dji Matrice 30 Series Drone Power in Portability User Guide

June 10, 2024
DJi

Quick Start Guide
Matrice 30 Series M30/M30T

v1.0

Matrice 30 Series Drone Power in Portability

Matrice 30 Series Aircraft
The DJITM MATRICETM
30 Series (M30/M30T) is a powerful industrial drone platform with a multi- redundancy flight controller system, 6 directional sensing and positioning system [1] , precise
three-axis gimbal, high-performance multi-camera load, and a new FPV camera with night vision. The DJI Pilot2 app can be used to observe the real-time view from the cameras and take photos and videos. The aircraft boasts a flight time of up to 41 minutes [2] thanks to the advanced power management system along with the dual batteries that ensure power supply and enhance flight safety.
Its airframe design gives it an IP55 rating, in accordance with the global IEC 60529 standard, which effectively guarantees flight in all weather. The mechanical design, along with mounted folding arms and propellers, makes it easy to transport and store. The arms can be locked directly after unfolding, which can reduce the time needed to prepare for flight. The aircraft is also equipped with a PSDK port so users can broaden its applications.
The built-in DJI AirSense system detects nearby aircraft in the surrounding airspace, providing alerts in the DJI Pilot2 app to ensure safety. Safety during takeoff, flight, and landing are improved with the safety beacons that help to identify the aircraft during flight and the auxiliary lights allow the vision positioning system to achieve an even greater performance at night or when there is low light. The built-in RTK provides more accurate navigational data for positioning to meet accurate operation requirements and ensure safety.

1. FPV Camera
2. Forward Infrared Sensing System
3. Forward Vision System
4. Left and Right Vision Systems
5. Left and Right Infrared Sensing Systems
6. microSD Card Slot
7. Upward Vision System
8. Upward Infrared Sensing System
9. Power Button/Indicator
10. PSDK Port
11. Upward Beacon
12. Assistant Port
13. Frame Arm Folding Buttons
14. Frame Arms
15. Motors| 16. Propellers
17. Aircraft Rear Indicators
18. GNSS Antennas
19. Video Transmission Antennas
20. Aircraft Front Indicators
21. Gimbal and Camera [3] 22. Backward Vision System
23. Backward Infrared Sensing System
24. Air Vent
25. TB30 Intelligent Flight Battery
26. Battery Level LEDs
27. Battery Level Button
28. Battery Release Toggle
29. Downward Vision System

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DJI RC Plus
The DJI RC Plus remote controller features O3 Enterprise, the latest version of DJI’s signature OCUSYNCTM image transmission technology, and can transmit a live HD view from the camera of an aircraft to display on the touchscreen. The remote controller comes with a wide range of functional buttons as well as customizable buttons, which can easily control the aircraft and operate the camera.
The remote controller has a protection rating of IP54 (IEC 60529).
The built-in 7.02 inch high brightness 1200 cd/m2 screen boasts a resolution of 1920×1200 pixels. The Android operating system comes with a variety of functions such as GNSS, Wi-Fi, and Bluetooth. The remote controller supports 65W fast charging and has a maximum operating time of 3 hours 18 minutes [1] with the internal battery and up to 6 hours when used with an external WB37 intelligent battery. [2]

1. External RC Antennas
2. Touchscreen
3. Aircraft Authority Button [3] 4. Control Sticks
5. Internal Wi-Fi Antennas
6. Back/Function Button
7. L1/L2/L3/R1/R2/R3 Buttons
8. Return to Home (RTH) Button
9. Microphones
10. Status LED
11. Battery Level LEDs
12. Internal GNSS Antennas
13. Power Button
14. 5D Button
15. Flight Pause Button
16. C3 Button (customizable)
17. Left Dial
18. Record Button| 19. Flight Mode Switch
20. Internal RC Antennas
21. microSD Card Slot
22. USB-A Port
23. HDMI Port
24. USB-C Port
25. Focus/Shutter Button
26. Right Dial
27. Scroll Wheel
28. Handle
29. Speaker
30. Air Vent
31. Reserved Mounting Holes
32. C1 Button (customizable)
33. C2 Button (customizable)
34. Rear Cover
35. Battery Release Button
36. Battery Compartment
37. Rear Cover Release Button
38. Alarm
39. Air Intake
40. Dongle Compartment
41. M4 Threaded Holes
---|---
[1] The maximum operating time was tested in a lab environment and is for reference only.
[2] The WB37 Intelligent Battery is not included. Refer to the WB37 Intelligent Battery Safety Guidelines for more information.
[3] When flying a Matrice series aircraft, the aircraft authority button is used to take control of the aircraft and indicate the aircraft control status.

Using M30/M30T

Activating and Charging the Remote Controller Activating and Charging the Internal Battery

  • **** The remote controller cannot be powered on before activating the internal battery. The battery level LEDs start to flash to indicate that the Internal battery is activated.
  • Make sure to use the included USB-C to USB-C cable for optimal charging.
  1. Connect the BS30 Intelligent Battery Station to a power outlet using the AC power adaptor cable.
  2. The internal battery must be charged for activation before using for the first time. Connect the battery station and the remote controller USB-C ports using a USB-C to USB-C cable. It takes approximately 2 hours to fully charge the remote controller internal battery.
  • It is recommended to use the DJI BS30 Battery Station for charging. Otherwise, use a certified USB-C charger with a maximum rated power of 65 W and maximum voltage of 20 V such as the DJI 65W Portable Charger.
  • Fully discharge and charge the remote controller every three months. The battery depletes when stored for an extended period.

Powering on and Activating the Remote Controller Check battery level: press once.
Power on/off: press and then press and hold for two seconds.
The remote controller needs to be activated before using for the first time. Follow the prompts to activate.

  • Refer to the Matrice 30 Series User Manual for more information about the internal and external batteries.

2. Charging the TB30 Batteries and WB37 Battery

  1. Connect the battery station to a power outlet using the AC power adaptor cable.
  2. Press the power button once to power on the battery station.
  3. Insert the TB30 batteries and WB37 battery (excluded) into the battery ports to start charging. For the TB30 batteries, make sure the charging mode is set to the correct mode.

Storage Mode: Each battery pair is charged to 50% in sequence and kept at 50% after charging.
Ready-to-Fly Mode: Each battery pair is charged to 90% in sequence and kept at 90% after charging.

Standard Mode: Each battery pair is charged to 100% in sequence.

  • The battery station should be powered on to maintain the battery level in Storage Mode and Ready-to-Fly Mode.

    • **** The battery station will automatically warm up a TB30 battery to 18° C (64.4° F) before charging if the temperature of the battery is lower than 10° C (50° F) when inserted.
    • Refer to the BS30 Intelligent Battery Station User Guide for more information about the charging and the LEDs.

Preparing the Remote Controller

Mounting the WB37 Intelligent Battery
A WB37 battery (excluded) can be mounted onto the remote controller in the following steps.

  1. Push the rear cover release button to the end to open the rear cover.
  2. Insert the WB37 battery into the battery compartment and push it to the top. There will be a clicking sound to indicate the battery is installed firmly.
  3. Close the rear cover.
  • Charging time for a WB37 battery with 0% power:
    a. When it is mounted on the remote controller and the internal battery power is 0%: approximately two hours (the internal battery will be fully charged simultaneously)
    b. When it is mounted on the remote controller and the internal battery power is 100%: approximately 1 hour and 10 minutes
    c. When it is inserted into the BS30 battery station: approximately 1 hour and 20 minutes

  • To remove the WB37 battery, press and hold the battery release button and push the battery downward.

Adjusting the Antennas

Lift and adjust the antennas. The strength of the remote controller signal is affected by the position of the antennas.

Adjust the direction of the external RC antennas and make sure their flat side is facing the aircraft, so that the controller and aircraft are within the optimal transmission zone.

  • A prompt will appear in DJI Pilot2 if the transmission signal is weak during flight. Adjust the antennas to make sure that the aircraft is in the optimal transmission range.

Preparing the Aircraft

Unfolding the Aircraft

  1. Unfold the frame arms on both sides in the same way.
    Make sure the frame arm folding buttons pop out so that the frame arms are locked firmly.

  2. Unfold the propellers and rotate the gimbal pitch axis to 0° to unlock the gimbal.

  • Push to the end and hold the frame arm folding button to fold the frame arm.
  • Follow the diagram to fold and store the propellers.
  • Power off and rotate the gimbal pitch axis to +90° to lock the gimbal after each operation to protect the gimbal.

Mounting the TB30 Batteries and Checking the Battery Level

  1. Insert two TB30 batteries. Make sure the battery release toggles are in the same position as shown in the diagram.
  2. Press the battery level button to check the battery level.
  • **** Adjust the battery release toggles to the position shown to remove TB30 batteries.

Getting Ready for Takeoff

Powering On the Aircraft
Power on/off: press and then press and hold. The power button indicator glows solid after powering on.
Tap DJI Pilot2 on the remote controller touchscreen to activate the aircraft for the first time. A DJI account and internet connection are required.

Linking
The remote controller is already linked to the aircraft when it is purchased together as part of a combo. Otherwise,

  1. Power on the remote controller and the aircraft.
  2. Run DJI Pilot2 and tap Remote Controller Linking to link. The status LED of the remote controller will blink blue and the remote controller will beep during linking.
  3. Press and hold the power button of the aircraft for at follow the steps below to link the remote controller and the aircraft after activation.

least five seconds. The aircraft power indicator will blink and will beep twice to indicate linking has started. When linking is successful, the aircraft rear indicators will blink green while the remote controller will beep twice and the remote controller status LEDs will glow solid.
Pre-Flight Checklist
A. Make sure the remote controller and the aircraft batteries are fully charged, the TB30 batteries are installed firmly, and the battery release toggles are locked.
B. Make sure the propellers are securely mounted and not damaged or deformed, that there are no foreign objects in or on the motors or propellers, that the propeller
blades and arms are unfolded, and that the frame arm folding buttons are popped out in the locked position.
C. Make sure the lenses of the vision systems, cameras, FPV, the glass of the infrared sensors, and the auxiliary lights are clean and not blocked in any way.
D. Make sure the gimbal is unlocked and the camera is facing the front of the aircraft.
E. Make sure the covers of microSD card slot, the PSDK port, and the dongle compartment have been closed firmly.
F. Make sure the remote controller antennas are adjusted to the proper position.
G. Power on the aircraft and the remote controller, toggle the flight mode switch to N-mode. Make sure the status LED and the aircraft authority button on the remote controller are solid green. This indicates that the aircraft and the remote controller are linked and the remote controller is in control of the aircraft.
H. Place the aircraft on open and flat ground. Make sure there is no obstacles, buildings, or trees nearby, and that the aircraft is 5 m away from the pilot. The pilot should be facing the rear of the aircraft.
I. To ensure flight safety, enter the flight view of DJI Pilot2 and check the parameters on the pre-flight checklist such as the control stick mode, RTH height, obstacle distance, and failsafe settings. It is recommended to set the failsafe action to RTH.
J. Divide the airspace for flight when multiple aircraft are operating simultaneously in order to avoid collision mid-air.

Flight

Control Stick Mode

The default control stick mode is Mode 2. The left control stick controls the altitude and heading of the aircraft while the right control stick controls the forward, backward, and sideward movements.
Manual Takeoff/Landing

  1. Start/stop motors: perform Combination Stick Command and hold for two seconds.
  2. Takeoff: slowly push the left control stick (Mode 2) up to take off.
  3.  Landing: slowly push the left control stick (Mode 2) down until the aircraft lands. Hold for three seconds to stop the motors.

Refer to the Matrice 30 Series User Manual for more information about features and applications.

Specifications

Aircraft
General

| _| 470x585x215 mm (LxWxH)
---|---|---
Dimensions
(unfolded, excl. propellers)
Dimensions (folded)| 365x215x195 mm (LxWxH)
Diagonal Wheelbase| 668 mm
Weight (incl. two batteries)| 3770 ± 10 q
Max Takeoff Weight| 4000 g
Operating Frequency (1j| 2.4000-2.4835 GHz, 5.725-5.850 GHz
Transmitter Power (EIRP)| 2.4 GHz: <33 dBm (FCC); <20 dBm (CE/ SRRC/MIC)
5.8 GHz: <33 dBm (FCC/SRRC); <14 dBm (CE)
Hovering Accuracy (windless or breezy)| Vertical: ±0.1 m (Vision System enabled); ±0.5 m (N-mode with GPS); ±0.1 m (RTK)
Horizontal: ±0.3 m (Vision System enabled); ±1.5 m (N-mode with GPS); ±0.1 m (RTK)
RTK Positioning Accuracy (fixed RTK enabled)| 1 cm+1 ppm (horizontal) 1.5 cm+1 ppm (vertical)
Max Angular Velocity| Pitch: 150°/s; Yaw: 100°/s
Max Tilt Angle| 35° (N-mode and Forward Vision System enabled: 25°)
Max Ascent/Descent Speed| 6 m/s; 5 m/s
Max Tilt Descent Speed| 7 m/s
Max Horizontal Speed| 23 m/s
Max Service Ceiling Above Sea Level (without other payload)| 5,000 m (with 1671 propellers)
7,000 m (with 1676 propellers)
Max Wind Resistance| 15 m/s12 m/s during taking off and landing
---|---
Max Hover Time (2)| 36 min
Max Flight Time (2]| 41 min
Motor Model| 3511
Propeller Model| 16711676 High Altitude (not included)
Ingress Protection Rating [3]| IP55
GNSS| GPS+Galileo+BeiDou+GLONASS (GLONASS is supported only when RTK module is enabled)
Operating Temperature| -20° to 50° C (-4° to 122° F)
Gimbal|
Angular Vibration Range| ±0.010
Controllable Range| Pan: ±90° , Tilt: -120° to +45°
Mechanical Range| Pan: ±105°, Tilt: -135° to +60°, Roll:±45°
Zoom Camera|
Sensor| 1/2″ CMOS, Effective pixels: 48M
Lens| Focal length: 21-75 mm (equivalent: 113- 405 mm)
Aperture: f/2.8-f/4.2
Focus: 5 m to 00
Wide Camera|
Sensor| 1/2″ CMOS, Effective pixels: 12M
Lens| DFOV: 84°
Focal length: 4.5 mm (equivalent: 24 mm) Aperture: f/2.8
Focus: 1 m to 00
Thermal Camera|
---|---
Thermal Imager tens| Uncooled vox Microbolometer
DFOV: 64°
Focal length: 9.1 mm (equivalent: 40 mm) Aperture: f/1.0
Focus: 5 m too°
!infrared 1emperature Meaurement Accuracy  Nr| ±2°C or ±2% (using the larger value)
FPV Camera| i
Resolution| 1920×1080 I
DFOV| 161° I
Frame Rate| 30 fps 1
Laser Module| I I
Wavelength| 905 nm
rMax Laser Power| 3.5 mW
Single Pulse Width| 6 ns
tvleasurement Accuracy| ± (0.2 m + Dx0.15%)
D is the distance to a vertical surface
‘Measuring Range| 3-1,200 m (0.5×12 m vertical surface with 20% reflectivity)
Vision Systems| I
Obstacle Sensing Range| Forward: 0.6-38 m Upward/Downward/Backward/ Sideward: 0.5-33 m
IFOV| 65c, (hp, 500 04 I
Operating Environment| Surfaces with dear patterns and adequate lighting (> 15 lux)
Infrared Sensing Systems|
Obstacle Sensing Range| 0.1-10 m
FOV| 30°
Operating Environment| Large, diffuse, and reflective obstacles (reflectivity

10%)
TB30 Intelligent Flight Battery
Capacity| 5880 mAh
Voltage| 26.1 V
Battery Type| Li-ion 6S
lEneray| 131.6 Wh
Net Weight| Approx. 685 g
Operating Temperature| -20° to 50° C (-4° to 122° F)
!Storage Temperature| 20° to 30° C (68° to 86° F)
Charging Temperature| -20° to 40° C (-4° to 104° F)
(When the temperature is lower than 10° C (50° F), the self-heating function will be automatically enabled. Charging in a low temperature may shorten the lifetime of the battery)
Chemical System| LiNiMnCoO2
Auxiliary Lights|
Effective Illumination Distance| 5 m
Illumination Type| 60 Hz, solid glow

Remote Controller

General|
---|---
Screen| 7.02 inch LCD touchscreen, with a resolution of 1920×1200 pixels, and high
brightness of 1200 cd/m2
intemal Battery| Type: U-ion (6500 mAh @ 7.2 V)
Charge Type: Supports battery station or USB-C charger maximum rated power 65W (max voltage of 20V)
Charge Time: 2 hours
Chemical System: UNIC,oA102
External Battery
(N637 Intelligent Battery)| Capacity: 4920 mAh Voltage: 7.6 V
BatteryType: Li-ion Energy: 37.39 Am
Chemical System: LiCoO2
Operating Time Ni| Internal Battery: Approx. 3 hours 18 min
Internal Battery + External Battery: Approx. 6 hours
Ingress Protection Rating Pi| IP54
GNSS| GPS+Galileo+BeiDou
Operating Temperature| -20° to 50° C (-4° to 122° F)
03 Enterprise|
Operating Frequency'”| 2.4000-2.4835 GHz, 5.725-5.850 GHz
Max Transmission Distance (unobstructed, free of interference)| 15 km (FCC); 8 km (CE/SRRC/MIC)
II
Max Transmission Distance (with interference)| Strong Interference (urban landscape, limited line of sight, many competing signals): 1.5-3 km (FCC/CE/SRRC/MIC)
Medium Interference (suburban landscape, open line of sight, some competing
signals): 3.9 km (FCC); 3.6 km (CE/SRRC/ MIC)
Weak Interference (open landscape abundant line of sight, few competing signals): 9-15 km (FCC); 6-8 km (CE/ SRRC/MIC)
Transmitter Power (EIRP)| 2.4 GHz: <33 dBm (FCC); <20 dBm (CE/ SRRC/MIC)
5.8 GHz: <33 dBm (FCC); <14 dBm (CE); <23 dBm (SRRC)
Wi-Fi|
Protocol| Wi-R 6
Operating Fnaquencym| 2.4000-2 4835 3Hz; 5.150-5.250 0Hz; 5.725-5.850 GHz
ransmitter Power (EIRP)
IT| 2.4 GHz: <26 dBm (FCC); <20 dBm (CE/ SRRC/MIC)
5.1 GHz. <26 dBm (FCC); <23 dBm (CE/ BRRC/MIC)
5.8 GHz: <26 dBm (FCC/SRRC); <14 dBm (CE)
Bluetooth|
Protocol| Bluetooth 5.1
Operating Frequency| 2.4000-2.4835 GHz
Transmitter Power (EIRP)| <10 dBm

  1.  5.8 and 5.1GHz frequencies are prohibited in some countries. In some countries, the 5.1GHz frequency is only allowed for use indoors.
  2.  The maximum flight time and the hover time were tested in a lab environment and is for reference only.
  3. This protection rating is not permanent and may reduce over time after long-term use.
  4. Infrared temperature measurement accuracy was tested in a lab environment and is for reference only.
  5. The maximum operating time was tested in a lab environment and is for reference only.

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