Digital communication networks that enable major advances in manufacturing were showcased at a free seminar held recently at Glyndwr University in Wrexham, North Wales
Support for Your Companies & Your Community
Creating a supply of industry-ready graduates
Working with your companies to upskill employees
Providing flexibility in entry and exit points to learning
Student projects
Research projects
Knowledge Transfer Partnerships (KTPs)
Consultancy
Hosting events
PROFIBUS - the world's most successful fieldbus:
easy, flexible, consistent
PROFINET - the leading Industrial Ethernet Standard:
open, versatile, safe
IO-Link - the new standard in the lower field level:
Universal, smart, easy
A look at the types of tools and their development followed by a live demonstration of PROFIBUS and PROFINET device configuration using an open platform and web browser option.
“During my nearly 30 years in the industry, I have seen the benefits of using both PROFIBUS and PROFINET solutions. However, I have also felt the pain of installation, panel build and commissioning. This presentation is a condensed summary of best practice and hazards to be watchful for.”
The successful application of industrial networks depends on good planning and robust design. We’ll look at some of the considerations around PROFIBUS DP/PA network design, networking components, network drawings and the tools available to assist you. As ethernet based networks become more popular, can the existing plant networks continue to be utilised?
The modern world means that control systems are being integrated together within the plant with the aim of integrating everything into the MES and IT system. This step change is due to IIoT and Industry4.0 but does bring other considerations to the table. What should we think about in relation to network design and security?
This document discusses how to implement and test a stable industrial network. It covers test types like verification, qualification and certification tests. Verification tests check the cable wiring while qualification tests check signal quality. Certification tests fully test the network according to standards. The document also provides examples of test results and reports, and discusses topics like network topology, packet loss, load testing, and troubleshooting typical issues for PROFIBUS and PROFINET networks. Commissioning guidelines and design documents are recommended for implementing and testing industrial networks properly.
Support for Your Companies & Your Community
Creating a supply of industry-ready graduates
Working with your companies to upskill employees
Providing flexibility in entry and exit points to learning
Student projects
Research projects
Knowledge Transfer Partnerships (KTPs)
Consultancy
Hosting events
PROFIBUS - the world's most successful fieldbus:
easy, flexible, consistent
PROFINET - the leading Industrial Ethernet Standard:
open, versatile, safe
IO-Link - the new standard in the lower field level:
Universal, smart, easy
A look at the types of tools and their development followed by a live demonstration of PROFIBUS and PROFINET device configuration using an open platform and web browser option.
“During my nearly 30 years in the industry, I have seen the benefits of using both PROFIBUS and PROFINET solutions. However, I have also felt the pain of installation, panel build and commissioning. This presentation is a condensed summary of best practice and hazards to be watchful for.”
The successful application of industrial networks depends on good planning and robust design. We’ll look at some of the considerations around PROFIBUS DP/PA network design, networking components, network drawings and the tools available to assist you. As ethernet based networks become more popular, can the existing plant networks continue to be utilised?
The modern world means that control systems are being integrated together within the plant with the aim of integrating everything into the MES and IT system. This step change is due to IIoT and Industry4.0 but does bring other considerations to the table. What should we think about in relation to network design and security?
This document discusses how to implement and test a stable industrial network. It covers test types like verification, qualification and certification tests. Verification tests check the cable wiring while qualification tests check signal quality. Certification tests fully test the network according to standards. The document also provides examples of test results and reports, and discusses topics like network topology, packet loss, load testing, and troubleshooting typical issues for PROFIBUS and PROFINET networks. Commissioning guidelines and design documents are recommended for implementing and testing industrial networks properly.
An overview of the Group’s structure and global representation, taking a look at the protocol basics and their differences, plus showing the progress of the number of installed devices from the group’s supported technologies and relating these figures to their market share.
This document provides an agenda and overview for a workshop on PROFIBUS, PROFINET, and IO-Link technologies. The workshop includes keynote presentations on latest developments, design principles, configuration tools, functional bonding guidelines, and IO-Link. It is organized by PROFIBUS & PROFINET International and hosted by Siemens, with presentations from experts of various companies. The event aims to educate attendees on practical aspects of implementing these industrial communication standards.
User Friendly
Flexible Installation
Best Diagnostics
Safety Integrated
Synchronicity for Motion integrated
High Availability
Secure IT-integration
Energy Efficiency
IO-Link integration
Huge Organisation and Support Structure
1) The document discusses device configuration tools and standards including EDDL, FDT, and FDI.
2) It provides a history of device configuration and the roadmap that led to cooperation between groups to develop a single common standard.
3) The goals of the cooperation were to develop a solution that is applicable to all device communication technologies, network topologies, and is compatible with existing device descriptions while becoming an international standard.
A short journey to explain the IoT The Internet of Things, IIoT The Industrial Internet of things, IND4.0 from IND1.0 and Big Data. How PROFINET is placed as the ideal Industrial Fieldbus to fulfil the above, how its implemented and why you should consider it. Some of the myths explained.
This document summarizes Derek Lane's presentation on PROFINET for IoT, IIoT, and Industry 4.0. The presentation discusses how PROFINET supports the Industrial Internet of Things through features like data access, uptime, and open standards. It also covers trends like how big data is analyzed in the cloud and how technologies like PROFINET and OPC UA enable industrial connectivity and communication in industrial automation environments.
PROFIBUS - the world's most successful fieldbus. Easy, flexible, consistent.
PROFINET - the leading Industrial Ethernet Standard. Open, versatile, safe.
IO-Link - the new standard in the lower field level. Universal, smart, easy.
It is widely accepted that the most important decisions are made at the design stage of a project. This presentation examines the fundamental principles of good network design for PROFINET systems, although many of the ideas are applicable to PROFIBUS and other networking systems. The presentation will discuss the main factors that must be considered at the design stage of an automation system. Practical examples will show how facilities for health checking, fault-finding and maintenance can have a crucial impact on plant availability. The presentation will also examine how properly thought out network monitoring and redundancy can drastically affect plant up-time and thus profitability.
A look at the types of tools and their development followed by a live demonstration of PROFIBUS and PROFINET device configuration using an open platform and web browser option.
The document discusses PROFIBUS and PROFINET. It describes PROFIBUS International (PI) as the organization that oversees both technologies. PI has over 1400 member companies worldwide and provides various support functions. The document then provides information on PROFIBUS, including its applications in different industries. PROFINET is presented as the Ethernet-based successor to PROFIBUS that can be used across various industries and applications. Key features of PROFINET like its topology flexibility and integrated safety solutions are highlighted.
It is widely accepted that the most important decisions are made at design stage of a project. This presentation examines the fundamental principles of good network design for PROFINET systems, although many of the ideas are applicable to PROFIBUS and other networking systems. The presentation will discuss the main factors that must be considered at the design stage of an automation system. Practical examples will show how facilities for health checking, fault-finding and maintenance can have a crucial impact on plant availability. The presentation will also examine how properly thought out network monitoring and redundancy can drastically affect plant up-time and thus profitability.
1) PROFIBUS International (PI) is the largest automation community worldwide with over 1400 member companies. It supports PROFIBUS and PROFINET through various regional associations, test labs, competence centers and training centers.
2) PROFIBUS and PROFINET are industrial communication standards developed by PI to connect controllers with field devices. PROFIBUS is a fieldbus standard for connecting devices via a single cable, while PROFINET uses Ethernet networking.
3) PI membership provides benefits like marketing support, guidelines, trainings and certifications to help companies develop, market and sell interoperable products based on PROFIBUS and PROFINET standards.
This document summarizes a seminar on practical aspects of PROFIBUS and PROFINET in process applications. It discusses PI's global network of regional operations, competence centers, training centers and test labs for PROFIBUS and PROFINET. It also outlines the benefits of PI membership and training certification for career advancement. Finally, it discusses trends in process automation towards Ethernet-based solutions like PROFINET and the advantages it offers over traditional fieldbus technologies like PROFIBUS.
PROFINET is gradually becoming the network of choice for the automation industry in the UK. Whilst easy to set up and configure, it is essential that some form of installation and operational qualification of the network takes place to ensure a long life of trouble-free operation. This presentation will discuss the issues, the tools available and the criteria that the networks must meet.
The document discusses PROFINET, an industrial Ethernet network standard. It provides an overview of PROFINET features such as using switched Ethernet topology, separate channels for IO data and TCP/IP, and full-duplex communication. It also summarizes the different PROFINET classes (RT, IRT, NRT), how they handle synchronous vs. asynchronous data transmission. The document recommends using a network planning tool to simulate network utilization from PROFINET IO data and other traffic to identify potential overloads and optimize the network design.
IO-Link is a point-to-point communication protocol that connects field devices like sensors and actuators to controllers and other control systems. It uses a standard 3-wire cable and supports transmission speeds up to 230kbps. IO-Link devices connect to an IO-Link master, which acts as an interface between the device and higher-level networks. This allows for extensive device diagnostics and parameterization of devices from the controller without needing additional hardware or on-device interfaces. IO-Link simplifies wiring and configuration of distributed automation systems.
The Pump Centre and WIMES
The arrival of Intelligent Motor Control Centres (IMCCs) in the UK water industry
WIMES 3.02 (A) – a specification for the design, construction and
testing of Profibus networks in the UK water industry
The current and future use of IMCCs in the UK water industry
This presentation will discuss the basics of how we should approach a safety-related control project and discuss how networking supports the implementation of the safety system using PROFIsafe as an example of a black channel safety-related control solution.
Mark Freeman from Siemens presented on PROFIBUS International and basics of PROFIBUS and PROFINET. He discussed the global support structure of PROFIBUS International including 59 PI Competence Centers, 32 PI Training Centers, and 9 PI Test Laboratories worldwide. He also provided an overview of PROFIBUS and PROFINET node counts over time as well as a comparison of the two protocols.
This document outlines the agenda for a Profibus & Profinet in Factory Automation event taking place on August 21st, 2013 in Coventry. The agenda includes presentations on Profibus and Profinet updates, practical steps for Profibus projects, introductions to Profinet, safety and security on Profibus and Profinet networks, live demonstrations of Profibus health checking and Profinet features, and a Profinet frame analysis demonstration. The event runs from 9am to 3pm and includes opportunities for questions and an optional tour of the Manufacturing Technology Centre workshops.
This document provides an agenda and logistical information for a PROFIBUS, PROFINET and IO Link technology seminar being held at AFRC Inchinnan. The agenda includes presentations on the technologies, exhibitions from table top vendors, and information on training opportunities for certification. Lunch will be served from 1-2:30PM and feedback will be collected online after the event to help plan future seminars. WiFi access is provided for visitors.
An overview of the Group’s structure and global representation, taking a look at the protocol basics and their differences, plus showing the progress of the number of installed devices from the group’s supported technologies and relating these figures to their market share.
This document provides an agenda and overview for a workshop on PROFIBUS, PROFINET, and IO-Link technologies. The workshop includes keynote presentations on latest developments, design principles, configuration tools, functional bonding guidelines, and IO-Link. It is organized by PROFIBUS & PROFINET International and hosted by Siemens, with presentations from experts of various companies. The event aims to educate attendees on practical aspects of implementing these industrial communication standards.
User Friendly
Flexible Installation
Best Diagnostics
Safety Integrated
Synchronicity for Motion integrated
High Availability
Secure IT-integration
Energy Efficiency
IO-Link integration
Huge Organisation and Support Structure
1) The document discusses device configuration tools and standards including EDDL, FDT, and FDI.
2) It provides a history of device configuration and the roadmap that led to cooperation between groups to develop a single common standard.
3) The goals of the cooperation were to develop a solution that is applicable to all device communication technologies, network topologies, and is compatible with existing device descriptions while becoming an international standard.
A short journey to explain the IoT The Internet of Things, IIoT The Industrial Internet of things, IND4.0 from IND1.0 and Big Data. How PROFINET is placed as the ideal Industrial Fieldbus to fulfil the above, how its implemented and why you should consider it. Some of the myths explained.
This document summarizes Derek Lane's presentation on PROFINET for IoT, IIoT, and Industry 4.0. The presentation discusses how PROFINET supports the Industrial Internet of Things through features like data access, uptime, and open standards. It also covers trends like how big data is analyzed in the cloud and how technologies like PROFINET and OPC UA enable industrial connectivity and communication in industrial automation environments.
PROFIBUS - the world's most successful fieldbus. Easy, flexible, consistent.
PROFINET - the leading Industrial Ethernet Standard. Open, versatile, safe.
IO-Link - the new standard in the lower field level. Universal, smart, easy.
It is widely accepted that the most important decisions are made at the design stage of a project. This presentation examines the fundamental principles of good network design for PROFINET systems, although many of the ideas are applicable to PROFIBUS and other networking systems. The presentation will discuss the main factors that must be considered at the design stage of an automation system. Practical examples will show how facilities for health checking, fault-finding and maintenance can have a crucial impact on plant availability. The presentation will also examine how properly thought out network monitoring and redundancy can drastically affect plant up-time and thus profitability.
A look at the types of tools and their development followed by a live demonstration of PROFIBUS and PROFINET device configuration using an open platform and web browser option.
The document discusses PROFIBUS and PROFINET. It describes PROFIBUS International (PI) as the organization that oversees both technologies. PI has over 1400 member companies worldwide and provides various support functions. The document then provides information on PROFIBUS, including its applications in different industries. PROFINET is presented as the Ethernet-based successor to PROFIBUS that can be used across various industries and applications. Key features of PROFINET like its topology flexibility and integrated safety solutions are highlighted.
It is widely accepted that the most important decisions are made at design stage of a project. This presentation examines the fundamental principles of good network design for PROFINET systems, although many of the ideas are applicable to PROFIBUS and other networking systems. The presentation will discuss the main factors that must be considered at the design stage of an automation system. Practical examples will show how facilities for health checking, fault-finding and maintenance can have a crucial impact on plant availability. The presentation will also examine how properly thought out network monitoring and redundancy can drastically affect plant up-time and thus profitability.
1) PROFIBUS International (PI) is the largest automation community worldwide with over 1400 member companies. It supports PROFIBUS and PROFINET through various regional associations, test labs, competence centers and training centers.
2) PROFIBUS and PROFINET are industrial communication standards developed by PI to connect controllers with field devices. PROFIBUS is a fieldbus standard for connecting devices via a single cable, while PROFINET uses Ethernet networking.
3) PI membership provides benefits like marketing support, guidelines, trainings and certifications to help companies develop, market and sell interoperable products based on PROFIBUS and PROFINET standards.
This document summarizes a seminar on practical aspects of PROFIBUS and PROFINET in process applications. It discusses PI's global network of regional operations, competence centers, training centers and test labs for PROFIBUS and PROFINET. It also outlines the benefits of PI membership and training certification for career advancement. Finally, it discusses trends in process automation towards Ethernet-based solutions like PROFINET and the advantages it offers over traditional fieldbus technologies like PROFIBUS.
PROFINET is gradually becoming the network of choice for the automation industry in the UK. Whilst easy to set up and configure, it is essential that some form of installation and operational qualification of the network takes place to ensure a long life of trouble-free operation. This presentation will discuss the issues, the tools available and the criteria that the networks must meet.
The document discusses PROFINET, an industrial Ethernet network standard. It provides an overview of PROFINET features such as using switched Ethernet topology, separate channels for IO data and TCP/IP, and full-duplex communication. It also summarizes the different PROFINET classes (RT, IRT, NRT), how they handle synchronous vs. asynchronous data transmission. The document recommends using a network planning tool to simulate network utilization from PROFINET IO data and other traffic to identify potential overloads and optimize the network design.
IO-Link is a point-to-point communication protocol that connects field devices like sensors and actuators to controllers and other control systems. It uses a standard 3-wire cable and supports transmission speeds up to 230kbps. IO-Link devices connect to an IO-Link master, which acts as an interface between the device and higher-level networks. This allows for extensive device diagnostics and parameterization of devices from the controller without needing additional hardware or on-device interfaces. IO-Link simplifies wiring and configuration of distributed automation systems.
The Pump Centre and WIMES
The arrival of Intelligent Motor Control Centres (IMCCs) in the UK water industry
WIMES 3.02 (A) – a specification for the design, construction and
testing of Profibus networks in the UK water industry
The current and future use of IMCCs in the UK water industry
This presentation will discuss the basics of how we should approach a safety-related control project and discuss how networking supports the implementation of the safety system using PROFIsafe as an example of a black channel safety-related control solution.
Mark Freeman from Siemens presented on PROFIBUS International and basics of PROFIBUS and PROFINET. He discussed the global support structure of PROFIBUS International including 59 PI Competence Centers, 32 PI Training Centers, and 9 PI Test Laboratories worldwide. He also provided an overview of PROFIBUS and PROFINET node counts over time as well as a comparison of the two protocols.
This document outlines the agenda for a Profibus & Profinet in Factory Automation event taking place on August 21st, 2013 in Coventry. The agenda includes presentations on Profibus and Profinet updates, practical steps for Profibus projects, introductions to Profinet, safety and security on Profibus and Profinet networks, live demonstrations of Profibus health checking and Profinet features, and a Profinet frame analysis demonstration. The event runs from 9am to 3pm and includes opportunities for questions and an optional tour of the Manufacturing Technology Centre workshops.
This document provides an agenda and logistical information for a PROFIBUS, PROFINET and IO Link technology seminar being held at AFRC Inchinnan. The agenda includes presentations on the technologies, exhibitions from table top vendors, and information on training opportunities for certification. Lunch will be served from 1-2:30PM and feedback will be collected online after the event to help plan future seminars. WiFi access is provided for visitors.
The document is an agenda for a Profibus & Profinet in Factory Automation event taking place in Manchester on February 27th, 2014. The agenda includes presentations on Profibus & Profinet updates, practical steps for successful Profibus projects, benefits of Profinet, current trends involving Profisafe, PROFIBUS health checking and monitoring with live demonstrations, features and benefits of Profinet networks with live demonstrations, and PROFINET frame analysis demonstrations. There will also be time for questions and answers.
This document discusses PROFIBUS DP and PROFIBUS PA network design. It notes that PROFINET will replace PROFIBUS DP for new projects, while PROFIBUS PA will continue to grow in process industries due to its strengths like bus powering of devices and use in hazardous areas. The document provides guidelines for engineering PROFIBUS networks, including segmentation, components, redundancy solutions, and using design tools and documents for segment calculations and drawings. It also stresses the importance of considering asset management early in network design.
Introduction to very successful technical seminar held at Advanced Manufacturing Technology Centre, Coventry, UK 25 Feb 2016
Includes the agenda which acts as a useful index to the presentations given at the seminar and available for download here on Slideshare. Also includes statistics on the worldwide use of PROFIBUS, PROFINET and PROFIsafe. Plus details of membership benefits of The PROFIBUS Group - PI UK.
The document announces a two-day workshop on national rail turnouts to be held on May 27-28, 2015 in Sydney. The workshop will focus on sharing leading ideas and transferring knowledge across the turnouts industry. Topics to be covered include turnout design, signaling, manufacturing, maintenance, operations and types of turnout failures. Experts from across the industry will present on innovative solutions and debate challenges. The workshop aims to provide networking opportunities and a platform to meet new contacts.
The document provides information about upcoming lectures from the Royal Aeronautical Society Manchester Branch, including:
1) A lecture on November 3rd about water management and ice formation in aircraft fuel systems, given by Dave Bradshaw and Duncan Woods from Woodford Engineering Consultancy.
2) A joint lecture with the Institution of Mechanical Engineers on November 17th about converting Airbus A330 aircraft into the new Voyager air-to-air tanker for the RAF, given by Geoff Winterbottom from Aircraft Capability Manager-Air Tanker Services Ltd.
3) Details of the full 2015-2016 lecture program, which includes topics like RAF Reaper operations, historic aircraft flight, aircraft landing gear development, and celebrating
NHSS is an installation, consulting, design and inspection company specializing in height safety and rope access services. They have over 15 years of experience working with major national and international clients. NHSS employs over 35 staff across offices in NSW, QLD and VIC. They are accredited to various quality, health and safety standards and have a 100% safety record over the past 10 years on over 15,000 projects.
This document discusses testing industrial ethernet networks like PROFINET. It defines different types of network tests: verification tests check cabling, qualification tests check signal quality, and certification tests check the entire network. The challenges of testing these networks are also examined, such as complex device configurations, bandwidth competition causing packet loss, and time pressures of on-site commissioning. Solutions discussed include portable network testers that can simplify testing and identify issues through features like one-touch health checks, cable verification, and performance monitoring.
Kapsch Group is a global technology group with Austrian roots operating in the fields of intelligent transportation systems and information and communication technology. It has over 40 subsidiaries on five continents and is organized into three independently operating entities: Kapsch TrafficCom, Kapsch BusinessCom, and Kapsch CarrierCom. Kapsch CarrierCom delivers end-to-end telecommunications solutions for carriers, railways, public transport, and machine networks, with a focus on strategic business areas like GSM-R solutions for railways and network solutions for carriers.
Take a walk through the process of certifying a new PROFINET (or any other industrial Ethernet) against the standards and see how easy it can be, then look at a few gotchas that can easily be avoided by careful planning.
The document provides information on the events programme for the Swindon Network from 2013-2014, including:
- A list of 13 technical talks and site visits on various engineering topics from October 2013 through July 2014.
- Details for each event such as date, location, start time, description of topic, and contact information.
- Information on registering for events in advance through the Swindon Network website.
- Contact information for the Event Programme Manager and Swindon Network committee.
Ian Rogerson is a highly qualified safety professional with over 20 years of experience in the rail industry. He has extensive experience in safety management, training, auditing, and advising on safety matters. He is currently working as an interim SHE advisor for ABC Electrification on a project upgrading the power on the West Coast Mainline. In this role, he reviews safety documents, attends meetings, delivers inductions and safety briefings, investigates incidents, and ensures safety standards are met. He has held various interim safety advisor roles over the past few years, advising contractors on projects involving track work, electrification, and station upgrades.
Introduction to PROFIBUS and associated benefits
Connection options and rules
Other cabling issues : grounding and interference
Design Considerations
Implementation issues
Essential training
The Furse total solution catalogue provides a comprehensive overview of our structural lightning protection, power earthing and electronic systems protection.
Whether you are designing, installing, operating, maintaining or owning an office building, offshore
platform, hospital, high speed train, power generating plant, machine equipment or a manufacturing facility,we have specially engineered products fit and function in your application while providing superior performance,sustainability and value throughout the project life cycle.
Derek Lane presented on PROFINET for IoT, IIoT, and Industry 4.0. He discussed how PROFINET supports the Industrial Internet of Things through open standards that provide data access, uptime, and analysis of big data in the cloud. PROFINET provides a stable basis and future-proof architecture to enable Industry 4.0 through seamless use of TCP/IP, standard Ethernet, and deterministic real-time communication.
Practical steps for a successful project, Xiu Ji. PROFIBUS Seminar at MTC, Coventry, 2013.
Basics of PROFIBUS
Considerations at the design stage
Installation
Visual Checks
Similar to 1. PROFIBUS, PROFINET & IO-Link Seminar 2017 - Welcome and introduction - Andy Smith (20)
IO-Link Safety is a new standard that allows for functionally safe components and communication over IO-Link. It will meet the requirements of IEC 61784-3 and can be used in safety applications up to SIL3/PLe. IO-Link Safety uses FS-Masters and FS-Devices to enable safety functions over standard IO-Link infrastructure. It will be standardized internationally as IEC 61139-2. The presentation provided an overview of IO-Link Safety and its standards, as well as its integration with fieldbus systems using functional safety communication profiles.
The document discusses integrating PROFINET with Time Sensitive Networking (TSN). It covers TSN features like time synchronization, scheduled traffic, and frame preemption that enable standard Ethernet to be real-time capable. The integration defines device models for PROFINET end stations and bridges based on TSN standards. This allows PROFINET to utilize TSN's quality of service mechanisms for converged industrial networks.
The document discusses the challenges that manufacturers face with increasing use of industrial robots from different suppliers in their production lines. This includes needing specific expertise for each robot manufacturer, high engineering costs, and lack of data transparency. It introduces the Standard Robot Command Interface (SRCI) as an innovative solution to program robots through the PLC using a common language. This would allow uniform operation of robots from multiple vendors and reduce costs and errors compared to needing separate programming for each type of robot.
Richard Wilson is the Head of Operational Security at GCC. His resume outlines his experience in operational security, mitigation against physical attack vectors, emerging cyber threats to vehicles, and the UK's public sector cyber security community. Key challenges include the increasing lines of code in vehicles, lack of standards to assess cybersecurity products, and implementing recent standards like ISO/SAE 21434 for automotive cybersecurity engineering.
This document discusses OPC UA (Open Platform Communications Unified Architecture) and how it can be used with Profinet in industrial automation networks. OPC UA is an interoperability standard that allows for the secure exchange of data between devices from different vendors. It defines interfaces for browsing device data, reading and writing data values, subscribing to data changes, and calling methods on devices. When used with Profinet, OPC UA can enable vertical communication throughout the industrial automation hierarchy from sensors and controllers to cloud applications.
The document discusses Advanced Physical Layer (APL), a new Ethernet technology that enables Ethernet communication over a two-wire cable for use in hazardous industrial environments. APL will allow Profinet to extend to field devices by overcoming Ethernet's limitations of only operating up to 100 meters and not being intrinsically safe. APL uses a two-wire cable to transmit power and data that can operate over distances up to 1000 meters, meeting functional safety requirements to operate in hazardous areas where Ethernet currently cannot. This will allow Ethernet networking throughout industrial plants, including hazardous zones, enabling greater connectivity for field devices and digital transformation of process automation.
This document discusses operational technology (OT) cyber security. It begins by explaining why OT networks need security due to the merging of IT and OT networks, which has exposed OT assets to compromise. It then describes the differences between IT and OT approaches, with OT prioritizing control, availability, integrity and confidentiality over just data. Several common attack paths for OT networks are outlined, including social engineering, malware from removable devices, and internet-connected components. The document advocates for a multi-layered protection concept including security awareness training, firewalls, physical protection and network monitoring. It stresses that security should be considered from the initial design phase.
This document discusses the PA DIM (Process Automation Device Information Model) presentation. It introduces PA DIM as a standardized information model for accessing device data via OPC-UA. PA DIM is based on NAMUR requirements and reuses interfaces from the OPC UA Device Integration model. It allows mapping device information contained in packages like FDI to OPC-UA clients, providing access to signals, functions and health of devices nearly independently of the physical communication protocol. The presentation also provides an overview of common device driver types like EDD, FDT/DTM and FDI and how OPC-UA supports information modeling and both client-server and publish-subscribe communication mechanisms.
The document discusses PROFIBUS & PROFINET International (PI), an organization that supports the use of PROFIBUS and PROFINET automation technologies worldwide. PI has over 50 competence centers and training centers located across Europe, North America, Asia, and other regions. The document outlines PI's membership categories and training opportunities. It also describes PI's role in driving enabling technologies for digital transformation, including information modeling, security, and communication standards like TSN and 5G. In closing, it thanks the reader for their time.
The document outlines the agenda for a PI UK event on PROFIBUS and PROFINET. It includes presentations on topics such as the current lifecycle of PROFIBUS, the Advanced Physical Layer for PROFIBUS, the Standard Robot Command Interface, PROFINET Time Sensitive Networking, the Process Automation Device Information Model, PROFINET Cyber Security, IO-Link safety, and OPC UA. There will also be opportunities for questions and answers as well as interactions with exhibitors at table tops from companies like Siemens, Turck Banner, Phoenix Contact, HMS, and Parmley Graham. Safety information about fire alarms and toilets is also provided.
The document discusses the process of certifying a PROFINET network and diagnostics. It describes various test types including verification, qualification, and certification tests to assess the network according to standards. Cable verification ensures accurate wiring while qualification testing identifies data transmission performance. Network acceptance tests check the inventory, topology, packet loss rate, and load. Designers are responsible for port numbers, cable labels, device names, and locations. Troubleshooting examines common issues like wiring faults, interference, configuration errors, and device failures.
1) PROFINET uses switched Ethernet topology that follows the production process layout. It uses separate channels for IO data and TCP/IP to avoid needing an extra network.
2) PROFINET supports star, tree, line and ring topologies using various cable types. Topology is based on the system design.
3) Network planning tools are used to simulate network utilization for PROFINET IO data and other traffic like TCP/IP. They validate designs and identify potential overloads.
This document discusses PROFINET gateways and how they facilitate communication between PROFINET networks and other industrial networks like PROFIBUS, AS-I, IO-Link, and IIoT. It explains that gateways appear as an IO device on the PROFINET side and act as a master on the sub-network side. The document provides examples of configuration steps needed for different gateway types, such as adding their GSD/GSDML files to hardware configurations and mapping input/output channels. It also demonstrates a new PROFINET to PROFIBUS DP gateway product that allows a PROFINET controller to control PROFIBUS slaves.
This document discusses device configuration tools and the history of EDDL and FDT standards. It provides an overview of the Field Device Integration (FDI) cooperation, which aims to create a single, unified solution for device configuration that combines the advantages of EDDL and FDT. The document also includes examples of how different device types can be configured using FDI and FDT/DTM technologies.
Derek Lane presented on PROFINET for IoT, IIoT, and Industry 4.0. He discussed how PROFINET and the PROFINET of Things supports the IIoT through data access, uptime, and open standards. PROFINET provides connectivity from the enterprise level to the field level and supports data transfer through various application profiles and proxies. Security is also important for IIoT and PROFINET complies with necessary security measures. PROFINET is moving towards Industry 4.0 through technologies like TSN that enable high determinism and real-time communication over converged networks.
The document discusses Ethernet-APL, a new physical layer specification that enables Ethernet connectivity in process plants. Ethernet-APL uses a two-wire cable setup to allow Ethernet networks to extend into hazardous areas and overcome limitations of traditional Ethernet like speed and distance. It standardizes technologies like 10BASE-T1L and 2-WISE to ensure interoperability. Ethernet-APL helps digital transformation by providing a single high-speed network for all plant components and seamless data access.
For people responsible for the design, commissioning and support of PROFINET networks, explaining how to integrate existing PROFIBUS DP and PROFIBUS PA devices into that network. The webinar took the form of a presentation with demonstrations to aid understanding.
For people responsible for the commissioning and support of PROFIBUS networks. The webinar took the form of a presentation with demonstrations to aid understanding.
This webinar presentation provides information on diagnosing PROFINET networks. It discusses various diagnostic tools that can be used, including those within IO controllers, switches, and third-party hardware and software. Specific tools covered are active and passive diagnostic devices, Ethernet frame analyzers, port mirroring, and Ethernet taps. The presentation emphasizes the importance of proper network design and qualification to ensure issues can be identified and supported. Control Specialists offers various PROFINET training courses.
More from PROFIBUS and PROFINET InternationaI - PI UK (20)
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
Low power architecture of logic gates using adiabatic techniquesnooriasukmaningtyas
The growing significance of portable systems to limit power consumption in ultra-large-scale-integration chips of very high density, has recently led to rapid and inventive progresses in low-power design. The most effective technique is adiabatic logic circuit design in energy-efficient hardware. This paper presents two adiabatic approaches for the design of low power circuits, modified positive feedback adiabatic logic (modified PFAL) and the other is direct current diode based positive feedback adiabatic logic (DC-DB PFAL). Logic gates are the preliminary components in any digital circuit design. By improving the performance of basic gates, one can improvise the whole system performance. In this paper proposed circuit design of the low power architecture of OR/NOR, AND/NAND, and XOR/XNOR gates are presented using the said approaches and their results are analyzed for powerdissipation, delay, power-delay-product and rise time and compared with the other adiabatic techniques along with the conventional complementary metal oxide semiconductor (CMOS) designs reported in the literature. It has been found that the designs with DC-DB PFAL technique outperform with the percentage improvement of 65% for NOR gate and 7% for NAND gate and 34% for XNOR gate over the modified PFAL techniques at 10 MHz respectively.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.