SGDV2R8AE5A002000601 Original Yaskawa Equipment DeviceNet communication function type servo driver SGDV2R8AE5A002000601
Introducing the Yaskawa SGDV2R8AE5A002000601 Servo Driver
The Yaskawa SGDV2R8AE5A002000601 represents a significant advancement in servo drive technology, meticulously crafted for precision and reliability. This robust servo driver, equipped with state-of-the-art DeviceNet communication capabilities, is designed to facilitate seamless operation in a variety of applications. The harmony of its components ensures a system that not only performs exceptionally but also possesses the ability to adapt to changing industrial environments.
Product Overview
Feature | Specification |
---|---|
Model | SGDV2R8AE5A002000601 |
Brand | Yaskawa |
Communication Type | DeviceNet |
Max Motor Capacity | 0.4 kW |
Power Supply Voltage | Three Phase AC 200V |
Output Motor Types | SGMVV, Sigma -V |
Advanced Communication Features
This model’s exceptional DeviceNet support allows for simplified motion control integration, enabling users to harness the power of sophisticated programming tools readily available. By connecting the upper controller with the servo unit via a communication network, you can easily monitor and manage servo operations, enhancing diagnostic capabilities and minimizing maintenance time.
Servo Motor Integration
Upon installation, the SGDV2R8AE5A002000601 sets a new standard for performance, driven by both high-capacity SGMVV servo motors featuring rated outputs spanning from 22KW to 55KW, capable of high speeds up to 1500 rpm. The synergy between a robust design and built-in positioning functions ensures precision control and stability, resisting vibrations even under variable loads.
Equipped with a 20-bit serial encoder and supported by an array of optional components, this device guarantees not only performance but also scalability for future applications. Whether utilized in machine tools, handling, or food processing machinery, the Yaskawa SGDV2R8AE5A002000601 is engineered to enhance operational efficiency across diverse environments.