Active safety systems are critical in modern vehicles, and their evolution increasingly depends on precise, high-speed, and reliable actuators. Servos are widely used in steering assistance, emergency braking, camera alignment, and lidar aiming mechanisms. GXServo, with its high-torque output, extremely low angular error, and redundant safety design, plays a key role in ensuring driving safety.
Lane Keeping Assistance (LKA) systems often require quick, accurate steering correction. GXServo’s integrated dual encoder system provides ultra-low latency angular feedback, ensuring that the vehicle can respond to real-time road information in milliseconds, avoiding lane departure.
In Autonomous Emergency Braking (AEB), servos are used to control rapid response modules in the braking system. GXServo’s high-torque servo motor can execute full braking commands within milliseconds while maintaining consistent torque under high load and thermal stress, ensuring the braking process is both fast and stable.
The safety of intelligent driving also depends on the dynamic accuracy of sensors. In many camera and lidar adjustment platforms, servos are used to ensure real-time angle correction for these sensors. GXServo’s high-resolution control chip and anti-vibration design allow the servo to maintain angle stability even at high speeds or during sudden turns, ensuring system perception reliability.
Additionally, GXServo features redundant safety mechanisms such as dual feedback loops, overcurrent protection, and temperature derating control. In active safety systems, these protective measures are essential, reducing the risk of actuator failure to near zero.
As vehicle safety standards become stricter, the performance requirements for servos are continuously rising. GXServo’s servo motor not only meets ISO 26262 automotive safety standards but also supports high-frequency communication and real-time fault diagnosis, providing solid technical support for future intelligent driving safety solutions.
