XRotor Pro H110A 14S FOC

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High-Efficiency ESC for Industrial UAV

Specifically Designed for Industrial UAV

Focusing on core propulsion control needs in industrial UAV applications, this ESC is widely compatible with multirotor motors,

VTOL motors and cruise motors. Leveraging highly reliable hardware and software technology,

it fully upgrades performance and provides stable and efficient propulsion control solutions for UAV aerial photography,

mapping & surveying, logistics, inspection, and other industrial applications.

Aerial photography

Mapping & surveying

Logistics

Inspection

Precise Control·Ultra-Fast Response
Higher Efficiency·Lower Noise

Precise Control: Powered by the modular architecture and HOBBYWING’s new algorithm, the ESC utilizes a mature and reliable FOC (Field-Oriented Control) algorithm for precise motor driving and regenerative energy recovery, ensuring stable and controllable propulsion output at high speeds.

Ultra-Fast Response: With fully optimized response speed and throttle linearity, the propulsion system reacts to commands and feedback with minimal delay, enhancing dynamic responsiveness during flight.

Higher Efficiency: The FOC algorithm is inherently efficient. Combined with a new diversion process to reduce internal resistance, it minimizes energy loss and improves propulsion efficiency.

Lower Noise: FOC vector control precisely regulates current to minimize torque ripple, effectively reducing operational noise. Coupled with a stable propulsion system design, it decreases abnormal vibration noise, ideal for noise-sensitive scenarios.

Core Components & Structural Design:

Lightweight Construction,
Robust Protection,
and Superior Heat Dissipation

1Low internal resistance

Using wide-temperature and high-power components with low internal resistance and strong current tolerance capacity, the ESC is adaptive to operation in extreme environments and extending service life.

2Lightweight

Featuring an ultra-lightweight design at just 130g (without cables) and a peak power-to-mass ratio of 46 W/g.

3Enhanced protection

Enhanced protection design: With the nano-coating technology and sealing rubber ring design on the cable outlets, the protection rating reaches IP55 (customizable to IP67), effectively improving water and dust resistance for harsh outdoor operation environments.

4Efficient heat dissipation

Efficient cooling system: Both the top and bottom shells directly contact internal heat zones, combined with high thermal conductivity materials for direct heat transfer.

5Accelerated heat dissipation

The 3D air-deflecting fins are interlaced to expand the heat dissipation area while utilizing natural convection for accelerated heat dissipation, ensuring stable operation of the ESC even under high-temperature conditions.

Anti-Interference & Redundancy Design:

Ensuring Maximum Flight Safety

· Dual Isolation Design: Features independent isolation for throttle and communication circuits,
dramatically improving electromagnetic interference (EMI) resistance. This effectively prevents signal
loss or erroneous commands, allowing reliable operation in complex and high-interference electromagnetic environments.

· Dual Throttle Redundancy: Supports simultaneous CAN and PWM throttle control. In the event of a signal abnormality,
the system instantly and seamlessly switches between throttle inputs, ensuring uninterrupted control and significantly
enhancing overall flight safety.

Isolated Design of Throttle and Communication

Throttle circuitCommunication circuit

Digital ControlDual-Throttle Redundancy
ensures fast and seamless
switching of throttle signals
under abnormal conditions.Analog Control

Full-Process Safety Assurance

Power-on self-test:

Automatically detects faults before takeoff, mitigating flight risks and reducing troubleshooting time.

Multiple intelligent protections:

Covers full-scenario protection functions for power-on undervoltage and overvoltage, MOS short circuits,
motor phase loss, throttle loss, throttle not zeroed, and abnormal sampling offsets. During operation,
it simultaneously supports soft/hardware overcurrent protection, stall protection,
abnormal temperature warnings, with reporting, alerts, and rapid restart for comprehensive flight safety.

Undervoltage
warning

Overvoltage
warning

MOS
short circuits

Motor
phase loss

Throttle
loss warning

Fail to reset
throttle to zero

Abnormal
sampling offsets

Overcurrent

Motor stall

Temperature
anomaly warning

Black Box Logging

The propulsion system monitors and records operation data in real time, supporting 2～48 hours of log storage.

Logs can be read via CAN bus, providing a reliable fault log analysis basis for rapid fault diagnosis,

accurate troubleshooting, while reducing O&M costs.

Supports 2～48 hours of log storage

Open Ecosystem & Intelligent Interconnection

Adaptable to Multiple Scenarios

Wide compatibility

Wide compatibility: The CAN communication protocol is compatible with mainstream flight controllers such as ArduPilot, VK, BOYING, PX4, and ACFLY to build a complete intelligent propulsion ecosystem, ready for rapid deployment without additional adaptation.
Real-time monitoring

Real-time monitoring: Flight controllers can precisely control the propulsion system via CAN, obtaining key data such as RPM, throttle, current, voltage, and temperature in real time, enabling users to monitor operational status at any time.
Flexible tuning

Flexible tuning: HOBBYWING’s DataLink PC configurator and throttle parameter adjustment function built in the ESC allow for easy adjustments to drive parameters, motor rotation direction, LED colors, propeller positioning settings, and more. ESC firmware can be updated via the DataLinkBox, flexibly adapting to diverse operational needs and reducing customization costs.

supports DroneCAN protocol and CAN communication

Wide compatibility: The CAN communication protocol is compatible with mainstream flight controllers such as ArduPilot, VK, BOYING, PX4, and ACFLY to build a complete intelligent propulsion ecosystem, ready for rapid deployment without additional adaptation.

Real-time monitoring: Flight controllers can precisely control the propulsion system via CAN, obtaining key data such as RPM, throttle, current, voltage, and temperature in real time, enabling users to monitor operational status at any time.

Flexible tuning: HOBBYWING’s DataLink PC configurator and throttle parameter adjustment function built in the ESC allow for easy adjustments to drive parameters, motor rotation direction, LED colors, propeller positioning settings, and more. ESC firmware can be updated via the DataLinkBox, flexibly adapting to diverse operational needs and reducing customization costs.

Rigorous Verification

for Ultimate Reliability

The ESC undergoes various rigorous verifications, such as voltage impulse tests,

extreme temperature endurance tests, and anti-interference tests,

fully covering the extreme operating conditions encountered in outdoor industrial applications,

ensuring long-term stable operation in complex environments and providing reliable propulsion for industrial drone missions.

Voltage impact

High and low-temperature
cycling operation

Extreme
temperature tolerance

Anti-interference

High temperature tests

Low temperature tests

: Thank you for your interest in HOBBYWING propulsion systems! For customized solutions,
please provide your contact information and technical requirements,
and we will get in touch with you within 24 hours.

By submitting this form, you agree to HOBBYWING's Privacy Policy

Thanks for reaching out!We have received your message and will get back to you shortly.: Best Regards,
HOBBYWING Team

XRotor Pro H110A 14S FOC CAD

Product NameXRotor Pro H110A 14S FOC

Specifications

Input Voltage Continuous Current Peak Current Operating Temperature Communication protocol Throttle Signal Isolated Mode Firmware Update Digital Throttle PWM Input Signal Level Throttle Signal Frequency Operating Pulse Width Throttle Range Calibration Throttle Source IPC Function Logging Time Ingress Protection level Weight( without wire) Size Signal Cable Define Cable Specification

18~63 V
50 A (wind speed: 7 m/s; ambient temperature: 28℃)
110 A (wind speed: 7 m/s; ambient temperature: 28℃; maximum operating time: 15 s)
-40℃~65℃
CAN
Throttle and communication isolation
Supported
CAN
5V/3.3V
50~500Hz
1100~1940 μs
Solidified and cannot be calibrated (can be changed via DataLink software)
CAN+PWM
Customizable
Default 2h (Max 48h by changing storage interval)
IP55(Custom IP67)
155 g
86.2x30.5x22.8 mm
The yellow wire is the ground wire, the gray wire is CH, and the green wire is CL; the black wire is the ground wire, and the white wire is the throttle signal wire
Input: Silicone cable-12AWG-145mm *2
Output: Silicone cable-14AWG-85mm *3
Signal: Shielded cable - 5-core - 410mm * 1, JR-3P male connector * 2

Support

Manuals & Documents

Disclaimer

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JR cable(interface) definition

How to set ESC ID-8.16

DataLink CAN upgrade guide

DataLink UART upgrade guide

About motor beep sound& ESC LED blinking

XRotor Pro H110A 14S FOC 3D Model Drawing

XRotor Pro H110A 14S FOC CAD

XRotor Pro H110A 14S FOC Manuals

Software Download

DATALINKV2

Telemetry: USB, CAN, Serial
Voltage: 6-81V
Size: 57*40*13mm(without wires)
Weight: 27g

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ESC

Accurate control, trusted performance.

PROPELLER

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CENTRIFUGAL NOZZLE

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WATER PUMP

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Transporting Each Trip in a Safe Manner

e-Vehicle Accessories

Skateboard Accessories

Scooter Accessories

Service and Support

Product Selection

XRotor Pro H110A 14S FOC

Overview Specifications Support Accessories Detail Contact us Shop

XRotor Pro H110A 14S FOC

High-Efficiency ESC for Industrial UAV

Specifically Designed for Industrial UAV

Focusing on core propulsion control needs in industrial UAV applications, this ESC is widely compatible with multirotor motors,

VTOL motors and cruise motors. Leveraging highly reliable hardware and software technology,

it fully upgrades performance and provides stable and efficient propulsion control solutions for UAV aerial photography,

mapping & surveying, logistics, inspection, and other industrial applications.

Aerial photography

Mapping & surveying

Logistics

Inspection

Precise Control·Ultra-Fast Response
Higher Efficiency·Lower Noise

Precise Control: Powered by the modular architecture and HOBBYWING’s new algorithm, the ESC utilizes a mature and reliable FOC (Field-Oriented Control) algorithm for precise motor driving and regenerative energy recovery, ensuring stable and controllable propulsion output at high speeds.

Ultra-Fast Response: With fully optimized response speed and throttle linearity, the propulsion system reacts to commands and feedback with minimal delay, enhancing dynamic responsiveness during flight.

Higher Efficiency: The FOC algorithm is inherently efficient. Combined with a new diversion process to reduce internal resistance, it minimizes energy loss and improves propulsion efficiency.

Lower Noise: FOC vector control precisely regulates current to minimize torque ripple, effectively reducing operational noise. Coupled with a stable propulsion system design, it decreases abnormal vibration noise, ideal for noise-sensitive scenarios.

Core Components & Structural Design:

Lightweight Construction,
Robust Protection,
and Superior Heat Dissipation

1Low internal resistance

2Lightweight

Featuring an ultra-lightweight design at just 130g (without cables) and a peak power-to-mass ratio of 46 W/g.

3Enhanced protection

4Efficient heat dissipation

Efficient cooling system: Both the top and bottom shells directly contact internal heat zones, combined with high thermal conductivity materials for direct heat transfer.

5Accelerated heat dissipation

Anti-Interference & Redundancy Design:

Ensuring Maximum Flight Safety

Throttle circuitCommunication circuit

Digital ControlDual-Throttle Redundancy
ensures fast and seamless
switching of throttle signals
under abnormal conditions.Analog Control

Full-Process Safety Assurance

Power-on self-test:

Automatically detects faults before takeoff, mitigating flight risks and reducing troubleshooting time.

Multiple intelligent protections:

Undervoltage
warning

Overvoltage
warning

MOS
short circuits

Motor
phase loss

Throttle
loss warning

Fail to reset
throttle to zero

Abnormal
sampling offsets

Overcurrent

Motor stall

Temperature
anomaly warning

Black Box Logging

The propulsion system monitors and records operation data in real time, supporting 2～48 hours of log storage.

Logs can be read via CAN bus, providing a reliable fault log analysis basis for rapid fault diagnosis,

accurate troubleshooting, while reducing O&M costs.

Supports 2～48 hours of log storage

Open Ecosystem & Intelligent Interconnection

Adaptable to Multiple Scenarios

Wide compatibility

Wide compatibility: The CAN communication protocol is compatible with mainstream flight controllers such as ArduPilot, VK, BOYING, PX4, and ACFLY to build a complete intelligent propulsion ecosystem, ready for rapid deployment without additional adaptation.
Real-time monitoring

Real-time monitoring: Flight controllers can precisely control the propulsion system via CAN, obtaining key data such as RPM, throttle, current, voltage, and temperature in real time, enabling users to monitor operational status at any time.
Flexible tuning

Flexible tuning: HOBBYWING’s DataLink PC configurator and throttle parameter adjustment function built in the ESC allow for easy adjustments to drive parameters, motor rotation direction, LED colors, propeller positioning settings, and more. ESC firmware can be updated via the DataLinkBox, flexibly adapting to diverse operational needs and reducing customization costs.

Rigorous Verification

for Ultimate Reliability

The ESC undergoes various rigorous verifications, such as voltage impulse tests,

extreme temperature endurance tests, and anti-interference tests,

fully covering the extreme operating conditions encountered in outdoor industrial applications,

ensuring long-term stable operation in complex environments and providing reliable propulsion for industrial drone missions.

Voltage impact

High and low-temperature
cycling operation

Extreme
temperature tolerance

Anti-interference

High temperature tests

Low temperature tests

: Thank you for your interest in HOBBYWING propulsion systems! For customized solutions, please provide your contact information and technical requirements, and we will get in touch with you within 24 hours.

By submitting this form, you agree to HOBBYWING's Privacy Policy

Thanks for reaching out!We have received your message and will get back to you shortly.: Best Regards,
HOBBYWING Team

XRotor Pro H110A 14S FOC CAD

Product NameXRotor Pro H110A 14S FOC

Specifications

18~63 V
50 A (wind speed: 7 m/s; ambient temperature: 28℃)
110 A (wind speed: 7 m/s; ambient temperature: 28℃; maximum operating time: 15 s)
-40℃~65℃
CAN
Throttle and communication isolation
Supported
CAN
5V/3.3V
50~500Hz
1100~1940 μs
Solidified and cannot be calibrated (can be changed via DataLink software)
CAN+PWM
Customizable
Default 2h (Max 48h by changing storage interval)
IP55(Custom IP67)
155 g
86.2x30.5x22.8 mm
The yellow wire is the ground wire, the gray wire is CH, and the green wire is CL; the black wire is the ground wire, and the white wire is the throttle signal wire
Input: Silicone cable-12AWG-145mm *2
Output: Silicone cable-14AWG-85mm *3
Signal: Shielded cable - 5-core - 410mm * 1, JR-3P male connector * 2

Support

Manuals & Documents

Disclaimer

HOBBYWING shall not be liable for any direct or indirect damage or loss caused by any third party using illegal means to access the website to obtain the relevant passwords, information and content.

HOBBYWING reserves the right to correct, modify and update this statement at any time.

Confirm >