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User Manual | Users Manual | 5.29 MiB | July 05 2022 / January 01 2023 | delayed release | ||
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Internal Photo | Internal Photos | 4.59 MiB | July 05 2022 / January 01 2023 | delayed release | ||
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External photos | External Photos | 1.42 MiB | July 05 2022 / January 01 2023 | delayed release | ||
1 2 3 | ID Label/Location Info | July 05 2022 | ||||||
1 2 3 | Cover Letter(s) | July 05 2022 | ||||||
1 2 3 | Block | Block Diagram | July 05 2022 | confidential | ||||
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FCC Authorization Letter | Cover Letter(s) | 80.11 KiB | July 05 2022 | |||
1 2 3 | Cover Letter(s) | July 05 2022 | ||||||
1 2 3 | Cover Letter(s) | July 05 2022 | ||||||
1 2 3 | OP | Operational Description | July 05 2022 | confidential | ||||
1 2 3 | SCH | Schematics | July 05 2022 | confidential | ||||
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T Setup Photos | Test Setup Photos | 760.21 KiB | July 05 2022 / January 01 2023 | delayed release | ||
1 2 3 | Test Report | July 05 2022 | ||||||
1 2 3 | RF Exposure Info | July 05 2022 | ||||||
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test photo SAR | Test Setup Photos | 742.84 KiB | July 05 2022 / January 01 2023 | delayed release | ||
1 2 3 | Block Diagram | Block Diagram | July 05 2022 | confidential | ||||
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UII declaration | Cover Letter(s) | 170.84 KiB | July 05 2022 | |||
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FCC Software Configuration Control Declaration Rev1.1 | Cover Letter(s) | 113.37 KiB | July 05 2022 | |||
1 2 3 | Software Security Requirement Description for UNII Devices | SDR Software/Security Inf | July 05 2022 | confidential |
1 2 3 | User Manual | Users Manual | 5.29 MiB | July 05 2022 / January 01 2023 | delayed release |
User Manual catalogue Product Overview .......................................3 H850 Drone..............................................3 T1 Transmitter .........................................4 Charge the Batteries .................................5 Charge the Drone Battery ......................5 Charge Box Screen Overview .................5 Charge the T1 Battery by the USB .........5 Assembly ...................................................6 Assembling the Landing Gears ..............6 Assembling the Motor Arms ..................6 Installing the Flight Batteries .................6 Payload Introduction ................................6 Visible Light Camera ..............................7 Re-bind ...................................................... 25 Data Pilot APP ........................................... 28 Main interface overview ....................... 28 Video Link Interface ............................... 33 Mission Flight Mode .............................. 35 Waypoint ........................................... 35 Adjust the waypoint parameters ....... 35 Pattern ................................................... 40 Survey Mode...................................... 40 Adjust the survey parameters ........... 42 Corridor Scans ................................... 48 Structure Scans ................................ 51 Other functions of the Plan Panel ... 54 Thermal Imaging Camera ......................9 Execute the flight mission ................... 55 Variable-focus Camera ............................9 Operations in mission flight mode ...... 56 Assembly /disassembly the Gimbals .... 10 Breakpoint Continuation ..................... 58 Pre-Flight Preparation ........................... 11 Power On/OFF ...................................... 11 Calibrating the Compass ....................... 12 CORS Network Binding ......................... 14 Environment Requirement ................... 16 Take Off .................................................... 17 Optimal Transmission Range ................ 17 Take Off OPTION 1 ................................ 18 Take Off OPTION 1 ................................ 18 Control the Drone .................................. 19 ANGLE MODE ........................................ 19 SPORT MODE ........................................ 19 RTL MODE ............................................. 19 MANUAL MODE .................................... 19 Setting Interface .................................. 59 General ............................................ 59 Offline Maps .................................... 61 Version ............................................. 64 GNSS RTK ......................................... 64 ST16 Radio ....................................... 64 Calibration ....................................... 65 Vehicle ............................................. 66 Summary .......................................... 69 RC Mode .......................................... 69 Sensors ............................................ 70 Safety ............................................... 70 Team mode ............................................... 75 Team Mode Bind ................................. 75 Indoor flight .......................................... 20 Bind finished .......................................... 78 Go to Location flight ............................. 21 Bind finished .......................................... 79 Orbit Flight ............................................ 22 ROI Flight .............................................. 23 Attachment ............................................... 80 Specification .......................................... 80 Land .......................................................... 24 Emergency Motor Stop ............................ 24 Gimbal Control ......................................... 25 Gimbal Camera Tilt Control .................. 25 Gimbal Camera Pan Control ................. 25 LED Status Indication ............................. 82 Disclaimer and Statement ........................ 83 T-1 Transmitter 01 Antennas 02 Previous Button 03 Left Control Stick 04 Customizable Knob 05 Power Button 06 5D Button 07 Flight Mode Switch 08 Battery Level LEDs 09 Home Page Button 10 Right Control Stick 11 Motor Start/Stop Button 12 Return to Launch Button 13 Type C USB Charging Port 14 Micro SD Card Slot 15 Headphone Port 16 HDMI Port 17 Video Record Button 18 Shutter Button 19 Gimbal Tilt Control Knob 20 Gimbal Pan Control Knob 21 Hot Key/Gimbal Back to Center
(Double click) 22 Battery 23 USB 2.0 Port 24 Battery Release Button 25 USB 3.0 Port 26 Customizable Button Charge the Batteries Charge the Drone Battery Power the Charge box from a 100-240V AC outlet. Then press the power button to switch on the charger. Plug the drone or transmitter battery into the charger port as illustrated. the batteries will be charged Then automatically. Charge Box Screen Overview Drone battery charge port Transmitter battery charge port Charging Current Battery temperature Remaining battery life Battery Percentage Battery Voltage Battery Percentage Charge the T1 Battery by the USB The users can also charge the T1 battery by using the Type C USB cable. Insert the connector into the Type C USB Charging Port as the picture shown. To check the charge status when the transmitter is shut down, please short press the power button on the T-1 transmitter. The Battery Icon will be shown on the screen. Or the user can estimate the remaining power roughly by the LED indicator on the transmitter. Notice: The batteries are a consumable material and that they have to be replaced after they show weakness. Visible light Camera E90X X camera is a one-inch CMOS sensor to capture high quality images with 4k 10 bit in camera color processing. Images may be captured in formats of JPEG or DNG format, or simultaneous capture of both formats. Video may be recorded in UHD, 2K, or HD resolutions at a variety of frame rates. When the Gimbal was connected successfully the gimbal type will be shown correctly on the screen. Tap the Camera Setting Button to set more photographic parameters. Notice: For more detailed introduction please refer to the corresponding Gimbal User Manual. Digital Zoom function for E90x Yuneec camera E90x is capable of digital zoom. Digital zoom is an ideal tool for many types of inspection, or getting a closer view of objects further than the camera is able to originally see. Digital zoom and optical zoom differ, as optical zoom uses placement of lenses to generate a closer image where digital zoom enlarges pixels. When using digital zoom, some loss of fine detail is normal and expected. Pinch the screen to zoom, just as with any other mobile device. Depending on distance, there may be a small amount of latency in seeing the image zoom. Thermal imaging camera ETx/E10Tx/E10Tvx/E20Tvx This series are innovative combination of 3-axis gimbals, thermal imaging camera and low-light camera. While the thermal imaging camera selectively measures the temperature in the image enabling it to display relative temperature differences, the low-light RGB camera has a 20 times higher sensitivity than the human eye and can still take excellent shots even in low light conditions. Both images are streamed live on the remote control at the same time, and can be viewed separately as a picture-in-picture or as an overlay. As same as the E90x gimbal, When the Gimbal was connected successfully the gimbal type will be shown correctly on the screen, also tap the Camera Setting Button to set more photographic parameters both for thermal imaging and visible light camera. Notice: For more detailed introduction please refer to the corresponding Gimbal User Manual. Variable-focus camera E30Zx The E30Zx is a powerful 30x zoom drone camera and makes it easy to zoom in on distant objects to gain valuable details. The compact camera housing contains a 1/2.8" CMOS sensor, which provides high-quality and stabilized recordings even in low light conditions. In addition to the 30x optical zoom, the camera offers a 6x digital zoom for flexible application options such as inspection, search and rescue operations, monitoring, people search, and much more. As same as the E90x gimbal, When the Gimbal was connected successfully the gimbal type will be shown correctly on the screen, also tap the Camera Setting Button to set more photographic parameters. Zoom function for E30Zx Zoom in Press and hold the zoom in button to increase the optical zoom. When increasing to 30X optical zoom, if presses the zoom in button again, the camera begins to increase digital zoom. The digital zoom can increase to 6X at the most. Zoom out Press and hold the zoom out button to decrease the optical zoom. When decreasing to 1X digital zoom, if presses the zoom out button again, the camera begins to decrease optical zoom. One Key to 1x Image Tap the [ ] on the screen you can return the camera to 1X zoom. Notice: For more detailed introduction please refer to the corresponding Gimbal User Manual. Other payloads Yuneec has several different camera/payload devices for use on the H850. Get more information on www.yuneec.com. SD CARD SELECTION Yuneec recommend using a SDXC Class 10 UHS-3 micro SD card for recording 4k video. Using the UHS-3 card allows the camera buffer to record to the micro SD card faster resulting in fewer buffers overrun. Assembly / Disassemble the gimbals Assembling Step 1 Find the Unlocked Mark etched on the Gimbal Yaw Motor and align the Mark Line with the front of the damping plate. Step 2 Insert the Gimbal Yaw Motor into the damping plate and rotate it counterclockwise until the Mark Line of the Locked Mark aligns with the front of the damping plate to secure the gimbal. Step 3 Remove the lens protector Disassembling Step 1 Hold the gimbal release button and rotate the Gimbal Yaw Motor clockwise until the Mark Line of the Unlocked Mark aligns with the front of the damping plate. Step 2 Pull the gimbal out from the damping plate. Notice: The X-connector series gimbal needn't bind separately. If the re-binding is needed please refer to the corresponding section in the OFDM Module binding chapter. Per-Flight Preparation Power ON/OFF NOTICE: Please make sure all firmware is the latest version. Firmware can be updated via the OTA update function and the user manual can be downloaded from web site: www.yuneec.com. The quick start guide does not replace the user manual. Press and hold the Power Button to power on/off the T1 Press and hold the Power button on H850 to power on/off the drone. Notice: Always Power on the T1 before powering on the UAS. Calibrating the Compass In the following situations recalibrating the Compass is suggested for flight safety:
1. Before the first flight when you take the drone out of the box;
2. When feeling the drone is drifting after a long distance trip;
3. The drone alarms a compass warning. 4. There are metal materials beside the drone during storage and transport. Calibrate steps Notice:
metal core. For optimum performance, only calibrate the drone in open spaces, far away from power lines and other metal structures or concrete buildings Do not calibrate the compass in parking garages, close to building or near roads with a Be sure to perform the compass calibration procedure at least 11 feet away from the nearest cell phone or other electronic devices to ensure proper calibration. Step 1: After the drone and T1 Transmitter already connected, place the drone on a horizontal and stable surface, and tap the setting icon then tap the compass under the Sensors Item. Step 2: Tap OK button to start calibrate Step 3: Calibrating Follow the onscreen display and instructions. During Compass calibration, the H850 will need to rotate along the specific axis which shown by the LED of each Motor Arm, until a tone is heard to change the next axis. Repeat this procedure for all six positions. A yellow box with a red arrow indicates the rotation axis which is calibrating. A green box indicates a completed calibration. During Calibration Calibration Finished for all Axis Step 4: Reboot the drone After all axis have been calibrated, tap the Reboot Vehicle button on the popped up dialog box to make the calibration effective. CORS Network Binding:
The Network CORS and RTK GPS have been disabled by default setting. The H850 Drone will be positioned and navigated by using the single GPS technology. The RTCM Source was set to disabled by default under the GNSS RTK item. The users can connect the drone with the Network CORS according the following steps to get the higher positioning accuracy. Step 1: After the T1 Transmitter and drone are bound, tap the Wi-Fi icon and select a Hotspot to make the T1 Transmitter connect to the internet. Step 2: Tap the Settings icon then tap Vehicle. Select the RTK GPS and tick the Enable RTK GPS, then restart the drone. Tap the Step 3:
Auto Reconnect Settings icon then tap GNSS RTK Select NTRIP as the RTCM source, then tick
. Step 4: Fill the following NTRIP Stream Settings parameters according to your CORS Network. Notice: You must fill out the Required Tagging Form. Step 5: Tap Apply button to finish the connection process. Notice: When connection to the CORS Network has been successful, the Connection Status display w Notice: Do not enable the RTK GPS when the RTCM Source is unavailable. Environment Requirements Always operate the Drone in open areas
(approximately 10000 square feet/930 square meters or more) that are free from people, vehicles, trees and other obstructions. Never fly near or above crowds, airports or buildings. Never attempt to operate the drone near tall buildings/obstructions that do not offer a clear view of the sky (a minimum clearance of 100). Take OFF The drone has 4 different basic flight modes we suggest place the flight switch at the middle position to use the Angel mode to take off. Optimal Transmission Range The signal between the drone and the T1 Transmitter is most reliable when the antennas are positioned in relation to the drone below. Ensure that the drone is flying within the optimal transmission range. Take Off OPTION 1:
After the drone was positioned by GPS we can start the motors by pressing and holding the motor start/stop button on the T-1 Transmitter and release when the motors already started. Slowly raise the left-hand stick to take off (Mode 2 Shown). Take Off OPTION 2:
Tap the Take Off icon and set the takeoff altitude then slide on the screen to take off. There is also a Landing soft key beneath the takeoff soft key that may be used for Auto-Landing. Control the drone Basic Flight Control Outdoor flight Flight Mode Switch Overview ANGLE MODE When in Angle Mode and GPS is available, the H850 will respond according to the T-1 Transmitter. SPORT MODE In sport mode, the drone responses are optimized for agility and speed making it more responsive to joystick movements. RTL MODE The Return to launch (RTL) function brings the drone back to the last recorded Home Point and land automatically. To enter the RTL MODE please press and hold the RTL Button on the T1 Transmitter after the drone took off. MANUAL MODE When in Manual Mode, GPS will be deactivated. The aircraft will only use its barometer for positioning to control the altitude. Tips: Manual mode is not recommended for first-time pilots. Without GPS, the aircraft will drift in slight winds and will not maintain position. Indoor flight When fly the drone without GPS signal, please switch to the indoor flight mode first then start the motors Step 1: After the drone and transmitter was connected tap the system setting button then select the Vehicle item, tap the Indoor Mode button. Step2: Tick the Enable Indoor Flight Step 3: Push the Flight Mode Selection Switch to the Manual Flight Mode then press and hold the START/STOP button for about 3 seconds to start the motors. Notice: Please switch back to outdoor flight mode after each indoor flight; otherwise the drone won t get GPS lock when flying outdoor next time. Go to Location flight After the drone was taken off with GPS Lock the users can command the drone fly to a specific point on the map by tapping the map directly. Click the Go to location then the tapped point will be marked on the map as the Go here point. Slide the slider the drone will fly to the Go here point on a straight flight line. After arrived the drone will keep hover at the Go here point. Notice: The users can stop the Go to Location Mission by push or pull any joystick to any direction. Orbit Flight After the drone was taken off with GPS Lock the users can command the drone fly to orbit a specific point on the map by tapping the map directly. Select the Orbit at location then the tapped point will be marked on the map as the orbit center point. Orbit Flight Setting interface overview:
Orbit Center Radius Slider Orbit Track Altitude Slider The users can adjust the initial orbit center and radius by dragging the white dot of the orbit center point and the radius slider. After the altitude was confirmed slide the slider on the bottom to start. Adjust the orbit speed, radius and altitude After the orbit flight is started, users can adjust the radius by using the elevator/pitch joystick meanwhile the orbit speed can be adjusted by the aileron/roll joystick when orbiting. And for the altitude users can use the throttle/altitude joystick to adjust. Mode 2 shown ROI Flight After the drone was taken off with GPS Lock the users can command the gimbal towards to a specific interesting point on the map by tapping the map directly. Select the ROI at location then slide to confirm the tapped point will be marked on the map as the ROI point. After the ROI point was set, the gimbal will turn its pan direction to looking at the ROI point. Land Slowly lower the throttle/altitude joystick below the center position, H850 will descend slowly and land. After the drone lands, the motors will stop after 2 seconds without any operation. Mode 2 Shown Emergency Motor Stop The users can force stop the motors by following operation in the emergency status such as the blades will hit the people and cause serious injury. Or the drone has the trend of flying away under the loss control conditions which caused by the sensors fault. To force stop the motors please pull the throttle joystick to the bottom then press the Motor Start/Stop Button 3 times rapidly. Warning: The motors will stop even the drone is flying in the sky by the Force stop command. X3 Notice: If the motors were force stopped, to start the motors again, the users must reboot the drone first. Mode 2 Shown Gimbal Control GIMBAL CAMERA TILT CONTROL The users can control the tilt of the gimbal by using the Tilt Control Knob Slide the knob to the left to tilt down the gimbal, slide the knob to the right to tilt up the gimbal. Keep the knob at the center point to hold the tilt angle of the gimbal. GIMBAL CAMERA PAN CONTROL The users can control the Pan of the gimbal by using the Pan Control Knob Slide the knob to the left to pan left the gimbal, slide the knob to the right to pan right the gimbal. Keep the knob at the center point to hold the pan direction of the gimbal. Re-Bind The drone and T1 Transmitter are already bound before shipped out of factory. It is unnecessary to bind them again. Pilot can follow the steps below if rebinding is needed. Step 1: Power on the H850 Drone. Wait a few seconds for all systems to be boot up. Step 2: After initialization completes, Use a paperclip or something like a needle to push the bind button inside the hole as the picture shown. Release the button until the LED blink yellow quickly. Step 3: Power on the T1 Transmitter and tap the USYNC Button to bind. Step 4: Tap the Next Button to start the binding process. Step 5: Connecting. Step 6:
finish the bind process. Data Pilot APP is an economic and efficient task planning software tailored for industry users, which preinstalled in the smart transmitter for all the YUNEEC commercial drones. Main Interface Over view Full Screen Map Interface 1 2 3 4 5 6 7 8 9 10 11 12 13 15 14 16 01 Main Interface Button Return to main interface from any other interface by tapping this button. 02 Mission Route Setting Button Tap this button to enter the Mission Editing Interface. 03 Settings button Tap this button to open the extended menu to view and adjust the parameters of other settings. 04 Warning Message button After the Warning Message released by the drone the bell icon will change to the Exclamation mark. To view the Warning Message, please tap the Exclamation mark then the Warning Message Window will be popped up on the screen as the screenshot shown below. Tap the close button to close the Warning Message Window. Tap the Trash can icon to clean the Warning Messages. 05 Flight Modes Indicator Display the current Flight Mode of the drone. 06 Obstacle Avoidance Indicator After the Obstacle Avoidance switched on, this icon will turn green to remind the users this function is enabled. enabled Note: For the drones without the Obstacle Avoidance function this indicator will be hidden. 07 Communication status indicator This indicator show 3 different communication status as the picture shown below Gray: The drone doesn t connect to the transmitter. Red Flashing: The receiver already connected to the drone, and the 2.0 App is attempting to establish the communication with the Autopilot in the drone. White: The communication between the 2.0 App with the Autopilot was established. 08 Transmitter Battery & RSSI This icon displays the Remaining Battery Power and acts as the RSSI (Received Signal Strength Indication) of the transmitter. Tap this icon to displaying more information of the transmitter status. To close the dialog box, just tap other areas on the screen. 09 Drone GPS indicator This icon displays the Drone GPS status. When the icon turns green it means the drone has an ideal positioning accuracy for flight. Tap this icon to displaying more information of the drone GPS status. To close the dialog box, just tap other areas on the screen. 10 Drone Battery indicator This icon displays the Remaining Power and percentage of the drone flight battery. Tap this icon to displaying more information of the drone battery status. To close the dialog box, just tap other areas on the screen. 11 Wi-Fi RSSI & Setting button This icon displays the Wi-Fi RSSI. The users can also open the Wi-Fi Setting Menu by tapping this icon. The users can select, refresh, connect or reset the available Wi-Fi hotspot under the Wi-Fi Setting Menu. Refresh the Wi-Fi hotspots Connected Wi-Fi hotspot Available Wi-Fi hotspots Close the Wi-Fi Setting Menu Available Wi-Fi hotspots The users can select the Wi-Fi hotspot wanted by tapping the SSID in the available Wi-Fi hotspot list, and then enter the passwords to connect. With the connection of the Internet, the users can download the electronic map, get the Network CORS source or deal with other operations. 12 OFDM RSSI & Setting button This Icon displays the OFDM RSSI. The users can also open the OFDM Menu by tapping this icon for binding or unbinding operation. 13 Flight quick control panel The user can send the control command by using this panel. After the drone took off the panel will add 2 items as the screenshot below:
Before Take off After Take off One Key Take off Button Land Button: Tap for land at the drone directly at current position. RTL Button: Tap for switch to the RTL flight mode. Pause Button: Tap for pause the automatic flight mission. Action Button: Tap for act the automatic flight mission. 14 Drone Indicate the drone position and course. The L point means the Launch point of the drone. 15 Map /Video Switch Display the thumbnail window of the map or Video link feedback. Tap to view the full screen map or Video interface. The user can tap the hide icon adjust the size of the window. to hide the thumbnail window, or drag the icon to Tap and drag to adjust the size of the thumbnail window Tap to hide the thumbnail window 16 Flight Data Panel Indicate the flight data Odometer in one Flight Flight Time Compass and Course Latitude & Longitude Distance between the Drone and Transmitter Horizontal speed Height The User can hide the panel left to the compass by single tapping the compass dial. Vertical speed The Compass also can be switched to the gyroscopic horizon dial by tapping the dial in quick succession. The Height and Horizontal Speed data will also be moved to the panel left to the dial. Video Link Interface After The Main Screen has been switch to the Video Link feedback interface, the user will get the screen shown below:
1 2 3 4 5 6 7 8 9 1Camera quick access menu The user can adjust the camera parameter quickly by using this menu. Such as exposure mode, white balance, etc. Note: According to different camera type and parameter setting this menu could be different. 2 Zoom Icon This icon displays the zoom ratio of the camera Note: According to different camera type this icon could be different. 3 Gimbal attitude display The Position of the Yellow dot in the gimbal tilt indicator bar shows the gimbal tilt attitude. The red marks in the bar shows the gimbal is tilted up meanwhile the green marks shows the gimbal is tilted down. For further accuracy, we can read the gimbal tilt angle in the rectangle under the Vertical bar. Also there is a black arrow in the Yellow dot it shows which direction of the gimbal lens is point to. When the arrow is straight up it shows the gimbal lens is point to the front of the drone. 4 Camera Type and SD card remaining capacity Display the camera type and SD card remaining capacity. 5 Photo/Video Mode Switch Switch the Camera mode between the Photo mode with the Video recording mode. Just tap the Icon to switch the Camera work mode. Camera in video mode Camera in Photo mode 6 Shutter/Record button In the Video Recording mode the icon is a red dot. Tap it to start recording the video and tap again to stop recording. In the Single Photo mode the icon is a white dot. Tap it to capture a photo In the Time Lapse Photo mode the icon is a white dot with time interval shown in the center. Tap it to start the time interval shooting and tap again to stop. If the SD card is full or the camera without insert the SD card the icon is a gray dot that means you cannot record anything. Five different status of the Shutter or Start/Stop recording soft button Tap to start Recording video Tap to Record one photo Tap to start time interval shooting No SD card or SD Card full Tap to stop the Video recording or time interval shooting 7 Counter in photo mode/ Timer in video mode In the photo mode the counter shows how many photos you have recorder within one Electrified time .Once you have powered off the drone the number will be reset. In the video mode the timer shows the time you have recorded in each single video. 8 Gallery The main function of Gallery preview enables drone to check the pictures and videos taken on the remote control, without pulling out the SD card in the camera. It realizes that checking the effect of its own aerial photos without landing, so that users can quickly reshoot for the unsatisfactory photos or videos, greatly improving the efficiency of aerial photos of drone The photos or videos also can be deleted in the gallery function to save the storage capacity of the Remote Controller. Note: When deleting in the Gallery, the device will only delete the file in the Remote Controller, 9 Camera Setting Button Tap this button to open the camera menu for further setting. Note: According to different camera type the camera setting menu could be different. Please refer to the corresponding chapter of the gimbal manual for the camera setting menu instruction in detail. Mission flight mode To enter Mission planning mode, tap the Mission Route Setting icon[
] on the top of the DataPilot home screen. The PLAN window will open, allowing users to create Waypoint and Survey missions, sync missions between desktop, ST16E, and the drone, store/recall missions, and Center a mission around a particular point on the ST16E screen. Waypoint A waypoint defines a specific location and behavior at a specific point in time, allowing for intelligent auto-functions during flight. Waypoint flight is ideal for capturing oblique images, perimeter monitoring, and many other uses. Add Waypoints If the user need plan a fight mission in a new area, connect the transmitter to the internet via a Wi-Fi hotspot is advised for map downloading works. After entered the Mission planning mode, select a Blank plan and tap the Takeoff icon on the left side of the screen. If the Transmitter doesn t connected to the drone or the drone doesn t have locked by the GPS the user need tap on the map to set the takeoff point position manually. Once the Takeoff point has been set, the waypoint can be added. Tap the Waypoint icon first then tap on the map directly to set the waypoint position. After the waypoints were added they will be shown on the screen as the picture below. Waypoint User Interface Over view 1 2 3 4 6 5 7 9 8 1Selected Waypoint Parameters Display the parameters of the selected waypoint. 2Mission Summary Display the Summary of the entire flight mission added on this map. 3Selected Waypoint When a waypoint was selected, it will be marked by green color. 4Ahead Direction Indicator This white arrow shows the forward direction of the drone alone the flight route. 5Insert Button Tap to insert a waypoint on before the selected one on the flight route. 6Other Waypoint Other unselected waypoints on the flight route. 7Flight Route The Flight Route of this Mission 8Terrain Altitude Indicator This window displays the Terrain Altitude and Waypoint Altitude for mission planning. Take Off Point Mission Start Point Other Waypoints Selected Waypoint Waypoint number Terrain Altitude 9Waypoint Setting Panel This panel is a setting panel for each waypoint to adjust the parameters in detail. Adjust the waypoint parameters Once a waypoint was set and selected, the screen will pop up the Way point Setting Panel on the right side. In this panel almost every parameter of a waypoint can be set freely, such as Altitude, Flight speed, Hold Time, etc. Even the direction of the gimbal and the camera behaviors was also included. Delete this waypoint Position Edit Menu Waypoint Altitude Setting The user can type in the number directly for altitude setting. Hold Time setting For setting the hover time on this waypoint Flight Speed Setting Tick the Box before the Flight Speed then type in the speed you want for this waypoint. Camera and Gimbal Setting menu button Tap this button to open the Camera and Gimbal Setting for the selected waypoint. Camera Behavior Setting Menu Tap to open the Drop-down menu for Camera behavior setting for the selected waypoint. Camera Mode Setting Menu Tick the Box before the Mode then tap to open the Drop-down menu for Camera mode setting for the selected waypoint. Gimbal Attitude Setting Tick the Box under the Gimbal then type in the Pitch and Yaw data to set the gimbal attitude for the selected waypoint. After the Camera and gimbal setting menu was open Camera Behavior Setting Menu Instructions No Change Take Photo Take Photos (Time) Take Photos (Distance) Stop Taking Photos Start Recording Video Stop Recording Video Camera maintains its current mode/settings. Captures a photo at the current position. Captures photos over a set time interval. Captures photos over a set distance travelled. Stops the camera from taking photos. Begins video recording. Stops video recording. Gimbal Attitude Setting Instructions Gimbal - Adjust the camera pitch and yaw at the currently selected Waypoint. To adjust pitch, select a value between 0 (flat to the ground) and 90 (straight down). To adjust the yaw select a value between -180(left of the airframe centerline) and 180(right of the airframe centerline). Position Edit Menu There is a Position Edit Menu for each waypoint. To open this menu, please tap the setting icon at the upper right corner of the Waypoint Setting Panel for the selected waypoint. When the drone was positioned by GPS and Connected with the Transmitter. The user can tap the Move to vehicle position to make the waypoint coincident with the drone. Tap the Move to previous item position to make the selected the waypoint previous one. coincident with Item t be changed) Tap the Edit position button to open the coordinate input menu as shown below to adjust the waypoint position precisely. After all the waypoints have been checked, please upload the fight mission to the drone, and then start it. Pattern Pattern is designed for mapping and 3D scanning of ground-based objects. Survey Mode Survey mode allows the Pilot to quickly place a survey grid over a desired area. To select a survey grid mission, tap the Survey button after tapping the Mission Route Setting icon. Then tap the Survey button on the right side of the screen to finish the further settings. There are 3 preset templates to choose for editing the survey area. Basic preset template overview Circular preset template overview After tap the Basic button, the App will generate a rectangle survey area. Tap and hold the Center dot to drag the survey area on the map. Tap and hold the white vertices then drag them to adjust the shape of the survey area. Tap the edge of the survey grid for a better fit.
+ dot allows the Pilot to add more white vertices to After tap the Circular button, the App will generate a circular survey area. Tap and hold the Center dot to drag the survey area on the map. Tap the white dot on the edge of the Circle to adjust the radius of the survey area. Trace preset template overview triangular After tap the Trace button, then tap on the screen to set the vertex of your survey area. Once you have no less than 3 vertices. A survey area will be generated automatically. The user can add more vertices to get a better fit. Tap and hold the Center dot to drag the survey area on the map. Tap and hold the white vertices then drag them to adjust the shape of the survey area. Tap edge of the survey grid for a better fit.
+ dot allows the Pilot to add more white vertices to the The white line in the green survey area means the flight route when surveying. After the green template covered the survey area you want on the map, please tap the Done with Polygon button and then tap for the further settings. Notice: For the Trace template, please tap the Done Tracing First, and then tap the Done with Polygon and other buttons. 1 2 Adjust the Survey parameters After the Survey area has been confirmed the users can adjust the survey parameters. Click the Grid tap under the selected survey mission to adjust the flight route. Overlap Front Overlap Creates images with a percentage of each image overlapping to the front of the image. Side Overlap Creates images with a percentage of each image overlapping to the side of the image. 70%
70%
Red Arrow: Flight Route Front Lap for 2 photos Side Lap for 2 photos Altitude or Ground Res Altitude Sets the survey grid altitude. This is not changeable mid-flight. Use the Waypoint tool when variable altitudes are required. Ground Res Sets the ground resolution in inches/pixel, which will automatically calculate and set the survey altitude. Select one and type directly. in the parameters Notice: When the no camera specs) was selected under the camera item, the Overlap will be replaced by the Trigger Dist and Spacing setting form and the Ground Res will be hidden. Angle Angle Drag the slider or type in the parameter to adjust the angle of the survey grid lines. Turnaround dist Sets the distance outside the survey for the drone to turnaround. Type in the parameters directly to adjust the distance Rotate Entry Point Button
-The DataPilot App will offer more than one solution to lead the drone enter and exit the survey area, the user can change the enter and exit point by tapping the Rotate Entry Point button according to the actual conditions. For example the enter point was No.4 waypoint and the exit point was No.130 waypoint by default. After tapping Rotate Entry Point button, the enter and exit point was changed. Enter Point Enter Point Exit Point Exit Point The User can also tap the entering flight route.
+ dot on the enter flight route for editting a more complex New Enter Route Options Taps the Options to open the Drop-down menu After this Item was ticked the Hover and capture image drone will stop and hover and then capture the image at each capture point for better image quality. Overlays a secondary survey Refly at 90 Degree Offset grid 90 degrees from the first survey (also known as cross-hatch). This feature is useful for extremely high quality maps, and for flying in early morning or late afternoon flights where long shadows may provide deep contrasts. Tick the Refly at 90 Degree Offset Images in turnarounds images when flying on the turnaround route. After this Item was ticked the drone will continue capturing the Capture the flying on the turnaround route. images continuously when Terrain Statistics Tap the Terrain button and tick the Vehicle follows terrain to make the drone fly closer to the ground for capturing more pictures or fill the holes in the following inner process working flow. The users can type in the parameters directly in the text box for setting. Display the key parameters of this survey mission. Select the Camera Due to the different camera has different sensor size and Lens parameters. Select the correct camera type is very important to get a correct flight route and achieve a correct survey result. Tap the Camera button beside the Gird button to select the camera type or set the camera parameters. The user can set the parameters manually when the Custom Camera was selected. Type the parameters directly to finish the setting operation. The DataPilot App also has preset the camera select list. Users can select conveniently according to the gimbal camera purchased. After the camera type was selected the users needn t to set the camera parameters one by one. The app will calculate the flight route and photo taking interval automatically. Save reload and delete the survey data Tap the Presets button to save the setting parameters under the Grid and Camera Items. Tap the Save Settings As New Preset button to create a new save. Type the name and tap the Save button to finish. After the file name was selected tap the Apply Preset button to load the parameters. Tap the Delete Preset button to delete the useless preset files. Tap the trash can icon beside the Survey to delete the whole survey mission. CORRIDOR SCANS Roadways, power lines, train tracks, footpaths, and other narrow winding areas may be set up as drone to fly long pathways with overlap for these sorts of missions. This is an example of a corridor scan To create the CORRIDOR SCAN, tap the Corridor Scan button after tapping the Mission Route Setting icon. If the transmitter already connected with the drone and the drone was positioned by the GPS, the takeoff point will be set above the drone location, otherwise place the takeoff point at the position you need then tap the Done Adjusting button to finish setting. Then the app will switch to Corridor scan setting panel automatically. There are 2 preset templates to choose for editing the Corridor Scan area. Basic preset template overview After tap the Basic button, the App will generate a corridor scan area with 2 vertices. Tap and hold the vertices dot to drag the corridor scan area on the map. Tap + dot allows additional vertices to be created/inserted in the pathway, allowing for numerous angles to follow the road. Trace preset template overview After tap the Trace button, then tap on the screen to set the vertex of your corridor scan area. Once you have no less than 2 vertices. A corridor scan area will be generated automatically. The user can add more vertices by tapping on the screen directly to allowing for numerous angles to follow the road. Tap and hold the vertices dot to drag the corridor scan area on the map. Tap + dot allows additional vertices to be created/inserted in the pathway, allowing for numerous angles to follow the road. Click the Done Tracing button to finish the shape settings of the Trace template. After the green template covered the corridor scan area you want on the map, please tap the Done with Polygon button the further settings. In this image, seven vertices have been inserted, allowing the Drone to follow the curvature of the roadway Notice: Be similar with the Survey mode the CORRIDOR SCAN Setting Panel shown on the right side. Through this panel users can set all the CORRIDOR SCAN parameters. Drag the panel up and down to view more items. Adjust the Corridor Scan parameters After the Corridor Scan area has been confirmed the users can adjust the scan parameters. Click the Grid tap under the selected Corridor Scan mission to adjust the flight route. The most functions in the Corridor Scan Setting Panel are the same as what in the Survey function. But the Corridor Scan Setting Panel still has a function that the Survey doesn t. That is Width Setting. Type the width parameter directly in the text box to adjust the width of the corridor. Select the Camera As the same as the Survey mode, select a correct camera is especially important to achieve a correct result. STRUCTURE SCANS Flight pattern that captures images over vertical surfaces (e.g. walls) around a structure with an arbitrary polygonal (or circular) ground footprint. Structure Scans may be combined with nadir/survey flights to better serve architects, engineers, and construction companies looking to create accurate 3D models, or output .las files to products such as Revit or Autodesk workflows. Structure scans may also be used for virtually any vertical scan element, and may be combined with other automated flight profiles. The concepts of the STRUCTURE SCANS Function ->
A Structure Scan allows users to create a grid Structure Scans may be inserted into a mission using the Structure scan button after tapping the Mission Route Setting icon. Using the map function, zoom to the geographic area to be scanned, and center it on the screen for best access. Be similar with the Survey mode, there are 3 preset templates to choose for editing the Structure Scan area after tapping the Structure Scan button and the takeoff point was set. Basic preset template overview Circular preset template overview Trace preset template overview A green overlay will appear with four corners. Tap and hold the Center dot to drag the survey area on the map. Tap and hold the white vertices then drag them to adjust the shape of the structure scan area. Tap dot allows the Pilot to add more white vertices to the edge of the structure scan area for a better fit.
After tap the Circular button, the App will generate a circular structure scan area. Tap and hold the Center dot to drag the structure scan area on the map. Tap the white dot on the edge of the Circle to adjust the radius of the structure scan. After tap the Trace button, then tap on the screen to set the vertex of your structure scan area. Once you have no less than 3 vertices. A triangular structure scan area will be generated automatically. The user can add more vertices to get a better fit. Tap and hold the Center dot to drag the structure scan area on the map. Tap and hold the white vertices then drag them to adjust the shape of the structure scan area. Tap the edge of the survey grid for a better fit.
+ dot allows the Pilot to add more white vertices to For the Trace template tap the Done Tracing button first, others please tap the Done With Polygon button directly to start the further settings. A green overlay will appear with four corners. The region shown in green must be modified so that it surrounds the structure. between the vertices to create a new vertex. This allows for complex shapes such as the one seen above.
-transparent circles Adjust the Structure Scan parameters After the Structure Scan area has been confirmed the users can adjust the scan parameters. Click the Grid tap under the selected Structure Scan mission to adjust the flight route. The user can adjust the Structure Scan parameters according to actual needs and the concepts of the STRUCTURE SCANS Function introduced above in the Structure Scan setting panel. Select the Camera Click the Camera tap under the selected Structure Scan mission to enter into the camera settings. As the same as the Survey mode, select a correct camera is especially important to achieve a correct result. Other functions of the Plan Panel After entered into the Mission planning mode by tapping the Mission Route Setting icon, the File button will be active automatically. Beside the Waypoint and other Pattern mission can be created by tap directly on the popped up create plan window, the users also can save the created flight plan or open the plan already existed. Select a flight plan type to create. Open or save the created flight plan as .plan or .KML file. Upload the flight plan to the drone. And Download or Clear the flight plan stored in the drone. Tap to add a Takeoff point on the map. Normally when the drone was positioned by GPS, the takeoff point will coincide with the drone. Otherwise the user need add the takeoff point manually. This function mostly used in planning a waypoint flight plan. The Patten flight plan such as survey etc. will create a takeoff point automatically. Add the waypoint on the map. Add the region of interest point on the map. Tap the ROI button then tap on the map directly to add the ROI point and set the altitude. Then the waypoints which added after the ROI point will towards their gimbal camera to the ROI point. Be similar with the waypoint function the users can set the altitude, delete or edit the position by through the menu of sub menus of the ROI Setting panel. The flight routes marked with green color indicate which the ROI function is active. Once a ROI point was set the Cancel ROI button will instead the ROI button, click to deactivate the ROI function on the flight route, but not delete directly. Insert new Pattern flight plan on the map. Tap to add a Return to launch command after all the flight mission was finished. Tap the Center button to open the sub menu to select the center point located on the screen. After the drone and transmitter was connected the Coaching button will displayed on the plan setting panel. The coaching function will allow the Datapilot 2.0 App to capture the drone current GPS position as a new waypoint. Tap the takeoff button to add a takeoff point for the Blank flight plan, and then tap the Coaching button, the user can add a waypoint by long press the waypoint button. Press and hold the Waypoint button to add the waypoint on the drone GPS position. After all the waypoints have been captured tap the Mission Route Setting Button and upload the waypoints data to the drone. Execute the flight mission No matter what kind of the flight plan was created, to execute the user need upload the plan to the drone first. After the flight plan was confirmed and the drone was connected tap the Upload Required or the Upload to upload the mission to the drone. Tap the Main Interface Button to switch back from Mission planning interface. Slide the slider to confirm and the drone will execute the flight mission automatically. Operations in mission flight mode Pause the flight mission The users can pause the flight mission by the following 3 method:
1. Switch the flight mode by using the flight mode switch. 2. Tap the Pause button then slide to confirm. 3. The users can move the joysticks to any direction to pause the flight mission immediately especially in emergency cases, such as the drone will crash into some obstacles. Continue the flight mission 1. Slide the slider to continue the mission directly. 2. Tap the Action button then select continue or set the new altitude. Tap the Continue Mission button then slide to confirm to continue the mission. Set the new altitude then slide to confirm. Then Tap the Continue Mission button under the Select Action sub menu to continue. Land or Return in mission flight Tap the Land button and slide to confirm then land the drone at current position. Tap the Return button and slide to confirm then return the drone at the launch point. Breakpoint continuation For surveying some huge area, the drone can t finish the job in 1 flight. The breakpoint continuation function allows the user to change the battery for the drone and continue the unfinished mission. When the drone landed with the unfinished mission, the dialog box will pop up as the picture shown. Tap the Resume Mission From Waypoint XX button the mission will be updated. It will delete the flight route already finished. Notice: It would take a few minutes to update, if there are a large number of waypoints in the mission, please be patient, do not power off the drone and transmitter before the mission has been refreshed. Then the users can power the drone off and change the battery. After the drone and the transmitter connected again, the unfinished flight mission will be loaded automatically, and the users only need to slide to confirm to continue. After the drone and the transmitter connected again:
The finished flight route was deleted Slide to continue the mission Setting Interface Tap settings button to open the extended menu to view and adjust the parameters of other settings. We suggest entering this interface after the drone and transmitter was connected to view all the items in this interface. Notice: Due to the DataPilot 2.0 App is a cross platform flight control application, beside the H850, there are many items in the setting interface are designed for other types such as H520E and Q820, please ignore the items which do not introduced in this manual. They may be not compatible or the H850 drone doesn t have this function. Introduction of common functions in setting interface 1. General Units: Users can make selections according to their own habits in the drop-down menu. Miscellaneous Language- Users can make selections according to their own habits in the drop-down menu. Color Scheme-The DataPilot 2.0 supports 2 different schemes. Indoor scheme will provide a dark interface meanwhile the outdoor has a bright interface. Indoor Outdoor Map Provider and Map Type-The user can change the map provider and type according to their network speed or requirements. Default Mission Altitude-Set the default waypoint alt when enter the flight mission plan interface. Other settings in General Items-We suggest keep them as default setting. 2. Offline Maps The Offline Maps allows the Datapilot 2.0 App store the map tile in the cache in the transmitter to working in the wild field without the internet. After the transmitter connected with internet the map will downloaded automatically according to the drone or the transmitter GPS position. The first downloaded map will be set as default tile. The users can delete the default tile by tap the Default Tile Set button and then tap the Delete button. Tap the to return. The user can also add a new tile set manually beside the default tile set, tap Add New Set button to edit. New set edit interface Introduction Map center setting button The users can tap this button and select the center position on the sub menu. New Tile Set Name Edit Box The users can edit the name of the new tile set in this box. Map type select The users can select the Map provider and type in the drop-down menu. Tick to fetch the elevation data on the map. Slide to adjust the Min/Max Zoom level. Tap the Cancel to return. Slide to adjust the Min/Max Zoom level effect preview. Tap Download button to save the new set. After click the Download button the new tile set will be downloaded and saved in the Offline Maps menu. Be Similar with the Default Tile Set the new added tile set can be review by tapping the name and can be deleted by tapping the Delete button. The difference is the new added tile set can be renamed and tap the OK button to confirm. Downloaded area Name edit box The downloaded map tile set can be import and export to deliver in different devices. Import Export After tap the Import button, select an import method then tap the Import button on the popped up dialog box, finally select the file to import. After tap the Import button on the Offline Maps main interface, tick the tile set wanted and tap the Export button then assign the name and save path on the popped up dialog box, finally tap the Ok button to export. 3. Version The users can check the Version of each module or system of the drone. If the transmitter already connected to the internet the users can tap the Check for Update button to keep the firmware up-to-date. Once the later version was detected, the update process can be started. 4. GNSS RTK In the sub menu under the GNSS RTK item the users can enter to parameters to connect the drone system to the CORS source. Please refer to the corresponding chapter in the quick start Guide and this user manual mentioned above. 5. ST16 Radio There are 2 function under this Item the Monitor function was the default interface when tap the ST16 Radio button on the screen. Monitor Move the Joysticks, Knobs, and Sliders or press the buttons to check the controller hardware input. Calibration Another function in the ST16 Radio item is the Calibration. To calibrate the Joysticks and knobs please power off the drone to disconnect the drone and transmitter. Then switch to the calibration function by tap the calibration button, and tap the Start Calibration button. 1 2 Follow the guidelines of the transmitter to move all joysticks and knobs to each their limits. The joysticks and knobs which passed the Calibration will be marked green. After all of them passed release the hands from the joysticks and knobs to keep them at the center position, then tap the Stop Calibration button. Tap OK button to finish the calibration 6. Vehicle The users can reset parameter, control the motor LEDs, enable the indoor mode, enable the RTK GPS and check the vehicle info under this item. Reset parameter button 1 2 Tap the Reset Parameters button first then tap the Reset button. Tap the Reboot Now button to reboot drone then the reset will take effect. LED Control In the cases of taking the aerial photography at night the motor LED would influence the color effect of the photos the uses can control the motor LED according to the following introduction. Tap the white arrow to open the drop-down menu then select the needed LED setting, the LEDs On is the default setting. LEDs Off- Switch off all the motor LEDs. LEDs On- Switch on all the motor LEDs. Front LEDs Off Only switch off the LEDs on the front motor arms. Indoor Mode button To disable the GPS totally for starting the motor without GPS position, please refer to the corresponding chapter introduced above for more details. RTK GPS button Tap this button to enable or disable the High-Precision RTK GPS, please refer to the corresponding chapter introduced above for more details. About button Tap this button to check the Product type, Vehicle ID and HOBBS Meter. 7. Summary This item displays the summary of the settings for the vehicle. 8. RC Mode Tap to select the Joysticks mode as your wish. 9. Sensors The users can check sensors status also start the compass calibration in this interface, normally it will display a green dot beside each sensor. If the dot turns red the corresponding sensor need to be calibrated again. The users can calibrate the compass by themselves, for the Gyroscope and Accelerometer we suggest to calibrate with the support of the nearest YUNEEC Service center to ensure the best result. 10. Safety The users can change the drone fail safe behavior and geo-fence via this interface. RC Loss Failsafe Trigger and Data Link Loss Failsafe Trigger This 2 sub item allows the users to edit the drone behavior after the RC or Data Link Loss. For the H850 drone please remain the Disable selection for the Data Link Loss Failsafe Trigger. Only edit the RC Loss Failsafe Trigger is enough. Tap the white arrow to open the drop-down menu then select a Failsafe behavior. Disabled- The drone will keep the last flight mode before the RC Loss. Hold mode- The drone will keep hover after the RC Loss happen. Return mode-The drone will trigger on the RTL mode after RC Loss. Land mode-The drone will land directly at current position after RC Loss. Geofence Failsafe Trigger The users can set the Radius and Altitude of the Geo-fence also the drone behavior after reach the edge of the geo-fence. Tick the box before the Max Radius and Max Altitude to enable the Geo-fence range. The users can type in the parameters directly to edit the Geo-fence after the boxes were ticked. Tap the white arrow to open the drop-down menu then select an Action on breach. None - Although the Max Radius and Max Altitude already be set the None selection still deactivate the geo fence, the drone doesn t have any reaction after reach the edge of the geo fence. Warning- The transmitter will continuously alarm the warnings when the drone reach or fly out of the geo fence. Hold mode- The drone will keep hovering after reach the edge of the geo fence, the users need switch the drone to RTL mode to take the drone back. Return mode- The drone will switch to the RTL mode automatically after reaching the edge of the geo fence. Return Home Settings Climb to altitude of-Tap the box behind then type in the altitude to set a new altitude. The 20m is the default setting. When the drone is below the altitude set after the users enable the RTL mode the drone will climb to the RTL altitude first then flying back to the return point. If the drone is flying higher than the RTL altitude, after the RTL enabled the drone will keep the current altitude and flying back. Return point setting Tap the select dot directly to choose the return point. If the takeoff position was selected the drone finally will land on the takeoff point in RTL mode. If the Return to GCS position was selected the drone will land around the transmitter GPS position when the RTL mod is active. Max Vertical and Horizontal Velocity setting Tap the boxes behind each items then type in the parameters to set the max climb, descent and horizontal velocity. Notice: We do not suggest the users to change these parameters for flight safety. Team mode Team mode bind Step1: Power on the controller and drone waiting for the communication established. Step2: Power on a new controller waits until it finishes boot up. Step3: Click the Settings button and select the Vehicle item, then tap the Team mode on both master and slave remote screen 1 2 3 Step4: Select Wifi LAN as connect mode for both controller. Step5: Slide the switch from the Master to the Slave, on the slave remote screen. Step6: After the Slave remote has been transformed. The available slave device IP address will be shown on the Master remote screen. Tap the wanted Slave device IP address to bind Tap the Main Interface Button to back. After the team mode bind finished the users can control the drone via the Master Remote and the gimbal camera can be controlled by the Slave Remote. Bind finished Master Remote interface Slave Remote interface Quit the Team Mode For the Master Remote: Click the Settings button and select the Vehicle item, then tap the Team mode. Switch to Disable selection to quit. For the Slave Remote: Tap the Team Mod Icon and tap the Disconnect button under the Team Management Menu to quit the Team mod. Disclaimer Yuneec International (China) Co., Ltd shall not be held liable for any damage, injury or for use of the product in violation with legal regulations, especially in the following circumstances:
Damage and/or injury as well violation of legal regulations resulting from a failure to comply with the operating instructions or the instructions at www.yuneec.com, product information, user manual and other legally binding information;
Damage and/or injury as well violation of legal regulations brought about by the influence of alcohol, drugs, medication or other narcotics which may impact on the concentration of the user;
The same applies to illnesses effecting the concentration of the user (dizziness, tiredness, nausea etc.) or other factors compromising mental and physical capabilities. Intentionally caused damage, injury or violation of legal regulations;
Any request for compensation caused by an accident resulting from use of the product;
Malfunction of the product caused by retrofitting or replacement with components which did not come from Yuneec;
Damage and/or injury caused by the use of replica parts (non-original parts);
Damage and/or injury as well as violation of legal regulations caused by incorrect operation or misjudgment;
Damage and/or injury caused by damaged spare parts or not using original Yuneec spare parts;
Damage and/or injury caused by unauthorized change settings and/or parameters;
Damage and/or injury caused by modify and/or add parts;
Damage and/or injury as well as violation of legal regulations caused by ignoring the low voltage battery warning;
Damage and/or injury caused by knowingly and negligibly flying with a damaged model or one which is unfit to fly, e.g. due to dirt, water penetration, coarse particles, oil or a model which has not been correctly or completely assembled or if the main components exhibit visible damage, defects or missing parts;
Damage and/or injury as well as violation of legal regulations caused by use of the product in a no-fly zone, e.g. next to an airfield, above a motorway or a natural conservation area;
Damage and/or injury as well as violation of legal regulations caused by operating the model in a magnetic field (e.g. high voltage lines, electricity/ transformer stations, radio towers, mobile phone masts etc.), a strong wireless signal environment, no-fly zones, poor visibility and in the event of vision impairments or other impacts on the pilot which are left unchecked etc. ;
Damage and/or injury brought about through a violation of the legal regulations for operating the model, in unsuitable weather conditions, e.g. rain, wind, snow, hail, storms, hurricanes etc. ;
Damage and/or injury as well as violation of legal regulations caused by force majeure, e.g. collision, fire, explosion, flooding, tsunami, landslide, avalanche, earthquake or other forces of nature;
Damage and/or injury as well as violation of legal regulations caused by the illegal or immoral use of the model, e.g. capturing videos or recording data which infringes upon/harms the privacy of other people;
Damage and/or injury as well as violation of legal regulations caused by incorrect use of the batteries, protection systems, chargers or aircraft;
Consequential damage caused by the incorrect operation of any kind of system components and accessory parts, especially memory cards, whereby image or video material from the camera can become defect;
Any non-compliance with legal obligations, personal injury, material damage and environmental damage caused by use and a failure to comply with the local laws and regulations;
Damage and/or injury as well as violation of legal regulations caused by hazardous use without sufficient practical experience;
Damage and/or injury as well as violation of legal regulations caused by flying in legally defined no-fly zones. Further losses which do not fall within the scope of use defined by Yuneec as improper. This product is designed for both professional use and personal private use. The national and international laws and regulations in force as the time of taking off must be adhered to. Collection and Processing of Data Yuneec may collect navigation information such as GPS data to help improve our products. We may also collect Depth Map information and Infrared Image information from your drone delivered to our service center for repair and maintenance service or any other service. We may also collect other information such as device information, server log information, etc. We may also collect personal information used in registration if you choose to become a registered user and any other information user provided to Yuneec. We may also collect information which users send to other users, and the recipients and senders of such information. We reserve the right to disclose your information if required to do so by law or in the good-faith belief that such disclosure is needed to comply with applicable laws, for example in response to a court order, judicial subpoena, warrant or request from government, or otherwise cooperating with government agencies or law enforcement. We also reserve the right to disclose your information that we believe in good faith is necessary or appropriate to: (i) protect ourselves or others from fraudulent, unlawful, or abusive activities;
(ii) take precautions against potential liability; (iii) protect the security of the Yuneec Apps embedded into or downloaded onto your drone or any associated equipment and services; (iv) protect the legal rights of ourselves or any others. Any information we collected maybe disclosed or transferred to an acquirer, successor or assignee as part of any potential merger, acquisition, debt financing or other activities that involves transfer of business assets. We may make the aggregated non-personal information of the users available to third parties for various purposes, including (i) complying with various report obligations; (ii) marketing efforts; (iii) analyzing pattern for certain functionalities, services, content, etc. Battery Warnings and Usage Guidelines WARNING: Lithium ion (Li-ion) batteries are significantly more volatile than alkaline, NiCd or NiMH batteries. All instructions and warnings must be followed exactly to prevent property damage and/or serious injury as the mishandling of Li-ion batteries can result in fire. By handling, charging or using the included Li-ion battery you assume all risks associated with Li-ion batteries. If you do not agree with these conditions please return the complete product in new, unused condition to the place of purchase immediately. You must always charge the Li-ion battery in a safe, well-ventilated area away from flammable materials. Never charge the Li-ion battery unattended at any time. When charging the battery, you must always remain in constant observation to monitor the charging process and react immediately to any potential problems that may occur. After flying/discharging the Li-ion battery you must allow it to cool to ambient/room temperature before recharging. To charge the Li-ion battery you must use only the included charger or a suitably compatible Li-ion battery charger. Failure to do so may result in a fire causing property damage and/or serious injury. If at any time the Li-ion battery begins to balloon or swell, discontinue charging or discharging immediately. Quickly and safely disconnect the battery, then place it in a safe, open area away from flammable materials to observe it for at least 15 minutes. Continuing to charge or discharge a battery that has begun to balloon or swell can result in a fire. A battery that has ballooned or swollen even a small amount must be removed from service completely. Do not over-discharge the Li-ion battery. Discharging the battery too low can cause damage to the battery resulting in reduced power, flight duration or failure of the battery entirely. Li-ion cells should not be discharged to below 3.0V each under load. Store the Li-ion battery at room temperature and in a dry area for best results. When charging, transporting or temporarily storing the Li-ion battery the temperature range should be from approximately 40 120 F (5 49 C). Do not store the battery or aircraft in a hot garage, car or direct sunlight. If stored in a hot garage or car the battery can be damaged or even catch fire. Never leave batteries, chargers and power supplies unattended during use. Never attempt to charge low voltage, ballooned/swollen, damaged or wet batteries. Never allow children less than 14 years of age to charge batteries. Never charge a battery if any of the wire leads have been damaged or shorted. Never attempt to disassemble the battery, charger or power supply. Never drop batteries, chargers or power supplies. Always inspect the battery, charger and power supply before charging. Always ensure correct polarity before connecting batteries, chargers and power supplies. Always disconnect the battery after charging. Always terminate all processes if the battery, charger or power supply malfunctions. General Safety Precautions and Warnings WARNING: Failure to use this product in the intended manner as described in the quick start guide and instruction manual can result in damage to the product, property and/or cause serious injury. A Radio Controlled (RC) multirotor aircraft, APV platform, drone, etc. is not a toy! If misused it can cause serious bodily harm and damage to property. WARNING: As the user of this product you are solely and wholly responsible for operating it in a manner that does not endanger yourself and others or result in damage to the product or the property of others. Keep your hands, face and other parts of your body away from the spinning propellers/rotor blades and other moving parts at all times. Keep items that could impact or become entangled away from the propellers/rotor blades including debris, parts, tools, loose clothing, etc. Always operate your aircraft in open areas that are free from people, vehicles and other obstructions. Never fly near or above crowds, airports or buildings. To ensure proper operation and safe flight performance never attempt to operate your aircraft nearby buildings or other obstructions that do not offer a clear view of the sky and can restrict GPS reception. Do not attempt to operate your aircraft in areas with potential magnetic and/or radio interference including areas nearby broadcast towers, power transmission stations, high voltage power lines, etc. Always keep a safe distance in all directions around your aircraft to avoid collisions and/or injury. This aircraft is controlled by a radio signal subject to interference from many sources outside your control. Interference can cause momentary loss of control. To ensure proper and safe operation of the automatic landing function in Return Home Mode you must start the motors with the aircraft in an open space and achieve a proper GPS lock. Do not attempt to operate your aircraft with any worn and/or damaged components, parts, etc. including, but not limited to, damaged propellers/rotor blades, old batteries, etc. Never operate your aircraft in poor or severe weather conditions including heavy winds, precipitation, lightning, etc. Always begin to operate your aircraft with a fully charged battery. Always land as soon as possible after the first level low voltage battery warning or land immediately after the second level low voltage battery warning. Always operate your aircraft when the voltage of the battery in the transmitter/personal ground station is in a safe range (as indicated by the LED status indicator light of the transmitter/personal ground station). Always keep the aircraft in clear line of sight and under control, and keep the transmitter/personal ground station powered on while the aircraft is powered on. Always move the throttle control stick down fully and turn off the power in the event the propellers/ rotor blades come into contact with any objects. Always allow components and parts to cool after use before touching them and flying again. Always remove batteries after use and store/transport them per the corresponding guidelines. Avoid water exposure to all electronic components, parts, etc. not specifically designed and protected for use in water. Moisture causes damage to electronic components and parts. Never place any portion of the aircraft or any related accessories, components or parts in your mouth as doing so could cause serious injury or even death. Always keep chemicals, small parts and electronic components out of the reach of children. To ensure safe fly, it is recommended to install the propeller protectors when operating the aircraft indoors or nearby crowds. Carefully follow the instructions and warnings included with this aircraft and any related accessories, components or parts (including, but not limited to, chargers, rechargeable batteries, etc.). FCC Statement NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radiocommunicatio ns. However, there is no guarantee that interference will not occur in a particular installation. If t his equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Connect the equipment to an outlet on a circuit different from that to which the receiver is connected. The manufacturer is not responsible for any radio or TV interference caused by unauthorized modifications to this equipment. Such modifications could void the user s authority to operate the equipment. RF Exposure Warning The SAR limit of FCC&IC is 1.6 W/kg averaged over one gram of tissue. Device types Smart Remote Controller (FCC ID: 2ACS5-TONE) has also been tested with 0mm (at the limbs) and tested with 10mm (at the body) against this SAR limit. IC Radiation Exposure Statement for Canada This device complies with Industry Canada RSS-247 of Industry Canada.Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Leprsentappareilestconforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitationestautorise aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareildoit accepter tout brouillageradiolectriquesubi, mmesi le brouillageest susceptible d'encompromettre le fonctionnement. Note :This equipment will not transmit in the 5600-5650 MHz frequency band when used in Canada. This equipment will not transmit in the 5150-5250 MHz frequency band when used in Canada.
1 2 3 | Internal Photo | Internal Photos | 4.59 MiB | July 05 2022 / January 01 2023 | delayed release |
1 2 3 | External photos | External Photos | 1.42 MiB | July 05 2022 / January 01 2023 | delayed release |
1 2 3 | FCC Authorization Letter | Cover Letter(s) | 80.11 KiB | July 05 2022 |
Yuneec Technology Co.,Limited Date: June.28, 2022 To:
Federal Communications Commission, Authorization & Evaluation Division, 7435 Oakland Mills Road, Columbia, MD 21046 To Whom It May Concern:
The Yuneec Technology Co.,Limited undersigned, hereby authorizes Mr. Wu Xuewen from Shenzhen BALUN Technology Co., Ltd., to act on the behalf of the Yuneec Technology Co.,Limited solely in matters relating to the application for an FCC equipment authorization for FCC ID: 2ACS5-TONE including the signing of documents in connection with this Application. Necessary acts carried out by Shenzhen BALUN Technology Co., Ltd. in connection with the Application shall have the same effect as acts of the Yuneec Technology Co.,Limited The Yuneec Technology Co.,Limited also hereby certify that no party to this application is subject to a denial of benefits, including FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. Section 862. Yours Sincerely, Title: Mangaer Yuneec Technology Co.,Limited
1 2 3 | T Setup Photos | Test Setup Photos | 760.21 KiB | July 05 2022 / January 01 2023 | delayed release |
1 2 3 | test photo SAR | Test Setup Photos | 742.84 KiB | July 05 2022 / January 01 2023 | delayed release |
1 2 3 | UII declaration | Cover Letter(s) | 170.84 KiB | July 05 2022 |
DFS client device channel plan and software operational declaration We, Yuneec Technology Co.,Limited., declare that the device, FCC ID:2ACS5-TONEModel Name: T-one, does not have Ad Hoc on non-US frequencies and/or on DFS frequencies. Also, the client software and associated drivers will not initiate any transmission on DFS frequencies without initiation by a master. This includes restriction on transmissions for beacons and support for ad-hoc peer-to-peer modes. Alsoon DFS Channels,the WLAN driver in the device operates under the control of an AP at all times,except when in ad-hoc mode on US non-DFS channels.The Device passively scans DFS frequecies until a master device is detected. The control of this functionality is not accessible to any one under any condition.Furthermore,the firmware is protected by a special signature and CRC checksum.Signature and CRC checksum will be calcualted and verified before firmware upgrade. Unauthorized modification to firm will lead to failure of verification and thus firmware upgrade will not allowed. We, Yuneec Technology Co.,Limited., declare that the devcie does not support channel 12-13 2.4G hz and non-us channels in all the operational modes for the following product.FCC ID:2ACS5-TONE
1 2 3 | FCC Software Configuration Control Declaration Rev1.1 | Cover Letter(s) | 113.37 KiB | July 05 2022 |
Yuneec Technology Co., Limited. FCC Software Configuration Control Declaration Date: 2022-06-29 Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 USA Attn: OET Dept. Product/ Model Number: T-One Regarding FCC Country Code Selection guidelines identified in KDB 594280. All applications for equipment authorization for transmitters that can have radio parameters, or other technical parameters, reported to the Commission set by software must have an attestation indicating that no third party will have software, or configuration control, to program the device out of compliance of the technical rules under which it has been certified. We declare that no third party will have software, or configuration control, to program the device out of compliance of the technical rules under which it has been certified. Name: Weina Ke Title: Chairman Assistant Date: 2022-06-14 Signature of applicant FCC Software Configuration Control Declaration Rev1.1.docx
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2022-07-05 | 2405 ~ 2473 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
2 | 2412 ~ 2462 | DTS - Digital Transmission System | ||
3 | 5745 ~ 5825 | NII - Unlicensed National Information Infrastructure TX |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 | Effective |
2022-07-05
|
||||
1 2 3 | Applicant's complete, legal business name |
Yuneec Technology Co., Limited
|
||||
1 2 3 | FCC Registration Number (FRN) |
0023807993
|
||||
1 2 3 | Physical Address |
Unit 2301, 23/F, 9 Chong Yip Street Kwun Tong, Kowloon, Hong Kong
|
||||
1 2 3 |
Unit 2301, 23/F, 9 Chong Yip Street
|
|||||
1 2 3 |
HongKong, N/A
|
|||||
1 2 3 |
China
|
|||||
app s | TCB Information | |||||
1 2 3 | TCB Application Email Address |
c******@micomlabs.com
|
||||
1 2 3 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 3 | Grantee Code |
2ACS5
|
||||
1 2 3 | Equipment Product Code |
TONE
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 | Name |
W**** K******
|
||||
1 2 3 | Title |
Chairman Assistant
|
||||
1 2 3 | Telephone Number |
0512-********
|
||||
1 2 3 | Fax Number |
0512-********
|
||||
1 2 3 |
c******@yuneec.com
|
|||||
app s | Technical Contact | |||||
1 2 3 | Firm Name |
Yuneec Technology Co., Limited
|
||||
1 2 3 | Physical Address |
China
|
||||
1 2 3 |
c******@yuneec.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 01/01/2023 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 2 3 | DTS - Digital Transmission System | |||||
1 2 3 | NII - Unlicensed National Information Infrastructure TX | |||||
1 2 3 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Smart Remote Controller | ||||
1 2 3 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 | Modular Equipment Type | Does not apply | ||||
1 2 3 | Purpose / Application is for | Original Equipment | ||||
1 2 3 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 | Grant Comments | Output power listed is conducted power. SAR compliance for body-worn operating configurations is limited to the specific configurations tested for this filing. Body-worn operations are restricted to belt-clips, holsters or similar accessories that have no metallic component in the assembly and must provide at least 1.0 cm separation between the device and the body of the user. End-users must be informed of the body-worn operating requirements for satisfying RF exposure compliance. The highest reported SAR for body-worn accessory, limb-worn accessory and simultaneous transmission use conditions is 0.13W/kg, 0.10W/kg and 0.20W/kg respectively. | ||||
1 2 3 | Output power listed is conducted power. SAR compliance for body-worn operating configurations is limited to the specific configurations tested for this filing. Body-worn operations are restricted to belt-clips, holsters or similar accessories that have no metallic component in the assembly and must provide at least 1.0 cm separation between the device and the body of the user. End-users must be informed of the body-worn operating requirements for satisfying RF exposure compliance. The highest reported SAR for body-worn accessory, limb-worn accessory and simultaneous transmission use conditions is 0.01W/kg, 0.01W/kg and 0.20W/kg respectively. | |||||
1 2 3 | Output power listed is conducted power. This device contains 20, 40 and 80 MHz signal bandwidth. SAR compliance for body-worn operating configurations is limited to the specific configurations tested for this filing. Body-worn operations are restricted to belt-clips, holsters or similar accessories that have no metallic component in the assembly and must provide at least 1.0 cm separation between the device and the body of the user. End-users must be informed of the body-worn operating requirements for satisfying RF exposure compliance. The highest reported SAR for body-worn accessory, limb-worn accessory and simultaneous transmission use conditions is 0.08W/kg, 0.08W/kg and 0.20W/kg respectively. | |||||
1 2 3 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 | Firm Name |
Shenzhen BALUN Technology Co., Ltd.
|
||||
1 2 3 | Name |
H**** L********
|
||||
1 2 3 | Telephone Number |
86-75********
|
||||
1 2 3 |
H******@baluntek.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | CC | 2402 | 2480 | 0.008 | |||||||||||||||||||||||||||||||||||
1 | 2 | 15C | CC | 2405 | 2473 | 0.06992 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2402 | 2480 | 0.008 | |||||||||||||||||||||||||||||||||||
2 | 2 | 15C | CC | 2412 | 2462 | 0.258 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15E | CC | 5180 | 5240 | 0.024 | |||||||||||||||||||||||||||||||||||
3 | 2 | 15E | CC ND | 5260 | 5320 | 0.025 | |||||||||||||||||||||||||||||||||||
3 | 3 | 15E | CC ND | 5500 | 5700 | 0.026 | |||||||||||||||||||||||||||||||||||
3 | 4 | 15E | CC | 5745 | 5825 | 0.03304 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC