HUBSAN H717E Drone Camera Two Batteries User Manual

June 4, 2024
HUBSAN

H717E Drone Camera Two Batteries

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Specifications

  • Product: HUBSAN ACE 2
  • User Manual Version: V23.08.08

Product Information

Important Safety Information

When operating the aircraft, be extremely cautious and
responsible. Avoid using the aircraft with damaged components to
prevent injuries.

Maintenance

Do not attempt to open or repair the units by yourself. Contact
HUBSAN or authorized dealers for service. Visit the official
website at www.hubsan.com for
more information.

Flight Environment Requirements

Ensure personal safety and the safety of others when flying the
drone. Do not fly in bad weather conditions or attempt to catch the
aircraft in flight. This product is intended for experienced pilots
over the age of 14.

HUBSAN Safety Notice for Intelligent Battery

  • Charge the battery above 14.8V and keep it at 14.8V to prolong
    battery life.

  • Use only HUBSAN chargers or HUBSAN Charging Hub for battery
    charging.

  • Avoid charging in flammable or explosive environments to
    prevent fire hazards.

  • Recharge batteries if unused for over 3 months.

Product Usage Instructions

Aircraft Functions

Read and understand the functions of the aircraft for optimal
performance.

Flight Control Mode

Learn how to control the aircraft during flight for smooth
operation.

Aircraft Indicator

Understand the aircraft indicators for monitoring purposes.

Aircraft

Aircraft Spare Part

Information about spare parts for maintenance and repair
purposes.

Aircraft Battery

Detailed instructions on charging and installing the aircraft
battery.

Propellers

Guidelines on handling and using propellers effectively.

Camera

Learn about the camera features and usage instructions.

Remote Controller

Remote Controller Components

Identify the components of the remote controller for proper
usage.

Remote Controller Features

Explore the features of the remote controller for efficient
operation.

Charging The Transmitter Battery

Instructions on charging the transmitter battery for
uninterrupted use.

Remote Control Diagram

Refer to the diagram for understanding the remote control
layout.

Transmitter Sticks & Thumbwheel Calibration

Calibrate the sticks and thumbwheel of the transmitter for
accurate control.

Flight

Download The X-HUBSAN 2.0 APP

Get the app for enhanced flight control and features.

APP Flight Control Interface

Familiarize yourself with the app interface for efficient
control.

Pairing The Aircraft

Pair the aircraft with the remote controller following the
instructions.

Compass Calibration

Calibrate the compass for accurate navigation during flight.

Starting / Stopping The Motors

Learn how to start and stop the motors of the aircraft
safely.

Additional Flight Features

Return-to-home (RTH)

Utilize the RTH feature for automatic return during flight.

Frequently Asked Questions (FAQ)

Q: Can I charge the battery with a non-HUBSAN charger?

A: It is recommended to use only HUBSAN chargers or the HUBSAN
Charging Hub to charge the battery for safety and optimal
performance.

Q: What age group is this product suitable for?

A: This product is intended for experienced pilots over the age
of 14. Ensure proper supervision for younger users.

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HUBSAN ACE 2
User Manual
V23.08.08

INFORMATION TO THE USER
All users must read product operating instructions and liability disclaimer before using and operating any HUBSAN products. By using a HUBSAN product(s), users accept the terms and conditions of HUBSAN liability and operational guidelines. This product is not suitable for minors under 14 years of age. When operating a HUBSAN product(s), users also accept all liability and responsibility for their own behavior, actions as well as any consequences resulting thereof while using a HUBSAN product(s). These products may only be used for purposes that are in accordance with local laws and regulations, and any applicable policies / guidelines HUBSAN may make available. Users agree to comply with these terms and conditions, along with any and all relevant policies / guidelines set forth by HUBSAN. Part of the details of this document may change with the upgrade of the product software version. Please read the upgrade details carefully before upgrading the software version.
INSTRUCTIONS
Some of the product flight functions are restricted in certain areas. Once you use this product, you must strictly read and follow the relevant ICAO regulations, local airspace and UAV regulations. You are liable for any non- compliance with the foregoing, and are responsible for the consequences of your actions as well as any indirect and / or direct liability that arises as a result of these limitations.
FLIGHT ENVIRONMENT REQUIREMENTS
(1) Select an open area to fly. Avoid high rise buildings and tall obstacles (such as trees and poles). Near buildings and obstacles, flight control signals and GPS signals are severely affected; GPS functions such as GPS mode and Return to Home may not function properly. (2) Do not fly in bad weather conditions (such as in wind, rain or fog). (3) Fly the aircraft in ambient temperatures of 0-40 . (4) When flying, please stay away from obstacles, people and crowds, high voltage lines, trees, water, etc. (5) To avoid remote control signal interference, do not fly in strong electromagnetic environment (such as venues with radio stations, power plants and Phone antenna and TV towers). (6) The aircraft cannot be used at or near the Arctic circle or Antarctica. (7) Do not fly in no-fly zones. (8) Do not operate the aircraft near high pressure lines, airports or areas with severe magnetic interference.

IMPORTANT SAFETY INFORMATION
OPERATION Be extremely cautious and responsible when using the aircraft. Small electronic components can be damaged due to crashes or exposure to moisture / liquid. To avoid any injuries, do not use the aircraft with damaged components.

MAINTENANCE Do not try to open or repair the units by yourself. Contact HUBSAN or HUBSAN authorized dealers for service. For more information, please visit the official website at www.hubsan.com

BATTERY Do not disassemble, squeeze, impact, burn, drop or trample the battery. Do not short-circuit or put the battery terminal in contact with metal. Do not expose the battery to temperatures above 60 ° C. Fully Charge the aircraft battery prior to flight. Use only HUBSAN dedicated supplied charger for charging. Keep the battery out of the reach of children and away from any kind of moisture.

FLIGHT Please be mindful of personal safety and the safety of others when operating and flying your drone.
-Do not fly in bad weather conditions. -Do not attempt to catch the aircraft while it is in flight. -This product is intended for experienced pilots over the age of 14. -After every flight, completely disarm the aircraft motors and power off the drone. Then, power off the remote control.

READ THE DISCLAIMER AND SAFETY GUIDELINES FIRST BEFORE USE.

Symbol Explanation:

Prohibited Operation

Instruction

Important Notice

Explanation / Reference

HUBSAN Safety Notice for Intelligent Battery
If you will use this product for a long time, please charge the battery above 14.8 V and keep it at 14.8 V, which can prolong the life time of the battery. Please use only HUBSAN chargers or HUBSAN Charging Hub for battery charging. Do not charge in a flammable and explosive environment to prevent fire. Batteries need to be recharged if unused for over 3 months.
1. Do not disassemble or reassemble the battery. 2. Do not short-circuit the battery. 3. Do not use or charge near sources of heat. 4. Do not put the battery in contact with water or any kind of liquid. 5. Do not charge batteries under sunlight or near fire. 6. Do not puncture or subject the battery to force of any kind. 7. Do not discard unused batteries to regular trash. 8. Never charge a battery that has been damaged, become deformed or swollen. 9. Do not solder on or near the battery. 10. Do not reverse charge or over discharge the battery. 11. Do not reverse charge or reverse the battery polarities. 12. Do not connect the battery to a car charger / cigarette lighter or any kind of unconventional power source. 13. This battery is prohibited to use with non-designated devices. 14. Do not mix other types of batteries with lithium batteries. 15. Do not exceed the specified charging time. 16. Do not place the battery in a microwave or in areas of high pressure. 17. Do not expose the battery to the sun or excessive heat. 18. Do not fly in places with strong interference high-voltage line, power stations, base stations, high-speed rail lines, signal towers, etc.. 19. Do not use or charge in temperatures below 0 and above 45 . 20. It is forbidden to discharge battery with a current above 5C. Please note that the discharge time should not be too long to damage the battery caused by excessive discharge! 21.Warning: Prohibited charging the battery without turning off the battery on the aircraft first 22. If a newly purchased battery showing, leaks, possesses a bad smell or other abnormalities, contact and return the battery immediately to the vendor. 23. Keep away from the reach of children. 24. Use a dedicated battery charger only and follow all charging guidelines. 25. Adults must supervise minors, if allowed to charge the batteries even when using dedicated HUBSAN chargers.

Contents

INFORMATION TO THE USER

4 Aircraft Functions

Important safety information

4.1 Flight Control Mode

18

Battery use precautions

4.2 Aircraft Indicator

19

1 Aircraft

1.1 Aircraft Spare Part

01

1.2 Aircraft Battery

03

1.2.1 Aircraft Battery Charging

03

1.2.2 Aircraft Battery Installation

04

1.2.3 Intelligent Battery Functions

04

1.2.4 Precautions For Low

Temperature

05

1.2.5 Precautions For Battery

06

1.2.6 Storage of smart battery

06

1.3 Propellers

07

1.4 Camera

07

2 Remote Controller

2.1 Remote Controller Components 08

2.2 Remote Controller Features

10

2.3 Charging The Transmitter Battery 12

2.4 Remote Control Diagram

12

2.5 Remote Control Antenna Angle 13

2.6 Transmitter Sticks& Thumbwheel

Calibration

13

3 Flight

3.1 Download The X-HUBSAN 2.0 APP 14

3.2 APP flight control interface

14

3.3 Pairing The Aircraft

15

3.4 Compass Calibration

16

3.5 Staring / stopping The Motors

17

4.3 Return-to-home(RTH)

20

4.4 Landing Apron Search

21

4.5 Vision Systems and

Infrared Sensing Systems

21

4.6 Power Struggle Mode

25

4.7 Smart mode

26

4.7.1 Creative Video

26

4.7.2 Orbiting

27

4.7.3 Waypoint

27

4.7.4 Line Fly Mode

28

4.7.5 Follow Mode

28

4.7.6 Hyperlapse

29

4.7.7 Panorama mode

31

4.8 Gimbal Pitch Axis

31

Adjustment

4.9 TF Card

32

5 4G Collaboration

5.1 4G Module Specs

33

5.2 SIM card preparation

34

5.3 Mounting bracke

34

5.4 Operation interface

35

5.5 Workflow

35

5.6 About 4G operation delay 36

5.7 Regarding service charges 36

FAQ Disclaimer Fcc Information

1.Aircraft
1.1 Aircraft Spare Part
2

15
13 5

6 12

1

3

4

7 14

9

8

1 Propeller A 2 Propeller B 3 Motor 4 Tripod (With Antenna) 5 Body shell 6 Battery power switch 7 4K HD Camera 8 3-axis gimbal

10 11
9 Gimbal Protection Guard 10 Micro-USB Port 11 Image indicator 12 Battery level indicator 13 Intelligent Battery 14 Forward Vision System 15 Backward Vison System 01

19

17 18
16
16 Bind button 17 Video transmission indicator

18 TF Slot 19 Battery buckle

20 22

21 23

20 Cooling fan

21 Downward Vision System

22 Infrared Assisted Altitude System 23 Auxiliary Light

Note: The aircraft generates heat during operation. Please avoid direct touch the ventilated rib on the bottom of the aircraft after the flight.

02

1.2 Aircraft Battery 1.2.1 Aircraft Battery Charging
The aircraft use 4S lithium battery with 3200mAh capacity and nominal voltage of 14.4V. It equipped with a standard charger, the charging time is about 120 minutes. Connect the power adapter to the AC power supply (100v-240v, 50-60Hz). Keep the intelligent battery in off status, connect the intelligent battery with the power adapter. In the charging state, the intelligent battery power indicator will flash repeatedly and indicate the current power. When all the power indicators are off, it means that the intelligent battery is full charged. Please remove the battery and power adapter to complete the charging. Note: After using the battery, please charge it in time (at least 70%) to avoid the long storage influence the battery life.

Smart Charger Head Smart Battery

Adapter

Figure1 – One battery version

Figure2 – Three battery version( charging) 03

1.2.2 Aircraft Battery Installation
1
1 Take a fully charged battery

2

2

Insert the battery into battery compartment, while pressing the left and right

edges of the battery (As shown in

illustration) push in, until the battery

buckles are fully locked. You should hear

buckle locking sound

3

Battery and aircraft top should be flush that confirms battery

3

is in place.

1.2.3 Intelligent Battery Functions
(1) Battery activation: The smart battery can only be used after being connected to the APP and then activate according to the prompts for the first time. (2) Power display: The battery has a power indicator, which can display the current battery power levels. (3) Upgrade mode: The smart battery can upgrade firmware. When the battery is in the upgrade state, the first and last two battery indicators are solid on. (4) Balanced Charging:During charging,the voltages of the battery cells are automatically balanced. (5) Overcurrent Protection: The battery stops charging or discharging automatically once full charged . (6) Overcharge Protection: The battery stops charging automatically once fully charged. (7) Over-discharge Protection: Discharging stops automatically to prevent excess discharge. (8) Short Circuit Protection: The power supply is automatically cut if a short circuit is detected. (9) Battery Cell Damage Protection: HUBSAN App displays a warning message when a damaged battery cell is detected. (10) Hibernation Mode: When the battery is in the on state, if there is no connected device, the battery will automatically shut down within 3 minutes;When the power is less than 1%, short press the battery switch at this time. If the minimum power indicator flashes and the battery cannot be turned on, the battery can wake up by charging again. (11) Communication: Information about the battery’s voltage, capacity, and current is transmitted to the aircraft. (12) Low temperature heating: When the battery temperature is too low, the battery itself will heat the internal battery cell after starting up, to ensure that the temperature of the battery cell rises to temperature range which the battery cell can work normally.
04

Battery switch

Short press to check the battery level, it will turn off after 3 seconds
Short press first and then long press to turn on / off, the indicator light turns on / off

1.2.4 Precautions for Low Temperature
(1) If the battery is used in a low-temperature environment (-10 to 5), please fully charge the battery and keep it warm (over 10°C.) (2) The fourth generation smart battery is equipped with an intelligent temperature control system. When charging or discharging in a low temperature environment, the temperature control system can heat the cell itself to ensure that the cell temperature rises to a suitable working temperature. (3) In the charging mode, when the cell temperature is lower than 5 degrees, the temperature control system will first heat the battery, and then conduct normal charging after the battery is heated to more than 10 degrees. (4) In discharge mode, when the battery power is higher than 30% and the cell temperature is lower than 5 degrees, the temperature control system will first heat the battery cell to more than 10 degrees before the aircraft can fly normally. When the electric quantity is lower than 30%, the self heating function is invalid. (5) The self heating of the battery cell will consume additional electric energy of the battery, causing power loss. In order to avoid affecting the flight endurance, it is recommended to connect the battery to the charger for “charging” before takeoff in a low temperature environment below 5 ° , and use the low- temperature heating function under the charging mode to heat the battery to more than 10 ° C before use. (6) During the heating of the battery cell, the four indicator lights of the battery will flash to show that the battery is heating. The flashing mode is that the middle two lights and the side two lights flash alternately. (7) In a low-temperature environment, the actual discharge of the battery is likely to be different than the theoretical discharge capacity. It is recommended to stop flying and land immediately when the APP prompts a “low battery alarm”. (8) In a low-temperature environment, due to the limitation of battery output power, the wind resistance of the aircraft will be reduced. Please fly with caution.

05

1.2.5 Precautions For Battery
Be sure to fully charge each time before using the Intelligent Battery. Charge the intelligent battery only with Hubsan supplied power adapter and intelligent charging modules. (1) After each flight, battery temperature maybe higher. Allow Intelligent Battery to cool down to normal room temperature before charging. (2) The charging temperature range of the intelligent battery is 5 ° C to 40 ° C. If the temperature of the battery cell is not in this range, the battery management system will stop charging. The optimal charging temperature range is 25 ± 3 ° C. Charging in this temperature range can extend the battery life. (3) When charging or installing, please do not hot plug the battery, which may cause irreversible damage to the battery, so when pulling out or inserting the battery from the charging head, charge manager or drone, please make sure the battery is turned off properly. (4) Because of the inherent physical characteristics of electronic components, the battery has a certain dormant power consumption that even when it is dormant In sleep mode, the battery power will be continuously consumed. So it is necessary to charge the battery regularly (once every six months is recommended) when the battery is not used long time. (5) Do not cut off power or forcibly shut down the battery during the battery firmware upgrade.
1.2.6 Storage of smart battery
Due to the physical characteristics of electronic components, even in the dormant state, the smart battery still has weak current loss, which can regarded as a normal state. The current will continue loss to drain until the battery power is exhausted, and electricities draining behavior will cause irreversible damage to the battery cell. In order to avoid this situation, we need to pay attention to below points.
1. Before saving the battery for a long time, please fully charged the battery (or at least 70%) and then save it. 2. Take out the battery every six months and recharge it, To ensure that the battery power will not be exhausted under hibernation mode. 3. The battery should be stored in a dry place where away from acid and alkali, away from fire sources, and without violent vibration, pressure, and inflammables and explosives. 4. The battery will be in automatic discharge process and generate heat, so do not wrap the battery with materials with low thermal conductivity such as foam and fiber when storing, which is easily cause the battery burn out the battery cell or even fire.
06

1.3 Propellers Before installing the propeller, please carefully check the letters by the aircraft motors and the letters on the propeller. You must match those letters when installing propellers; If the blade is damaged or needs to be replaced, unscrew the screw counter-clockwise to remove the propeller. Use only HUBSAN original Propellers, because it comes with loctite applied screws to prevent accidental screw and propellers loose. (HUBSAN Standard accessories come with original screws)
HUBSAN brand new propeller screws come with blue loctite applied.
1.4 Camera The camera of HUBSAN ACE 2 adopts a 1-inch image sensor, with effective pixels of 20 million pixels and lens aperture coefficient of F/1.9. (1.) When using the camera for the first time, please tear off the protective film of the camera lens before use. (2.) If you want to wipe the lens during use, please wipe it gently with a professional optical dust-free wipe. (3.) Please avoid immersing the camera in water. (4.) The working temperature of the camera is from 10 degrees Celsius to 50 degrees Celsius, below 10 degrees Celsius or above 50 degrees Celsius, the camera may be blurred or unable to produce pictures normally.
07

2. Remote Controller

2.1 Names Of Remote Controller Components

Japan Mode( Mode 1 ) :

(1) Throttle/ left & right flight

controller levers

(2) Forward & Backward/

6

Rudden stick

1(2) 17

34 5

2(1)

America Mode :

1.Throttle/Rudden stick

controller levers

12 2.Forward & Backward / left & right flight controller levers

9 7
13 14
15 16 15

10 8
11
08

3.Long press for One key return ( Aircraft will return to home point) / short press to cancel the return (When the aircraft is in RTH status) 4. Power 5. F / N / S mode: Movie mode / normal mode / sport mode 6. Display 7. Photo 8. Video 9. Gimbal Pitch Control dial 10. Custom button 11. Antenna 12. Remote control extension cable 13. Charging / Adapter Port 14. Lanyard hole of transmitter 15. Rocker storage slot 16. Cable storage slot 17. Smart device holder

America mode(Mode 2) and Japan mode(Mode 1) can switch by X-Hubsan 2.0 APP settings:
Open APP and choose relevant aircraft model to enter the flight control interface, and click the gear icon in the upper right corner to enter the settings.

Connected N

100%

1.0x

Speed 0.0m/s

H: 0.0m

D: 0.0m

Enter the “controller” option in the setting interface and click “Joystick settings”.

Controller

Transmitter model
Joystick Settings Custom button Fn G P S S a f e Ta ke of f

SyncLeas No function

Choose the joystick mode.

Controller

Joystick Settings

Joystick mode

America mode(Mode 2)

Up

Forward

Turn Left

Turn Flight Right Left

Flight Right

Down

Backward

America mode(Mode 2)

09

2.2 Remote Controller Features S/N Key / Switch

Function

(1)

Throttle / Rudder Stick

Move the stick forward or backward to ascend or descend the drone. Move the stick left or right to rotate the drone Clockwise or counter clockwise.

(2)

Elevator / Aileron Stick

Move the stick forward or backward to fly the drone forward or backward. Move the stick left or right to fly the drone left and right.

1 Throttle / Aileron Stick

Move the stick forward or backward to ascend or descend the drone. Move the stick left or right to fly the Drone left and right.

Elevator / Rudder 2 Stick

3

One key return/ Cancel the returning

home

Move the stick forward or backward to fly the drone forward or backward. Move the stick left or right to rotate the drone clockwise or counter clockwise.
Long press to enter the return mode (the aircraft returns to the take-off point), short press the button to exit One-key return (when the aircraft is in returning status); During the returning home, the remote control prompts “tick… Tick…” (one time/ per 2 seconds) Note: theOne key return function on the remote control can only use when the aircraft GPS is normal and 6 or more satellits are found.

4 Power Switch

Short Press, then press hold to power on or off

Movie mode: Flying speed of the drone is limit-

5

F / N / S mode (Movie / Normal /

ed to 3m/s Normal mode: Drone flies at the maximum speed set by the APP, Normally 10m/s

Sport mode)

Sport mode: the maximum flying speed of the

drone is 16m/s

6 Display

Displays the flight parameters

7 Photo

Short press to take photos.

8 Video

Long press to start recording video, Short press to stop recording video

Gimbal Pitch 9 control dial

Controls the pitch angle of the gimbal. 10

S/N Key / Switch

Function

Long press the Fn+ wheel to adjust the zoom function.

Press and hold the Photo+ wheel to adjust the bright-

ness of the remote control screen.

When the drone is not taking off, press the Fn button

and the Video button for more than 3 seconds to

activate the remote control code pairing operation.

The remote control buzzer beeps when a low battery

is triggered or Return to home is activated. Press the

Fn button for 1.5 seconds, to stop beeping

10

Custom keys

prompts. Long press the Fn button again 1.5 seconds to restart

the beeping prompts.

Custom keys, set the function on the APP and save it

when the APP is not connected, [short press] Fn won’t

work.

Function one: Exit the current flight mode.

In this mode, short press Fn to exit the current flight

mode and the aircraft will hover.

Function two: short press Fn to execute gimbal return

to normal state.

Function three: no function (factory default function)

11

Charging / Adapter Port

Charge the remote control or connect with a mobile device

12

Low Battery Warning

Low battery warning for remote control Remote control”Beeps” <25%, di~di~, interval 10s <15%, di~di~, interval 2s <10%, didi~didi~, interval 1s

13

Standby Protection

If Remote controller is left on and unused, it will start beeping once every 3 seconds and switch to stand by mode. After 3 minutes of beeping, remote control will automatically shut down

When the battery power of the remote controller is less

than 10%, the remote controller enters the low power

14

Low power mode

consumption mode. Meanwhile the remote controller will cut off the power supply of USB Host. The communication between the mobile phone and the

remote controller will be cut off, but between the

remote controller and the aircraft will not be affected.

11

2.3 Charging The Transmitter Battery
The remote is charged using the Micro USB cable as shown:
The remote control charging time is about 2.5 hours.The remote control battery indicator light flashes during charging. When charging is complete,the LEDs will stay on solid.

2.4 Remote Control Diagram

1 43

5

6

2

78

9

10 11 12 13

1 Aircraft Battery level

8 Character Area

2 RC Battery level 3 Propellers Status 4 Aircraft Mode 5 Aircraft GPS Satellite

9 Flight Height 10 Flight Distance 11 Compass Calibration 12 Aircraft speed

6 Aircraft Signals

13 Photo / Video

7 Heading Angle

12

2.5 Remote Control Antenna Angle

(1)

2

3

4

(1) Adjust the angle of the remote control antenna and let it face the flight

direction of the aircraft as much as possible.

(2) Long-distance state, the distance between the two antennas is properly

tightened to maintain the antenna directivity.

(3) Closer Sate, the two antennas are properly separated to maintain a

wide receiving range.

(4) Do Not Form an occlusion or cross bettern the antennas.

2.6 Transmitter Sticks& Thumbwheel Calibration

Enter Calibration:(Picture 1) Push and hold

both sticks to the upper left corner as

shown in picture below, and power on the

transmitter, the transmitter will enter

calibration state and start Beeping; release

the power button in calibration.

(1)

Exit: (Picture 2) Rotate both sticks in circles to their maximum travel for three times, and release the sticks; (Picture 3) Next, move the thumbwheel back and forth to the maximum range on both sides three times, and finally release the thumbwheel to return to the center. Long press and hold any button except the power button until the remote control stops beeping and the screen lights on. Calibration is completed, and the remote control automatically exits calibration mode.

(2)

(3)

13

3 Flight

3.1 Download The X-HUBSAN 2.0 App
Before flying, download and install the X-HUBSAN 2.0 APP. You could download the APP for free by scanning the code at right or search in APP Store (IOS) Or Goggle Play.

3.2 APP flight control interface
Flight Status

X-HUBSAN 2.0 APP

Home Page

Transmitter Mode

FPV Remote Aircraft Aircraft Motor (Video) Control GPS Battery Status Signal Signal Signal Level

Setting

Not Connected N

100%

Intelligent Mode Gimbal Horizontal

Menu

Correction

Gimbal Pitch
Location
1.0x

Auto Takeoff / Auto RTH

zoom

Aircraft GPS

Aircraft Speed

00.000000 , -000.0000
45.877503 , -106.12398465m

SPEED 0.0M/S H: 0.0m D: 0.0m

Camera Setting
Photo / Video Switch Take Photo / Video Gallery

Altitude Ball

Transmitter GPS Altitude Distance

( Note: You need to turn on the “longitude and latitude coordinates” switch in the settings and then can get the aircraft GPS coordinates and the transmitter GPS coordinates. )

14

3.3 Pairing The Aircraft
To use the aircraft for the first time, you need to activate the aircraft first :
Press battery switch to power on the aircraft. Press the remote control switch to connect to the mobile phone, and wait for the remote control to connect the aircraft in success. Open the mobile phone X-HUBSAN 2.0 APP, it will automatically jump out of the activation interface. The new user can register an account as the activation account, and the old user who has logged in to the APP before can directly enter the password to activate it.
(1) Run X-HUBSAN 2.0 APP, and select the aircraft model. (2) Short press, the aircraft power button, then press and hold for a few seconds to turn it on. (3) Short press the transmitter power button, then press and hold for a few seconds to turn it on, connect the transmitter to your mobile device with the RC cable.

Not connected N

Not connected N

Before Connecting

After Connecting

106.12398465

106.12398465

(4) Start binding (This step is only required when first binding or

replacing the transmitter, you need to do it manually.)

1. Long press the aircraft bind button to enter the binding mode.

2. Press and hold the FN+ Video button combination to enter the

binding mode, put the aircraft close to the remote control to

complete the bind.

15

Tips: -The binding process has been completed in the factory. The aircraft can take off directly. -After entering binding mode, the image transmission indicator (green) flash rapidly and become solidgreenafter binding is successful. -Please keep the remote controller at least 1 meter away from drone during binding process. -The aircraft is unable to activate the binding during flight.
3.4 Compass Calibration When using the drone for the very first time, the compass calibration message will pop up before takeoff. Follow the instructions on your screen, rotate the drone horizontally, then point the drone nose to ground and rotate it clockwise. The compass calibration message will disappear once it is completed. You must complete the compass calibration before flying the aircraft for the first time. The compass is susceptible to interference from other electronic devices, resulting in abnormal flight data. Regular calibration helps to keep the compass and its readings accurate. select “Compass Calibration” under APP setting interface.
16

3.5 Starting/Stopping the Motors Motor starting condition (1) The aircraft, remote control, and mobile phone have been connected successfully ; (2) The aircraft compass has been calibrated (APP doesn’t prompt to calibrate the compass) ; (3) The aircraft must be placed on a horizontally leveled ground ; (4) Aircraft has not locked sufficient GPS satellites for positioning. please don’t force take-off ; (5) The power of the drone should be 15% ;
Ready to fly
Starting the Motors Push both sticks down and outwards as shown in picture to start the motors. Once the motors start spinning, Release both sticks. Stopping the Motors 106.12398465 When the motors are running, Push both stick down and outwards again to stop the motors. Release both sticks once motors stop. Forced Motor Stop When flying in the air, the motors can be forced to stop in 2 seconds with outer eight bar. Use this function with caution, as it can cause the aircraft to fall and may endanger personal safety.
17

4 Aircraft Functions
4.1 Flight Control Mode

Flight Control Mode
(The flight controller monitors the GPS signals and switches to the corresponding flight modes)

GPS Mode

Use GPS and downward vision positioning system to achieve precise hovering, stable flight, intelligent flight mode, etc. The vision system works in a well-lit environment .

Optical flow mode

this mode works indoors only if the altitude is less than 4 meters. more than 4 meters altitude requires the GPS mode and Attitude mode. In optical flow mode, the maximum flying speed of the aircraft is 2m/s.

Attitude mode

The aircraft automatically changes to AttitudeATTI) mode when the Vision System are unavailable or disabled and when the GPS signal is weak or the compass experiences interference. It only supports manual flight, and prohibits smart flight modes. In Attitude mode ,the aircraft won’t hold position itself, Fly with caution (this mode is only for experienced Drone pilots)

Flight Speed Movie Mode Maximum speed 3m/s

Normal Mode

Maximum speed is 10m/s, adjustable in APP settings from 10% -100%

Sport Mode

The maximum speed is 16m/s, the sport mode is only available in the GPS mode.

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4.2 Aircraft Indicator

FPV indicator(right of aircraft)

The image indicator(left of aircraft)

Camera Error FPV Board Error Working Upgrading

Video Indicator (red) Red LED flashes slowly (1 time/second) Red LED off Red LED solid Red LED flashes quickly (5 times/2 seconds)

Working ( Date link normal )
Booting

Image Indicator (green) Green LED solid Green LED off

Boot and complete Green LED flash quick and slow

Error (System is backing up)

Green LED flashes slowly

Binding mode Disconnected

Green LED flashes quickly Green LED flashes quick and slow

Upgrading

The green light flashes quickly and then flashes slowly (when transmitting files)Flash (slow flash when writing flash)
19

4.3 Return-to-home(RTH) There are three types of RTH: One-key RTH, Low Battery RTH, and Failsafe RTH. When taking off, and GPS has locked more than 6 satellites, the aircraft will mark take off point as home point. If there is no GPS signal and drone is forced to take-off, Whenever GPS locks more than 6 satellites, it will record that point as home position.
RTH-Process
1. Record “Home Point” 2. Trigger return to home conditions 3. Adjust the direction of the head 4. Climb to the return altitude set in APP (1) Regardless of the current height of the aircraft, if the aircraft is within 5 meters of the horizontal distance from home point, it will land; (2) When the return distance is 5-20m, the aircraft will adjust the direction of the nose towards the return point. If the current altitude is lower than 5m, it will rise to 5m, otherwise it will return at the current altitude (3) When the return distance is more than 20m, the aircraft adjusts the direction of the nose towards the return point, and rises to the set altitude before returning home. 5. Search for the drone apron during the landing process (This feature must be turned on in app before taking off and or landing)
One-key RTH
APP one-Key RTH / remote control one-Key RTH
Low Battery RTH
1. The aircraft will automatically Return to home according to its own power calculations and the distance from the Home Point. 2. Aircraft will land automatically at the same point upon low battery RTH activation, If there is no GPS signal or weak GPS signals 3.When taking off, if it is forced take off with weak GPS signals or GPS signals are not good, the aircraft will automatically return to the place where it achieved, good GPS signal for the first time. 4. When the aircraft battery power percentage is lower than 10%, the aircraft will start landing automatically if there is no joysticks operation. We can cancel it by using the operate the transmitter joystick, and let the aircraft land slowly or climb again. 5. If the battery level is lower than 1%, the aircraft will forced to landing, which cannot be manually canceled or forced to climb again.
Failsafe RTH
When the aircraft loses connection with the remote control for more ® than 5 seconds, the aircraft automatically returns or land directly. Performance requirements: (1) After the aircraft loses control for 5 seconds, it triggers automatic return; (2) If the drone reconnects, it will continue to perform the returning procedure when Failsafe RTH mode is activated; (3) Landing directly when there is no GPS signal or the signal is not strong.
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4.4 Landing Apron Search
When the aircraft is landing or returned to a height of about 10 meters from the ground, it will automatically enter the search for the drone apron function.

RTH

N

100%

1.0x

45.877503 , -106.123984 45.877503 , -106.12398465m

SPEED 0.0M/S H: 0.0m D: 0.0m

(1) The gimbal camera points downward to optically search for the drone apron [H], Apron requirements: 1 Sharp contrast, 2 white “H” lettering, 3 Apron without obstruction. (2) Once drone locks the apron visually it will descend smoothly on apron. When landing to a height of less than 3 meters, the aircraft camera will switch to forward view and no longer adjust the position of the aircraft. From this altitude aircraft will land quick. If an error is identified or other unexpected circumstances occur, press the stop button to exit the function. (3) If aircraft can’t find the apron or battery is critically low, the aircraft will land directly. (4) The search for the drone apron function cannot be performed if video is being recorded. (5) If you do not need to use this feature, please turn it off in app.

4.5 Vision Systems and Infrared Sensing Systems.
The HUBSAN ACE 2 is equipped with Forward, Backward binocular vision system and Downward infrared sensing system to provide environmental awareness for the aircraft.The forward and backward binocular vision systems are located in the nose and tail of the aircraft and consist of two cameras, respectively. The visual system senses obstacles through image ranging. The Downward infrared sensor system is composed of an infrared sensor module (one sending and one receiving). The infrared sensor can judge the distance from obstacles, and also provide the reference of the aircraft’s altitude to the ground, and realize accurate positioning with the downward vision system. The HUBSAN ACE 2 is also equipped with aircraft fill lights, which are turned on when light is low to assist the lower vision system.
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Backward Vison System

Infrared Assistant Hovering Sensing System

Downward Vision System

Forward Vision System

Auxiliary Light

Detection Range
Forward Accurate ranging range: 0.5m – 12m; horizontal 62°, vertical 48 ° Backward Accurate ranging range: 0.5m – 9m; horizontal 62 °, vertical 48 ° Downward Accurate Hover Range: 0.5m – 5m, Vision Hover Range: 0.5m – 5m
Visual Calibration
The vision system has been calibrated before the drone leave the factory and can work normally. When the X-HUBSAN 2.0 APP prompts the user that advanced calibration is required, pls connect the aircraft to the computer and use the Hubsan Visual Calibration Assistant visual calibration software, complete the calibration by referring to the visual calibration tutorial. For calibration software please visit the official website on Hubsan www.hubsan.com – Service Support – Download Center to download and install.
Using the Vision Systems
The Downward Vision System is typically used in indoor environments where GNSS is weak or unavailable. The Downward Vision System works best when the aircraft is at altitudes of 0.5-5m, which is automatically switched on in normal or film mode.
22

Forward and Backward Vision Systems manually switched on in normal or film mode (Choose to avoid obstacles or actively brake on X-HUBSAN 2.0 APP). Using the Forward and Backward Vision Systems,the aircraft can actively brake when detecting obstacles in front.The Forward and Backward Vision Systems work best with adequate lighting and clearly marked or textured obstacles.
Vision Systems and Infrared Sensing System have limited ability to sense and avoid obstacles, and the performance may be affected by the surrounding environment. Be sure to maintain line of sight with the aircraft and pay attention to prompts in HUBSAN ACE 2 APP takes no responsibility for any aircraft that is damaged or lost while using Vision Systems. Without GNSS, the maximum hovering height of the aircraft is 5m when using the vision system in an open and flat field.The Vision System is only effective when the aircraft is at an altitude of 0.5 to 50meters. Please note that the Vision Positioning function may be affected if the aircraft’s altitude is above the limit. In X-HUBSAN 2.0 APP you can set the Auxiliary Light (on, off or automatic). If Auto is selected, the Auxiliary Light is automatically enabled when the environment light is too weak. Please note that the Vision System cameras performance may be affected when the auxiliary bottom light is enabled. Fly with caution if the CNSS signal is weak.
23

The Vision System may not function properly when the aircraft is flying over water or snow-covered areas. Therefore, when the landing function is triggered, the aircraft may not be able to actively avoid the water below. It is recommended that the user maintains full control of the flight and makes reasonable judgements based on the surroundings, without over-reliance on the visual system. The Vision System cannot work properly over surfaces that DO NOT have clear pattern variations, environments with insufficient or excessive light intensity. Operate the aircraft cautiousl y when in any of the following situations 1. Flying over monochrome surfaces e.g. pure black, pure white, pure blue, pure red 2. Flying over highly reflective surfaces. (e.g. water surfaces, ice surfaces, glass curtain walls, smooth surfaces, etc.); 3. Flying over transparent surfaces. (e.g. transparent glass etc.); 4. Flying in an area where the lighting changes frequently or drastically. (e.g., backlighting, etc.); 5. Flying over extremely dark or bright surfaces; 6. Flying over surfaces that strongly reflect or absorb infrared waves e.g. mirrors; 7. Flying over moving surfaces or objects. e.g. above the flow of people, above the grass blown by the wind, etc.); 8. Flying over surfaces without clear patterns or texture; 9. Flying over surfaces with repeating identical patterns or texturese.g. tiles with the same design); 10. Flying over obstacles with small surface areas; 11. The safe working temperature of the visual system is 0-50 degrees or it will influence the stability of Vision System, Please use the Vision Assistance System within the safe temperature. Keep the sensors clean at all times. Do not obstruct the Infrared Sensing System. If the aircraft experiences a collision, camera calibration is required. Do not fly on days that are rainy, smoggy, or if there is no clear sight. less than 100 lux. Check the following every time before takeoff a. Ensure there are no stickers or any other obstructions over the glass of the Infrared Sen sing and Vision System. b. If there is any dirt, dust, or water on the glass of the Infrared Sensing and Vision System, clean it with a soft cloth. Do not use any cleaner that contains alcohol. c. Contact HUBSAN Support if there is any damage to the glass of the Infrared Sensing and Vision System. Do not obstruct the Infrared Sensing System.
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4.6 Power Struggle Mode
Struggle Mode N Z

11% 1.0x

When the aircraft battery power drops to 11% during the flight, the ” Z ” icon will pop up in the upper left corner of flight control interface on X-Hubsan 2.0 APP . Click it will open the Power Struggle Mode. When the struggling mode turns on, the aircraft will limit the battery power output so that the aircraft flight distance can be optimized; the aircraft will reduce the power consumption of its own non-power parts to ensure that the battery power is all used for flight power as much as possible , in that case the stability of the gimbal, image and image transmission may be affected. When in struggling mode, the aircraft will not automatically enter the low-power slow landing mode when the battery power is lower than 10%, and will not trigger a low-power forced landing when the battery power is lower than 1%. The system will allow the aircraft to completely drain the battery power. The behavior of draining the lithium battery in the struggling mode will cause irreversible damage to the battery. This behavior will be automatically recorded by the system. There are only five times opportunities to use the struggling mode for each aircraft. Please use this function with caution. If the battery is damaged due to use Strugging mode, Hubsan reserves the right to refuse free battery after-sales service.
The original intention of this function is that when the drone flies too far away, the drone cannot return smoothly due to strong winds or other emergencies, and when the flight environment at that time does not have the conditions for forced landing, try best to allow you to let the drone fly to a safe place before the battery power runs out, and make a final effort
25

to save the drone. After turning on the struggling mode, the drone is expected to fly 3-4 minutes longer than normal flight (the duration is for reference, the actual duration may vary depending on the flight environment and aircraft status), when the battery power is lower than 1%,the battery’s continuous discharge capacity will have great uncertainty. The power data provided is only for reference, and the aircraft may be completely exhausted at any time.
4.7 Smart Mode
4.7.1 Creative Video
360° Shooting : (1) Select the direction of rotation (clockwise / counterclockwise); (2) Set the rotation angle, the range of rotation angle (90 ° -360 ° ,accuracy 1°); (3) Set the rotation speed (1-30 ° / sec, accuracy 1); (4) Click GO, the aircraft rotates in place hovering at its position, shooting a video during the rotation; (5) you can click the exit button any time to exit the mode and save the video.

360 ° Shooting N

100%

Angle Speed

1.0x
ccw cw

Comet Mode

After selecting the center point on the APP, the aircraft will automatically fly along the eclipse track and record video. Please only use it in an open area. APP operation: (1) Select the target, the aircraft camera is always aimed at the selected target when shooting (2) Select the flying direction (clockwise/counterclockwise) (3) Click GO, the aircraft starts recording the video and performs eclipse flight move.

Comet Mode N

100%

1.0x

Rocket 360° Comet Dronie
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4.7.2 Orbiting
Tap on “Mode Selection” then “Orbit Mode” to set the current location or the position of the mobile device as the center. During Orbit mode, you can adjust the speed and direction by moving the control stick left and right and adjust the orbit radius by moving the control stick forward and backward.

NormOrabl iting N M o d e
Waypoint M o d e
O r b i t M o d e

100% 1.0x

Follow Mode
C r e a t i v e V i d e o

45.877503 , -106.123984 45.877503 , -106.12398465m

SPEED 0.0M/S H: 0.0m D: 0.0m

4.7.3 Waypoint
The aircraft will fly along the set flight path drawn on-screen or saved ,you can adjust the speed of the aircraft during flight .
Waypoint Planning: You can preset the waypoint parameters such as the number of waypoints, the altitude of each waypoints and other parameters. The aircraft will follow the preset parameters after you activate waypoint mode. You can control the flying speed during flight or you can pause or resume the Waypoint mode.
Waypoint Memory: After entering the mode, fly the aircraft and tap on “Memorize Waypoints” on the APP and the aircraft will mark the location. After memorizing all the waypoints, upload and execute, aircraft will fly according to recorded waypoints.
If the aircraft is not in the starting position, the aircraft will fly to the starting waypoint position before starting this function.

Waypoint N

100%

Waypoint

1.0x

Waypoint

Waypoint

Planning

Memory

Tap one and enter into the operation interface

45.877503 , -106.123984 45.877503 , -106.12398465m

SPEED 0.0M/S H: 0.0m D: 0.0m

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4.7.4 Line Fly Mode
Tap on “Mode Selection” then “Line Fly Mode”.Set the angle,distance and speed of the aircraft. Performance requirements: 1. Set the angle (0 ~ 360 °, accuracy 1 °);
Set the distance (10-6000 meters, accuracy 1 meter); Set the speed (1-8 m / s, accuracy 0.1); 2. Once setup is complete, the aircraft will execute Line Fly mode. During the flight, pilots can take photos or videos manually , or pause / resume / stop the flight at any time. During the flight, you can control the altitude only. 3. You can pause/resume/stop the flight at any time. 4. When the aircraft is low on battery or lost connection from radio, aircraft will always return to home.

Line Fly Mode Line Fly Mode

100%

Angle 0° Distance

0 T: 0%
E: 0%
10

R: 0% A: 0%
360°

10m

6000m

1.0x

Relative Altitude

0

0m Speed 1.0

300m

1m/s

8m/s

4 5 . 8 7 7 5 0S3P E, E-D1 006..01M2 3/9S8 4 S P E E D 0 . 0 M / S

Preview Route 45.87750H3 ,: -010.60.1m23984D:650m. 0 m H : 0 . 0 m D : 0 . 0 m

4.7.5 Follow Mode

NoFromlloawl mode N M o d e
Waypoint M o d e
O r b i t M o d e

100% 1.0x

Follow Mode
C r e a t i v e V i d e o

45.877503 , -106.123984 SPEED 0.0M/S

45.877503 , -106.12398465m

H: 0.0m D: 0.0m

Active Tracking 3.0 HUBSAN ACE PRO Active Tracking 3.0 includes Spotlight, Active Tracking, Circle Tracking.

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Spotlight: The aircraft remains in the current position, and only adjusts the heading and gimbal camera to lock the target in the middle of the screen. Use the stick to control the movement of the aircraft: the roll stick controls the aircraft to rotate around the target, the pitch stick controls the aircraft to approach or move away from the target, the throttle stick controls the aircraft height, and the yaw stick controls the composition.
Tracking Mode Under tracking mode the aircraft keeps the relative distance between iteself and the target, and moving with the target synchronously. The maximum flight speed is 8m/s.
Circle Tracking: The aircraft flies around the target with a set radius and speed and supports static and dynamic targets (dynamic targets refer to people, vehicles, and ships, and the speed should not be too large, and the following height will not change with the dynamic target). The maximum circle speed is 5m/s, and there is no obstacle avoidance function.
4.7.6 Hyperlapse When you choose Hyperlapse modeyou can choose free and Circle.

Hyperlapse N

100%

1.0x

free

surround

time-lapse time-lapse

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Free The aircraft will take a certain number of photos and compose time-lapse videos automatically according to the parameters set. During the process of shooting, the user can control the flight of the aircraft freely. (1) choose free; (2) set the shutter interval, the video length, and the maximum flight speed; (3) after done, please click` GO’and start shooting.

Free

N

100%

Interval Time 2s

Video Duration 3s

Maximum Flight Speed

0.5m/s

1.0x

15s

30s

GO

3.0m/s

Circle The aircraft will take a certain number of photos and compose time- lapse video automatically according to the circle point of interest and the parameters set. During shooting, moving any sticks on controller will automatically quit the task. (1) select circle. (2) set the shutter interval, video length and maximum flight speed. (3) set the circle direction, and position the circle center by adjusting the circle radius and the direction of the aircraft nose. (4) click` GO’and start shooting.

Circle N

100%

Interval Time 2s
Video Duration 3S

1.0x
15s cw GO
30S ccw

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4.7.7 Panorama mode
In the panoramic mode, you can choose spherical, 180 ° , vertical shooting and wide angle shooting. In this mode, the aircraft will perform the shooting task automatically. After the shooting done, you can view photos and videos from the TF card, also export photos and videos and compose them. You can quit this mode any time during shooting. Note: Aircraft will not stitch and compose the final panoramas or spheres, you will need to use after market software to perform the stitching.

Panorama mode N

Photo Mode

100%

Single shot

Burst shooting

Interval

Panorama

4.8 Gimbal Pitch Adjustment
Please make sure there are no stickers or impurities on the gimbal before take off, and place the aircraft on flat and open ground. Please do not bump the gimbal after the power is turned on.
The gimbal contains precision parts. If it is hit or damaged, the precision parts will be damaged, which may cause the performance of the gimbal to decrease. Please take good care of the gimbal and camera from physical damage.
Please keep the gimbal clean and avoid the gimbal from contacting foreign objects such as sand or stone, otherwise it may block the movement of the gimbal and affect its performance.
If the aircraft is placed on uneven ground or grass, the ground object touches the gimbal, or the gimbal is subjected to excessive external force (such as being bumped or broken) may cause the gimbal motor to be abnormal.
Do not add any objects to the camera head, otherwise it will affect the performance of the head and even burn the motor.
Remove the gimbal protection latch before use and then turn it on. Reinstall the gimbal latch to protect the gimbal during storage or transportation.
Flying in heavy fog or clouds can cause the gimbal to condense, resulting in temporary failure. If this happens, the gimbal can return to normal after drying.
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APP Adjustment
Method 1: long press the blank of the video preview interface and the mobile device will vibrate once. When appears (1) at the position which you press, you can adjust gimbal pitch by sweeping your finger up and down the screen. Method 2: you can fine tune the angle of gimbal pitch by clicking up-down button(2) on the gimbal pitch axis slider in app.

Hover mode N

100%

(2)
1.0x
(1)

45.877503 , -106.123984 45.877503 , -106.12398465m

SPEED 0.0M/S

(2)

H: 0.0m D: 0.0m

Transmitter Adjustment You can adjust the angle of gimbal pitch by fiddling with the control thumb-wheel of gimbal pitch.
4.9 TF Card (1) support TF card, U3 above 16G/32G/64G/128G; (2) hot plug is supported. You can insert the TF card even if drone is powered on. But it is recommended to plug in the TF card when drone is powered off.

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5.4G collaboration
5.1 4G Module Specs CoolCell Pro 4G module is a 4G wireless communication cellular designed by Hubsan for aircraft control. It adopts 3GPP Rel.9 LTE technology to support the maximum uplink speed of 50Mbps, and support multi- network system (China Unicom, China Mobile and China Telecom). Modules meet the requirements of wireless communication for data rate.

SPECS

Applied Model Region/Operator

ACE Refined Series/MINI Refined Series/BLACKHAWK Series China Unicom .China Mobile ,China Telecom

Temperature range Operatingtemperature range Extended temperature range
Frequency bandinformation LTE-FDD LTE-TDD WCDMA GSM/EDGE

35°C~+75°C -40°C~+85°C
B1/B3/B5/B8 B34/B38/B39/B40/B41 B1/B5/B8 B3/B8

Certification Mandatory authentication Other certifications Datatransmissionrate LTE-FDD(Mbps) LTE-TDD(Mbps) DC-HSPA+(Mbps) WCDMA(kbps) EDGE(kbps) GPRS(kbps)
Power waste(Typicalvalue)

China:SRRC/NAL/CCC WHQL
Downlink:150 Uplink:50 Downlink:130 Uplink:30 Downlink:21 Uplink:5.76 Downlink:384 Uplink:384 Downlink:236.8 Uplink:236.8 Downlink:85.5Uplink:85.5 11 uA @Turn off 1.2mA@LTE Stand byPF=128) Power consumption(typical) 1.1mA@LTE Stand by(PF=256) 18mA@Idle

33

5.2 SIM card preparation Prepare a Nano SIM card that has been activated and has 4G flow. The CoolCell Pro 4G module supports the SIM cards of China Mobile, China Unicom and China Telecom. You could inquiry the local China Mobile, China Unicom or Telecom business office about how to activate the SIM card or the flow fee If you buy a Nano SIM card. After getting the activated SIM card, insert it into the SIM card holder of the CoolCell Pro 4G module.
Insert the SIM card into the SIM card holder of the module, with the metal side facing down when inserting, and press and take it out slowly to prevent the SIM card flying out when taking out the SIM card.
5.3 Mounting bracket To install the bracket of the CoolCell Pro 4G module, please refer to the illustration below. After the bracket is installed, please connect the module and the aircraft body through USB cable.
.Install the 4G module to fixing bracke
Bracket

4G module

Heat sink facing up

The effect of installing the 4G module to the bracket

Notice: When the 4G module is installed in the bracket, the metal surface on the module must face up, otherwise the function will be affected!

çThe bracket is fixed to the four legs of the aircraft

2.The supporting foot of gimbal aligned with the slot of bracket

1.Push the button at the bracket into the aircraft bottom cover first
3.Note that the bulkle snap must be fastened in place

34

èBuckle the strap buckle into the fixed rod

Uckle the strap buckle into the fixed ro

Data cableLine The 4G module and bracket are installed

5.4 Operation interface
After the drone is powered on, the CoolCell Pro 4G module will be powered on and initialized together with the drone, and then start searching for 4G signal base stations. When a useful base station signal is found, the main operation interface of the APP (X-Hubsan 2.0) will appear as follows hint. Push the “4G Collaboration” button to activate the 4G video transmission collaboration function.

ACE PRO R

Connected

N
4G

100% 8.13V

Sky net

1.0x
Good 4G Collaboration

Terrestrial net G o o d

Speed 0.0m/s

H: 0.0m D: 0.0m

5.5 Workflow When the SyncLeas image transmission link is working normally, the CoolCell Pro 4G module will work in the “idle” state. In this state, the CoolCell Pro 4G module will maintain a certain frequency of low-flow data exchange with the server to ensure that the entire link is at The activation state and does not consume too much 4G flow. When the signal strength of the SyncLeas image transmission link drops to a certain level, the system can automaticallyc ACE PRO Refined, MINI PRO Refined, ACE 2) or manually(BLACKHAWK 2, ACE SE Refined and MINI SE Refined) switch to the 4G data link to ensure that users can continue to monitor and control the aircraft.
35

5.6 About 4G operation delay The CoolCell Pro 4G module forwards the video to X-Hubsan 2.0 APP in real time through the video server. Compared with the point-to-point direct communication of SyncLeas, the video data path is much more complicated. As shown in the figure below. The stability of the data link to the base station and from the base station to the user’s mobile phone largely depends on the stability of the 4G signal in the current environment.Therefore, the operation delay and image delay will be greater than those of SyncLeas image transmission. When the signal environment of the base station is relatively poor, the delay will also increase accordingly.
5.7 Regarding service charges The video data flow generated by the video server will generate additional fees when forwarding the video, which will be paid by Hubsan to the operator on behalf of the user. Users need to pay a service fee of 99RMB to Hubsan every year. Currently, in order to give back to users, Hubsan reduces the service fee for the first year. From the second year, users need to pay a service fee of 99RMB per year to continue using the CoolCellPro 4G module.
FAQ
1.The mobile device and remote control cannot be connected (1) Check whether the status of the APP control signal icon has changed (2) For USB Settings on android phones, check out “Android phone connection tutorial” 2. Aircraft ID not available. (1) Restart the drone, remote control and X-HUBSAN 2.0 APP (2) Update the aircraft firmware (3) Check whether the LED near TF slot is green. If it flashes, the aircraft is abnormal
36

3. FPV transmission freezing, gets stuck or easy to disconnect (1) Adjust the antenna Angle and point vertical side of the antennas to the aircraft, without anything blocking between antennas (2) Change the flight site, please do not fly near tall buildings, or near signal tower (3) Update the latest firmware 4.Abnormal aircraft hovering (1) Change the flight site, please do not fly near tall buildings and signal towers (2) Do the compass calibration and horizontal calibration (3) Wind is too strong to affect the flight
(4) If the aircraft are indoors, it is recommended to move to the outside for flight 5. Aircraft GPS accuracy is not precise or cannot pass the GPS accuracy test (1) in the open area of the outdoor with GPS over 6 satellite (2) Walk around near the aircraft (3) Replace the mobile device 6.The battery cannot charge Re-plug the charger and battery 7. short flight times Battery overcharge or high temperature environment can easily lead to reduction of battery life, it is recommended to keep the remaining 60% or so, full charge again before use 8. The tilt Angle of the gimbal is too large or the gimbal show abnormal behavior (1) Restart the aircraft and re-calibrate the gimbal (2) Check on the APP to see whether the gimbal status is normal 9. Gimbal initialization fails Before starting the aircraft, take off the protective cover of the gimbal and make sure nothing blocks gimbal movement. 10.The picture is not clear (1) Check whether the lens protective film is peeled off (2) Please shooting in a environment with good lighting (3) Shooting parameters setting in camera Settings of APP (4) Video source files are saved in TF card files with suffix AA. 11. Lens fogging (1) humid climate causes lens fogginess, change aircraft storage location 2Place some desiccant in the protective cover of the gimbal when storing 12. Picture or video is lost (1) Perform completing recording operation after recording video, otherwise it may lead to video damage or loss (2) Check whether the TF card is damaged

Disclaimer
HUBSAN accepts no liability for damages, injuries or any legal responsibilities directly or indirectly from the use of HUBSAN products under the following conditions: 1.Damages, injuries or any legal responsibilities when users are drunk, under the influence of drugs or anesthesia, dizzy, fatigued, nauseous and / or affected by other conditions both physical and mental that could impair sound judgment and / or personal ability. 2. Subjective misjudgment and / or intentional misoperation of products. 3. Any and all mental damage, trauma, impairment, illness, compensation caused / solicited by accidents involving HUBSAN products. 4. Product operation in no- fly zones (i.e. natural reserves). 5. Malfunctions or problems caused by modification, refit, replacement or use with non-HUBSAN accessories / parts, failure to follow the guidance of the manual in assembly or operation. 6.Damages, injuries or any legal responsibilities caused by mechanical failures due to natural wear and tear (aircraft flight time clocking in 100 hours or above), corrosion, aging hardware, etc. 7. Continued flight after low voltage protection alarms are triggered. 8. Deliberately flying aircraft under abnormal conditions (such as when water, oil, soil, sand or other unknown material are inside the aircraft and / or transmitter are incompletely assembled, the main components have obvious faults, obvious defect or missing accessories, etc). 9. Flying in the following situations and / or environments: areas with magnetic interference (such as high voltage lines, power stations, broadcasting towers and mobile base stations), radio interference, government regulated no-fly zones, if the pilot loses sight of the drone and suffers from poor eyesight or is otherwise unsuited for operating HUBSAN products. 10. Aircraft use in or exposure to bad weather, such as a rain, wind, snow, hail, lighting, tornadoes and hurricanes. 11. Products are involved in / exposed to collisions, fire, explosions, floods, tsunamis, man made and / or natural structure collapses, ice, avalanches, debris, landslides, earthquakes, etc.

12. The acquisition, through use of HUBSAN products (specifically but not limited to aircraft), of any data, audio, video that results in infringement of law and / or rights. 13. Misuse and / or alteration of batteries, product / aircraft circuits, hardware protections (including protection circuits), RC model and battery chargers. 14. Any malfunction of equipment or accessory, including memory cards, that results in the failure of an image or video to be recorded or to be recorded in a way that is machine readable. 15. Users who engage in reckless, unsafe flying (with or without sufficient training). 16. Non compliance with precautions, instructions, information and operation guidelines / methods given through official Hubsan website announcements, product quick start guides, user manuals, etc. 17. Other losses, damages, or injuries that are not within the boundaries of Hubsan responsibility. RISK OF EXPLOSION IF BATTERY IS REPLACED BY AN INCORRECT TYPE. DISPOSE OF USED BATTERIES ACCORDING TO THE LOCAL REGULATIONS. HAZARDOUS MOVING PARTS KEEP FINGERS AND OTHER BODY PARTS AWAY. Declaration of Conformity Hereby, SHENZHEN HUBSAN TECHNOLOGY CO., LTD.,declares this product is in compliance with the essential requirements and other relevant provisions of Directive 2014 / 53 / EU. A copy of the original Declaration of Conformity can be obtained at the following address: Unit 2102C, Building F, Xinghe WORLD , Yabao Road, Bantian Street, Longgang District, Shenzhen , China This product bears the selective sorting symbol for waste electrical and electronic equipment (WEEE). This means that this product must be handled pursuant to European Directive 2012 / 19 / EU in order to be recycled or dismantled to minimize its impact on the environment. For further information, please contact your local or regional authorities. Electronic products not included in the selective sorting process are potentially dangerous for the environment and human health due to the presence of hazardous substances.

FCC INFORMATION
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 radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this 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: · Reorient or relocate the receiving antenna. · Increase the separation between the equipment and receiver. · Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. · Consult the local dealer or an experienced radio / TV technician for help.Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20cm between the radiator & your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
Electrical and electronic equipment that are supplied with batteries (including internal batteries)
WEEE Directive & Product Disposal
At the end of its serviceable life, this product should not be treated as household or general waste. It should handed over to the applicable collection point for the recycling of electrical and electronic equipment, or returned to the supplier for disposal. Internal / Supplied Batteries.
This symbol on the battery indicates that the battery is to be collected separately.This battery is designed for separate collection at an appropriate collection point.

Please read the operating instructions carefully before use! Never leave units unattended when charging Unplug the charging cable immediately after charging Propellers may cause injury This product is not a toy Not suitable for children under 14 years of age
Product name: HUBSAN ACE 2 Product Standard Number:Q / HBS 001-2017 Vendor: Shenzhen Hubsan Technology Co., Ltd Address: Unit 2102C, Building F, Xinghe WORLD , Yabao Road, Bantian Street, Longgang District, Shenzhen Email: service@hubsan.com WWW.HUBSAN.COM

References

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