FrigørFastgørLuk

Plug-and-play access to Amazon Web Services

IoT AWS Cloud

Beckhoff IoT technologies enable plug-and play access to AWS

As information technology and automation technology continue to converge, cloud-based communication and data services are increasingly used in industrial automation projects. Beyond the scope of conventional control tasks, applications such as big data, data mining and condition or power monitoring enable the implementation of superior, forward-looking automation solutions. New hardware and software products from Beckhoff for Industrie 4.0 and IoT ensure the simplest possible implementation of such advanced solutions.

Industrie 4.0 and Internet of Things (IoT) strategies place strict requirements on the networking and communication capabilities of devices and services. In the traditional communication pyramid point of view (figure 1), large quantities of data must be exchanged between field-level sensors and higher-level layers in these implementations. However, horizontal communication between PLC control systems also plays a critical role in modern production facilities. PC-based control technologies provide universal capabilities for horizontal communication and have become an essential part of present-day automation projects exactly for this reason. With the new TwinCAT IoT solution, the widely used TwinCAT 3 engineering and control software provides the ideal foundational technology for Industrie 4.0 concepts and IoT communication. Moreover, new IoT-compatible I/O components, like the EK9160 IoT Coupler from Beckhoff, enable easy-to-configure and seamless integration into the Amazon Web Services (AWS) ecosystem.

AWS IoT offers the ideal communication platform to enable a secure and performant transmission of machine data to AWS. TwinCAT IoT as well as the EK9160 support AWS IoT and can consume its functionalities with minimized configuration effort. With the help of TwinCAT HMI, which can be hosted in an Amazon EC2 instance, machine data can be connected via an MQTT Server Extension and visualized via HTML5 technologies and therefore displayed on any device.

AWS Summit 2017, Presentation Sven Goldstein, Product Manager Beckhoff Automation

Products

TE2000

The TC3 HMI (human-machine interface) integrates itself into the well-known Visual Studio® development environment. Based on the latest web technologies (HTML5, JavaScript), it allows the user to develop platform-independent user interfaces that are “responsive”, i.e. they automatically adapt to the screen resolution, size and orientation at hand. With the graphical WYSIWYG (what-you-see-is-what-you-get) editor, controls can be easily arranged via drag-and-drop and linked with real-time variables.

TF2000

The TC3 HMI Server is a modular web server that provides the human-machine interface (HMI). It supports all CPU classes from ARM to multi-core. The powerful architecture enables a wide range of application scenarios from local panel solutions to multi-client, multi-server and multi-runtime concepts.

TF6720

The TC3 IoT Data Agent provides bi-directional IoT communication functions in the form of a gateway application that can be configured and operated independently from the TwinCAT real-time environment.

TF6730

The TC3 IoT Communicator makes it possible to easily transmit process data to multiple end devices, monitor status changes, and send information back to the machine.

EK9160

The EK9160 Coupler provides direct connectivity for EtherCAT I/Os to the Internet of Things (IoT) without the need for a control program. It converts the E-bus signal representation to different IoT communication protocols and enables in this way the simple and standardised integration of I/O data into cloud-based communication and data services. Neither a controller nor prior programming is necessary. The I/O data transmission can be parameterised in a user-friendly configuration dialog of the integrated web server providing access via any browser. The required cloud services and security functions (authentication, encryption, etc.) can also be conveniently configured using a browser. Following parameterisation, the coupler autonomously transmits the digital or analog I/O values to the cloud service, including timestamp.