1、 Technical specifications
Technical parameter description
Product model ABB SB510 3BSE000860R1
Input voltage 24VDC (there is also information mentioning that 220VDC may be suitable for specific scenarios)
Output voltage -0.6 V DC
Voltage range 220VDC (may vary depending on the application scenario)
NVRAM 8 KB
Product size 166mm x 112mm x 36mm
The product weighs approximately 375g
Working temperature range: 0~55 ℃
Diagnostic bus 2 Mbps HDLC
Number of channels: 8 channels
2、 Functional Features
High performance:
By adopting advanced electronic technology and microprocessor technology, the operation of the motor can be controlled at high speed and precision, achieving high-precision positioning and motion control.
Multiple interfaces:
Supports multiple communication protocols and interfaces, such as CANopen, Profinet, EtherNet/IP, etc., for easy connection and communication with other devices or systems.
Programmability:
Support parameter setting and functional configuration through programming to meet different user needs. Users can implement various control algorithms and motion trajectories through programming to improve production efficiency and product quality.
High reliability:
Using high-quality materials and durable design, it can operate stably in harsh industrial environments with high reliability and stability. In addition, the module also has fault diagnosis and protection functions, which can detect and eliminate faults in a timely manner to ensure the normal operation of the system.
Easy to maintain and upgrade:
The design is simple, easy to maintain and upgrade. Users can perform maintenance work such as troubleshooting and software upgrades through simple operations, reducing maintenance and usage costs.
3、 Application scenarios
The ABB SB510 3BSE000860R1 servo drive module is widely used in the following fields:
Industrial automation:
In industrial automation systems, this module can be used to precisely control mechanical movements on production lines, such as robotic arms, conveyors, etc.
Mechanical control:
Used to control the movement and position of various mechanical equipment, ensuring the accuracy and stability of the mechanical system.
robotics:
In robot systems, it is used to control the motion of mechanical joints and achieve precise operation of robots.
Medical equipment:
Used to control the movement of medical equipment, such as surgical robots, scanning devices, etc.
Aerospace:
In the aerospace field, this module may be used to control the motion of precision instruments and equipment.
R&D and laboratory:
Used in research and laboratory environments to simulate and test various motion control scenarios.