Product highlights
Max. Power
Max. Current
Voltage
Weight
Controller TX Series
The TX Series 10 kW controller combines compact design, FOC precision, and advanced firmware for smooth, efficient, and responsive motion control.
Product highlights
Max. Power
Max. Current
Voltage
Weight
Pairs well with
Verified EU-made.
Cyber security built into every component.
Remote troubleshooting & configuration help
Controller TX Series
Product details
⚡ Compact Power, Intelligent Motion
With up to 10 kW of continuous power, the TX Series is designed for lightweight systems such as UAVs, e-bikes, or robotic platforms. Its FOC control ensures smooth, efficient torque response and minimal energy losses.
🧠 Advanced Firmware for Seamless Integration
The TX controller runs on optimized Silixcon firmware that balances fast dynamic response with ease of configuration. It supports multiple control interfaces, making integration into new or existing systems straightforward and fast.
🛠️ Lightweight, Reliable, and Cool
Compact construction, durable housing, and excellent thermal management make the TX Series a reliable companion for portable and agile electric drives.
Basic parameters
Max. continuous power (kW)
Max. peak power (kW)
Max. continuous current (A)
Max. peak current (A)
Mechanical parameters
Dimensions
Weight kg
Casing
Power density
Sensors compatibility
Motor temp., Hall sensors, Sin-Cos encoder, Incremental encoder, Resolver
Communication
Multiple analog inputs, CAN, UART, USB
Documents
If you have any questions, you are always welcome to contact us. We'll get back to you as soon as possible, within 24 hours on weekdays.
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Shipping Information
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Customer Support
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FAQ’s
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Contact Us
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FAQs
Please read our FAQs page to find out more.
What does an ESC do?
The ESC (Electronic Speed Controller) is the brain of the electric propulsion system. It regulates the current sent to the motor phases to achieve the required speed and torque. It also includes key protection features such as overcurrent, undervoltage, and overtemperature safeguards to prevent damage to the motor and power electronics.
How is the ESC controlled?
The ESC can be controlled by a flight controller, an autopilot, or directly by a transmitter or throttle signal. The most common control interfaces are PWM, CAN, and UART. PWM is simple and widely supported, while CAN and UART enable two-way communication for telemetry, configuration, and advanced diagnostics.
What happens if the ESC overheats?
Most ESCs monitor temperature via internal sensors. If protection is enabled, the ESC will reduce power or shut down. Without thermal protection, overheating can damage MOSFETs or capacitors and permanently destroy the controller.
How to prevent ESC overheating?
Provide adequate airflow or liquid cooling, depending on the ESC design. Avoid overloading the motor, since excessive current directly increases ESC temperature. Ensure correct propeller size or load and verify that wiring and connectors can handle the rated current.
What maintenance does an ESC require?
ESCs are maintenance-free. Keep them clean and dry. Use compressed air to remove dust, and check connectors periodically for corrosion or loose pins. Always make sure the ESC firmware is up to date.