Beckhoff introduces EK9160 IoT Bus Coupler

  • May 04, 2016
  • Beckhoff Automation
Beckhoff introduces EK9160 IoT Bus Coupler
Beckhoff introduces EK9160 IoT Bus Coupler

May 4, 2016 – The EK9160 IoT Bus Coupler, from Beckhoff Automation, establishes a direct connection to the cloud without any special control program between Beckhoff, EtherCAT I/O and the Internet of Things (IoT). As a result, the coupler enables integration of I/O data with cloud-based communication and data services.

Via an integrated web server, I/O data can be parameterized, such as in data processing and timing, through a simple configuration dialogue. The EK9160 IoT Bus Coupler then autonomously transmits the data, including time stamp, to the cloud service. Apart from that, extended mechanisms are available, including local buffering of I/O data on a microSD card (2 GB) to protect against data loss when the Internet connection is interrupted. The cloud services and security functions (encryption, firewall) can be configured via the web server in the same way.

All major cloud systems are supported via the IoT protocols AMQP, MQTT and OPC UA (over AMQP): Microsoft Azure, Amazon Web Services (AWS), SAP HANA, as well as and private cloud systems in company networks. The EK9160 is "Microsoft Azure Certified" and enables communication with clouds based on advanced multi-cloud capabilities.

For data communication, the IoT Bus Coupler uses the publisher/subscriber communication principle. As a publisher, the EK9160 sends data to the cloud, enabling other applications to access the information as a subscriber. This application can then publish data itself if required, which in turn can be accessed by the IoT Bus Coupler. The devices do not need to “know” each other or individual IP addresses, rather only the central message broker, so the individual applications operate in “decoupled” mode. Moreover, communication for both the publisher and subscriber is always active and directed externally.

Standalone solutions for small manufacturing systems as well as complex machines and building services systems, for example, are possible. The selected cloud system is not a critical factor here, given the option to choose a public cloud or a local solution in a company network. Depending on requirements, services offered by the cloud provider and individual tools or services from third-party providers can be used as needed.

In conjunction with the portfolio of EtherCAT I/O Terminals offered by Beckhoff, the EK9160 can be used to transmit a range of machine and building data types to the cloud, such as temperature, pressure, vibration or energy consumption. Added to this is the possibility to monitor connected fieldbuses.

The I/O signals can not only be collected via EtherCAT, but also via the monitor operating mode of CANopen or PROFIBUS Terminals.

Cloud-basedcontrolviatheIoT fieldbus

In addition, the concept of cloud-based control can be implemented using the IoT fieldbus. In this context, TwinCAT software from Beckhoff resides as an IoT controller in the cloud and acts as an MQTT message broker.

The required data is supplied by IoT devices such as the EK9160 that can be installed in globally distributed locations, if required. In this application scenario, the IoT fieldbus, which has been implemented by Beckhoff, based on the MQTT protocol, supports the necessary publisher/subscriber communication. As a result, all requirements can be fulfilled to relocate the control and data analysis processes to TwinCAT in the cloud.

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