. Users can set flight limits on height and distance. Altitude limits, distance limits, and GEO zones function concurrently to manage flight safety when GNSS is available. Only altitude can be limited when GNSS is unavailable.

Flight Altitude and Distance Limits

Maximum flight altitude restricts an aircraft’s flight altitude, while maximum flight distance restricts an aircraft’s flight radius around the Home Point. These limits can be set using the DJI Fly app for improved flight safety.

Max Altitude

Home Point

Max Radius Height of aircraft when powered on

Home Point not manually updated during flight

Strong GNSS Signal

| |Restriction|Prompt in DJI Fly| |---|---|---| |Max Altitude|Altitude of the aircraft cannot exceed the value set in DJI Fly.|Max flight altitude reached.| |Max Radius|The straight-line distance from the aircraft to the Home Point cannot exceed the max flight distance set in DJI Fly.|Max flight distance reached.|

########## Weak GNSS Signal

| |Restriction|Prompt in DJI Fly| |---|---|---| |Max Altitude|Height is restricted to 30 m from the takeoff point if lighting is sufficient. Height is restricted to 5 m above the ground if lighting is not sufficient and the Infrared Sensing System is operating. Height is restricted to 30 m from the takeoff point if lighting is not sufficient and the Infrared Sensing System is not operating.|Max flight altitude reached.| |Max Radius|No limits|N/A|

The altitude limit when the GNSS is weak will not be restricted if there was a strong GNSS signal (GNSS signal strength ≥ 2) when the aircraft was powered on.

If the aircraft reaches a limit, you can still control the aircraft, but you cannot fly it any further. If the aircraft flies out of the max radius, it will automatically fly back within range when the GNSS signal is strong.

For safety reasons, do not fly close to airports, highways, railway stations, railway lines, city centers, or other sensitive areas. Fly the aircraft only within your line of sight.

######## GEO Zones

DJI’s GEO System designates safe flight locations, provides risk levels and safety notices for individual flights, and offers information on restricted airspace. All restricted flight areas are referred to as GEO Zones, which are further divided into Restricted Zones, Authorization Zones, Warning Zones, Enhanced Warning Zones, and Altitude Zones. Users can view such information in real time in DJI Fly. GEO Zones are specific flight areas, including but not limited to airports, large event venues, locations where public emergencies have occurred (such as forest fires), nuclear power plants, prisons, government properties, and military facilities. By default, the GEO system limits flights into or takeoffs within zones that may cause safety or security concerns. A GEO Zone Map that contains comprehensive information on GEO Zones around the globe is available on the official DJI website: https://www.dji.com/flysafe/geo-map.

###### Pre-Flight Checklist

###### Auto Takeoff/Landing

Auto Takeoff Use the Auto Takeoff function:

Auto Landing Use the Auto Landing function:

Choose the proper place for landing.

###### Starting/Stopping the Motors

Starting the Motors Perform the Combination Stick Command (CSC) as shown below to start the motors. Once the motors have started spinning, release both sticks simultaneously.

OR

Stopping the Motors The motors can be stopped in two ways:

OR

Method 1 Method 2

######## Stopping the Motors Mid-Flight

Stopping the motors mid-flight will cause the aircraft to crash. DO NOT stop the motors mid-flight unless you encounter an emergency situation, for example, if a collision has occurred, or if the aircraft is out of control and ascending or descending quickly, or the aircraft is rolling in the air. To stop the motors mid-flight, perform the same CSC used to start the motors. The default setting can be changed in DJI Fly.

###### Flight Test

######## Takeoff/Landing Procedures

######## Video Suggestions and Tips

Make sure to place the aircraft on a flat and steady surface before takeoff. DO NOT launch the aircraft from your palm or while holding it with your hand.

Appendix

Appendix

###### Specifications

Aircraft Takeoff Weight < 249 g Dimensions (L×W×H) Folded: 145×90×62 mm

Unfolded (without propellers): 171×245×62 mm Unfolded (with propellers): 251×362×70 mm

Diagonal Distance 247 mm

Max Ascent Speed S Mode: 5 m/s N Mode: 3 m/s C Mode: 2 m/s

Max Descent Speed S Mode: 5 m/s N Mode: 3 m/s C Mode: 1.5 m/s

Max Horizontal Speed (near sea level, no wind)

S Mode: 16 m/s N Mode: 10 m/s C Mode: 6 m/s

Max Service Ceiling Above Sea Level

With Intelligent Flight Battery: 4,000 m (13,123 ft) With Intelligent Flight Battery Plus: 3,000 m (9,843 ft) With Intelligent Flight Battery and propeller guard: 1,500 m (4,921 ft)

Max Flight Time 34 minutes (with Intelligent Flight Battery and a flight speed of 21.6 kph in windless conditions) 47 minutes (with Intelligent Flight Battery Plus and a flight speed of 21.6 kph in windless conditions)

Max Hovering Time 30 minutes (with Intelligent Flight Battery and in windless conditions) 40 minutes (with Intelligent Flight Battery Plus and in windless conditions)

Max Flight Distance 18 km (with Intelligent Flight Battery and measured while flying at 43.2 kph in windless conditions) 25 km (with Intelligent Flight Battery Plus and measured while flying at 43.2 kph in windless conditions)

Max Wind Speed Resistance 10.7 m/s Max Tilt Angle S Mode: 40° (flying forward); 35° (flying backward)

N Mode: 25° C Mode: 25°

Max Angular Velocity S Mode: 130°/s by default (the adjustable range on DJI Fly is 20-250°/s) N Mode: 75°/s by default (the adjustable range on DJI Fly is 20-120°/s) C Mode: 30°/s by default (the adjustable range on DJI Fly is 20-60°/s)

Operating Temperature -10° to 40° C (14° to 104° F) GNSS GPS + BEIDOU + GALILEO

Hovering Accuracy Range Vertical: Vision Positioning: ±0.1 m GNSS Positioning: ±0.5 m Horizontal: Vision Positioning: ±0.3 m High Accuracy System Positioning: ±0.5 m

Transmission Video Transmission System O3 Operating Frequency 2.400-2.4835 GHz, 5.725-5.850 GHz Transmitter Power (EIRP) 2.4 GHz: <26 dBm (FCC), <20 dBm (CE/SRRC/MIC)

5.8 GHz: <26 dBm (FCC/SRRC), <14 dBm (CE)

Wi-Fi Protocol 802.11 a/b/g/n/ac Operating Frequency 2.400-2.4835 GHz, 5.725-5.850 GHz Transmitter Power (EIRP) 2.4 GHz: <19 dBm (FCC/CE/SRRC/MIC)

5.8 GHz: <20 dBm(FCC/SRRC), <14 dBm(CE)

Bluetooth Protocol Bluetooth 5.2 Operating Frequency 2.400-2.4835 GHz Transmitter Power (EIRP) <8 dBm Gimbal Mechanical Range Tilt: -135° to +80°

Roll: -135° to +45° Pan: -30° to +30°

Controllable Range Tilt: -90° to +60°

Roll: 0° or -90° (Landscape or Portrait) Stabilization 3-axis (tilt, roll, pan) Max Control Speed (tilt) 100°/s Angular Vibration Range ±0.01° Sensing System Forward Vision System Precision Measurement Range: 0.39 m to 25 m

Effective Sensing Speed: Flight speed < 10 m/s FOV: 106° (horizontal), 90° (vertical)

Backward Vision System Precision Measurement Range: 0.36 m to 23.4 m Effective Sensing Speed: Flight speed < 10 m/s FOV: 58° (horizontal), 73° (vertical)

Downward Vision System Precision Measurement Range: 0.15 m to 9 m Precision Hovering Range: 0.5 m to 12 m Effective Sensing Speed: Flight speed < 3 m/s FOV: Front and back 104.8°, left and right 87.6°

Operating Environment Non-reflective, discernible surfaces with diffuse reflectivity of >20%, and adequate illuminance of >15 lux

Camera Image Sensor 1/1.3-in CMOS, Effective Pixels: 48 MP

Lens FOV: 82.1° Format Equivalent: 24 mm Aperture: f/1.7 Shooting Range: 1 m to ∞

ISO Video: 100-6400

Photo: 100-6400 Electronic Shutter Speed 1/8000-2 s Max Image Size 4:3: 8064×6048 (48 MP); 4032×3024 (12 MP)

16:9: 4032×2268 (12 MP)

Still Photography Modes Single Interval: 2/3/5/7/10/15/20/30/60 s (JPEG) 2/3/5/7/10/15/20/30/60 s (JPEG+RAW) Automatic Exposure Bracketing (AEB): 3/5 bracketed frames at 0.7 EV Step Pano: Sphere, 180°, Wide Angle, Vertical

Video Resolution 4K: 3840×2160@24/25/30/48/50/60 fps

2.7K: 2720×1530@24/25/30/48/50/60 fps FHD: 1920×1080@24/25/30/48/50/60 fps Slow Motion: 1920×1080@120 fps

Max Video Bitrate 150 Mbps Supported File System FAT32 (≤32 GB)

exFAT (>32 GB) Photo Format JPEG/DNG Video Format MP4/MOV (H.264/H.265) DJI RC-N1 Remote Controller Transmission

Video Transmission System When used with different aircraft hardware configurations, the DJI RC-N1 Remote Controller will automatically select the corresponding firmware version for updating, and support the following transmission technologies depending on the linked aircraft model: a. DJI Mini 2/ DJI Mavic Air 2: O2 b. DJI Air 2S: O3 c. DJI Mavic 3: O3+ d. DJI Mini 3 Pro: O3

Operating Frequency 2.400 - 2.4835 GHz, 5.725 - 5.850 GHz Transmitter Power (EIRP) 2.4 GHz: <26 dBm (FCC), <20 dBm (CE/SRRC/MIC)

5.8 GHz: <26 dBm (FCC), <23 dBm (SRRC), <14 dBm (CE)

Max Transmission Distance (unobstructed, free of interference)

12 km (FCC); 8 km (CE/SRRC/MIC)

Transmission Distance (in common scenarios)

Strong interference (e.g., city center): 1.5-3 km Moderate interference (e.g., suburbs, small towns): 3-7 km No interference (e.g., rural areas, beaches): 7-12 km

General Operating Temperature -10° to 40° C (14° to 104° F) Battery Capacity 5,200 mAh Battery Type Li-ion Chemical System LiNiMnCoO2 Operating Current/Voltage 1200 [email protected] V (with Android device)

700 [email protected] V (with iOS device) Supported Mobile Device Size 180×86×10 mm (Height×Width×Thickness) Supported USB Port Types Lightning, Micro USB (Type-B), USB-C DJI RC Remote Controller Transmission

Video Transmission System When used with different aircraft hardware configurations, the DJI RC Remote Controller will automatically select the corresponding firmware version for updating. It supports the O3 transmission technology when linked with DJI Mini 3 Pro.

Operating Frequency 2.400 - 2.4835 GHz, 5.725 - 5.850 GHz Transmitter Power (EIRP) 2.4 GHz: <26 dBm (FCC), <20 dBm (CE/SRRC/MIC)

5.8 GHz: <26 dBm (FCC), <23 dBm (SRRC), <14 dBm (CE)

Max Transmission Distance (unobstructed, free of interference)

12 km (FCC); 8 km (CE/SRRC/MIC)

Transmission Distance (in common scenarios)

Strong interference (e.g., city center): 1.5-3 km Moderate interference (e.g., suburbs, small towns): 3-7 km No interference (e.g., rural areas, beaches): 7-12 km

Wi-Fi Protocol 802.11a/b/g/n Operating Frequency 2.400-2.4835 GHz; 5.150-5.250 GHz; 5.725-5.850 GHz Transmitter Power (EIRP) 2.4 GHz: <23 dBm (FCC); <20 dBm (CE/SRRC/MIC)

5.1 GHz: <23 dBm (FCC/CE/SRRC/MIC) 5.8 GHz: <23 dBm (FCC/SRRC), <14 dBm (CE)

Bluetooth Protocol Bluetooth 4.2 Operating Frequency 2.400-2.4835 GHz Transmitter Power (EIRP) <10 dBm General Operating Temperature -10° to 40° C (14° to 104° F) GNSS GPS + BEIDOU + GALILEO Battery Capacity 5,200 mAh Battery Type Li-ion Chemical System LiNiMnCoO2 Operating Current/Voltage 1250 [email protected] V Storage Capacity microSD card supported

Supported microSD Cards for DJI RC Remote Controller

UHS-I Speed Grade 3 rating microSD card

Recommended microSD Cards for DJI RC Remote Controller

SanDisk Extreme 64GB V30 A1 microSDXC SanDisk Extreme 128GB V30 A2 microSDXC SanDisk Extreme 256GB V30 A2 microSDXC SanDisk Extreme 512GB V30 A2 microSDXC SanDisk Extreme Pro 64GB V30 A2 microSDXC SanDisk Extreme Pro 256GB V30 A2 microSDXC SanDisk Extreme Pro 400GB V30 A2 microSDXC SanDisk High Endurance 64GB V30 microSDXC SanDisk High Endurance 256GB V30 microSDXC Kingston Canvas Go Plus 64GB V30 A2 microSDXC Kingston Canvas Go Plus 256GB V30 A2 microSDXC Lexar High Endurance 64GB V30 microSDXC Lexar High Endurance 128GB V30 microSDXC Lexar 633x 256GB V30 A1 microSDXC Lexar 1066x 64GB V30 A2 microSDXC Samsung EVO Plus 512GB microSDXC

Intelligent Flight Battery Battery Capacity 2453 mAh Standard Voltage 7.38 V Max Charging Voltage 8.5 V Battery Type Li-ion Chemical System LiNiMnCoO2 Energy 18.10 Wh Weight Approx. 80.5 g Charging Temperature 5° to 40° C (41° to 104° F) Max Charging Power 37 W Intelligent Flight Battery Plus Battery Capacity 3850 mAh Standard Voltage 7.38 V Max Charging Voltage 8.5 V Battery Type Li-ion Chemical System LiNiMnCoO2 Energy 28.4 Wh Weight Approx. 121 g Charging Temperature 5° to 40° C (41° to 104° F) Max Charging Power 58 W Two-Way Charging Hub Input USB-C: 5V 3A, 9V 3A, 12V 3A Output USB: 5V 2A Rated Power 30 W Charging Type Charge three batteries in sequence Charging Temperature 5° to 40° C (41° to 104° F)

Supported Batteries DJI Mini 3 Pro Intelligent Flight Battery (BWX162-2453-7.38) DJI Mini 3 Pro Intelligent Flight Battery Plus (BWX162-3850-7.38)

App Name DJI Fly Required Operating System iOS v11.0 or later; Android v6.0 or later Storage

Supported microSD Cards for Aircraft

UHS-I Speed Grade 3 rating microSD card

Recommended microSD Cards for Aircraft

SanDisk Extreme 64GB V30 A1 microSDXC SanDisk Extreme 128GB V30 A2 microSDXC SanDisk Extreme 256GB V30 A2 microSDXC SanDisk Extreme 512GB V30 A2 microSDXC SanDisk Extreme Pro 64GB V30 A2 microSDXC SanDisk Extreme Pro 256GB V30 A2 microSDXC SanDisk Extreme Pro 400GB V30 A2 microSDXC SanDisk High Endurance 64GB V30 microSDXC SanDisk High Endurance 256GB V30 microSDXC SanDisk Max Endurance 32GB V30 microSDHC SanDisk Max Endurance 128GB V30 microSDXC SanDisk Max Endurance 256GB V30 microSDXC Kingston Canvas Go Plus 64GB V30 A2 microSDXC Kingston Canvas Go Plus 256GB V30 A2 microSDXC Lexar High Endurance 64GB V30 microSDXC Lexar High Endurance 128GB V30 microSDXC Lexar 667x 64GB V30 A1 microSDXC Lexar 633x 256GB V30 A1 microSDXC Lexar 1066x 64GB V30 A2 microSDXC Lexar 1066x 128GB V30 A2 microSDXC Lexar 1066x 256GB V30 A2 microSDXC Samsung PRO Plus 128GB V30 A2 microSDXC Samsung EVO Plus 512GB microSDXC

Different shooting modes may support different ISO ranges. See the actual adjustable ISO range for different shooting modes in DJI Fly.

###### Firmware Update

Use DJI Fly or DJI Assistant 2 (Consumer Drones Series) to update the aircraft and the remote controller firmware.

######## Using DJI Fly

When connecting the aircraft or remote controller to DJI Fly, you will be notified if a new firmware update is available. To start updating, connect your remote controller or mobile device to the internet and follow the on-screen instructions. Note that you cannot update the firmware if the remote controller is not linked to the aircraft. An internet connection is required.

Using DJI Assistant 2 (Consumer Drones Series) Update the aircraft and remote controller firmware separately using DJI Assistant 2 (Consumer Drones Series). Follow the instructions below to update the aircraft firmware:

Follow the instructions below to update the remote controller firmware:

Make sure to follow all the steps to update the firmware, otherwise the update may fail.

The firmware update will take approximately 10 minutes. It is normal for the gimbal to go limp, aircraft status indicators to blink, and the aircraft to reboot. Wait patiently until the update is complete.

Make sure the computer is connected to the internet during the update.

Before performing an update, make sure the Intelligent Flight Battery has at least 40% power and the remote controller 30%.

Do not unplug the USB-C cable during an update.

###### Aftersales Information

Visit https://www.dji.com/support to learn more about aftersales service policies, repair services, and support.

DJI Support http://www.dji.com/support

############## This content is subject to change. Download the latest version from http://www.dji.com/mini-3-pro

If you have any questions about this document, please contact DJI by sending a message to [email protected].

is a trademark of DJI. Copyright © 2022 DJI All Rights Reserved.