Product Description
Four Basic Type: 1. Manual controllers: simple devices with buttons or switches to control the actuator. Such as handset, foot switch. 2. Automated controllers: Micro-controller or PLC-based systems for advanced control. 3. Wireless controllers: use Bluetooth, Wi-Fi or RF to control the actuator remotely. 4. Integrated controllers: built into the actuator for compact and streamlined designs. If you have specific application, feel free to ask us more.
Features:
Movement Control:
Start, stop, and reverse the direction of the actuator; control the speed of the actuator’s movement
Position Control:
Set and maintain specific positions for the actuator. Use feedback devices (e.g., potentiometer, encoders) for precise positioning.
Force Control:
Adjust the force exerted by the actuator. Prevent overloading or damage by limiting force output.
Feedback Integration:
Use sensors to monitor the actuator’s position, speed and force. Provide closed-loop control for improved accuracy.
Programmability:
Allow users to program specific motion profiles or sequences. Support automation and integration with other systems.
Safety Features:
Include overload protection, emergency stop, and fault detection.
Application:
Industrial Automation: Robotics, assembly lines, and CNC machines.
Medical Equipment: Adjustable beds, surgical tables, and imaging devices
Home Automation: Motorized furniture, window openers, and smart home systems.
Agriculture: Automated machinery for planting, harvesting, and irritation.
Aerospace: Control surfaces, landing gear and cargo handling.
Key Considerations when choosing a controller:
