Yaskawa NX100 Series SGDR-AXA01A Servo Axis Control Board – Precision Automation for Industry

Model:NX100 SGDR-AXA01A

Processor:Advanced microcontroller

Memory:8MB RAM, 4MB ROM

Operating Voltage:24V DC

Communication Interface:EtherCAT, CANopen, DeviceNet

Motor Compatibility:Yaskawa, third-party motors

Current Rating:Up to 10A per axis

Max Speed:30,000 RPM

Load Capacity:Up to 10kg per axis

Temperature Range:-20°C to +60°C

Dimensions:145mm x 145mm x 60mm

Weight:0.6kg

    The Yaskawa NX100 Series SGDR-AXA01A Servo Axis Control Board is engineered to provide unparalleled precision and control in industrial motion systems. This board is a cornerstone of the NX100 family, known for its robust design and high efficiency. Its compatibility with EtherCAT ensures seamless integration into advanced automation networks, enhancing system performance and reliability.

    Key features include a wide operating temperature range (-10°C to +60°C), ensuring reliable operation in various environments. The board is equipped with a 10W power supply, which efficiently manages the energy demands of servo systems, reducing energy waste and maintenance costs.

    The 4A max current capacity allows for driving heavy loads without compromise on performance. With a resolution of 1 µm, this control board delivers exceptional accuracy, making it suitable for applications requiring high precision, such as robotic arms, CNC machines, and high-speed assembly lines.

    The compact dimensions (100mm x 80mm x 30mm) make it easy to integrate into existing machinery, minimizing the need for extensive redesign or modifications. The board is built with durability in mind, featuring high-quality materials and advanced manufacturing processes to withstand harsh industrial conditions.

    Moreover, the Yaskawa NX100 Series SGDR-AXA01A is compatible with a wide range of Yaskawa servo motors and other third-party devices, providing flexibility and compatibility with diverse automation ecosystems. Its inclusion of an integrated braking chopper ensures smooth and safe operation, preventing unexpected movements during power interruptions.