Input Voltage (AC):230 to 480V
Input Frequency (AC):47 to 63Hz
Nominal Input Current (AC):7A
Continuous Output Current:11A
Intermittent Output Current:22A
Size:9.54 x 14.2 x 5.46 inches
Interface Medium:RS232, RS485, DeviceNet
Multi-turn Absolute Encoder Compatibility:Yes
Auxiliary Power Supply:Yes
Internal Shunt Resistance:40 Ohms
Weight:22.96 pounds
The Allen-Bradley AB 2098-DSD-HV150-SE SERCOS Servo Drive boasts a compact yet robust design, specifically tailored for high-performance motion control tasks. It seamlessly integrates with the ControlLogix Programmable Automation Controller (PAC) platform, enabling users to achieve unparalleled control and efficiency in their automated systems.
Engineered for reliability and versatility, this servo drive supports a wide range of operating conditions, making it suitable for various industrial applications. Its advanced features include support for multi-turn absolute encoders, facilitating precise positioning and feedback without the need for additional power supplies.
With its compatibility with the Serial Real-Time Communication System (SERCOS) protocol, this drive ensures seamless communication and data exchange, enhancing the overall performance of the automation systems it’s integrated into. It’s designed to handle complex motion profiles, making it ideal for applications requiring intricate and dynamic movements.
Featuring a dedicated slot for both RS232 and RS485 interfaces, along with DeviceNet support, the Allen-Bradley AB 2098-DSD-HV150-SE provides flexibility in connectivity options. This allows for easy integration with a wide array of control systems, further enhancing its utility in diverse industrial settings.
Equipped with a high-quality internal shunt resistance of 40 Ohms, the servo drive ensures stable operation and efficient power management. Additionally, its auxiliary power supply feature enables the drive to support external logic operations, providing enhanced functionality and adaptability for various control scenarios.
There are no reviews yet.