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Industrial Ethernet I

Requirements, Design and Implementation in OT

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A radical change is currently taking place in the field of control technology and the Internet of Things (IoT). Industrial Ethernet and WLAN are increasingly being used as cost-effective alternatives to traditional fieldbus systems for networking control systems, IO systems and other components. The OT world (Operational Technology) makes use of the protocols of the IT world and has to deal with the IT world in terms of security and availability. There are also new opportunities to optimize industrial processes, with different products and standards currently competing with each other and heterogeneous environments being virtually unavoidable.

Course Contents

  • Requirements in control engineering
  • From classic fieldbus communication to IP
  • Advantages and disadvantages of Industrial Ethernet
  • Quality of service and real-time communication
  • Network design (Star, Ring, etc.)
  • Safety in automation technology
  • Highly available network structures
  • Standards and their implementation
  • Connecting to the IT world
  • Special requirements for the network components
  • Network management and monitoring

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 150,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

Network planners and operators who want to implement and operate Industrial Ethernet in their networks are the target group for this course. As part of a test network, some protocols are presented and deepened in a practical way.

Knowledge Prerequisites

Knowledge of LAN concepts and internetworking is a prerequisite for successful participation.

Complementary and Continuative Courses

Industrial Ethernet II – Industrie-Protokolle und erweiterte Funktionen
1 Anforderungen an das industrielle Ethernet
1.1 Marktgetriebener Paradigmenwechsel
1.1.1 Industrie im Wandel...
1.1.2 CPS als Basis der smarten Fabrik
1.1.3 IoT als Plattform für Industrie 4.0
1.1.4 Welche Industrien könnten profitieren?
1.1.5 Beispiel: Advanced Machine Learning
1.2 Besonderheiten im industriellen Umfeld
1.2.1 Feldbussysteme und Eigenschaften
1.2.2 Heterogene Systeme und proprietäre Lösungen
1.2.3 Zeitkritische Steuerungen
1.2.4 Schutzbestimmungen
1.3 Modelle und Standards
1.3.1 Kommunikationsmodelle der IT- und OT-Welt
1.3.2 Kommunikationsmodelle im Produktionsbetrieb
1.3.3 Design und Architektur von industriellen Sicherheitslösungen
1.3.4 SCADA
1.3.5 Cisco IoT Reference Model
1.4 Typische Netz-Topologien in der Fabrikation
1.5 Wandel im Industrienetz
1.5.1 Wandel zum Ethernet der Dinge
   
2 Ethernet-Protokoll und industrielle Varianten
2.1 Die Entwicklung des Ethernet-Protokolls
2.1.1 Vorteile von Ethernet gegenüber klassischen Bussystemen
2.1.2 Die Altlasten: CSMA/CD
2.2 Ethernet Standards durch IEEE 802.3
2.2.1 Beispiel: Ethernet im Auto
2.2.2 Ethernet Frame-Formate
2.2.3 Adressierung im LAN
2.2.4 Repeater oder Hubs
2.2.5 Grundfunktion des Bridging und Switching
2.3 Deterministischer Zugriff im industriellen Ethernet
2.3.1 Ethernet-Varianten im industriellen Umfeld
2.3.2 Besonderheiten im industriellen Umfeld
2.3.3 Ethernet-Stecker
2.3.4 Quality of Service
2.3.5 Bandbreitenberechnung für Ethernet
2.3.6 Power over Ethernet (PoE) in der Industrie
2.3.7 Sicherheit des Ethernet-Protokolls
   
3 Ethernet Switching
3.1 Moderne Industrie-Switches
3.1.1 Die Arbeitsweise eines Switches
3.1.2 Die Frame-Übertragung
3.1.3 Das Auto-Negotiation-Verfahren (klassisch)
3.2 Virtuelle LANs
3.2.1 Switch-übergreifende VLANs
3.2.2 VLANs nach IEEE 802.1Q
3.3 Spanning Tree Protocol (STP)
3.3.1 Funktionsweise des STP
3.3.2 Der Rapid-Spanning-Tree (RSTP)
3.3.3 Multiple Spanning Tree (MSTP)
3.4 Link Aggregation (LAG)
3.4.1 Proprietäre Redundanz-Konzepte: Cisco VSS 1440
3.5 Stackable Switches
3.5.1 Konfiguration eines Stacks
3.6 Media Redundancy Protocol (MRP)
3.6.1 Das MRP Protocol
3.6.2 Parallel Redundancy Protocol (PRP)
3.6.3 High-availability Seamless Redundancy (HSR)
3.7 Auswahlkriterien für Ring-Konzepte, Spanning Tree oder LAG
   
4 TCP/IP und IP-basierende Anwendungen
4.1 IP und IP-Anwendungen
4.1.1 Der IP Header – Format und Funktionen
4.1.2 Darstellung einer IP-Adresse
4.1.3 Historisch: Die Klassennetze
4.1.4 Private Adressen mit NAT und PAT
4.1.5 ARP
4.1.6 Die Arbeitsweise des Routers
4.1.7 MTU und Jumbo Frames
4.2 Routing, Switching und NAT
4.2.1 L3NAT – Layer 3 Network Address Translation
4.2.2 Layer 2 NAT
4.2.3 L2NAT-Konfiguration
4.3 Die Transportprotokolle
4.3.1 UDP – verbindungslos und ungesichert
4.3.2 TCP – anwendungsorientiert und gesichert
4.4 Standardapplikationen der TCP/IP-Welt
4.4.1 DHCP zur automatischen IP-Konfiguration
4.4.2 DNS – Arbeiten mit Namen
4.4.3 Telnet
4.4.4 Secure Shell und Secure Copy
4.4.5 NTP
4.4.6 NTP Monitoring
4.4.7 Syslog-Meldungen
4.4.8 Logging-Ziele
4.4.9 Management via SNMP
4.4.10 ICMP – Oft nur als Ping bekannt
4.5 IP Multicasting - Das Prinzip
   
5 Safety und Security
5.1 Sicherheitsmaßnahmen im IoT
5.1.1 Status in vielen Industrieumgebungen
5.1.2 Firewalls im ICS
5.2 Zugriffsschutz auf Systeme und Netze
5.2.1 Komponenten
5.2.2 Authentisierungsmethoden
5.3 Port Security
5.3.1 Error-Disable
5.4 Access-Control-Listen
   
6 Netzwerkmanagement und Monitoring
6.1 Netzwerkmanagement klassisch
6.1.1 Netzwerkmanagement in industriellen Umgebungen
6.2 Systematische Fehlersuche
6.2.1 Baselining
6.2.2 Switched Port Analyzer
   
A Befehle

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now
PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.

A radical change is currently taking place in the field of control technology and the Internet of Things (IoT). Industrial Ethernet and WLAN are increasingly being used as cost-effective alternatives to traditional fieldbus systems for networking control systems, IO systems and other components. The OT world (Operational Technology) makes use of the protocols of the IT world and has to deal with the IT world in terms of security and availability. There are also new opportunities to optimize industrial processes, with different products and standards currently competing with each other and heterogeneous environments being virtually unavoidable.

Course Contents

  • Requirements in control engineering
  • From classic fieldbus communication to IP
  • Advantages and disadvantages of Industrial Ethernet
  • Quality of service and real-time communication
  • Network design (Star, Ring, etc.)
  • Safety in automation technology
  • Highly available network structures
  • Standards and their implementation
  • Connecting to the IT world
  • Special requirements for the network components
  • Network management and monitoring

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 150,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

Network planners and operators who want to implement and operate Industrial Ethernet in their networks are the target group for this course. As part of a test network, some protocols are presented and deepened in a practical way.

Knowledge Prerequisites

Knowledge of LAN concepts and internetworking is a prerequisite for successful participation.

Complementary and Continuative Courses

Industrial Ethernet II – Industrie-Protokolle und erweiterte Funktionen

1 Anforderungen an das industrielle Ethernet
1.1 Marktgetriebener Paradigmenwechsel
1.1.1 Industrie im Wandel...
1.1.2 CPS als Basis der smarten Fabrik
1.1.3 IoT als Plattform für Industrie 4.0
1.1.4 Welche Industrien könnten profitieren?
1.1.5 Beispiel: Advanced Machine Learning
1.2 Besonderheiten im industriellen Umfeld
1.2.1 Feldbussysteme und Eigenschaften
1.2.2 Heterogene Systeme und proprietäre Lösungen
1.2.3 Zeitkritische Steuerungen
1.2.4 Schutzbestimmungen
1.3 Modelle und Standards
1.3.1 Kommunikationsmodelle der IT- und OT-Welt
1.3.2 Kommunikationsmodelle im Produktionsbetrieb
1.3.3 Design und Architektur von industriellen Sicherheitslösungen
1.3.4 SCADA
1.3.5 Cisco IoT Reference Model
1.4 Typische Netz-Topologien in der Fabrikation
1.5 Wandel im Industrienetz
1.5.1 Wandel zum Ethernet der Dinge
   
2 Ethernet-Protokoll und industrielle Varianten
2.1 Die Entwicklung des Ethernet-Protokolls
2.1.1 Vorteile von Ethernet gegenüber klassischen Bussystemen
2.1.2 Die Altlasten: CSMA/CD
2.2 Ethernet Standards durch IEEE 802.3
2.2.1 Beispiel: Ethernet im Auto
2.2.2 Ethernet Frame-Formate
2.2.3 Adressierung im LAN
2.2.4 Repeater oder Hubs
2.2.5 Grundfunktion des Bridging und Switching
2.3 Deterministischer Zugriff im industriellen Ethernet
2.3.1 Ethernet-Varianten im industriellen Umfeld
2.3.2 Besonderheiten im industriellen Umfeld
2.3.3 Ethernet-Stecker
2.3.4 Quality of Service
2.3.5 Bandbreitenberechnung für Ethernet
2.3.6 Power over Ethernet (PoE) in der Industrie
2.3.7 Sicherheit des Ethernet-Protokolls
   
3 Ethernet Switching
3.1 Moderne Industrie-Switches
3.1.1 Die Arbeitsweise eines Switches
3.1.2 Die Frame-Übertragung
3.1.3 Das Auto-Negotiation-Verfahren (klassisch)
3.2 Virtuelle LANs
3.2.1 Switch-übergreifende VLANs
3.2.2 VLANs nach IEEE 802.1Q
3.3 Spanning Tree Protocol (STP)
3.3.1 Funktionsweise des STP
3.3.2 Der Rapid-Spanning-Tree (RSTP)
3.3.3 Multiple Spanning Tree (MSTP)
3.4 Link Aggregation (LAG)
3.4.1 Proprietäre Redundanz-Konzepte: Cisco VSS 1440
3.5 Stackable Switches
3.5.1 Konfiguration eines Stacks
3.6 Media Redundancy Protocol (MRP)
3.6.1 Das MRP Protocol
3.6.2 Parallel Redundancy Protocol (PRP)
3.6.3 High-availability Seamless Redundancy (HSR)
3.7 Auswahlkriterien für Ring-Konzepte, Spanning Tree oder LAG
   
4 TCP/IP und IP-basierende Anwendungen
4.1 IP und IP-Anwendungen
4.1.1 Der IP Header – Format und Funktionen
4.1.2 Darstellung einer IP-Adresse
4.1.3 Historisch: Die Klassennetze
4.1.4 Private Adressen mit NAT und PAT
4.1.5 ARP
4.1.6 Die Arbeitsweise des Routers
4.1.7 MTU und Jumbo Frames
4.2 Routing, Switching und NAT
4.2.1 L3NAT – Layer 3 Network Address Translation
4.2.2 Layer 2 NAT
4.2.3 L2NAT-Konfiguration
4.3 Die Transportprotokolle
4.3.1 UDP – verbindungslos und ungesichert
4.3.2 TCP – anwendungsorientiert und gesichert
4.4 Standardapplikationen der TCP/IP-Welt
4.4.1 DHCP zur automatischen IP-Konfiguration
4.4.2 DNS – Arbeiten mit Namen
4.4.3 Telnet
4.4.4 Secure Shell und Secure Copy
4.4.5 NTP
4.4.6 NTP Monitoring
4.4.7 Syslog-Meldungen
4.4.8 Logging-Ziele
4.4.9 Management via SNMP
4.4.10 ICMP – Oft nur als Ping bekannt
4.5 IP Multicasting - Das Prinzip
   
5 Safety und Security
5.1 Sicherheitsmaßnahmen im IoT
5.1.1 Status in vielen Industrieumgebungen
5.1.2 Firewalls im ICS
5.2 Zugriffsschutz auf Systeme und Netze
5.2.1 Komponenten
5.2.2 Authentisierungsmethoden
5.3 Port Security
5.3.1 Error-Disable
5.4 Access-Control-Listen
   
6 Netzwerkmanagement und Monitoring
6.1 Netzwerkmanagement klassisch
6.1.1 Netzwerkmanagement in industriellen Umgebungen
6.2 Systematische Fehlersuche
6.2.1 Baselining
6.2.2 Switched Port Analyzer
   
A Befehle

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now

PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.