dji FlyCart-30 Aerial Delivery Drone User Guide

dji FlyCart-30 Aerial Delivery Drone

Aircraft

The DJI FLYCARTTM 30 aircraft has a tilt truss structure. It is equipped with a forward and rear phased array radar system and a forward and downward binocular vision system to ensure flight safety. Boasting an HD FPV camera with a tiltable gimbal, the aircraft can generate flight routes precisely. The Co-Axis Dual-Prop aircraft frame and the dual battery systems allow for safe, long-duration flights. The aircraft also has an onboard parachute to protect the aircraft and cargo in an emergency. The Cargo System has a maximum storage capacity of 70 L. The optional Winch System enables aerial cargo loading and unloading in harsh environments where the aircraft cannot land. The maximum payload of the aircraft is 30 kg in dual battery mode.

1. Propellers
2. Motors
3. Electronic Speed Controller
4. Front LEDs
5. Frame Arms
6. Forward Binocular Vision System
7. Downward Binocular Vision System
8. FPV Gimbal Camera
9. Spotlights
10. Forward Phased Array Radar
11. Parachute
12. Intelligent Flight Battery
13. Weight Sensors
14. Cargo Box
15. Landing Gear
16. Rear Phased Array Radar
17. Video Transmitter Antennas
18. Rear LEDs
19. GNSS Antennas

Remote Controller

The DJI RC Plus remote controller features O3 video transmission and can transmit an HD live view from the camera of the aircraft to the touchscreen display. The remote controller is equipped with a wide range of functional buttons as well as customizable buttons, which can easily control the aircraft and operate the gimbal camera. The builtin 7.02-inch high-bright 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 has a maximum operating time of 3 hours and 18 minutes with the internal battery and up to 6 hours when used with an external WB37 intelligent battery.

1. External Antennas
2. Touchscreen
3. Aircraft Authority Button
4. Control Sticks
5. Internal Wi-Fi Antennas
6. Back/Function Button
7. Return to Home (RTH) Button
8. Status LEDs
9. Battery Level LEDs
10. Internal GNSS Antennas
11. Power Button
12. 5D Button
13. Flight Pause Button
14. Reserved Button
15. Flight Mode Switch
16. Internal Antennas
17. microSD Card Slot
18. USB-A Port
19. HDMI Port
20. USB-C Port
21. Reserved Button
22. Battery Release Button
23. Battery Compartment
24. Rear Cover Release Button

Using FlyCart 30

1. Charging
   Charging the DB2000 Intelligent Flight Battery

2. Use the C8000 Intelligent Battery Station to charge the DB2000 Intelligent Flight Battery. The C8000 Intelligent Battery Station needs to be activated before being used for the first time, and the DB2000 Intelligent Flight Battery needs to be activated using the C8000 Intelligent Battery Station.

3. Use the DJI 100 W USB-C Power Adapter to charge the remote controller. The internal battery of the remote controller must be charged to activate it before using for the first time. The battery level LEDs will flash to indicate the internal battery is activated and charging has started.
   The remote controller cannot be powered on before activating the internal battery.

4. Preparing the Remote Controller
   Checking the Battery Levels
   Press once on the power button to check the battery level of the internal battery when powered off.
   Power On/Off
   Press once, then press and hold the power button to power the remote controller on/off. The remote controller needs to be activated before using for the first time. Follow the prompts to activate.
   Adjusting the Antennas
   Unfold and adjust the antennas. The signal strength of the remote controller is affected by the position of the antennas.
   

5. Preparing the Aircraft
   Unfolding the Aircraft

6. Move the propeller holder away from the frame arms. Unfold the M3 and M4 frame arms 1 2 before unfolding the M1 and M2 frame arms 3 4 . Lock the arm lock for each of the frame arms.

7. Remove the propeller holder.

8. Unfold the propellers. Installing the Intelligent Flight Battery
   Install the two batteries as shown in the diagram. Press down the battery until you hear two clicks.
   Checking the battery level: press the power button once.
   Power on/off: press once, then press and hold the power button.

Activating the Aircraft
Power on the aircraft and remote controller, launch DJI PILOTTM 2 and follow the on-screen instructions to activate the aircraft.

Using the Cargo Box
Open the cargo box and place the cargo inside.

• Make sure the battery is mounted firmly. Make sure the battery is powered off during installation.
• To remove the battery, press the battery buckle and lift the battery.
• To fold the frame arms, fold the M1 and M2 frame arms before M3 and M4.

Getting Ready for Takeoff

1. Place the aircraft on an open, flat ground with the rear of the aircraft facing toward you.
2. Make sure that the propellers are securely mounted, there are no foreign objects in or on the motors and propellers, the propeller blades and arms are unfolded, and the arm locks are firmly fastened.
3. Make sure the Intelligent Flight Battery is mounted firmly.
4. Power on the remote controller and aircraft, then launch DJI Pilot 2. Enter Camera View. Make sure the GNSS signal is strong and the app displays Ready to GO (GNSS) or Ready to GO (RTK). Otherwise, the aircraft cannot takeoff.
   • RTK positioning is recommended. In the app, go to Camera View, and tap RTK to select a method for receiving RTK signals.

Manual Flight

Manual Takeoff/Landing

1. Start/stop motors : perform Combination Stick Command and hold for two seconds.
2. Takeoff : push the left control stick (mode 2) up to take off.
3. Landing : push the left control stick (mode 2) down until the aircraft lands. Release the left control stick once the motors have stopped.

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.

• Stay away from spinning propellers and motors to avoid injury during takeoff or landing.
• Make sure to use the remote controller to control the aircraft before the motor stops.
• DO NOT stop the motors mid-flight. Otherwise it will cause the aircraft to crash. The motors should only be stopped mid-flight in an emergency situation such as if the aircraft is involved in a collision.
• Make sure to power off the aircraft before powering off the remote controller after landing.

Flight Route
Users can use DJI Pilot 2 to add points to generate a flight route, and the aircraft will fly automatically according to the route. Flight Route makes the delivery process simple and more efficient.

1. Power on the remote controller and aircraft, and enter Camera View in DJI Pilot 2.
2. Select Flight Route > Create a Route > Live Mission Recording.
3. Manually control the aircraft, and add points during flight to record a route.
4. Select Flight Route again, and select a flight route.
5. Press the Start button to begin the flight route.
6. Go through the Preflight Check, and tap Upload Route to begin.
7. The aircraft will fly to the destination and land according to the flight task.

• Only takeoff in an open area and set an appropriate RTH Altitude according to the operating environment.
• Press the Flight Pause button or tap the stop icon on the app to stop the flight task. The aircraft will hover and record the breakpoint. After which, the aircraft can be controlled manually. Select the flight task again to continue. The aircraft will return to the breakpoint automatically and resume the flight task. Pay attention to aircraft safety when returning to a breakpoint.

Specifications

• Aircraft (Model: E2MTR-30A)
  • Operating Frequency 2.4000-2.4835 GHz, 5.725-5.850 GHz*
  • Transmitter Power (EIRP) 2.4 GHz: <33 dBm (FCC), <20 dBm (SRRC/CE/MIC) 5.8 GHz: <33 dBm (FCC), <23 dBm (SRRC) , <14 dBm (CE)
  • RTK/GNSS Operating RTK:GPS L1/L2, GLONASS F1/F2, BeiDou B1I/B2I/B3I,
  • Frequency Galileo E1/E5b, QZSS L1/L2 GNSS:GPS L1, GLONASS F1, BeiDou B1I, Galileo E1, QZSS L1
  • Operating Temperature -20° to 45° C (-4° to 113° F)
• Forward Phased Array Radar (Model: RD241608RF)
  • Operating Frequency 24.05-24.25 GHz (NCC/FCC/MIC/KC/CE)
  • Power Consumption 23 W
  • Transmitter Power (EIRP) <20 dBm (NCC/MIC/KC/CE/FCC)
  • Operating Voltage DC 15 V
  • Operating Temperature -20° to 45° C (-4° to 113° F)
• Rear Phased Array Radar (Model：RD241608RB)
  • Operating Frequency 24.05-24.25 GHz (NCC/FCC/MIC/KC/CE)
  • Power Consumption 18 W
  • Transmitter Power (EIRP) <20 dBm (NCC/MIC/KC/CE/FCC)
  • Operating Voltage DC 15 V
  • Operating Temperature -20° to 45° C (-4° to 113° F)
• Remote Controller (Model: RM700B)
  • Internal Battery Li-ion (6500 mAh @ 7.2 V)
  • Operating Frequency 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), <14 dBm (CE), <23 dBm (SRRC)
  • Wi-Fi Protocol Wi-Fi 6
  • Operating Frequency 2.4000-2.4835 GHz, 5.150-5.250 GHz, 5.725-5.850 GHz
  • Bluetooth Protocol Bluetooth 5.1
  • Operating Frequency 2.4000-2.4835 GHz
  • Transmitter Power (EIRP) <10 dBm

5.8 GHz is unavailable in some countries due to local regulations.

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