Ethernet Powerlink on:
[Wikipedia]
[Google]
[Amazon]
Ethernet Powerlink is a
Picture 1: Frames above the time line are sent by the MN, below the time line by different CNs.
Picture 2: Time slots for nodes and the asynchronous time slot
Multiplex for Bandwidth Optimization
In addition to transferring isochronous data during each basic cycle, some nodes are also able to share transfer slots for better bandwidth utilization. For that reason, the isochronous phase can distinguish between transfer slots dedicated to particular nodes, which have to send their data in every basic cycle, and slots shared by nodes to transfer their data one after the other in different cycles. Therefore, less important yet still time-critical data can be transferred in longer cycles than the basic cycle. Assigning the slots during each cycle is at the discretion of the Managing Node.
Picture 3: Time slots in EPL multiplexed mode.
Poll response chaining
Mode used mainly for robotics applications and large superstructures. Key is lower number of frames and better data distributions.
ethernet-powerlink.org Ethernet POWERLINK Standardization Group website
sourceforge.net/projects/openpowerlink Open Source Stack
Ethernet Powerlink and OpenSafety Forums on LinkedIn
Ethernet Powerlink Group
OpenSafety Group
{{Ethernet Industrial Ethernet Industrial computing
real-time
Real-time or real time describes various operations in computing or other processes that must guarantee response times within a specified time (deadline), usually a relatively short time. A real-time process is generally one that happens in defined ...
protocol for standard Ethernet
Ethernet () is a family of wired computer networking technologies commonly used in local area networks (LAN), metropolitan area networks (MAN) and wide area networks (WAN). It was commercially introduced in 1980 and first standardized in 1 ...
. It is an open protocol managed by the Ethernet POWERLINK Standardization Group (EPSG). It was introduced by Austrian automation company B&R in 2001.
This protocol has nothing to do with power distribution via Ethernet cabling or power over Ethernet
Power over Ethernet, or PoE, describes any of several Technical standard, standards or ad hoc systems that pass electric power along with data on Ethernet over twisted pair, twisted-pair Ethernet cabling. This allows a single cable to provide ...
(PoE), power line communication, or Bang & Olufsen's PowerLink cable.
Overview
Ethernet Powerlink expands Ethernet with a mixed polling and timeslicing mechanism. This provides: * Guaranteed transfer of time-critical data in very short isochronic cycles with configurable response time * Time-synchronisation of all nodes in the network with very high precision of sub-microseconds * Transmission of less time-critical data in a reserved asynchronous channel Modern implementations reach cycle-times of under 200 µs and a time-precision ( jitter) of less than 1 µs.Standardization
Powerlink was standardized by the Ethernet Powerlink Standardization Group (EPSG) and founded in June 2003 as an independent association. Working groups focus on tasks like safety, technology, marketing, certification and end users. The EPSG cooperates with the standardization bodies and associations, like the CAN in Automation ( CiA) Group and the IEC.Physical layer
The original physical layer specified was 100BASE-TXFast Ethernet
In computer networking, Fast Ethernet physical layers carry traffic at the nominal rate of 100 Mbit/s. The prior Ethernet speed was 10 Mbit/s. Of the Fast Ethernet physical layers, 100BASE-TX is by far the most common.
Fast Ethern ...
. Since the end of 2006, Ethernet Powerlink with Gigabit Ethernet
In computer networking, Gigabit Ethernet (GbE or 1 GigE) is the term applied to transmitting Ethernet frames at a rate of a gigabit per second. The most popular variant, 1000BASE-T, is defined by the IEEE 802.3ab standard. It came into use ...
supported a transmission rate ten times higher (1,000 Mbit/s).
Repeating hubs instead of switches within the Real-time domain is recommended to minimise delay and jitter. Ethernet Powerlink uses IAONA's Industrial Ethernet Planning and Installation Guide for clean cabling of industrial networks and both industrial Ethernet connectors 8P8C (commonly known as RJ45) and M12 are accepted.
Data link layer
The standard Ethernetdata link layer
The data link layer, or layer 2, is the second layer of the seven-layer OSI model of computer networking. This layer is the protocol layer that transfers data between nodes on a network segment across the physical layer. The data link layer ...
is extended by an additional bus scheduling mechanism, which secures that at a time only one node is accessing the network. The schedule is divided into an isochronous phase and an asynchronous phase. During the isochronous phase, time-critical data is transferred, while the asynchronous phase provides bandwidth for the transmission of non time-critical data. The Managing Node (MN) grants access to the physical medium via dedicated poll request messages. As a result, only one single node (CN) has access to the network at a time, which avoids collisions, present on older Ethernet hubs before switches. The CSMA/CD mechanism of non-switched Ethernet, which caused non-deterministic Ethernet behaviour, is avoided by the Ethernet Powerlink scheduling mechanism.
Basic cycle
After system start-up is finished, the Real-Time domain is operating under Real-Time conditions. The scheduling of the basic cycle is controlled by the Managing Node (MN). The overall cycle time depends on the amount of isochronous data, asynchronous data and the number of nodes to be polled during each cycle. The basic cycle consists of the following phases: * Start Phase: The Managing Node is sending out a synchronization message to all nodes. The frame is called SoC—Start of Cycle. * Isochronous Phase: The Managing Node calls each node to transfer time-critical data for process or motion control by sending the Preq - Poll Request - frame. The addressed node answers with the Pres - Poll Response - frame. Since all other nodes are listening to all data during this phase, the communication system provides a producer-consumer relationship. The time frame which includes Preq-n and Pres-n is called time slot for the addressed node. * Asynchronous Phase: The Managing Node grants the right to one particular node for sending ad-hoc data by sending out the SoA—Start of Asynchronous—frame. The addressed node will answer with ASnd. Standard IP-based protocols and addressing can be used during this phase. The quality of the Real-Time behavior depends on the precision of the overall basic cycle time. The length of individual phases can vary as long as the total of all phases remain within the basic cycle time boundaries. Adherence to the basic cycle time is monitored by the Managing Node. The duration of the isochronous and the asynchronous phase can be configured.
Picture 1: Frames above the time line are sent by the MN, below the time line by different CNs.
Picture 2: Time slots for nodes and the asynchronous time slot
Multiplex for Bandwidth Optimization
In addition to transferring isochronous data during each basic cycle, some nodes are also able to share transfer slots for better bandwidth utilization. For that reason, the isochronous phase can distinguish between transfer slots dedicated to particular nodes, which have to send their data in every basic cycle, and slots shared by nodes to transfer their data one after the other in different cycles. Therefore, less important yet still time-critical data can be transferred in longer cycles than the basic cycle. Assigning the slots during each cycle is at the discretion of the Managing Node.
Picture 3: Time slots in EPL multiplexed mode.
Poll response chaining
Mode used mainly for robotics applications and large superstructures. Key is lower number of frames and better data distributions.
OpenSAFETY
Today, machines, plants and safety systems are stuck in a rigid scheme made up of hardware-based safety functions. The consequences of this are cost-intensive cabling and limited diagnostic options. The solution is the integration of safety relevant application data into the standard serial control protocol. OpenSAFETY allows both publish/subscriber and client/server communication. Safety relevant data is transmitted via an embedded data frame inside of standard communication messages. Measures to avoid any undetected failures due to systematic or stochastic errors are an integral part of afunctional safety Functional safety is the part of the overall safety of a system or piece of equipment that depends on automatic protection operating correctly in response to its inputs or failure in a predictable manner (fail-safe). The automatic protection syste ...
protocol. OpenSAFETY is in conformance with IEC 61508
IEC 61508 is an international standard published by the International Electrotechnical Commission consisting of methods on how to apply, design, deploy and maintain automatic protection systems called safety-related systems. It is titled ''Functio ...
. The protocol fulfills the requirements of SIL 3. Error detection techniques have no impact on existing transport layers.
Notes
References
* * * * * *External links
ethernet-powerlink.org Ethernet POWERLINK Standardization Group website
sourceforge.net/projects/openpowerlink Open Source Stack
Ethernet Powerlink and OpenSafety Forums on LinkedIn
Ethernet Powerlink Group
OpenSafety Group
{{Ethernet Industrial Ethernet Industrial computing