Autel Robotics EVO Nano Series User Manual
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Autel Robotics EVO Nano Series User Manual

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V3.0.7 2024.06

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  • Page 1 Aircraft User Manual V3.0.7 2024.06...
  • Page 2 Copyright This manual is copyrighted by Autel Robotics Co., Ltd. with all rights reserved. Without prior written authorization from the company, no person (or entity) may copy, scan, store, distribute, reproduce, sell, transfer, or modify any part or all of this manual in any form for personal use or use by others.
  • Page 3 Thank you for purchasing and using the EVO Nano Series aircraft (hereinafter referred to as "aircraft") from Autel Robotics. Relevant user documents for this product are provided in electronic form along with the product, and download links are provided in this manual. Before...
  • Page 4 Inertia Measurement Unit Read Before Your First Flight To ensure safe use of the EVO Nano Series aircraft, Autel Robotics provides you with the following documents and relevant tutorial videos. Please scan the QR codes in this manual or use the provided links to access them.
  • Page 5 Store the aircraft and its accessories out of the reach of children and pets. If you do not abide by the Safety Operation Guidelines, Autel Robotics shall not be responsible for any product damage or personal and property loss during use, and shall not provide any warranty service.
  • Page 6  Please be aware that in the absence of flight logs from the Autel Sky, Autel Robotics may not be able to analyze the causes of product damage or accidents and provide after-sales service.  Using the EVO Nano Series aircraft of Autel Robotics involves certain safety risks. Do not allow minors to operate the aircraft.
  • Page 7 Autel Robotics guarantees users who purchase products through its official authorized channels that: Under normal use, the Autel Robotics products you purchase will be free from material and workmanship defects during the warranty period. If you can provide a valid purchase receipt, the warranty period of this product is calculated from the midnight of the next day after you receive the product.

  • Page 8: Table Of Contents

    Table of Contents Product Overview ........................1 Introduction ..........................1 Product Acceptance Checklist ....................2 Standard bundle ......................2 Premium bundle......................3 UAS Introduction ........................3 Flight Safety ..........................6 Legal Use Guidelines ......................6 China’s Mainland ......................6 The U.S.......................... 7 Canada ..........................
  • Page 9 IMU calibration ......................24 Gimbal auto calibration ..................26 Emergency Stop Propellers During Flight ............... 26 Direct Remote Identification .................... 27 Standard Flight Operation Process ................. 27 Pre-flight inspection checklist ................27 Basic flight procedure .................... 28 List of Safeguard ........................ 28 Aircraft ..........................
  • Page 10 Frequency Pairing With the Remote Controller ............... 56 Using the Autel Sky application ................56 Using combination buttons (for forced frequency pairing) ........ 57 Starting/Stopping the Aircraft Motor ................57 Remote Controller Keys ....................58 Customizable button Fn ..................58 Return-to-Home button and pause button ............
  • Page 11 A.3 Remote Controller ....................... 88 A.4 Smart battery ........................89...

  • Page 12: Product Overview

    28 minutes. Also, it utilizes a three-axis stabilized gimbal, allowing you to view observed videos and data in real time through the Autel Sky Application. The EVO Nano Series aircraft adopts a foldable design and can hold its propellers for easy storage and transportation.

  • Page 13: Product Acceptance Checklist

    Chapter 1 Product Overview Product Acceptance Checklist The EVO Nano Series are available in four colors and come in standard and premium bundles. The packing list varies accordingly. After unboxing the product, please check whether the actual items match the items described in the following packing list and carefully inspect the appearance of the aircraft and all accessories.

  • Page 14: Premium Bundle

    Chapter 1 Product Overview Premium bundle Table 1-2 Packing List Item Model/Specification Quantity Note Includes 1 battery, EVO Nano Series MDA or MDA2 propellers, and a gimbal Aircraft protective cover. Spare Smart MDA_2250_770 Battery Adapter Multi Charger Used with power adapter...
  • Page 15 Diameter of a propeller: 126 mm Type of the propeller: Folding propeller  All the above components have passed Autel Robotics safety and compatibility tests, users can purchase and use accordingly.  In case of adding any payload before flight, please evaluate the mounting weight reasonably.
  • Page 16 Table 1-4 RC Components List Item Product Info Manufacturer Note Max. weight: 407 g Includes 2 EAN: 6924991102373 Autel Robotics command sticks UPC: 889520012119 and an antenna. Table 1-5 Firmware and Software version explanation Item Release Version Note Release Date...

  • Page 17: Flight Safety

     The EVO Nano Series aircraft is a light unmanned aircraft, and the operation of this product by individuals under the age of 16 is prohibited by Autel Robotics. Users under the age of 16 must use this aircraft under the supervision of a professional adult.

  • Page 18: The U.s

     This product is not a toy, and individuals under the age of 16 are prohibited from operating  In the EU region, The EVO Nano Series aircraft bears a C0 class identification label, and thus you must comply with subcategory A1 operational restrictions while using it, which are as follows: 1.

  • Page 19: Other Countries And Regions

    EASA Class 0 drones with camera: (https://www.easa.europa.eu/document-library/general-publications/drones-information- notices)  According to EU regulations, the EVO Nano Series aircraft is equipped with sensors (gimbal camera) capable of detecting personal data. Users are required to undergo legal registration when using the product.

  • Page 20: Flight Environment Requirements

    Chapter 2 Flight Safety  Ensure a clear understanding of the type of flight activity (e.g., recreational, official, or business). Obtain permits from relevant authorities before flying. If necessary, consult with local legal professionals for detailed definitions and explanations of flight activity types. ...

  • Page 21: Declaration Of Maximum Take-Off Mass

    Chapter 2 Flight Safety during flight operations, the aircraft may not be able to fly normally, so return and landing should be done promptly.  Choose open and spacious areas or high grounds for flying. Tall mountains, rocks, urban structures, and forests may obstruct the GNSS signal and the aircraft's video transmission signal.

  • Page 22: Visual Positioning Function

    Chapter 2 Flight Safety Aircraft Visual Perception Range  When using the aircraft for flight, avoid obstructing the lenses of the visual perception system. Doing so may impact the performance of the aircraft's visual obstacle avoidance and could lead to flight accidents. ...

  • Page 23: Visual Obstacle Avoidance Function

    Chapter 2 Flight Safety In situations where there is neither GNSS signal nor adequate conditions for the visual perception system, leading to the simultaneous failure of both GNSS signal and visual localization, the aircraft will initiate ATTI function.  If you lack extensive flight experience, try to avoid flying beyond visual range. ...

  • Page 24: Auto Return Home

    Chapter 2 Flight Safety  Surfaces of moving objects (such as crowds of people, swaying reeds in the wind, bushes, grass, etc.).  Water surfaces or surfaces of transparent objects.  Scenes with rapid and intense changes in lighting or scenes directly illuminated by strong light sources.

  • Page 25: Manual Activation Of Auto Return Home

    Chapter 2 Flight Safety  If the landing point for auto return home is not suitable for the aircraft to land (such as uneven ground or presence of a crowd), please exit the auto return home first and then manually control the aircraft to land. Manual activation of auto return home During flight, users can manually activate the auto return home by long-pressing the return-to- home button "...

  • Page 26: Behavior Activation Of Auto Return Home

    Chapter 2 Flight Safety  It is not recommended to let the aircraft enter the severe low battery landing process. To avoid the landing area being unsuitable for the aircraft to land and causing damage to the aircraft.  When the Autel Sky displays relevant warning prompts, follow the corresponding instructions immediately.

  • Page 27: Auto Return Home Obstacle Avoidance Process

    Chapter 2 Flight Safety Auto return home obstacle avoidance process When the obstacle avoidance system is enabled and the lighting conditions allow the visual perception system to function, the aircraft will implement obstacle avoidance during the auto return home process as follows: ...

  • Page 28: Rebuilding Of The C2 Link

     If decoding errors persist for a certain duration, leading to communication failure, the C2 link will be disconnected, and the aircraft will enter a reconnecting state.  The loss of connection behavior for the EVO Nano Series aircraft includes two modes: “Go home”, “Resume”.

  • Page 29: Geofence System

    The EVO Nano Series aircraft is equipped with a built-in geofence system in the flight control system. Before each flight, ensure that the RC can connect to the internet to automatically update airspace restriction information, which will be synchronized to the drone.
  • Page 30 Chapter 2 Flight Safety authorities in the area, they can contact Autel Robotics to request unlocking. Autel Robotics only provides a method for altitude limitation, and users must set the altitude limit themselves. Altitude-Limited Zone Update Method: Users need to manually enable altitude...

  • Page 31: Import Ugz

    Chapter 2 Flight Safety The aircraft has a certain initial speed when flying in the air. To prevent the aircraft from mistakenly entering the no-fly zone (when not lifted) and the warning zone, the geofence system sets a buffer zone with a horizontal distance of 250 m and a vertical distance of 50 m outside the boundaries of the no-fly zone and warning zone.

  • Page 32: Unlocking No-Fly Zones

    5. Aircraft S/N (Serial number): Multiple serial numbers can be applied at once. 6. Autel account of UAS operator: Multiple accounts can be applied at once. Log in to the official website of Autel Robotics at www.autelrobotics.com/service/noflight/, enter the relevant information, and complete the waiver application.

  • Page 33: Aircraft Calibration

    Chapter 2 Flight Safety Altitude and Distance Limitation Diagram  In the Autel Sky, the allowable range for altitude restriction is 25 ~ 800 m, and the allowable range for distance restriction is 30 ~ ∞ m. During actual flight, the set maximum altitude limit should not exceed the altitude restricted by local laws and regulations, such as the maximum flight altitude of aircraft in China’s Mainland, the United States, the European Union and other countries and regions should not exceed 120 meters or 400 feet.
  • Page 34 Chapter 2 Flight Safety  Please stay away from strong magnetic field areas or large pieces of metal during calibration, such as magnetic ore, parking lots, construction areas with underground steel bars, near underground or overhead power transmission lines, etc. ...

  • Page 35: Imu Calibration

    Chapter 2 Flight Safety  Please follow the calibration steps as instructed on the Compass Calibration page of the Autel Sky.  If the calibration fails, the rear indicator of the aircraft will turn solid red. In this case, repeat the above steps.
  • Page 36 Chapter 2 Flight Safety Flip the aircraft 180 ° , placing it with the belly facing up on a flat surface, until the next step is displayed Please be careful to protect the lens on the back of the aircraft during this process. Place the left side of the aircraft flat on the ground until the next step is displayed...

  • Page 37: Gimbal Auto Calibration

     If the propellers are stopped when the aircraft has a certain initial velocity, the aircraft will follow a parabolic trajectory during free fall. Do not stop the propellers in this unpredictable scenario.  After completing the forced landing, please contact Autel Robotics promptly for inspection of the power system.

  • Page 38: Direct Remote Identification

    The EVO Nano Series aircraft supports the DRI system and uses Wi-Fi (Wi-Fi Beacon, 802.11n) for broadcasting. Enable the DRI system by configuring it in the Autel Sky.

  • Page 39: Basic Flight Procedure

    Chapter 2 Flight Safety  Ensure the aircraft powers on and is connected to the RC, and the aircraft motors and gimbal camera are functioning properly.  Confirm that the aircraft, RC, etc., have been upgraded to the latest versions as prompted. ...

  • Page 40: Aircraft

    Aircraft Aircraft Activation When unboxing the product for the first time, you need to activate the EVO Nano Series aircraft before using it. By default, the aircraft is pre-paired with the RC at the factory. After turning on the aircraft and the RC, you will see an activation prompt in the Autel Sky. Please follow the steps in the Autel Sky to activate the aircraft.
  • Page 41 Chapter 3 Aircraft Integrates multiple sensors stable shooting Gimbal Camera measurements during flight. Forward Visual Used to sense the obstacles ahead and avoid the aircraft from Perception System colliding with them. Landing Gear Used to support the aircraft to avoid damage to the bottom of (built-in antenna) the fuselage.
  • Page 42 Chapter 3 Aircraft Table 3-3 Aircraft Side View Details Name Description Air Outlet Used to vent the heat produced in flight.  The USB-C interface of the aircraft is not available for charging. Please do not connect a charger to it. For aircraft charging, refer to “5.3.4 Charging the smart battery”...

  • Page 43: Propeller

    Chapter 3 Aircraft Propeller Propellers are consumable parts that require regular maintenance and replacement to ensure the safe flight of the aircraft. The EVO Nano Series aircraft uses a quick-release propeller design, making it easy for you to replace them. Replacing propellers The propellers are installed in the aircraft by default at the factory, and reinstallation is not required.

  • Page 44: Storing Propellers

     Before each flight, make sure that all propellers are mounted correctly and securely.  Please use the propellers provided by Autel Robotics. Do not mix propellers of different models.

  • Page 45: Aircraft Indicator

    Chapter 3 Aircraft Store the Propellers  Before folding the arms, you should turn off the power of the aircraft. Store the propeller and fold the rear arms first, then fold the front arms. Aircraft Indicator The aircraft each has an LED indicator at the rear, which will display the current status of the aircraft.

  • Page 46: Camera

    Chapter 3 Aircraft Y–Always on Calibration Failed G–Always on Calibration Successful Warning Y-Slow Flash (every 1 second) Low battery warning R- Slow Flash (every 1 second) Critically low battery warning Update G-Fast Flash Being update G-Always On Update Successful Y-Slow Flash (every 1 second) Update Failed Camera Camera differences...

  • Page 47: Gimbal

    Chapter 3 Aircraft Gimbal The EVO Nano aircraft is equipped with a three-axis stabilized gimbal with a high-precision motor structure, which can ensure stable camera shooting when the aircraft is flying. Gimbal Structure of EVO Nano Aircraft Table 3-7 Gimbal Structure Details of EVO Nano Aircraft Name Description Dampener Mount...

  • Page 48: Gimbal Mechanical Rotation Range

    Chapter 3 Aircraft Gimbal Structure of EVO Nano+ Aircraft Table 3-8 Gimbal Structure Details of EVO Nano+ Aircraft Name Description Dampener Mount Used to support dampeners and gimbal cameras, etc. Camera Used to capture pictures or videos. UV Lens Used to filter ultraviolet rays, protect the lens. Used to control the moving range of the gimbal to rotate up or Pitch Axis Motor down (mechanical range: -125°~+35°, controllable movement...

  • Page 49: Gimbal Mode

    Chapter 3 Aircraft Mechanical Rotation Range of the Gimbal of the EVO Nano Series aircraft  Users can control the pitch rotation range of the gimbal: -90° to 15°. Gimbal mode The gimbal has two operating modes: Stabilized Mode and FPV Mode.

  • Page 50: Flight Control System

     Do not disassemble the gimbal at will. Otherwise, warranty eligibility will be lost. Flight Control System EVO Nano Series aircraft achieves stable and convenient flight control through its built-in intelligent flight control system. The system supports a number of advanced functions, including auto-return, failsafe, and visual positioning system.

  • Page 51: Flight Status

    Chapter 3 Aircraft Flight status Depending on the availability of GNSS signals and flight conditions, the aircraft can automatically switch between three flight modes. Table 3-10 Flight Status Mode Description GNSS mode is activated when the aircraft detects an appropriate GNSS signal.

  • Page 52: Intelligent Flight Function

    Chapter 3 Aircraft Forward, backward, left, and right: 16 m/s; Ascend: 5.0 m/s; Descend: Ludicrous 3.0 m/s.  If you have not fully mastered the flight control of the aircraft, it is not recommended for you to switch to Ludicrous mode. ...

  • Page 53: Installing The Microsd Card

    Autel Robotics will not be held responsible for loss due to the fact that the videos and photos cannot be accessed in this way.

  • Page 54: Noise

    Chapter 3 Aircraft Noise When the EVO Nano Series aircraft hovers, it generates noise with an intensity of 69dB (at a distance of 0.5 meters from the aircraft). Users should familiarize themselves with local noise pollution prevention and control regulations and set a reasonable flight altitude or safety distance to ensure no interference with other individuals, groups, or organizations.
  • Page 55 Bar” in Chapter 6.  Information of Communication Frequency Bands for Aircraft The communication frequency bands of the EVO Nano Series aircraft comply with regulatory requirements worldwide. Please feel assured in using it. The relevant certified frequency bands are listed in the table below.
  • Page 56  UAS will automatically match the legal frequency band based on GNSS positioning, so users can use it with confidence. Table 3-14 Global Certified Frequency Bands for EVO Nano Series Aircraft (Wi-Fi) Certified Operating Frequency Details Countries &...
  • Page 57 802.11ac  Korea 5.8G-80G)  The EVO Nano Series Aircraft supports Wi-Fi fast transfer, and photos and videos on the aircraft can be downloaded to mobile devices at a transfer speed of up to 20MB/s through the Autel Sky.  During flight, the Wi-Fi fast transfer function of the aircraft will not be enabled, and this function will only be supported after the aircraft lands.

  • Page 58: Remote Controller

    Remote Controller Introduction The RC adopts the Autel SkyLink image transmission technology of Autel Robotics, has strong anti-interference capability and supports the double-emission and double-receiving of 2.4GHz, 5.8GHz and 5.2GHz. It can complete the control and setting of aircraft and camera within at most 10km distance and can display a high-definition picture in mobile device in a real-time manner by Autel Sky.
  • Page 59 Chapter 4 Remote Controller Transmits the control signals of the RC and receives the image Antenna transmission information of the aircraft. Mobile Device Used to mount a mobile device installed with Autel Sky. Holder Left command stick and right command stick control the direction and motion of aircraft.

  • Page 60: Communication Frequency Bands

    Chapter 4 Remote Controller Shooting/Video After setting of the camera mode, press the button to take Recording Button photos or record videos. RC Customizable Use the Autel Sky to customize the button function. For more Button (Fn) information, please refer to “6.4 Settings Interface”...

  • Page 61: Charging The Remote Controller

    Chapter 4 Remote Controller  Japan  BW=1.4M: 5154 - 5246MHz  BW=10M: 5157 - 5.2G  USA 5243MHz  BW=20M: 5167 - 5233MHz  Taiwan, China  BW=1.4M: 5728 -  USA 5847MHz  Canada  BW=10M: 5733 – 5.8G ...

  • Page 62: Preparing The Remote Controller

    Chapter 4 Remote Controller  Please use the official charger provided by Autel Robotics to charge the RC. Using third- party chargers may damage the battery of the RC.  After charging is complete, please disconnect the RC from the charging device promptly.

  • Page 63: Connecting To Mobile Device

    Chapter 4 Remote Controller  Turning the Remote Controller Off When the RC is on, press and hold the power button on the RC until the controller emits a "beep" to turn off the RC.  Be sure to turn off the aircraft before turning off the RC. Connecting to Mobile Device When the RC is on, extend the mobile device holder and mount the device (pre-installed Autel Sky App) in the holder.

  • Page 64: Setting Stick Mode

    Chapter 4 Remote Controller  When you operate the aircraft, make sure that the aircraft is in the place for the best communications.  Do not use other communication devices of the same frequency band at the same time to prevent interference with the signals of the RC.
  • Page 65 Chapter 4 Remote Controller Heading of the aircraft Left movement (Turn left) Heading of the aircraft Right movement (Turn right)  Stick Mode Types Table 4-5 Stick Modes Details Mode Stick Move Up/Down Move Left/Right Controls the forward and Controls the heading of Left Command Stick backward movement of the aircraft...
  • Page 66 Chapter 4 Remote Controller Table 4-6 Default Stick Mode (Mode 2) Mode 2 Aircraft Flight Status Control Method Left Command The up-and-down direction of the left stick Stick is the throttle stick, which is used to control Move Up or the vertical lift of the aircraft.

  • Page 67: Frequency Pairing With The Remote Controller

    Chapter 4 Remote Controller Right Command The left-and-right direction of the right stick Stick is the roll stick, which is used to control the Move Left or flight of the aircraft in the left and right Right directions. Push the stick to the left, and the aircraft will tilt to the left and fly to the left of the nose;...

  • Page 68: Using Combination Buttons (For Forced Frequency Pairing)

    Chapter 4 Remote Controller  When pairing, please keep the RC and the aircraft close together, at most 2 meters apart.  If the mobile device is disconnected from the RC in the case of pairing, please reconnect them within 60s. Using combination buttons (for forced frequency pairing) Forced frequency pairing process is as follows: 1.

  • Page 69: Remote Controller Keys

    Chapter 4 Remote Controller  The throttle stick is used for controller ascend and descend of the aircraft, and its location varies in different stick modes.  When the aircraft is taking off or landing, keep it away from people, vehicles, and other moving objects.

  • Page 70: Return-To-Home Button And Pause Button

    Chapter 4 Remote Controller aircraft nose, and the gimbal pitch angle rotates to a 90° direction from the current angle. Press to switch to Shooting/Video Recording.  After setting of the camera mode to Photo-taking, press the button to take photos. Photo/video switch ...

  • Page 71: Calibrating The Remote Controller

    Chapter 4 Remote Controller Return-to-Home Button and Pause Button  When the aircraft pauses an auto-return, it will hover in place. To resume the auto-return, press the pause button “ ” again until the RC emits a "beep" sound.  If the auto-return home point is not suitable for the aircraft to land (such as uneven ground and crowds), please exit the auto-return before the aircraft reaches the home point, and then manually resume control to land.
  • Page 72 Chapter 4 Remote Controller According to the calibration guide page of the RC, move the dial wheel and the left and right sticks according to the directions shown in the figure and hold for 1 second. At this time, the calibration direction icon will be changed to blue, indicating that the orientation calibration...

  • Page 73: Smart Battery

    Smart Battery Battery Introduction The EVO Nano Series aircraft comes standard with the MDA_2250_770 smart battery (hereafter referred to as smart battery) as the power battery. This battery is a rechargeable lithium-ion polymer (LiPo) battery and features high energy density and capacity. The smart battery can be charged with an MaxAd_3SA battery charger.

  • Page 74: Smart Battery Functions

    Chapter 5 Smart Battery Smart Battery Functions The smart battery has the following functions:  Battery Level Display The smart battery has a built-in battery level indicator, which shows the current battery level of the smart battery.  Communication The aircraft can obtain real-time battery information, such as voltage, current, battery level, and battery temperature, through the communication interface on the smart battery.

  • Page 75: Smart Battery Usage

    Chapter 5 Smart Battery Once a short circuit is detected, the power supply of the smart battery will be cut off to protect the battery.  Before using the smart battery, please carefully read and strictly follow the requirements in this Manual, “Battery Safety Operation Guidelines”, and “Disclaimer”, and those on the battery's surface sticker.

  • Page 76: Installing/Removing The Smart Battery

    Chapter 5 Smart Battery Installing/Removing the smart battery Table 5-2 Install the Smart Battery Step Operation Diagram Turn off the smart battery before installing the battery. Slowly insert the smart battery into the battery compartment on the aircraft fuselage, and you will hear a clicking sound when the battery is in place.

  • Page 77: Turning On/Off The Smart Battery

    Chapter 5 Smart Battery Turning on/off the smart battery  Turning on the smart battery When the smart battery is turned off, press and hold the power button for 3 seconds to turn on the battery.  Turning off the smart battery When the smart battery is turned on, press and hold the power button for 3 seconds to turn off the battery.

  • Page 78: Charging The Smart Battery

    Chapter 5 Smart Battery Distribution of Battery Level Indicator Table 5-4 Battery Level Indicator Status (While Not Charging) LED 1 LED 2 LED 3 LED 4 Battery Level 88%~100% 76%~87% 63%~75% 51%~62% 38%~50% 26%~37% 13%~25% 0%~12% : Green light always on : Green light flash : off ...

  • Page 79: Storing And Transporting The Smart Battery

     Modifying the official smart battery or charging device provided by Autel Robotics is prohibited.  Only use the battery and charging device provided by Autel Robotics. Autel Robotics is not responsible for any consequences, such as battery accidents and flight failure, caused by the use of third-party batteries or charging devices.

  • Page 80: Maintaining And Handling The Smart Battery

    Chapter 5 Smart Battery Ideal storage conditions: The battery level is at around 60%, the ambient temperature is between 22°C to 28°C, and the ambient humidity is 65%±20% RH. The energy of the MDA_2250_770 smart battery is 17.32 Wh (capacity is 2250 mAh). Please refer to local lithium battery transportation policies for battery shipping or carrying.

  • Page 81: Standard Charging And Discharging Process

    Chapter 5 Smart Battery Standard charging and discharging process Use the maintenance charging mode of the original charger, and proceed as follows: 1. Use the battery charger included in the standard aircraft kit to charge the smart battery to 100% and let the battery sit for 1 hour. 2.

  • Page 82: Autel Sky App

    Autel Sky App Software Introduction The Autel Sky is a flight control software developed by Autel Robotics for aerial photography. The software integrates variety of professional functions, to make it easy to get started quickly, improve efficiency, and easily carry out aerial photography operations with the aircraft.

  • Page 83: Status Bar

    Chapter 6 Autel Sky App This feature page provides management of aerial photos and Album videos, as well as creative theme templates for users to facilitate post-production. Tap to enter the aircraft camera page (flight page), where you Start can view the aircraft’s flight attitude and aerial images in real time, and access the aircraft settings.

  • Page 84: Settings Interface

    Chapter 6 Autel Sky App Shows the current vehicle power situation and the Aircraft power estimated flight time. Displays the active status of the aircraft obstacle avoidance system. Obstacle  Green indicates that the obstacle avoidance Avoidance system system is enabled. ...
  • Page 85 Chapter 6 Autel Sky App "Return to Home", "Hover" or "Descend".  Perform compass calibration and IMU calibration for the aircraft.  View aircraft battery information (battery temperature, battery health, discharge count), and set low battery warning threshold, severe low battery warning threshold, and enable or disable battery protection.

  • Page 86: Map Interface

    Chapter 6 Autel Sky App  Set the anti-flicker frequency to "50Hz", "60Hz" or turn off this function.  Enable or disable overexposure warning.  Enable or disable the histogram.  Enable or disable the time stamp function.  Perform camera settings reset. ...
  • Page 87 Chapter 6 Autel Sky App Map Interface Table 6-4 Details of the Map Interface Name Description Gimbal Angle Real-time display of the current gimbal pitch angle of the Display aircraft. Tapping this icon allows you to swap positions with the camera preview window and switch the style of displaying device Heading display orientation information.

  • Page 88: Camera Interface

    Chapter 6 Autel Sky App Camera Interface Users can freely switch between shooting and video functions on the camera interface to realize panorama, hyperlapse, shooting, portrait, quick shot, tracking and other camera functions. Camera Interface Table 6-5 Details of the Camera Interface Name Description Tap the icon, long press and slide within the pop-up to launch...
  • Page 89 Chapter 6 Autel Sky App  When selecting the recording working mode, tap the recording button to start recording; tap the recording button again to end recording.

  • Page 90: Firmware Updates And Maintenance

    Chapter 7 Firmware Updates and Maintenance Firmware Updates and Maintenance In order to optimize aircraft performance, Autel Robotics will update relevant firmware when necessary. Users can upgrade the firmware of the aircraft, the RC, and the smart battery online through the Autel Sky.

  • Page 91: Troubleshooting Guide

     Users can contact Autel Robotics to purchase the above parts and replace them by themselves according to the operating instructions.  If you need to replace parts that are not in the list, please contact Autel Robotics. Damage caused by unauthorized disassembly and assembly will not be covered by the warranty.
  • Page 92 Chapter 7 Firmware Updates and Maintenance 1. If the aircraft displays a fault during self-check (the tail LED indicator will turn solid red):  For hardware problems, please contact Autel Robotics customer support. 2. If the motor fails to start, please check the following issues: ...
  • Page 93  If it can power on normally, make sure that the device is sufficiently charged before proceeding with the update;  If the device cannot power on, contact Autel Robotics. 16. For the purpose of device safety, please do not use unknown USB device or other external...

  • Page 94: Appendix A Product Specifications

    Appendix A Product Specifications Appendix A Product Specifications A.1 Aircraft Aircraft Weight of EVO Nano Series Aircraft 249 g (With propellers, battery) Maximum takeoff weight 249 g Unfolded: 325 x 260 x 62 mm Dimensions Folded: 142 x 94 x 62 mm Max.
  • Page 95 Appendix A Product Specifications Ludicrous: 200°/s Working temperature 0~40℃ Battery hot replacement not support Internal storage None Wi-Fi transfer 20MB/s GNSS GPS/Galileo/GLONASS Vertically: ±0.1 meters (when visual positioning is working normally) ±0.5 meters (when GNSS is working normally) Hover accuracy Horizontally: ±0.

  • Page 96: A.2 Gimbal Camera

    Appendix A Product Specifications 70° horizontally, 88° vertically Backward: 40° horizontally, 30° vertically Downward: 40° horizontally, 30° vertically Front, rear: The surface has rich texture and sufficient lighting conditions (>15 lux, normal indoor fluorescent lighting environment) Below: The ground is richly textured and the lighting Effective use of the environment conditions are sufficient (>15 lux, normal indoor fluorescent lighting environment) The surface is made...

  • Page 97: Camera - Nano

    Appendix A Product Specifications 3840×2160 (16:9) Photo format JPG(8-bit) / DNG (10-bit) / JPG+DNG Single shooting (default)/Brust shooting/AEB Photo shooting mode continuous shooting/time lapse/HDR shooting/Hyperlapse 3840x2160 p30/25/24 2720x1528 p30/25/24 1920x1080 p60/50/48/30/25/24 Video resolution HDR: 3840x2160 p30/25/24 2720x1528 p30/25/24 1920x1080 p60/50/48/30/25/24 Video format MP4 / MOV (8-Bit) Video coding format...
  • Page 98 Appendix A Product Specifications Field of view: 85° 35 mm format equivalent focal length: 23 mm Lens Aperture: f/1.9 Focus distance: 0.5 meter ~ ∞ Focus: CDAF/MF Video: ISO100 ~ ISO6400 ISO range Photo: ISO100 ~ ISO6400 Photo mode: 1/8000 ~ 8 seconds Shutter speed Others: 1/8000 ~ 1/ frame rate seconds Real-time image transmission portrait blur and photo...
  • Page 99 Appendix A Product Specifications Support file system FAT32/exFAT Gimbal Pitch: -125°~45° Mechanical scope Roll: -34°~33° Yaw: -25°~25° Controllable rotation range Pitch: -90°~15° Stable system Three-axis stabilization Maximum control speed (pitch) 30°/s Angualr vibration range ±0.003° A.3 Remote Controller Material PC+ABS Operating Temperature 0℃...
  • Page 100 Appendix A Product Specifications (Without Interference and Blocking) Realtime transmission Transmission distance<1km: 2.7K 30fps quality Transmission distance>1km Transmission bitrate 90Mbps Transmission delay ≤ 200 ms A.4 Smart battery Smart Battery MDA_2250_770 Operating Temperature 0~+45℃ Battery Type LiPo 2S Rated Capacity 2250 mAh Battery energy 17.32 Wh...
  • Page 101 Appendix A Product Specifications Battery charging interface 12.75V⎓5A USB charging port 5V⎓3A, 9V⎓2A, 12V⎓1.5A Rated power 30W Max...

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