XAG P100 Pro Owner's manual
XAG P100 Pro
Pilot’s Operating Handbook
EN
Version AU V1.0
Type: 3WWDZ-50AH
Disclaimer anD Warnings
This User Manual / Pilot Operating Handbook
("Handbook") is provided for the XAG P100 Pro
("Product") by XAG ("Company"). The Product is not a
toy and is not suitable for children under the age of 18.
Adults should keep the Product out of reach of children
and exercise caution when operating this Product in
the presence of children.
The Product is a multirotor flying platform designed
for agricultural applications in farmland, woodland,
and orchards only. It is crucial to read and understand
all materials associated with the Product before
its first use. These documents are included in the
product package and are also available online on the
Company's product page.
Failure to read and follow the instructions in this
Handbook may result in serious injury to yourself
and/or others, and damage to your Products and/
or other objects in the vicinity. By using this Product,
you hereby signify that you have read this disclaimer
and the Handbook carefully and that you understand
and agree to abide by all terms and conditions of this
document and all relevant documents of this product.
You agree that you are solely responsible for your
own conduct while using this product, and for any
consequences thereof.
NO ADVICE OR INFORMATION, WHETHER ORAL OR
WRITTEN, OBTAINED BY YOU FROM THE PRODUCT,
PRODUCT ACCESSORIES, OR ANY MATERIALS
WILL CREATE ANY WARRANTY REGARDING THE
PRODUCT THAT IS NOT EXPRESSLY STATED IN THESE
TERMS. YOU ASSUME ALL RISKS FOR ANY DAMAGE
THAT MAY RESULT FROM YOUR USE OF OR ACCESS
TO THE PRODUCT, PRODUCT ACCESSORIES, AND
ANY MATERIALS. YOU UNDERSTAND AND AGREE
THAT YOU USE THE PRODUCT AT YOUR OWN
DISCRETION AND RISK, AND THAT YOU ARE SOLELY
RESPONSIBLE FOR ANY PERSONAL INJURY, DEATH,
DAMAGE TO YOUR PROPERTY OR THIRD-PARTY
PROPERTY, OR THE LOSS OF DATA THAT RESULTS
FROM YOUR USE OF OR INABILITY TO USE THE
PRODUCT. SOME JURISDICTIONS MAY PROHIBIT A
DISCLAIMER OF WARRANTIES AND YOU MAY HAVE
OTHER RIGHTS THAT VARY FROM JURISDICTION TO
JURISDICTION.
and revision of the Terms and conditions herein to
the extent permitted by law. XAG also reserves the
right to update, modify or terminate these terms and
XAG reserves the right to update this disclaimer
and safety guidelines. Visit the Company's website
periodically for the latest version. This disclaimer
is available in various languages. In the event of
divergence among different versions, the Chinese
version shall prevail.
This document and all other collateral documents
are subject to change without prior notice at the sole
discretion of XAG.
LIMITATION OF LIABILITY
The Company shall not be liable for any indirect,
incidental, special, consequential or punitive damages
other intangible loss) arising out of or relating to your
access to or use of, or your inability to access or use,
the Product, Product accessories, or any materials,
flight environment data, whether based on warranty,
contract, tort (including negligence), statute, or any
other legal theory.
Except as otherwise agreed upon between you and
the Company, the aggregate liability of the Company
to you for all claims arising out of or relating to the use
of or any inability to use any portion of the Product or
otherwise under these terms, whether in contract, tort,
or otherwise, is limited to $100.
DATA STORAGE AND USAGE
When you use our mobile apps or our products or other
software, you may provide the Company with data
regarding the use and operation of the product, such
as flight telemetry data (e.g., speed, altitude, battery
life, and operations record. Refer to the Company's
Privacy Policy for more information.
Individual Parts
Regarding Genuine and Functional Parts
Purchasing components from unauthorized sellers,
commonly found on ecommerce platforms like eBay
or Alibaba, carries substantial risk. Not only will the
product warranty be voided, but non-authorized parts
may cause performance degradation, malfunctions,
or total system failure. These risks can lead to safety
hazards, including potential injury or property damage.
Legal implications may also arise, including fines or
legal action, particularly if the accident occurs in a
regulated context or causes harm.
For the safe, reliable, and lawful operation of your XAG
Agricultural Drone, adhere strictly to these guidelines.
Always validate the seller's authorization status when
purchasing components and buy only from reputable
sources. Your drone is a sophisticated device; risking
advised. Prioritize safety by relying on XAG-certified
parts and guidelines.
To ensure optimal performance and safety when
operating XAG Agricultural Drones, strictly adhere to the
following guidelines:
⚠EXCLUSIVELY USE AUTHENTIC XAG
COMPONENTS: Parts must be genuine XAG or
certified by XAG. The utilization of unauthorized
parts or those from non-XAG certified
manufacturers may trigger system malfunctions
and compromise safety. Violation of this guideline
will result in the immediate voiding of the product
warranty.
⚠ENSURE COMPONENTS ARE FOREIGN OBJECT
FREE: Prior to each operation, verify that no
foreign objects, such as water, oil, soil, or sand,
have entered the aircraft or its components.
⚠MAINTAIN EQUIPMENT IN OPTIMUM
CONDITION: Confirm the aircraft and all
components are functioning correctly and are
free from damage. Key components include the
remote controller, compass, propulsion system,
radar modules, and spraying system.
⚠WARNING
OPERATIONAL SAFETY:
01. Port Usage: Ports on the remote controller must be
used strictly in accordance with their designated
specifications.
02. Internet Connectivity: Regular internet access, via
WI-FI or a SIM card, is mandatory for the remote
controller. Failure to maintain this connection may
result in XAG being unable to provide warranty
repair services, and any resultant losses will not
be the responsibility of XAG.
03. Joystick Protocols: Under no circumstances
should the joysticks be activated to start the
motors when the aircraft is airborne.
⚠WARNING
Remote Controller
PHYSICAL INTEGRITY:
01. Charging Precautions: Ensure the remote
controller is sufficiently charged prior to each
flight. Any exposure to moisture, especially during
charging, is strictly prohibited.
02. Antenna Positioning: Antennas must be correctly
positioned for optimal data transmission. Ensure
no obstructions block or cover the folding
antennas or the external GNSS antenna.
03. Handling & Storage: The remote controller must
always be held by the pilot and should never be
placed on objects for transmission. Store in a
location free from potential damage.
ⓃNotes
OPTIMAL USAGE:
01. Data Transmission: Prior to take-off, ensure your
phone is connected to the remote controller’s WI-
FI.
02. Transmission Quality: Utilize the XAG One APP to
select the ideal transmission channel based on
the environment. Adjust the antenna's position
or relocate to an obstruction-free environment if
signal strength weakens.
03. Replacement Protocols: When utilizing a
replacement remote controller, it must be linked to
the aircraft and tested for a minimum transmission
distance of 400 m.
04. Battery Maintenance: The internal batteries of the
remote controller should be fully charged at least
once every three months. If a triple-beeping sound
is detected, immediate charging is required.
Batteries should be charged promptly if they
reach 0% to prevent over-discharge damage.
Aircraft Airframe
PORT AND CONNECTOR INTEGRITY:
⚠Port Compliance: All ports on the aircraft body
must be utilized in strict accordance with their
designated specifications. Any deviation can lead
to severe operational malfunctions.
⚠Short Circuit Prevention: Under no circumstances
should the ports and connectors on the aircraft
body be subjected to conditions that might induce
a short circuit.
⚠WARNING
ANTENNA AND RADIO INTERFERENCE:
⚠Operational Environment: The aircraft must
be operated in environments devoid of radio
interference. It is imperative that onboard antennas
remain unobstructed during all operational phases.
⚠USB-C Port Protection: If the USB-C port is not
actively in use, the waterproof cover must be
securely attached to prevent potential water ingress
and subsequent short circuits.
ARM FOLDING AND UNFOLDING PROTOCOLS:
⚠Unfolding Directives: For the M1 and M4 arms, the
arm. For the M2 and M3 arms, the M3 arm must be
⚠Folding Directives: For the M1 and M4 arms, the M1
arm must be folded first, followed by the M4 arm.
For the M2 and M3 arms, the M2 arm must be folded
PROPELLERS:
⚠
a rigorous assessment of the propellers. Any
propellers exhibiting signs of wear, chipping, or
breakage must be immediately replaced.
⚠Strict Safety Protocols: Under no circumstances
should the aircraft be powered on when handling
propellers. Exercise extreme caution due to the
inherent sharp edges of the propellers.
⚠
is imperative that propellers are securely anchored
from operational propellers to avert potential harm.
⚠WARNING
MOTORS:
⚠Installation & Functionality: It is essential to
without any hindrance. Ventilation apertures on the
motors must remain unobstructed at all times.
⚠Safety Directives: Any alterations or modifications
to the motor structure are strictly prohibited.
Post-operational motors can reach elevated
temperatures; any interaction should be
approached with utmost caution.
ⓃNotes
Maintenance Protocol: Motors must be consistently kept
devoid of dust and any potential external impediments.
Propulsion System
Terrain-Following Radar
DEVICE INTEGRITY:
⚠Cleanliness: Ensure the terrain following radar and
its wires are clean. Keep them away from chemicals
and dust to make sure they work correctly.
⚠WARNING
OPERATIONAL PROTOCOLS:
⚠Operational Environment: The aircraft must
be operated in environments devoid of radio
interference. It is imperative that onboard antennas
remain unobstructed during all operational phases.
⚠USB-C Port Protection: If the USB-C port is not
actively in use, the waterproof cover must be
securely attached to prevent potential water ingress
and subsequent short circuits.
OPERATIONAL CAUTIONS:
⚠Variable Effectiveness: The radar's efficacy and
detection range are subject to variations based
on numerous factors. These include, but are not
limited to, the material, shape, location, form, and
size of obstacles such as trees. The aircraft's speed
and altitude further influence these parameters.
Detailed guidance on these variables can be found
⚠Surface Integrity: It is imperative that the surface
of the dynamic radar remains uncontaminated to
ensure optimal functionality. Any deviations from
this can lead to operational abnormalities.
⚠Manual Oversight: Despite the capabilities of the
dynamic radar and the XAG One APP, operators
must maintain vigilant control over the aircraft.
Relying solely on automated systems is strictly
discouraged. The aircraft must remain within the
Visual Line Of Sight (VLOS) at all times. In situations
demanding immediate intervention, operators
must exercise their discretion and assume manual
control to navigate around obstacles.
⚠the aircraft's proximity to vegetation, ensuring
adherence to safety protocols.
⚠Strict adherence to these directives is paramount
for the safe and efficient utilization of the Terrain
Following Radar.
⚠WARNING
Radar Module
DETECTION PARAMETERS:
⚠Detection Range: The dynamic radar is equipped
with a horizontal obstacle detection range spanning
±40° and a vertical range from +90° to -45°. It is
crucial to understand that the aircraft is blind
to obstacles outside this detection range. Such
scenarios necessitate heightened caution during
operations.
⚠Specific Obstacle Concerns: The radar's
detection capabilities can be compromised when
encountering objects positioned at an inclined angle
relative to the aircraft's flight direction, such as
portion of the radar's electromagnetic waves may
be deflected in such scenarios, operators must
exercise heightened vigilance.
RevoSpray System
SYSTEM SETUP:
⚠Attachment: Make sure the RevoSpray System is
tightly attached to the aircraft.
⚠Wiring: Avoid using any wires that are exposed or
damaged.
⚠Load Limit: Don't fill the spray tank beyond its
maximum limit. Check the RevoSpray System's
manual for details.
⚠WARNING
PUMPS AND NOZZLES:
⚠Cleaning: After using, clean the tubing with soapy
water.
⚠Nozzle Check: Ensure the nozzle disks are whole
and undamaged to prevent chemicals from
spreading where they shouldn't.
SPRAY TANK:
⚠
place and doesn't leak any liquid.
USAGE AND HANDLING:
01. Official Equipment Requirement: Only the
designated XAG Smart Battery is permitted for use.
Any deviation from this specification can lead to
severe operational malfunctions.
02. Voltage Awareness: Users must be acutely aware
that the aircraft's voltage can peak at 55.4V. Such
voltages necessitate meticulous handling to ensure
safety.
03. Liquid and Chemical Exposure: The battery terminal
and top case must remain free from exposure to
any form of liquid, including water and chemicals, to
prevent potential short-circuiting and subsequent
damage.
04. Cooling Protocols: Cooling sessions for the battery
are restricted to a maximum of 60 minutes.
Complete submersion of the battery in water is
strictly prohibited.
05. Charging Precautions: During the charging process,
it is imperative to ensure that no water from the
water-cooling box comes into contact with the
charger or supercharging station.
⚠WARNING
PHYSICAL INTEGRITY:
01. Insertion & Removal Protocols: The battery must
be powered off before any insertion or removal
procedures. Non-compliance can lead to damage
to the power interface.
02. Battery Care: The battery must not be subjected to
disassembly, puncturing, or undue pressure. Such
actions can compromise its integrity and safety.
03. Charging Environment: A minimum distance of
30cm must be maintained between batteries and
chargers during the charging process to prevent
ⓃNotes
Aircraft Battery
USING PESTICIDES:
⚠Safety Gear: Always wear long-sleeved shirts,
pants, masks, goggles, and rubber gloves when
preparing pesticides.
⚠Safe Area: Use pesticides in places with good air
⚠Check Your Gear: Look over your safety gear for
before handling pesticides again.
MAINTENANCE AND STORAGE:
01. Cooling Medium: Only distilled, non-corrosive water
is permitted for battery cooling.
02. Water Levels: Water levels within the battery must
strictly adhere to the indicated Max and Min levels.
03. Charging Protocols: Prior to charging, the battery
socket must be meticulously inspected for
cleanliness and moisture. The charging socket and
battery interface must be free from any metallic
debris or liquid remnants.
04. Temperature Compliance: The battery is designed
to operate within the 10°C to 45°C range. Any
deviation from this range can lead to severe risks,
05.
light is activated, it indicates a requirement to
charge the battery to a level between 40%-60%
for optimal storage. Periodic full charge-discharge
cycles, at least once every 90 days, are mandatory
for battery health.
Battery Charger
OPERATIONAL INTEGRITY:
01. Secure Connection: The charger's plug must
be securely inserted at all times. Inadequate
connections can lead to overcurrent, overheating,
02. Liquid Exposure Prevention: The charger must
remain free from any form of liquid, including
water and chemicals. Exposure can result in short-
circuiting, leading to irreversible damage.
03. Environmental Hazards: The charger must be
protected from environmental contaminants
such as sand, dust, and foreign objects. Such
obstructions can impair the fan's functionality,
leading to cooling inefficiencies and potential
overheating.
⚠WARNING
FIRMWARE INTEGRITY & SAFETY:
01.
or updating the aircraft's firmware, a preliminary
test run of the drone is mandatory, and this must
be conducted without its propellers affixed. This
ensures the remote controller, motors, and other
integral electronic modules are operational.
Propellers should only be installed subsequent to
a thorough verification of system functionality to
mitigate potential hazards.
02. Safety During Updates: During firmware updates,
system calibrations, and parameter setting
procedures, it is imperative to maintain a secure
perimeter, ensuring both humans and animals are
at a safe distance.
⚠WARNING
ⓃNotes
Software and Firmware
VOLTAGE AND DEVICE HANDLING:
01. Voltage Compliance: The charger must only
be operated within its specified voltage limits.
Exceeding these limits can lead to severe
malfunctions.
02. Device Maintenance: Regular inspections are
required to ensure the charger's plug is free from
damage, rust, or corrosion. The charger must be
stored in a cool, dry environment to ensure its
longevity.
03. Physical Care: The charger must be handled with
utmost care. Any external damage can compromise
FIRMWARE UPDATES & MAINTENANCE:
01.
02. Sequential Updates: Post the aircraft's firmware
update, it is essential to verify and, if necessary,
to the latest available version.
03. Re-linking Post Update: There exists a possibility of
the remote controller becoming unlinked from the
aircraft subsequent to an update. In such instances,
re-establishing the link between the remote
controller and aircraft is crucial.
04.
update, all connections must be meticulously
inspected.
05.
integrity.
06. Updates Post Part Replacement: Should any
electronic components be replaced, an immediate
XAG One APP Flight Condition Requirements
OPERATIONAL SAFETY:
⚠Physical & Mental Condition: Operation of the
aircraft while under the influence of alcohol,
drugs, anesthesia, or any other condition that may
impair judgment or physical capability is strictly
prohibited.
⚠Motor Interruption: The cessation of motor
function during flight is forbidden unless faced
with a dire emergency that necessitates such
action to prevent further harm or damage.
⚠Payload Protocols: Releasing, launching, or
projecting hazardous materials or objects towards
structures, individuals, or animals is unequivocally
prohibited.
⚠WARNING
Responsible Aircraft Operation
ⓃNotes
LEGAL & ETHICAL CONDUCT:
01. Certification & Training: Prior to any operation, the
operator must have completed the requisite drone
operation training and possess a valid drone
operation certificate as mandated by regional
laws.
02. Adherence to Regional Regulations: All operations
must strictly adhere to the prevailing regional laws
governing drone flights, including but not limited
to flight altitudes, operational zones, and visibility
requirements.
03. Emergency Protocols: Operators must be
adequately trained to manage emergencies and
must have established procedures in place for
unforeseen incidents.
04. Safety Evaluation: A rigorous safety assessment is
mandatory before each flight. Any form of reckless
or negligent operation is unacceptable.
05. Illicit Activities: The aircraft shall not be used for
any activities deemed illegal or inappropriate,
such as espionage, unauthorized military
operations, or unsanctioned investigations.
06. Respect for Privacy & Legal Rights: Any operation
that infringes upon the privacy, publicity, or other
legal rights of individuals is strictly prohibited.
07. Property Boundaries: Unauthorized entry or
operation over private properties is forbidden.
ⓃNotes
APPLICATION MAINTENANCE & USAGE:
01. Version Updates: It is imperative to consistently
update the XAG One APP to the most recent
version available.
02. Regulatory Compliance: All safety tips, warning
messages, and disclaimers provided within the
app must be meticulously read and understood.
Familiarize yourself with all pertinent regulations
within your operational jurisdiction. The onus
of being conversant with, and adhering to, all
relevant regulations rests solely with the user.
Particular vigilance is required in scenarios such
as:
a. Utilizing the RTL (Return to Launch) and Auto-
landing functionalities.
b. Configuring the altitude settings beyond the
default threshold of 30m.
OPERATIONAL PRECAUTIONS:
⚠Manual Override: In the event of a warning message
being displayed within the app, be prepared to
assume manual control of the aircraft using the
remote controller.
⚠
to scrutinize all warning messages presented in the
aircraft status list within the app.
⚠Map Data Caching: Before each operation, ensure
you cache the map data for your intended flight
area by establishing an internet connection.
⚠Application Login: An active internet connection is
required to log into the XAG One APP. Ensure you
are logged in before commencing operations.
⚠Flight Parameter Verification: It is of paramount
Weather Conditions and Surrounding
Environment
OPERATIONAL PARAMETERS:
⚠Weather Constraints: The aircraft is engineered
for optimal performance in benign to moderate
weather conditions. Operation is strictly limited
to sunny, cloudy, or partly cloudy conditions with
wind velocities not exceeding 5.4 m/s (19 km/h).
Activities under adverse conditions such as rain,
snow, frost, fog, thunderstorms, hail, sandstorms, or
in the presence of strong winds are unequivocally
prohibited. Furthermore, regions with pronounced
magnetic interference must be avoided.
⚠Adverse Weather Protocols: Should the aircraft
encounter detrimental weather conditions, such
as excessive wind speeds, rain, snow, or hail,
during its operation, it is imperative to immediately
stabilize the drone in a hover. If prevailing conditions
compromise a safe return trajectory, maintain
a temporary hover, identify a proximate secure
location, and navigate the drone to said location
posthaste.
⚠WARNING ⓃNotes
Interference with Flight Controller and
Communications
SAFETY & COMPLIANCE:
⚠Weight Limitations: Strict adherence to the
that exceed the aircraft's weight constraints are
strictly forbidden due to the inherent risks they
pose.
⚠
aircraft must maintain a minimum distance of 30 m
(98.4 ft) from individuals, fauna, structures, public
infrastructure, and water bodies. As the altitude
of the aircraft escalates, this distance must be
proportionally increased to ensure safety.
⚠Tank Load Limitations: When loading materials into
the tank, it is imperative that the total weight does
Non-compliance jeopardizes flight safety and is
strictly prohibited.
OPERATIONAL INTEGRITY:
⚠GNSS Signal Strength: Ensure that the GNSS
satellite navigation signal within the designated
operational area is robust and reliable. Inadequate
signal strength can compromise the execution of
tasks and jeopardize operational integrity.
⚠Environmental Assessment: Prior to commencing
evaluation of the surrounding environment. The
chosen operational area must be expansive and
devoid of towering structures or obstructions. It is
of paramount importance to ensure the absence
of electromagnetic interference sources, including
but not limited to high-voltage power lines,
communication base stations, and transmission
towers. The operational zone must be sufficiently
isolated from potential hazards, obstructions, and
unauthorized personnel. Any discernible safety
concerns within the vicinity must be promptly
addressed and rectified. Indoor flights are strictly
prohibited under all circumstances.
Operation Modes, Functions, and
Warnings
Operations Modes
⚠OPERATIONAL SAFETY:
⚠Mode Familiarity: Prior to any operation, ensure
comprehensive understanding of the aircraft's
behavior and response under each operational
mode:
- Autonomous Mode
- Manual Mode
- AB Mode
⚠Visual Monitoring: It is imperative to maintain
a direct line of sight with the aircraft and
continuously monitor its status throughout the
operation.
⚠WARNING
Return to Land (RTL)
ⓃNotes
NAVIGATIONAL PROTOCOLS:
01. Obstacle Mapping: In the event of RTL activation,
the aircraft is designed to chart a return path that
avoids mapped obstacles. Ensure comprehensive
mapping of all obstructions within the operational
area, inclusive of approach and operational
routes. Additionally, set optimal flight altitudes for
these routes to ensure safety.
02. Transmission Range: Always operate the aircraft
within the effective transmission range of the
remote controller.
03. GNSS Dependency: RTL functionality may be
compromised or rendered inoperative in the
absence of a robust GNSS signal.
04. Building Interference: Tall structures can adversely
impact RTL functionality. It is of paramount
importance to pre-set an appropriate failsafe
altitude prior to each flight. In the presence of a
strong remote controller signal, make necessary
adjustments to the aircraft's location, altitude,
and speed during its return to ensure obstacle
avoidance.
ℹIMPORTANT
ℹGNSS DEPENDENCY: The RTL function will not
operate in the event of weak or absent GNSS
signals. Ensure your drone maintains a strong
GNSS connection for the proper function of RTL.
ℹEFFECT OF TALL STRUCTURES: High-rise
buildings can negatively impact the RTL feature.
Therefore, it's crucial to establish an appropriate
failsafe altitude before each flight. Adjust the
aircraft's location, altitude, and speed while
returning home to avoid obstacles, provided there
is a strong remote controller signal.
ℹTRANSMISSION RANGE: Operate the drone
within the remote controller's transmission range
to ensure uninterrupted connectivity and function.
ℹEMERGENCY USE OF RTL: The RTL function
should be used only in emergency situations, as
its performance may be influenced by weather
conditions, environmental factors, and nearby
magnetic fields.
ℹOBSTACLE DETECTION: If an obstacle is
detected within 30 meters of the aircraft, the
drone will slow down, brake, and hover in place.
In this situation, the RTL mode is disengaged and
the drone waits for further commands.
ℹROUTE OPERATIONS: If the RTL function is
activated during Route operations, the aircraft
is capable of planning a flight path to avoid the
obstacles that were identified during the field
planning phase.
RTL Battery Level
ⓃNotes
POWER MANAGEMENT:
⚠Battery Threshold: If the RTL Battery Level is
activated, the aircraft will initiate a landing
sequence at the pre-set battery level. A setting of
25% is recommended for optimal safety.
Low Battery
ⓃNotes
EMERGENCY PROTOCOLS:
⚠Automatic Descent: Upon reaching the critical
battery threshold, the aircraft will automatically
initiate a descent sequence.
⚠Immediate Response: In the event of battery
warnings, it is imperative to expediently navigate
the aircraft back to the Home Point or execute a
safe landing. This is crucial to prevent potential
power depletion during flight, which could result in
damage to the aircraft, property, fauna, or pose a
risk to human safety.
Storage and Transportation
Responsible Aircraft Operation
Maintenance
UPKEEP AND SAFETY OF COMPONENTS:
⚠Post-Operation Cleaning: It is imperative to
meticulously clean all components of the aircraft
after each spraying or spreading operation. For
comprehensive cleaning guidelines, refer to the
"After-Flight Maintenance & Care" section.
⚠Remote Controller Maintenance: After each
operational day, cleanse the surface and
antennas of the remote controller using a cloth
dampened with water, ensuring it is well-wrung to
prevent excess moisture.
⚠Routine Inspection: Conduct a thorough
examination of every component of the aircraft in
alignment with the stipulations of the Maintenance
guide.
⚠Unauthorized Repairs: Under no circumstances
should one attempt to repair the aircraft
independently. For repair guidance, contact
⚠Authorized Parts: Utilize only official XAG-
approved spare parts for any repair or
replacement needs.
⚠WARNING
ⓃNotes
POST-INCIDENT PROTOCOLS:
Incident Assessment: Should the aircraft be involved
in an incident or collision, it is mandatory to conduct a
rigorous inspection of all its parts. Any required repairs or
replacements must be addressed prior to the next flight.
Alternatively, for a comprehensive evaluation, contact
the aircraft to our warehouse.
SAFETY AND INTEGRITY OF COMPONENTS:
⚠Hazardous Components: Small components,
including cables and tubes, pose a significant
ingestion risk. Ensure these parts are securely
stored and remain inaccessible to children and
animals.
⚠Aircraft Security: During transportation, it is
imperative to securely strap the aircraft to prevent
any movement or potential damage.
⚠Battery Removal: Prior to transportation, remove
the battery from the aircraft to mitigate risks
associated with battery damage or malfunction.
⚠Tank Emptying: Ensure that both the liquid and
granular tanks are emptied before transportation.
Any residual content can pose risks during transit.
⚠WARNING
Compliance with Regulations &
Flight Limits
ⓃNotes
OPERATIONAL COMPLIANCE:
⚠Regulatory Understanding: Prior to operation,
ascertain the nature of your flight (e.g.,
recreational, public, commercial) and secure
the necessary permissions from relevant
governmental bodies. Engage with local
regulatory agencies for detailed guidelines.
⚠Sensitive Zones: Refrain from operating in or near
areas of sensitive infrastructure, including power
plants, water facilities, prisons, major roadways,
governmental buildings, and military installations.
REGULATORY ADHERENCE:
⚠Aircraft Modification: Under no circumstances
should the aircraft be altered or employed for non-
agricultural purposes.
⚠Proximity to Manned Aircraft: It is strictly
prohibited to operate in the vicinity of manned
aircraft. Should such a situation arise, ground the
aircraft immediately.
⚠Interference with Manned Operations: Ensure
the aircraft does not disrupt manned aircraft
operations. Maintain vigilant awareness of other
aircraft and obstacles.
⚠Event Zones: Refrain from operating the aircraft in
zones hosting significant events, including but not
limited to, sports events and concerts.
⚠Legal Restrictions: It is imperative to avoid flying
in areas where local regulations prohibit drone
operations.
⚠WARNING
OPERATIONAL GUIDELINES:
ℹRestricted Zones: Do not operate the aircraft
in zones designated as restricted by local
regulations. Such zones encompass airports,
international borders, major urban areas, and
event locations. Be apprised that these zones are
subject to change.
ℹAltitude Restrictions: Ensure the aircraft does not
exceed legally sanctioned altitudes.
ℹVisual Line of Sight (VLOS): The aircraft must
always remain within the operator's visual line
of sight. If necessary, employ an observer for
assistance.
ℹPayload Restrictions: The aircraft must not be
used to transport illicit or hazardous materials.
Flight Limits
OPERATIONAL COMPLIANCE:
Maximum Altitude: The aircraft should not exceed an
altitude of 100 m (328 ft) above ground level. Always be
cognizant of surrounding obstacles.
Distance Limit:
Operational Range: The aircraft's maximum configurable
flight distance is set at 1 km (0.62 mi). Ensure that the
aircraft remains within a range that allows for a safe
return, considering battery levels.
ℹIMPORTANT
safety
Pesticide Usage
• Pesticides are poisonous and pose severe risks to safety. Only use them in strict accordance
with their specifications.
• Chemicals residues on the equipment caused by splashes or spills during refilling or mixing can
irritate your skin, rinse with clean water and seek medical attention accordingly.
• Uses clean water or specialised mixing agents prescribed by Experts or Agronomist for mixing
chemicals.
• Ensure to stay in an upwind location when conducting chemical spraying to reduce and avoid
health hazards.
• Wear protective clothing and avoid direct physical contact with chemicals. Rinse your hands
and skin after handing chemicals and post-Flights.
• Effective use of pesticides depends on chemical density, spray rate, spray distance, flight
speed, wind speed, wind direction, temperature, humidity, and more… Consider all factors and
applicable laws or regulations when using chemicals.
• Do not compromise the safety of people, animals, or the environment.
• Do not contaminate rivers and sources of drinking water.
Environment Considerations
• Consider the surroundings and ensure a safe distance from obstacles or people.
• If there is strong wind, rain, snow, hail, or other adverse weather conditions, return or land the
aircraft at a safe location.
• Maintain a Visual line of sight of your aircraft at all times.
• Make sure your operations do not violate any applicable laws or regulations and have obtained
all appropriate authorisation before the operations. Consult with the relevant government
agency or authority to ensure compliance with all relevant laws and regulations.
Flight Operation
• Pre-flight Calibration and Inspection must be conducted before Operation.
• Stand clear and do not approach rotating propellers and motors.
• Operate within the specified max take-off weight to avoid potential safety risks which may result
in serious injury to yourself and/or others, damage to your Products, and/or other objects in the
vicinity.
• Maintain a Visual line of sight of your aircraft at all times.
• If the radar is not operating properly in the operating environment, the aircraft will not be able to
avoid obstacles that are not previously mapped within the APP. Manual Control is recommended
to ensure flight safety.
• Maintain complete control of the aircraft at all times. Obstacle avoidance is disabled in certain
situations and operating environments.
• Effectiveness of the Obstacle radar is dependent on the obstacle’s material, location, shape,
size, etc. Maintain visual line of sight and pay attention to its flight, and prepare to operate the
aircraft and manually avoid obstacles promptly or during an emergency.
• Strictly forbidden to conduct obstacle avoidance tests on humans or animals (regardless of
static or dynamic) as obstacles, it is also strictly prohibited for humans, animals, or objects to
obstruct, interfere or impact the aircraft directly.
• DO NOT fly above or near a populated area or population.
• DO NOT fly when you are fatigued or under the influence of alcohol or drugs.
Ingress Protection Rating
Under stable laboratory conditions, this aircraft has a protection rating of IPX7, which is waterproof,
dustproof, corrosion-resistant, and can be cleaned using a small amount of water. However, this
protection is not permanent and may reduce overtime after long-term use due to aging and wear.
Liquid leakage or penetration may damage electrical and internal components, and it is not covered
by the Product warranty.
Some of the scenarios that may decrease the Ingress Protection include but are not limited to the
following:
• There is a flight incident/collision causing the sealing to deform.
• Sealing structure is cracked or damaged.
• Waterproof covers or sealing are not adequately secured or installed.
Maintenance and Upkeep
• Check & ensure the equipment is in good condition; replace aged or broken parts before the
flight.
• Check & ensure the correct Propellers & Propeller Type (CW & CCW) are correctly installed.
• Conduct Regular Maintenance & record Logbook per warranty and regulation requirements.
• Use only XAG-approved parts and accessories for the maintenance and repair of your aircraft.
Our approved parts are designed and tested to ensure optimal performance and safety. Your
satisfaction and safety are our top priorities.
Please be aware that the use of third-party parts or accessories in the maintenance, repair, or
operation of your XAG aircraft may lead to the immediate voiding of your warranty. XAG's warranty is
designed to cover our products when used as intended, with parts and accessories that have been
expressly approved by XAG Australia.
Furthermore, XAG will not be held responsible or liable for any damages, incidents, or accidents that
may arise as a result of the use of third-party parts or accessories. This includes but is not limited
to, operational failures, mechanical malfunctions, or any potential harm to operators, bystanders, or
property.
⚠WARNING
Abide Local Laws and Regulations
You must not fly your drone
higher than 120 metres (400
feet) above ground level.
You must keep your drone
at least 30 metres away
from other people.
Remember, you must not
operate your drone in a way
that creates a hazard to
another aircraft, person or
property.
You must keep your drone
within visual line-of-sight. This
means always being able to
see the drone with your own
eyes (rather than through
You must not fly over
or above people or in
include beaches, parks,
events, or sport ovals where
there is a game in progress.
Respect personal privacy.
Don’t record or photograph
people without their consent
laws.
You must not fly your
drone over or near an area
affecting public safety
This could include situations
such as a car crash,
police operations, a fire or
firefighting efforts or search
and rescue.
If you’re near a helicopter
landing site or smaller
aerodrome without a
control tower, you can
fly your drone within 5.5
kilometres. If you become
aware of manned aircraft
nearby, you will have to
manoeuvre away and land
your drone as quickly and
safely as possible.
If your drone weighs more
than 250 grams, you must fly
at least 5.5 kilometres away
from a controlled airport,
which generally have a
control tower at them.
Visit -Know Your Drone- for a safe and responsible ight
Disclaimer and Warnings 3
Safety 14
P100 Pro Agricultural RPA 23
Product Profile 23
List of Items – P100 Pro 24
Overview – P100 Pro 25
Wiring Guide 26
Status Indicator 28
Status Indicator – SuperX4 FC 28
Status Indicator – Arm (Operation Mode) 30
XAG®RevoSpray P3 31
Overview – RevoSpray P3 31
Assembling RevoSpray P3 32
Disassembling RevoSpray P3 34
XAG®RevoCast P3 36
Overview – RevoCast P3 36
Assembling RevoCast P3 37
Changing the Spiral Feeder 41
Remote Controller – ARC3 Pro 43
Product Profile 43
List of Items – ARC3 Pro Remote Controller 43
Overview – ARC3 Pro Remote Controller 44
Status Indicator 45
Remote Controller Alert 47
Using the Remote Controller 48
Inserting SIM Card 48
ARC3 Pro RTK Module 48
Install Phone Holder 49
Charging the Remote Controller 50
Powering the Remote Controller ON/OFF 51
Operating the Aircraft 52
Button Functions 54
Hover / Pause Flight 56
RTL (Return-to-Land) 56
Optimal Transmission Zone 57
Networking Mode 58
Aircraft Response to Lost Connection with ARC3 Pro 59
Joystick Calibration 60
Calibration via XAG One APP 60
Calibration via ARC3 Pro 62
Take-off / Landing 63
Take-off / Starting Motors 63
Landing / Stopping Motors 64
Smart Battery 65
Overview – B13960S Battery 65
Using the Battery 66
Battery Level 66
Battery Status 67
Battery ON/OFF 67
Battery Storage 68
Battery Charger 69
Overview – CM13600 69
Status Indicator 70
Battery Charging 71
GNSS XRTK4 Mobile Station 72
List of Items – GNSS XRTK4 Mobile Station 72
Overview – GNSS XRTK4 Mobile Station 73
Battery Extension Rod Console 74
Battery ON/OFF 74
Battery Level 74
Battery Charging 75
Battery Status Indicator 75
GNSS RTK Module Console 76
Equipment Positioning Mode 77
XAG One APP 78
Download App – XAG One 78
XAG One APP User Interface 79
APP UI – Accounts Menu 79
App UI – Device Details (Aircraft) 81
APP UI – Operation (In Flight) 85
Preparing the Equipment 88
Prepare the Remote Controller 88
Add Device – Remote Controller 88
Prepare the XRTK4 Mobile Station (Optional Add-on) 90
XRTK Mobile Station Setup 90
Link Device – XRTK4 Mobile Station 93
Add Device – XRTK4 Mobile Station 94
DATUM Setup 97
Prepare the Aircraft 99
Unfold Arms 99
Unfold Spray Bar 100
Unfold Propellers 101
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