Product highlights
Max. Power
Voltage
Weight
Motor 105.30
The AXI 105.30 delivers up to 9.8 kW of power in a robust European-made design. Available with optional Hall sensors, it’s an ideal motor for professional UAV applications.
Product highlights
Max. Power
Voltage
Weight
Pairs well with
Verified EU-made.
Cyber security built into every component.
Remote troubleshooting & configuration help
Motor 105.30
Product details
⚡ High-Performance Power in a Proven Design
The AXI 105.30 motor series delivers up to 9.8 kW of peak power with excellent efficiency and torque stability. Designed for demanding propulsion systems, it ensures smooth operation, precise control, and reliable performance across the full RPM range.
🛠️ European Engineering and Premium Materials
Manufactured in Europe from premium materials, the AXI 105.30 features precision machining, reinforced rotor construction, and high-quality bearings. Its robust design guarantees mechanical strength, low vibration, and consistent operation even under heavy load.
🛩️ Reliable Power for Professional UAVs
Combining high power density, smooth throttle response, and proven European craftsmanship, the AXI 105.30 is perfectly suited for UAV propulsion and other professional electric projects requiring dependable and efficient performance.
🔧 Flexible Configuration and Sensor Options
Available in multiple KV variants to suit different system requirements, the AXI 105.30 can also be equipped with Hall sensors on request.
Basic parameters
Max. peak power (kW)
Max. voltage (V)
Mechanical parameters
Weight kg
Motor length mm
Motor diameter mm
Shaft diameter
Electrical parameters
Number of pole pairs
Internal resistance
Max efficiency
No load current
Max peak current
Sensors
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Contact Us
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FAQs
Please read our FAQs page to find out more.
What is the difference between continuous and peak power?
Continuous power is the level the motor can safely handle over long periods. Peak power is the short-term maximum during acceleration or climb. Exceeding continuous ratings can cause overheating.
What happens if the motor exceeds its maximum temperature?
The motor temperature should normally be monitored by the ESC through the built-in motor temperature sensor. If thermal protection is disabled or not supported, excessive heat can cause partial demagnetization of the magnets, leading to permanent loss of performance or complete motor failure.
How to prevent overheating?
Ensure proper cooling by maintaining sufficient airflow or liquid circulation around the motor. Overheating often indicates that the motor is overloaded or operating outside its efficiency range. Always match the motor with a suitable propeller, gearbox, or load to keep current within the rated limits. Monitor temperature through telemetry and avoid running at peak power for extended periods
What does KV mean?
KV indicates how many revolutions per minute (RPM) the motor produces per volt.
What maintenance does a BLDC motor require?
Brushless motors are mostly maintenance-free. Periodically clean the motor using dry compressed air to remove dust and debris. Avoid using liquids or solvents, and make sure no moisture enters the housing. Check bearings occasionally for smooth rotation.