Temperature Rise Test of Integrated Joint Actuator for Robotic Applications

Why Thermal Performance Matters
Stable thermal performance is critical for robotic systems operating under long duty cycles.
Whether used in robotic arms, quadruped robots, exoskeletons, or automated equipment, excessive heat can directly affect reliability, accuracy, and service life.
 
Test Overview
This case presents a temperature rise test conducted on our integrated joint actuator under real operating conditions.
Operating mode: Continuous operation
Test duration: 40 minutes
 
Test Results
After 40 minutes of uninterrupted operation:
Motor temperature: increased from 14 °C to 42 °C
Surface temperature: remained below 35 °C
The low external surface temperature indicates efficient internal heat dissipation and a well-designed thermal structure.
 
Engineering Value
Efficient thermal control enables:
Longer service life of the actuator
Higher system reliability during continuous operation
Better suitability for multi-axis robotic systems
This integrated joint actuator is designed not only for high performance, but also for stable, long-term deployment in real-world robotic applications.