工业4.0对数控机床控制器的四大需求

为了从工业 4.0 的浪潮中获益,数控机床制造商必须确保其控制器具备四大要素,才能集成从传感器到云端服务器等不同层次的制造环境,但是对于这些数控机床制造商来说,或许更大的挑战是从传统硬件控制器架构转移到智能机器自动化的软件架构,让该软件架构能在任何工业电脑(IPC)上运作。唯有软件机器自动化,才能达到工业 4.0所需要的集成性与弹性。

定义工业4.0架构中数控机床自动化的角色

发掘智能数控机床控制器必须具备的功能和特色

了解新兴和重要的工业标准

解释一种现场总线在支持IoT上脱颖而出的原因

揭示何种架构能成为必要且迈向工业4.0成功的条件

 

Ethernet-based fieldbus standards have changed the game for machine builders. But with so many protocols competing to be most valuable and viable, how should you decide which to use?

In this white paper, “5 Real-Time, Ethernet-Based Fieldbuses Compared,” we examine five different protocols that claim to offer the best price/performance open standard for real-time Ethernet fieldbuses. Topics covered include:

Criteria for evaluating Ethernet real-time protocols

5 standards compared: Ethernet/IP, Ethernet Powerlink, EtherCAT, PROFINET IRT, & SERCOS III

Evaluation of standards bodies, philosophies, and architectural underpinnings, response time, jitter, data rate, and more

Fieldbus scorecard: which standard wins in price/performance and market acceptance?

Understand your options when it comes to real-time, Ethernet-based fieldbuses. Read the white paper to see how the top five standards stack up.